CELEX: 32021D2326
Language: en
Date: 2021-11-30 00:00:00
Title: Commission Implementing Decision (EU) 2021/2326 of 30 November 2021 establishing best available techniques (BAT) conclusions, under Directive 2010/75/EU of the European Parliament and of the Council, for large combustion plants (notified under document C (2021) 8580) (Text with EEA relevance)

30.12.2021   
               
               
                  EN
               
               
                  Official Journal of the European Union
               
               
                  L 469/1
               
            
         COMMISSION IMPLEMENTING DECISION (EU) 2021/2326
         of 30 November 2021
         establishing best available techniques (BAT) conclusions, under Directive 2010/75/EU of the European Parliament and of the Council, for large combustion plants
         
            
               (notified under document C (2021) 8580)
            
         
         (Text with EEA relevance)
         THE EUROPEAN COMMISSION,
         Having regard to the Treaty on the Functioning of the European Union,
         Having regard to Directive 2010/75/EU of the European Parliament and of the Council of 24 November 2010 on industrial emissions (integrated pollution prevention and control) (1), and in particular Article 13(5) thereof,
         Whereas:
         
                     (1)
                  
                  
                     Best available techniques (BAT) conclusions are the reference for setting permit conditions for installations covered by Chapter II of Directive 2010/75/EU and competent authorities are to set emission limit values that ensure that, under normal operating conditions, emissions do not exceed the emission levels associated with the best available techniques as laid down in the decisions on BAT conclusions.
                  
               
                     (2)
                  
                  
                     The forum composed of representatives of Member States, the industries concerned and non-governmental organisations promoting environmental protection, established by Commission Decision of 16 May 2011 establishing a forum for the exchange of information pursuant to Article 13 of the Directive 2010/75/EU on industrial emissions (2), provided the Commission with its opinion on the proposed content of the BAT reference document for large combustion plants on 20 October 2016. That opinion is publicly available.
                  
               
                     (3)
                  
                  
                     The key elements of the BAT reference document were endorsed as BAT conclusions by Commission Implementing Decision (EU) 2017/1442 (3).
                  
               
                     (4)
                  
                  
                     By judgment of 27 January 2021 in Case T-699/17 (4) (‘the judgment in Case T-699/17’), the General Court annulled Implementing Decision (EU) 2017/1442.
                  
               
                     (5)
                  
                  
                     By the judgment in Case T-699/17, the General Court also ruled that the annulment of Implementing Decision (EU) 2017/1442 with immediate effect would run counter to the objectives of ensuring a high level of environmental protection and the improvement of environmental quality, as provided for in Article 191(2) of the Treaty on the Functioning of the European Union, in Article 37 of the Charter of Fundamental Rights of the European Union, and in recitals 2 and 44 as well as in Article 1 of Directive 2010/75/EU, to which that Implementing Decision contributes.
                  
               
                     (6)
                  
                  
                     Consequently, the General Court ordered that the effects of Implementing Decision (EU) 2017/1442 be maintained until the entry into force, within a reasonable period which cannot exceed 12 months from the date of delivery of the judgment in Case T-699/17, of a new act intended to replace it and adopted in accordance with the qualified-majority rules laid down in Article 3(3) of Protocol No 36 to the Treaties.
                  
               
                     (7)
                  
                  
                     On 2 April 2021 the Commission appealed the judgment in Case T-699/17 (Case C-207/21 P). As the appeal does not have suspensive effect, in order to comply with the judgment in Case T-699/17 and to ensure the effective and full implementation of Directive 2010/75/EU before the judgment of the Court of Justice is delivered in Case C-207/21 P, it is necessary to adopt a new implementing decision. The new decision is to be adopted following the opinion of the Committee established by Article 75(1) of Directive 2010/75/EU delivered in accordance with the qualified-majority rules laid down in Article 3(3) of Protocol No 36 to the Treaties.
                  
               
                     (8)
                  
                  
                     As a consequence of the judgment in Case T-699/17 maintaining the effects of Implementing Decision (EU) 2017/1442, it is necessary to ensure legal continuity between Implementing Decision (EU) 2017/1442 and this Decision. In particular, the BAT conclusions set out in the Annex to Implementing Decision (EU) 2017/1442, that are the key element of the BAT reference document, should be readopted unchanged. Maintaining the effects of Implementing Decision (EU) 2017/1442 also means that in the definition of a ‘new plant’ set out in the BAT conclusions, the reference to ‘the publication of these BAT conclusions’ is to be understood as the date of publication of Implementing Decision (EU) 2017/1442 on 17 August 2017.
                  
               
                     (9)
                  
                  
                     For the purposes of legal certainty, it is necessary to lay down rules on the applicability of this Decision if the Court of Justice decides to reverse the judgement in Case T-699/17.
                  
               
                     (10)
                  
                  
                     The measures provided for in this Decision are in accordance with the opinion of the Committee established by Article 75(1) of Directive 2010/75/EU,
                  
               HAS ADOPTED THIS DECISION:
         
            Article 1
            The best available techniques (BAT) conclusions for large combustion plants, as set out in the Annex, are adopted.
         
         
            Article 2
            In the event that the Court of Justice reverses the judgment in Case T-699/17 so that Implementing Decision (EU) 2017/1442 remains valid, this Decision shall cease to apply on the date of the delivery of the judgment in Case C-207/21 P.
         
         
            Article 3
            This Decision is addressed to the Member States.
         
         
            Done at Brussels, 30 November 2021.
            
               
                  For the Commission
               
               Virginijus SINKEVIČIUS
               
                  Member of the Commission
               
            
         
         
            (1)  OJ L 334, 17.12.2010, p. 17.
         
            (2)  OJ C 146, 17.5.2011, p. 3.
         
            (3)  Commission Implementing Decision (EU) 2017/1442 of 31 July 2017 establishing best available techniques (BAT) conclusions, under Directive 2010/75/EU of the European Parliament and of the Council, for large combustion plants (OJ L 212, 17.8.2017, p. 1).
         
            (4)  Judgment of the General Court of 27 January 2021, Poland v Commission, T-699/17, ECLI:EU:T:2021:44.
      
      
         
            ANNEX
            
               BEST AVAILABLE TECHNIQUES (BAT) CONCLUSIONS
            
            SCOPE
            These BAT conclusions concern the following activities specified in Annex I to Directive 2010/75/EU:
            
                        —
                     
                     
                        1.1: Combustion of fuels in installations with a total rated thermal input of 50 MW or more, only when this activity takes place in combustion plants with a total rated thermal input of 50 MW or more.
                     
                  
                        —
                     
                     
                        1.4: Gasification of coal or other fuels in installations with a total rated thermal input of 20 MW or more, only when this activity is directly associated to a combustion plant.
                     
                  
                        —
                     
                     
                        5.2: Disposal or recovery of waste in waste co-incineration plants for non-hazardous waste with a capacity exceeding 3 tonnes per hour or for hazardous waste with a capacity exceeding 10 tonnes per day, only when this activity takes place in combustion plants covered under 1.1 above.
                     
                  In particular, these BAT conclusions cover upstream and downstream activities directly associated with the aforementioned activities including the emission prevention and control techniques applied.
            The fuels considered in these BAT conclusions are any solid, liquid and/or gaseous combustible material including:
            
                        —
                     
                     
                        solid fuels (e.g. coal, lignite, peat);
                     
                  
                        —
                     
                     
                        biomass (as defined in Article 3(31) of Directive 2010/75/EU);
                     
                  
                        —
                     
                     
                        liquid fuels (e.g. heavy fuel oil and gas oil);
                     
                  
                        —
                     
                     
                        gaseous fuels (e.g. natural gas, hydrogen-containing gas and syngas);
                     
                  
                        —
                     
                     
                        industry-specific fuels (e.g. by-products from the chemical and iron and steel industries);
                     
                  
                        —
                     
                     
                        waste except mixed municipal waste as defined in Article 3(39) and except other waste listed in Article 42(2)(a)(ii) and (iii) of Directive 2010/75/EU.
                     
                  These BAT conclusions do not address the following:
            
                        —
                     
                     
                        combustion of fuels in units with a rated thermal input of less than 15 MW;
                     
                  
                        —
                     
                     
                        combustion plants benefitting from the limited life time or district heating derogation as set out in Articles 33 and 35 of Directive 2010/75/EU, until the derogations set in their permits expire, for what concerns the BAT-AELs for the pollutants covered by the derogation, as well as for other pollutants whose emissions would have been reduced by the technical measures obviated by the derogation;
                     
                  
                        —
                     
                     
                        gasification of fuels, when not directly associated to the combustion of the resulting syngas;
                     
                  
                        —
                     
                     
                        gasification of fuels and subsequent combustion of syngas when directly associated to the refining of mineral oil and gas;
                     
                  
                        —
                     
                     
                        the upstream and downstream activities not directly associated to combustion or gasification activities;
                     
                  
                        —
                     
                     
                        combustion in process furnaces or heaters;
                     
                  
                        —
                     
                     
                        combustion in post-combustion plants;
                     
                  
                        —
                     
                     
                        flaring;
                     
                  
                        —
                     
                     
                        combustion in recovery boilers and total reduced sulphur burners within installations for the production of pulp and paper, as this is covered by the BAT conclusions for the production of pulp, paper and board;
                     
                  
                        —
                     
                     
                        combustion of refinery fuels at the refinery site, as this is covered by the BAT conclusions for the refining of mineral oil and gas;
                     
                  
                        —
                     
                     
                        disposal or recovery of waste in:
                        
                                    —
                                 
                                 
                                    waste incineration plants (as defined in Article 3(40) of Directive 2010/75/EU),
                                 
                              
                                    —
                                 
                                 
                                    waste co-incineration plants where more than 40 % of the resulting heat release comes from hazardous waste,
                                 
                              
                                    —
                                 
                                 
                                    waste co-incineration plants combusting only wastes, except if these wastes are composed at least partially of biomass as defined in Article 3(31)(b) of Directive 2010/75/EU,
                                 
                              
                  as this is covered by the BAT conclusions for waste incineration.
            Other BAT conclusions and reference documents that could be relevant for the activities covered by these BAT conclusions are the following:
            
                        —
                     
                     
                        Common Waste Water and Waste Gas Treatment/Management Systems in the Chemical Sector (CWW)
                     
                  
                        —
                     
                     
                        Chemical BREF series (LVOC, etc.)
                     
                  
                        —
                     
                     
                        Economics and Cross-Media Effects (ECM)
                     
                  
                        —
                     
                     
                        Emissions from Storage (EFS)
                     
                  
                        —
                     
                     
                        Energy Efficiency (ENE)
                     
                  
                        —
                     
                     
                        Industrial Cooling Systems (ICS)
                     
                  
                        —
                     
                     
                        Iron and Steel Production (IS)
                     
                  
                        —
                     
                     
                        Monitoring of Emissions to Air and Water from IED installations (ROM)
                     
                  
                        —
                     
                     
                        Production of Pulp, Paper and Board (PP)
                     
                  
                        —
                     
                     
                        Refining of Mineral Oil and Gas (REF)
                     
                  
                        —
                     
                     
                        Waste Incineration (WI)
                     
                  
                        —
                     
                     
                        Waste Treatment (WT)
                     
                  DEFINITIONS
            For the purposes of these BAT conclusions, the following definitions apply:
            
                        
                           Term used
                        
                     
                     
                        
                           Definition
                        
                     
                  
                        
                           General terms
                        
                     
                  
                        Boiler
                     
                     
                        Any combustion plant with the exception of engines, gas turbines, and process furnaces or heaters
                     
                  
                        Combined-cycle gas turbine (CCGT)
                     
                     
                        A CCGT is a combustion plant where two thermodynamic cycles are used (i.e. Brayton and Rankine cycles). In a CCGT, heat from the flue-gas of a gas turbine (operating according to the Brayton cycle to produce electricity) is converted to useful energy in a heat recovery steam generator (HRSG), where it is used to generate steam, which then expands in a steam turbine (operating according to the Rankine cycle to produce additional electricity).
                        For the purpose of these BAT conclusions, a CCGT includes configurations both with and without supplementary firing of the HRSG
                     
                  
                        Combustion plant
                     
                     
                        Any technical apparatus in which fuels are oxidised in order to use the heat thus generated. For the purposes of these BAT conclusions, a combination formed of:
                        
                                    —
                                 
                                 
                                    two or more separate combustion plants where the flue-gases are discharged through a common stack, or
                                 
                              
                                    —
                                 
                                 
                                    separate combustion plants that have been granted a permit for the first time on or after 1 July 1987, or for which the operators have submitted a complete application for a permit on or after that date, which are installed in such a way that, taking technical and economic factors into account, their flue-gases could, in the judgment of the competent authority, be discharged through a common stack
                                 
                              is considered as a single combustion plant.
                        For calculating the total rated thermal input of such a combination, the capacities of all individual combustion plants concerned, which have a rated thermal input of at least 15 MW, shall be added together
                     
                  
                        Combustion unit
                     
                     
                        Individual combustion plant
                     
                  
                        Continuous measurement
                     
                     
                        Measurement using an automated measuring system permanently installed on site
                     
                  
                        Direct discharge
                     
                     
                        Discharge (to a receiving water body) at the point where the emission leaves the installation without further downstream treatment
                     
                  
                        Flue-gas desulphurisation (FGD) system
                     
                     
                        System composed of one or a combination of abatement technique(s) whose purpose is to reduce the level of SOX emitted by a combustion plant
                     
                  
                        Flue-gas desulphurisation (FGD) system – existing
                     
                     
                        A flue-gas desulphurisation (FGD) system that is not a new FGD system
                     
                  
                        Flue-gas desulphurisation (FGD) system – new
                     
                     
                        Either a flue-gas desulphurisation (FGD) system in a new plant or a FGD system that includes at least one abatement technique introduced or completely replaced in an existing plant following the publication of these BAT conclusions
                     
                  
                        Gas oil
                     
                     
                        Any petroleum-derived liquid fuel falling within CN code 2710 19 25 , 2710 19 29 , 2710 19 47 , 2710 19 48 , 2710 20 17  or 2710 20 19 .
                        Or any petroleum-derived liquid fuel of which less than 65 vol-% (including losses) distils at 250 °C and of which at least 85 vol-% (including losses) distils at 350 °C by the ASTM D86 method
                     
                  
                        Heavy fuel oil (HFO)
                     
                     
                        Any petroleum-derived liquid fuel falling within CN code 2710 19 51  to 2710 19 68 , 2710 20 31 , 2710 20 35 , 2710 20 39 .
                        Or any petroleum-derived liquid fuel, other than gas oil, which, by reason of its distillation limits, falls within the category of heavy oils intended for use as fuel and of which less than 65 vol-% (including losses) distils at 250 °C by the ASTM D86 method. If the distillation cannot be determined by the ASTM D86 method, the petroleum product is also categorised as a heavy fuel oil
                     
                  
                        Net electrical efficiency (combustion unit and IGCC)
                     
                     
                        Ratio between the net electrical output (electricity produced on the high-voltage side of the main transformer minus the imported energy – e.g. for auxiliary systems’ consumption) and the fuel/feedstock energy input (as the fuel/feedstock lower heating value) at the combustion unit boundary over a given period of time
                     
                  
                        Net mechanical energy efficiency
                     
                     
                        Ratio between the mechanical power at load coupling and the thermal power supplied by the fuel
                     
                  
                        Net total fuel utilisation (combustion unit and IGCC)
                     
                     
                        Ratio between the net produced energy (electricity, hot water, steam, mechanical energy produced minus the imported electrical and/or thermal energy (e.g. for auxiliary systems’ consumption)) and the fuel energy input (as the fuel lower heating value) at the combustion unit boundary over a given period of time
                     
                  
                        Net total fuel utilisation (gasification unit)
                     
                     
                        Ratio between the net produced energy (electricity, hot water, steam, mechanical energy produced, and syngas (as the syngas lower heating value) minus the imported electrical and/or thermal energy (e.g. for auxiliary systems’ consumption)) and the fuel/feedstock energy input (as the fuel/feedstock lower heating value) at the gasification unit boundary over a given period of time
                     
                  
                        Operated hours
                     
                     
                        The time, expressed in hours, during which a combustion plant, in whole or in part, is operated and is discharging emissions to air, excluding start-up and shutdown periods
                     
                  
                        Periodic measurement
                     
                     
                        Determination of a measurand (a particular quantity subject to measurement) at specified time intervals
                     
                  
                        Plant – existing
                     
                     
                        A combustion plant that is not a new plant
                     
                  
                        Plant – new
                     
                     
                        A combustion plant first permitted at the installation following the publication of these BAT conclusions or a complete replacement of a combustion plant on the existing foundations following the publication of these BAT conclusions
                     
                  
                        Post-combustion plant
                     
                     
                        System designed to purify the flue-gases by combustion which is not operated as an independent combustion plant, such as a thermal oxidiser (i.e. tail gas incinerator), used for the removal of the pollutant(s) (e.g. VOC) content from the flue-gas with or without the recovery of the heat generated therein. Staged combustion techniques, where each combustion stage is confined within a separate chamber, which may have distinct combustion process characteristics (e.g. fuel to air ratio, temperature profile), are considered integrated in the combustion process and are not considered post-combustion plants. Similarly, when gases generated in a process heater/furnace or in another combustion process are subsequently oxidised in a distinct combustion plant to recover their energetic value (with or without the use of auxiliary fuel) to produce electricity, steam, hot water/oil or mechanical energy, the latter plant is not considered a post-combustion plant
                     
                  
                        Predictive emissions monitoring system (PEMS)
                     
                     
                        System used to determine the emissions concentration of a pollutant from an emission source on a continuous basis, based on its relationship with a number of characteristic continuously monitored process parameters (e.g. the fuel gas consumption, the air to fuel ratio) and fuel or feed quality data (e.g. the sulphur content)
                     
                  
                        Process fuels from the chemical industry
                     
                     
                        Gaseous and/or liquid by-products generated by the (petro-)chemical industry and used as non-commercial fuels in combustion plants
                     
                  
                        Process furnaces or heaters
                     
                     
                        Process furnaces or heaters are:
                        
                                    —
                                 
                                 
                                    combustion plants whose flue-gases are used for the thermal treatment of objects or feed material through a direct contact heating mechanism (e.g. cement and lime kiln, glass furnace, asphalt kiln, drying process, reactor used in the (petro-)chemical industry, ferrous metal processing furnaces), or
                                 
                              
                                    —
                                 
                                 
                                    combustion plants whose radiant and/or conductive heat is transferred to objects or feed material through a solid wall without using an intermediary heat transfer fluid (e.g. coke battery furnace, cowper, furnace or reactor heating a process stream used in the (petro-)chemical industry such as a steam cracker furnace, process heater used for the regasification of liquefied natural gas (LNG) in LNG terminals).
                                 
                              As a consequence of the application of good energy recovery practices, process heaters/furnaces may have an associated steam/electricity generation system. This is considered to be an integral design feature of the process heater/furnace that cannot be considered in isolation
                     
                  
                        Refinery fuels
                     
                     
                        Solid, liquid or gaseous combustible material from the distillation and conversion steps of the refining of crude oil. Examples are refinery fuel gas (RFG), syngas, refinery oils, and pet coke
                     
                  
                        Residues
                     
                     
                        Substances or objects generated by the activities covered by the scope of this document, as waste or by-products
                     
                  
                        Start-up and shut-down period
                     
                     
                        The time period of plant operation as determined pursuant to the provisions of Commission Implementing Decision 2012/249/EU (1), concerning the determination of start-up and shut-down periods for the purposes of Directive 2010/75/EU of the European Parliament and the Council on industrial emissions
                     
                  
                        Unit – existing
                     
                     
                        A combustion unit that is not a new unit
                     
                  
                        Unit- new
                     
                     
                        A combustion unit first permitted at the combustion plant following the publication of these BAT conclusions or a complete replacement of a combustion unit on the existing foundations of the combustion plant following the publication of these BAT conclusions
                     
                  
                        Valid (hourly average)
                     
                     
                        An hourly average is considered valid when there is no maintenance or malfunction of the automated measuring system
                     
                  
               
            
                        
                           Term used
                        
                     
                     
                        
                           Definition
                        
                     
                  
                        
                           Pollutants/parameters
                        
                     
                  
                        As
                     
                     
                        The sum of arsenic and its compounds, expressed as As
                     
                  
                        C3
                        
                     
                     
                        Hydrocarbons having a carbon number equal to three
                     
                  
                        C4+
                     
                     
                        Hydrocarbons having a carbon number of four or greater
                     
                  
                        Cd
                     
                     
                        The sum of cadmium and its compounds, expressed as Cd
                     
                  
                        Cd+Tl
                     
                     
                        The sum of cadmium, thallium and their compounds, expressed as Cd+Tl
                     
                  
                        CH4
                        
                     
                     
                        Methane
                     
                  
                        CO
                     
                     
                        Carbon monoxide
                     
                  
                        COD
                     
                     
                        Chemical oxygen demand. Amount of oxygen needed for the total oxidation of the organic matter to carbon dioxide
                     
                  
                        COS
                     
                     
                        Carbonyl sulphide
                     
                  
                        Cr
                     
                     
                        The sum of chromium and its compounds, expressed as Cr
                     
                  
                        Cu
                     
                     
                        The sum of copper and its compounds, expressed as Cu
                     
                  
                        Dust
                     
                     
                        Total particulate matter (in air)
                     
                  
                        Fluoride
                     
                     
                        Dissolved fluoride, expressed as F-
                        
                     
                  
                        H2S
                     
                     
                        Hydrogen sulphide
                     
                  
                        HCl
                     
                     
                        All inorganic gaseous chlorine compounds, expressed as HCl
                     
                  
                        HCN
                     
                     
                        Hydrogen cyanide
                     
                  
                        HF
                     
                     
                        All inorganic gaseous fluorine compounds, expressed as HF
                     
                  
                        Hg
                     
                     
                        The sum of mercury and its compounds, expressed as Hg
                     
                  
                        N2O
                     
                     
                        Dinitrogen monoxide (nitrous oxide)
                     
                  
                        NH3
                        
                     
                     
                        Ammonia
                     
                  
                        Ni
                     
                     
                        The sum of nickel and its compounds, expressed as Ni
                     
                  
                        NOX
                        
                     
                     
                        The sum of nitrogen monoxide (NO) and nitrogen dioxide (NO2), expressed as NO2
                        
                     
                  
                        Pb
                     
                     
                        The sum of lead and its compounds, expressed as Pb
                     
                  
                        PCDD/F
                     
                     
                        Polychlorinated dibenzo-p-dioxins and -furans
                     
                  
                        RCG
                     
                     
                        Raw concentration in the flue-gas. Concentration of SO2 in the raw flue-gas as a yearly average (under the standard conditions given under General considerations) at the inlet of the SOX abatement system, expressed at a reference oxygen content of 6 vol-% O2
                        
                     
                  
                        Sb+As+Pb+Cr+Co+Cu+Mn+Ni+V
                     
                     
                        The sum of antimony, arsenic, lead, chromium, cobalt, copper, manganese, nickel, vanadium and their compounds, expressed as Sb+As+Pb+Cr+Co+Cu+Mn+Ni+V
                     
                  
                        SO2
                        
                     
                     
                        Sulphur dioxide
                     
                  
                        SO3
                        
                     
                     
                        Sulphur trioxide
                     
                  
                        SOX
                        
                     
                     
                        The sum of sulphur dioxide (SO2) and sulphur trioxide (SO3), expressed as SO2
                        
                     
                  
                        Sulphate
                     
                     
                        Dissolved sulphate, expressed as SO4
                           2-
                        
                     
                  
                        Sulphide, easily released
                     
                     
                        The sum of dissolved sulphide and of those undissolved sulphides that are easily released upon acidification, expressed as S2-
                        
                     
                  
                        Sulphite
                     
                     
                        Dissolved sulphite, expressed as SO3
                           2-
                        
                     
                  
                        TOC
                     
                     
                        Total organic carbon, expressed as C (in water)
                     
                  
                        TSS
                     
                     
                        Total suspended solids. Mass concentration of all suspended solids (in water), measured via filtration through glass fibre filters and gravimetry
                     
                  
                        TVOC
                     
                     
                        Total volatile organic carbon, expressed as C (in air)
                     
                  
                        Zn
                     
                     
                        The sum of zinc and its compounds, expressed as Zn
                     
                  ACRONYMS
            For the purposes of these BAT conclusions, the following acronyms apply:
            
                        
                           Acronym
                        
                     
                     
                        
                           Definition
                        
                     
                  
                        ASU
                     
                     
                        Air supply unit
                     
                  
                        CCGT
                     
                     
                        Combined-cycle gas turbine, with or without supplementary firing
                     
                  
                        CFB
                     
                     
                        Circulating fluidised bed
                     
                  
                        CHP
                     
                     
                        Combined heat and power
                     
                  
                        COG
                     
                     
                        Coke oven gas
                     
                  
                        COS
                     
                     
                        Carbonyl sulphide
                     
                  
                        DLN
                     
                     
                        Dry low-NOX burners
                     
                  
                        DSI
                     
                     
                        Duct sorbent injection
                     
                  
                        ESP
                     
                     
                        Electrostatic precipitator
                     
                  
                        FBC
                     
                     
                        Fluidised bed combustion
                     
                  
                        FGD
                     
                     
                        Flue-gas desulphurisation
                     
                  
                        HFO
                     
                     
                        Heavy fuel oil
                     
                  
                        HRSG
                     
                     
                        Heat recovery steam generator
                     
                  
                        IGCC
                     
                     
                        Integrated gasification combined cycle
                     
                  
                        LHV
                     
                     
                        Lower heating value
                     
                  
                        LNB
                     
                     
                        Low-NOX burners
                     
                  
                        LNG
                     
                     
                        Liquefied natural gas
                     
                  
                        OCGT
                     
                     
                        Open-cycle gas turbine
                     
                  
                        OTNOC
                     
                     
                        Other than normal operating conditions
                     
                  
                        PC
                     
                     
                        Pulverised combustion
                     
                  
                        PEMS
                     
                     
                        Predictive emissions monitoring system
                     
                  
                        SCR
                     
                     
                        Selective catalytic reduction
                     
                  
                        SDA
                     
                     
                        Spray dry absorber
                     
                  
                        SNCR
                     
                     
                        Selective non-catalytic reduction
                     
                  GENERAL CONSIDERATIONS
            
               Best Available Techniques
            
            The techniques listed and described in these BAT conclusions are neither prescriptive nor exhaustive. Other techniques may be used that ensure at least an equivalent level of environmental protection.
            Unless otherwise stated, these BAT conclusions are generally applicable.
            
               Emission levels associated with the best available techniques (BAT-AELs)
            
            Where emission levels associated with the best available techniques (BAT-AELs) are given for different averaging periods, all of those BAT-AELs have to be complied with.
            The BAT-AELs set out in these BAT conclusions may not apply to liquid-fuel-fired and gas-fired turbines and engines for emergency use operated less than 500 h/yr, when such emergency use is not compatible with meeting the BAT-AELs.
            
               BAT-AELs for emissions to air
            
            Emission levels associated with the best available techniques (BAT-AELs) for emissions to air given in these BAT conclusions refer to concentrations, expressed as mass of emitted substance per volume of flue-gas under the following standard conditions: dry gas at a temperature of 273,15 K, and a pressure of 101,3 kPa, and expressed in the units mg/Nm3, μg/Nm3 or ng I-TEQ/Nm3.
            The monitoring associated with the BAT-AELs for emissions to air is given in BAT 4
            Reference conditions for oxygen used to express BAT-AELs in this document are shown in the table given below.
            
                        
                           Activity
                        
                     
                     
                        
                           Reference oxygen level (OR)
                     
                  
                        Combustion of solid fuels
                     
                     
                        6 vol-%
                     
                  
                        Combustion of solid fuels in combination with liquid and/or gaseous fuels
                     
                  
                        Waste co-incineration
                     
                  
                        Combustion of liquid and/or gaseous fuels when not taking place in a gas turbine or an engine
                     
                     
                        3 vol-%
                     
                  
                        Combustion of liquid and/or gaseous fuels when taking place in a gas turbine or an engine
                     
                     
                        15 vol-%
                     
                  
                        Combustion in IGCC plants
                     
                  The equation for calculating the emission concentration at the reference oxygen level is:
            
               
            Where:
            
                        ER
                        
                     
                     
                        :
                     
                     
                        emission concentration at the reference oxygen level OR;
                     
                  
                        OR
                        
                     
                     
                        :
                     
                     
                        reference oxygen level in vol-%;
                     
                  
                        EM
                        
                     
                     
                        :
                     
                     
                        measured emission concentration;
                     
                  
                        OM
                        
                     
                     
                        :
                     
                     
                        measured oxygen level in vol-%.
                     
                  For averaging periods, the following definitions apply:
            
                        
                           Averaging period
                        
                     
                     
                        
                           Definition
                        
                     
                  
                        Daily average
                     
                     
                        Average over a period of 24 hours of valid hourly averages obtained by continuous measurements
                     
                  
                        Yearly average
                     
                     
                        Average over a period of one year of valid hourly averages obtained by continuous measurements
                     
                  
                        Average over the sampling period
                     
                     
                        Average value of three consecutive measurements of at least 30 minutes each (2)
                        
                     
                  
                        Average of samples obtained during one year
                     
                     
                        Average of the values obtained during one year of the periodic measurements taken with the monitoring frequency set for each parameter
                     
                  
               BAT-AELs for emissions to water
            
            Emission levels associated with the best available techniques (BAT-AELs) for emissions to water given in these BAT conclusions refer to concentrations, expressed as mass of emitted substance per volume of water, and expressed in μg/l, mg/l, or g/l. The BAT-AELs refer to daily averages, i.e. 24-hour flow-proportional composite samples. Time-proportional composite samples can be used provided that sufficient flow stability can be demonstrated.
            The monitoring associated with BAT-AELs for emissions to water is given in BAT 5
            
               Energy efficiency levels associated with the best available techniques (BAT-AEELs)
            
            An energy efficiency level associated with the best available techniques (BAT-AEEL) refers to the ratio between the combustion unit’s net energy output(s) and the combustion unit’s fuel/feedstock energy input at actual unit design. The net energy output(s) is determined at the combustion, gasification, or IGCC unit boundaries, including auxiliary systems (e.g. flue-gas treatment systems), and for the unit operated at full load.
            In the case of combined heat and power (CHP) plants:
            
                        —
                     
                     
                        the net total fuel utilisation BAT-AEEL refers to the combustion unit operated at full load and tuned to maximise primarily the heat supply and secondarily the remaining power that can be generated;
                     
                  
                        —
                     
                     
                        the net electrical efficiency BAT-AEEL refers to the combustion unit generating only electricity at full load.
                     
                  BAT-AEELs are expressed as a percentage. The fuel/feedstock energy input is expressed as lower heating value (LHV).
            The monitoring associated with BAT-AEELs is given in BAT 2
            
               Categorisation of combustion plants/units according to their total rated thermal input
            
            For the purposes of these BAT conclusions, when a range of values for the total rated thermal input is indicated, this is to be read as ‘equal to or greater than the lower end of the range and lower than the upper end of the range’. For example, the plant category 100–300 MWth is to be read as: combustion plants with a total rated thermal input equal to or greater than 100 MW and lower than 300 MW.
            When a part of a combustion plant discharging flue-gases through one or more separate ducts within a common stack is operated less than 1 500 h/yr, that part of the plant may be considered separately for the purpose of these BAT conclusions. For all parts of the plant, the BAT-AELs apply in relation to the total rated thermal input of the plant. In such cases, the emissions through each of those ducts are monitored separately.
            1.   GENERAL BAT CONCLUSIONS
            The fuel-specific BAT conclusions included in Sections 2 to 7 apply in addition to the general BAT conclusions in this section.
            
               1.1.   Environmental management systems
            
            
               BAT 1.   In order to improve the overall environmental performance, BAT is to implement and adhere to an environmental management system (EMS) that incorporates all of the following features:
            
            
                        i.
                     
                     
                        commitment of the management, including senior management;
                     
                  
                        ii.
                     
                     
                        definition, by the management, of an environmental policy that includes the continuous improvement of the environmental performance of the installation;
                     
                  
                        iii.
                     
                     
                        planning and establishing the necessary procedures, objectives and targets, in conjunction with financial planning and investment;
                     
                  
                        iv.
                     
                     
                        implementation of procedures paying particular attention to:
                        
                                    (a)
                                 
                                 
                                    structure and responsibility
                                 
                              
                                    (b)
                                 
                                 
                                    recruitment, training, awareness and competence
                                 
                              
                                    (c)
                                 
                                 
                                    communication
                                 
                              
                                    (d)
                                 
                                 
                                    employee involvement
                                 
                              
                                    (e)
                                 
                                 
                                    documentation
                                 
                              
                                    (f)
                                 
                                 
                                    effective process control
                                 
                              
                                    (g)
                                 
                                 
                                    planned regular maintenance programmes
                                 
                              
                                    (h)
                                 
                                 
                                    emergency preparedness and response
                                 
                              
                                    (i)
                                 
                                 
                                    safeguarding compliance with environmental legislation;
                                 
                              
                  
                        v.
                     
                     
                        checking performance and taking corrective action, paying particular attention to:
                        
                                    (a)
                                 
                                 
                                    monitoring and measurement (see also the JRC Reference Report on Monitoring of emissions to air and water from IED-installations – ROM)
                                 
                              
                                    (b)
                                 
                                 
                                    corrective and preventive action
                                 
                              
                                    (c)
                                 
                                 
                                    maintenance of records
                                 
                              
                                    (d)
                                 
                                 
                                    independent (where practicable) internal and external auditing in order to determine whether or not the EMS conforms to planned arrangements and has been properly implemented and maintained;
                                 
                              
                  
                        vi.
                     
                     
                        review, by senior management, of the EMS and its continuing suitability, adequacy and effectiveness;
                     
                  
                        vii.
                     
                     
                        following the development of cleaner technologies;
                     
                  
                        viii.
                     
                     
                        consideration for the environmental impacts from the eventual decommissioning of the installation at the stage of designing a new plant, and throughout its operating life including;
                        
                                    (a)
                                 
                                 
                                    avoiding underground structures
                                 
                              
                                    (b)
                                 
                                 
                                    incorporating features that facilitate dismantling
                                 
                              
                                    (c)
                                 
                                 
                                    choosing surface finishes that are easily decontaminated
                                 
                              
                                    (d)
                                 
                                 
                                    using an equipment configuration that minimises trapped chemicals and facilitates drainage or cleaning
                                 
                              
                                    (e)
                                 
                                 
                                    designing flexible, self-contained equipment that enables phased closure
                                 
                              
                                    (f)
                                 
                                 
                                    using biodegradable and recyclable materials where possible;
                                 
                              
                  
                        ix.
                     
                     
                        application of sectoral benchmarking on a regular basis.
                        Specifically for this sector, it is also important to consider the following features of the EMS, described where appropriate in the relevant BAT:
                     
                  
                        x.
                     
                     
                        quality assurance/quality control programmes to ensure that the characteristics of all fuels are fully determined and controlled (see BAT 9);
                     
                  
                        xi.
                     
                     
                        a management plan in order to reduce emissions to air and/or to water during other than normal operating conditions, including start-up and shutdown periods (see BAT 10 and BAT 11);
                     
                  
                        xii.
                     
                     
                        a waste management plan to ensure that waste is avoided, prepared for reuse, recycled or otherwise recovered, including the use of techniques given in BAT 16;
                     
                  
                        xiii.
                     
                     
                        a systematic method to identify and deal with potential uncontrolled and/or unplanned emissions to the environment, in particular:
                        
                                    (a)
                                 
                                 
                                    emissions to soil and groundwater from the handling and storage of fuels, additives, by-products and wastes
                                 
                              
                                    (b)
                                 
                                 
                                    emissions associated with self-heating and/or self-ignition of fuel in the storage and handling activities;
                                 
                              
                  
                        xiv.
                     
                     
                        a dust management plan to prevent or, where that is not practicable, to reduce diffuse emissions from loading, unloading, storage and/or handling of fuels, residues and additives;
                     
                  
                        xv.
                     
                     
                        a noise management plan where a noise nuisance at sensitive receptors is expected or sustained, including;
                        
                                    (a)
                                 
                                 
                                    a protocol for conducting noise monitoring at the plant boundary
                                 
                              
                                    (b)
                                 
                                 
                                    a noise reduction programme
                                 
                              
                                    (c)
                                 
                                 
                                    a protocol for response to noise incidents containing appropriate actions and timelines
                                 
                              
                                    (d)
                                 
                                 
                                    a review of historic noise incidents, corrective actions and dissemination of noise incident knowledge to the affected parties;
                                 
                              
                  
                        xvi.
                     
                     
                        for the combustion, gasification or co-incineration of malodourous substances, an odour management plan including:
                        
                                    (a)
                                 
                                 
                                    a protocol for conducting odour monitoring
                                 
                              
                                    (b)
                                 
                                 
                                    where necessary, an odour elimination programme to identify and eliminate or reduce the odour emissions
                                 
                              
                                    (c)
                                 
                                 
                                    a protocol to record odour incidents and the appropriate actions and timelines
                                 
                              
                                    (d)
                                 
                                 
                                    a review of historic odour incidents, corrective actions and the dissemination of odour incident knowledge to the affected parties.
                                 
                              
                  Where an assessment shows that any of the elements listed under items x to xvi are not necessary, a record is made of the decision, including the reasons.
            
               Applicability
            
            The scope (e.g. level of detail) and nature of the EMS (e.g. standardised or non-standardised) is generally related to the nature, scale and complexity of the installation, and the range of environmental impacts it may have.
            
               1.2.   Monitoring
            
            
               BAT 2.   BAT is to determine the net electrical efficiency and/or the net total fuel utilisation and/or the net mechanical energy efficiency of the gasification, IGCC and/or combustion units by carrying out a performance test at full load(1), according to EN standards, after the commissioning of the unit and after each modification that could significantly affect the net electrical efficiency and/or the net total fuel utilisation and/or the net mechanical energy efficiency of the unit. If EN standards are not available, BAT is to use ISO, national or other international standards that ensure the provision of data of an equivalent scientific quality.
            
            
                        (1)
                     
                     
                        In the case of CHP units, if for technical reasons the performance test cannot be carried out with the unit operated at full load for the heat supply, the test can be supplemented or substituted by a calculation using full load parameters.
                     
                  
               BAT 3.   BAT is to monitor key process parameters relevant for emissions to air and water including those given below.
            
            
                        
                           Stream
                        
                     
                     
                        
                           Parameter(s)
                        
                     
                     
                        
                           Monitoring
                        
                     
                  
                        Flue-gas
                     
                     
                        Flow
                     
                     
                        Periodic or continuous determination
                     
                  
                        Oxygen content, temperature, and pressure
                     
                     
                        Periodic or continuous measurement
                     
                  
                        Water vapour content (3)
                        
                     
                  
                        Waste water from flue-gas treatment
                     
                     
                        Flow, pH, and temperature
                     
                     
                        Continuous measurement
                     
                  
               BAT 4.   BAT is to monitor emissions to air with at least the frequency given below and in accordance with EN standards. If EN standards are not available, BAT is to use ISO, national or other international standards that ensure the provision of data of an equivalent scientific quality.
            
            
                        
                           Substance/Parameter
                        
                     
                     
                        
                           Fuel/Process/Type of combustion plant
                        
                     
                     
                        
                           Combustion plant total rated thermal input
                        
                     
                     
                        
                           Standard(s)
                            (4)
                        
                     
                     
                        
                           Minimum monitoring frequency
                            (5)
                        
                     
                     
                        
                           Monitoring associated with
                        
                     
                  
                        NH3
                        
                     
                     
                        
                                    —
                                 
                                 
                                    When SCR and/or SNCR is used
                                 
                              
                     
                        All sizes
                     
                     
                        Generic EN standards
                     
                     
                        Continuous (6)
                            (7)
                        
                     
                     
                        BAT 7
                     
                  
                        NOX
                        
                     
                     
                        
                                    —
                                 
                                 
                                    Coal and/or lignite including waste co-incineration
                                 
                              
                                    —
                                 
                                 
                                    Solid biomass and/or peat including waste co-incineration
                                 
                              
                                    —
                                 
                                 
                                    HFO- and/or gas-oil-fired boilers and engines
                                 
                              
                                    —
                                 
                                 
                                    Gas-oil-fired gas turbines
                                 
                              
                                    —
                                 
                                 
                                    Natural-gas-fired boilers, engines, and turbines
                                 
                              
                                    —
                                 
                                 
                                    Iron and steel process gases
                                 
                              
                                    —
                                 
                                 
                                    Process fuels from the chemical industry
                                 
                              
                                    —
                                 
                                 
                                    IGCC plants
                                 
                              
                     
                        All sizes
                     
                     
                        Generic EN standards
                     
                     
                        Continuous (6)
                            (8)
                        
                     
                     
                        BAT 20
                        BAT 24
                        BAT 28
                        BAT 32
                        BAT 37
                        BAT 41
                        BAT 42
                        BAT 43
                        BAT 47
                        BAT 48
                        BAT 56
                        BAT 64
                        BAT 65
                        BAT 73
                     
                  
                        
                                    —
                                 
                                 
                                    Combustion plants on offshore platforms
                                 
                              
                     
                        All sizes
                     
                     
                        EN 14792
                     
                     
                        Once every year (9)
                        
                     
                     
                        BAT 53
                     
                  
                        N2O
                     
                     
                        
                                    —
                                 
                                 
                                    Coal and/or lignite in circulating fluidised bed boilers
                                 
                              
                                    —
                                 
                                 
                                    Solid biomass and/or peat in circulating fluidised bed boilers
                                 
                              
                     
                        All sizes
                     
                     
                        EN 21258
                     
                     
                        Once every year (10)
                        
                     
                     
                        BAT 20
                        BAT 24
                     
                  
                        CO
                     
                     
                        
                                    —
                                 
                                 
                                    Coal and/or lignite including waste co-incineration
                                 
                              
                                    —
                                 
                                 
                                    Solid biomass and/or peat including waste co-incineration
                                 
                              
                                    —
                                 
                                 
                                    HFO- and/or gas-oil-fired boilers and engines
                                 
                              
                                    —
                                 
                                 
                                    Gas-oil-fired gas turbines
                                 
                              
                                    —
                                 
                                 
                                    Natural-gas-fired boilers, engines, and turbines
                                 
                              
                                    —
                                 
                                 
                                    Iron and steel process gases
                                 
                              
                                    —
                                 
                                 
                                    Process fuels from the chemical industry
                                 
                              
                                    —
                                 
                                 
                                    IGCC plants
                                 
                              
                     
                        All sizes
                     
                     
                        Generic EN standards
                     
                     
                        Continuous (6)
                            (8)
                        
                     
                     
                        BAT 20
                        BAT 24
                        BAT 28
                        BAT 33
                        BAT 38
                        BAT 44
                        BAT 49
                        BAT 56
                        BAT 64
                        BAT 65
                        BAT 73
                     
                  
                        
                                    —
                                 
                                 
                                    Combustion plants on offshore platforms
                                 
                              
                     
                        All sizes
                     
                     
                        EN 15058
                     
                     
                        Once every year (9)
                        
                     
                     
                        BAT 54
                     
                  
                        SO2
                        
                     
                     
                        
                                    —
                                 
                                 
                                    Coal and/or lignite including waste co-incineration
                                 
                              
                                    —
                                 
                                 
                                    Solid biomass and/or peat including waste co-incineration
                                 
                              
                                    —
                                 
                                 
                                    HFO- and/or gas-oil-fired boilers
                                 
                              
                                    —
                                 
                                 
                                    HFO- and/or gas-oil-fired engines
                                 
                              
                                    —
                                 
                                 
                                    Gas-oil-fired gas turbines
                                 
                              
                                    —
                                 
                                 
                                    Iron and steel process gases
                                 
                              
                                    —
                                 
                                 
                                    Process fuels from the chemical industry in boilers
                                 
                              
                                    —
                                 
                                 
                                    IGCC plants
                                 
                              
                     
                        All sizes
                     
                     
                        Generic EN standards and EN 14791
                     
                     
                        Continuous (6)
                            (11)
                            (12)
                        
                     
                     
                        BAT 21
                        BAT 25
                        BAT 29
                        BAT 34
                        BAT 39
                        BAT 50
                        BAT 57
                        BAT 66
                        BAT 67
                        BAT 74
                     
                  
                        SO3
                        
                     
                     
                        
                                    —
                                 
                                 
                                    When SCR is used
                                 
                              
                     
                        All sizes
                     
                     
                        No EN standard available
                     
                     
                        Once every year
                     
                     
                        —
                     
                  
                        Gaseous chlorides, expressed as HCl
                     
                     
                        
                                    —
                                 
                                 
                                    Coal and/or lignite
                                 
                              
                                    —
                                 
                                 
                                    Process fuels from the chemical industry in boilers
                                 
                              
                     
                        All sizes
                     
                     
                        EN 1911
                     
                     
                        Once every three months (6)
                            (13)
                            (14)
                        
                     
                     
                        BAT 21
                        BAT 57
                     
                  
                        
                                    —
                                 
                                 
                                    Solid biomass and/or peat
                                 
                              
                     
                        All sizes
                     
                     
                        Generic EN standards
                     
                     
                        Continuous (15)
                            (16)
                        
                     
                     
                        BAT 25
                     
                  
                        
                                    —
                                 
                                 
                                    Waste co-incineration
                                 
                              
                     
                        All sizes
                     
                     
                        Generic EN standards
                     
                     
                        Continuous (6)
                            (16)
                        
                     
                     
                        BAT 66
                        BAT 67
                     
                  
                        HF
                     
                     
                        
                                    —
                                 
                                 
                                    Coal and/or lignite
                                 
                              
                                    —
                                 
                                 
                                    Process fuels from the chemical industry in boilers
                                 
                              
                     
                        All sizes
                     
                     
                        No EN standard available
                     
                     
                        Once every three months (6)
                            (13)
                            (14)
                        
                     
                     
                        BAT 21
                        BAT 57
                     
                  
                        
                                    —
                                 
                                 
                                    Solid biomass and/or peat
                                 
                              
                     
                        All sizes
                     
                     
                        No EN standard available
                     
                     
                        Once every year
                     
                     
                        BAT 25
                     
                  
                        
                                    —
                                 
                                 
                                    Waste co-incineration
                                 
                              
                     
                        All sizes
                     
                     
                        Generic EN standards
                     
                     
                        Continuous (6)
                            (16)
                        
                     
                     
                        BAT 66
                        BAT 67
                     
                  
                        Dust
                     
                     
                        
                                    —
                                 
                                 
                                    Coal and/or lignite
                                 
                              
                                    —
                                 
                                 
                                    Solid biomass and/or peat
                                 
                              
                                    —
                                 
                                 
                                    HFO- and/or gas-oil-fired boilers
                                 
                              
                                    —
                                 
                                 
                                    Iron and steel process gases
                                 
                              
                                    —
                                 
                                 
                                    Process fuels from the chemical industry in boilers
                                 
                              
                                    —
                                 
                                 
                                    IGCC plants
                                 
                              
                                    —
                                 
                                 
                                    HFO- and/or gas-oil-fired engines
                                 
                              
                                    —
                                 
                                 
                                    Gas-oil-fired gas turbines
                                 
                              
                     
                        All sizes
                     
                     
                        Generic EN standards and EN 13284-1 and EN 13284-2
                     
                     
                        Continuous (6)
                            (17)
                        
                     
                     
                        BAT 22
                        BAT 26
                        BAT 30
                        BAT 35
                        BAT 39
                        BAT 51
                        BAT 58
                        BAT 75
                     
                  
                        Waste co-incineration
                     
                     
                        All sizes
                     
                     
                        Generic EN standards and EN 13284-2
                     
                     
                        Continuous
                     
                     
                        BAT 68
                        BAT 69
                     
                  
                        Metals and metalloids except mercury (As, Cd, Co, Cr, Cu, Mn, Ni, Pb, Sb, Se, Tl, V, Zn)
                     
                     
                        
                                    —
                                 
                                 
                                    Coal and/or lignite
                                 
                              
                                    —
                                 
                                 
                                    Solid biomass and/or peat
                                 
                              
                                    —
                                 
                                 
                                    HFO- and/or gas-oil-fired boilers and engines
                                 
                              
                     
                        All sizes
                     
                     
                        EN 14385
                     
                     
                        Once every year (18)
                        
                     
                     
                        BAT 22
                        BAT 26
                        BAT 30
                     
                  
                        
                                    —
                                 
                                 
                                    Waste co-incineration
                                 
                              
                     
                        < 300 MWth
                        
                     
                     
                        EN 14385
                     
                     
                        Once every six months (13)
                        
                     
                     
                        BAT 68
                        BAT 69
                     
                  
                        ≥ 300 MWth
                        
                     
                     
                        EN 14385
                     
                     
                        Once every three months (19)
                            (13)
                        
                     
                  
                        
                                    —
                                 
                                 
                                    IGCC plants
                                 
                              
                     
                        ≥ 100 MWth
                        
                     
                     
                        EN 14385
                     
                     
                        Once every year (18)
                        
                     
                     
                        BAT 75
                     
                  
                        Hg
                     
                     
                        
                                    —
                                 
                                 
                                    Coal and/or lignite including waste co-incineration
                                 
                              
                     
                        < 300 MWth
                        
                     
                     
                        EN 13211
                     
                     
                        Once every three months (13)
                            (20)
                        
                     
                     
                        BAT 23
                     
                  
                        ≥ 300 MWth
                        
                     
                     
                        Generic EN standards and EN 14884
                     
                     
                        Continuous (16)
                            (21)
                        
                     
                  
                        
                                    —
                                 
                                 
                                    Solid biomass and/or peat
                                 
                              
                     
                        All sizes
                     
                     
                        EN 13211
                     
                     
                        Once every year (22)
                        
                     
                     
                        BAT 27
                     
                  
                        
                                    —
                                 
                                 
                                    Waste co-incineration with solid biomass and/or peat
                                 
                              
                     
                        All sizes
                     
                     
                        EN 13211
                     
                     
                        Once every three months (13)
                        
                     
                     
                        BAT 70
                     
                  
                        
                                    —
                                 
                                 
                                    IGCC plants
                                 
                              
                     
                        ≥ 100 MWth
                        
                     
                     
                        EN 13211
                     
                     
                        Once every year (23)
                        
                     
                     
                        BAT 75
                     
                  
                        TVOC
                     
                     
                        
                                    —
                                 
                                 
                                    HFO- and/or gas-oil-fired engines
                                 
                              
                                    —
                                 
                                 
                                    Process fuels from the chemical industry in boilers
                                 
                              
                     
                        All sizes
                     
                     
                        EN 12619
                     
                     
                        Once every six months (13)
                        
                     
                     
                        BAT 33
                        BAT 59
                     
                  
                        
                                    —
                                 
                                 
                                    Waste co-incineration with coal, lignite, solid biomass and/or peat
                                 
                              
                     
                        All sizes
                     
                     
                        Generic EN standards
                     
                     
                        Continuous
                     
                     
                        BAT 71
                     
                  
                        Formaldehyde
                     
                     
                        
                                    —
                                 
                                 
                                    Natural-gas in spark-ignited lean-burn gas and dual fuel engines
                                 
                              
                     
                        All sizes
                     
                     
                        No EN standard available
                     
                     
                        Once every year
                     
                     
                        BAT 45
                     
                  
                        CH4
                        
                     
                     
                        
                                    —
                                 
                                 
                                    Natural-gas-fired engines
                                 
                              
                     
                        All sizes
                     
                     
                        EN ISO 25139
                     
                     
                        Once every year (24)
                        
                     
                     
                        BAT 45
                     
                  
                        PCDD/F
                     
                     
                        
                                    —
                                 
                                 
                                    Process fuels from the chemical industry in boilers
                                 
                              
                                    —
                                 
                                 
                                    Waste co-incineration
                                 
                              
                     
                        All sizes
                     
                     
                        EN 1948-1, EN 1948-2, EN 1948-3
                     
                     
                        Once every six months (13)
                            (25)
                        
                     
                     
                        BAT 59
                        BAT 71
                     
                  
               BAT 5.   BAT is to monitor emissions to water from flue-gas treatment with at least the frequency given below and in accordance with EN standards. If EN standards are not available, BAT is to use ISO, national or other international standards that ensure the provision of data of an equivalent scientific quality.
            
            
                        
                           Substance/Parameter
                        
                     
                     
                        
                           Standard(s)
                        
                     
                     
                        
                           Minimum monitoring frequency
                        
                     
                     
                        
                           Monitoring associated with
                        
                     
                  
                        Total organic carbon (TOC) (26)
                        
                     
                     
                        EN 1484
                     
                     
                        Once every month
                     
                     
                        BAT 15
                     
                  
                        Chemical oxygen demand (COD) (26)
                        
                     
                     
                        No EN standard available
                     
                  
                        Total suspended solids (TSS)
                     
                     
                        EN 872
                     
                  
                        Fluoride (F-)
                     
                     
                        EN ISO 10304-1
                     
                  
                        Sulphate (SO4
                           2-)
                     
                     
                        EN ISO 10304-1
                     
                  
                        Sulphide, easily released (S2-)
                     
                     
                        No EN standard available
                     
                  
                        Sulphite (SO3
                           2-)
                     
                     
                        EN ISO 10304-3
                     
                  
                        Metals and metalloids
                     
                     
                        As
                     
                     
                        Various EN standards available (e.g. EN ISO 11885 or EN ISO 17294-2)
                     
                  
                        Cd
                     
                  
                        Cr
                     
                  
                        Cu
                     
                  
                        Ni
                     
                  
                        Pb
                     
                  
                        Zn
                     
                  
                        Hg
                     
                     
                        Various EN standards available (e.g. EN ISO 12846 or EN ISO 17852)
                     
                  
                        Chloride (Cl-)
                     
                     
                        Various EN standards available (e.g. EN ISO 10304-1 or EN ISO 15682)
                     
                     
                        —
                     
                  
                        Total nitrogen
                     
                     
                        EN 12260
                     
                     
                        —
                     
                  
               1.3.   General environmental and combustion performance
            
            
               BAT 6.   In order to improve the general environmental performance of combustion plants and to reduce emissions to air of CO and unburnt substances, BAT is to ensure optimised combustion and to use an appropriate combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Fuel blending and mixing
                     
                     
                        Ensure stable combustion conditions and/or reduce the emission of pollutants by mixing different qualities of the same fuel type
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Maintenance of the combustion system
                     
                     
                        Regular planned maintenance according to suppliers’ recommendations
                     
                  
                        c.
                     
                     
                        Advanced control system
                     
                     
                        See description in Section 8.1
                     
                     
                        The applicability to old combustion plants may be constrained by the need to retrofit the combustion system and/or control command system
                     
                  
                        d.
                     
                     
                        Good design of the combustion equipment
                     
                     
                        Good design of furnace, combustion chambers, burners and associated devices
                     
                     
                        Generally applicable to new combustion plants
                     
                  
                        e.
                     
                     
                        Fuel choice
                     
                     
                        Select or switch totally or partially to another fuel(s) with a better environmental profile (e.g. with low sulphur and/or mercury content) amongst the available fuels, including in start-up situations or when back-up fuels are used
                     
                     
                        Applicable within the constraints associated with the availability of suitable types of fuel with a better environmental profile as a whole, which may be impacted by the energy policy of the Member State, or by the integrated site’s fuel balance in the case of combustion of industrial process fuels.
                        For existing combustion plants, the type of fuel chosen may be limited by the configuration and the design of the plant
                     
                  
               BAT 7.   In order to reduce emissions of ammonia to air from the use of selective catalytic reduction (SCR) and/or selective non-catalytic reduction (SNCR) for the abatement of NOX emissions, BAT is to optimise the design and/or operation of SCR and/or SNCR (e.g. optimised reagent to NOX ratio, homogeneous reagent distribution and optimum size of the reagent drops).
            
            
               BAT-associated emission levels
            
            The BAT-associated emission level (BAT-AEL) for emissions of NH3 to air from the use of SCR and/or SNCR is < 3–10 mg/Nm3 as a yearly average or average over the sampling period. The lower end of the range can be achieved when using SCR and the upper end of the range can be achieved when using SNCR without wet abatement techniques. In the case of plants combusting biomass and operating at variable loads as well as in the case of engines combusting HFO and/or gas oil, the higher end of the BAT-AEL range is 15 mg/Nm3.
            
               BAT 8.   In order to prevent or reduce emissions to air during normal operating conditions, BAT is to ensure, by appropriate design, operation and maintenance, that the emission abatement systems are used at optimal capacity and availability.
            
            
               BAT 9.   In order to improve the general environmental performance of combustion and/or gasification plants and to reduce emissions to air, BAT is to include the following elements in the quality assurance/quality control programmes for all the fuels used, as part of the environmental management system (see BAT 1):
            
            
                        i.
                     
                     
                        Initial fullcharacterisation of the fuel used including at least the parameters listed below and in accordance with EN standards. ISO, national or other international standards may be used provided they ensure the provision of data of an equivalent scientific quality;
                     
                  
                        ii.
                     
                     
                        Regular testing of the fuel quality to check that it is consistent with the initial characterisationand according to the plant design specifications. The frequency of testing and the parameters chosen from the table below are based on the variability of the fuel and an assessment of the relevance of pollutant releases (e.g. concentration in fuel, flue-gas treatment employed);
                     
                  
                        iii.
                     
                     
                        Subsequent adjustment of the plant settings as and when needed and practicable (e.g. integration of the fuel characterisation and control in the advanced control system (see description in Section 8.1)).
                     
                  
               Description
            
            Initial characterisation and regular testing of the fuel can be performed by the operator and/or the fuel supplier. If performed by the supplier, the full results are provided to the operator in the form of a product (fuel) supplier specification and/or guarantee.
            
                        
                           Fuel(s)
                        
                     
                     
                        
                           Substances/Parameters subject to characterisation
                        
                     
                  
                        Biomass/peat
                     
                     
                        
                                    —
                                 
                                 
                                    LHV
                                 
                              
                                    —
                                 
                                 
                                    moisture
                                 
                              
                  
                        
                                    —
                                 
                                 
                                    Ash
                                 
                              
                                    —
                                 
                                 
                                    C, Cl, F, N, S, K, Na
                                 
                              
                                    —
                                 
                                 
                                    Metals and metalloids (As, Cd, Cr, Cu, Hg, Pb, Zn)
                                 
                              
                  
                        Coal/lignite
                     
                     
                        
                                    —
                                 
                                 
                                    LHV
                                 
                              
                                    —
                                 
                                 
                                    Moisture
                                 
                              
                                    —
                                 
                                 
                                    Volatiles, ash, fixed carbon, C, H, N, O, S
                                 
                              
                  
                        
                                    —
                                 
                                 
                                    Br, Cl, F
                                 
                              
                  
                        
                                    —
                                 
                                 
                                    Metals and metalloids (As, Cd, Co, Cr, Cu, Hg, Mn, Ni, Pb, Sb, Tl, V, Zn)
                                 
                              
                  
                        HFO
                     
                     
                        
                                    —
                                 
                                 
                                    Ash
                                 
                              
                                    —
                                 
                                 
                                    C, S, N, Ni, V
                                 
                              
                  
                        Gas oil
                     
                     
                        
                                    —
                                 
                                 
                                    Ash
                                 
                              
                                    —
                                 
                                 
                                    N, C, S
                                 
                              
                  
                        Natural gas
                     
                     
                        
                                    —
                                 
                                 
                                    LHV
                                 
                              
                                    —
                                 
                                 
                                    CH4, C2H6, C3, C4+, CO2, N2, Wobbe index
                                 
                              
                  
                        Process fuels from the chemical industry (27)
                        
                     
                     
                        
                                    —
                                 
                                 
                                    Br, C, Cl, F, H, N, O, S
                                 
                              
                                    —
                                 
                                 
                                    Metals and metalloids (As, Cd, Co, Cr, Cu, Hg, Mn, Ni, Pb, Sb, Tl, V, Zn)
                                 
                              
                  
                        Iron and steel process gases
                     
                     
                        
                                    —
                                 
                                 
                                    LHV, CH4 (for COG), CXHY (for COG), CO2, H2, N2, total sulphur, dust, Wobbe index
                                 
                              
                  
                        Waste (28)
                        
                     
                     
                        
                                    —
                                 
                                 
                                    LHV
                                 
                              
                                    —
                                 
                                 
                                    Moisture
                                 
                              
                                    —
                                 
                                 
                                    Volatiles, ash, Br, C, Cl, F, H, N, O, S
                                 
                              
                                    —
                                 
                                 
                                    Metals and metalloids (As, Cd, Co, Cr, Cu, Hg, Mn, Ni, Pb, Sb, Tl, V, Zn)
                                 
                              
                  
               BAT 10.   In order to reduce emissions to air and/or to water during other than normal operating conditions (OTNOC), BAT is to set up and implement a management plan as part of the environmental management system (see BAT 1), commensurate with the relevance of potential pollutant releases, that includes the following elements:
            
            
                        —
                     
                     
                        appropriate design of the systems considered relevant in causing OTNOC that may have an impact on emissions to air, water and/or soil (e.g. low-load design concepts for reducing the minimum start-up and shutdown loads for stable generation in gas turbines);
                     
                  
                        —
                     
                     
                        set-up and implementation of a specific preventive maintenance plan for these relevant systems;
                     
                  
                        —
                     
                     
                        review and recording of emissions caused by OTNOC and associated circumstances and implementation of corrective actions if necessary;
                     
                  
                        —
                     
                     
                        periodic assessment of the overall emissions during OTNOC (e.g. frequency of events, duration, emissions quantification/estimation) and implementation of corrective actions if necessary.
                     
                  
               BAT 11.   BAT is to appropriately monitor emissions to air and/or to water during OTNOC.
            
            
               Description
            
            The monitoring can be carried out by direct measurement of emissions or by monitoring of surrogate parameters if this proves to be of equal or better scientific quality than the direct measurement of emissions. Emissions during start-up and shutdown (SU/SD) may be assessed based on a detailed emission measurement carried out for a typical SU/SD procedure at least once every year, and using the results of this measurement to estimate the emissions for each and every SU/SD throughout the year.
            
               1.4.   Energy efficiency
            
            
               BAT 12.   In order to increase the energy efficiency of combustion, gasification and/or IGCC units operated ≥ 1 500 h/yr, BAT is to use an appropriate combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Combustion optimisation
                     
                     
                        See description in Section 8.2.
                        Optimising the combustion minimises the content of unburnt substances in the flue-gases and in solid combustion residues
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Optimisation of the working medium conditions
                     
                     
                        Operate at the highest possible pressure and temperature of the working medium gas or steam, within the constraints associated with, for example, the control of NOX emissions or the characteristics of energy demanded
                     
                  
                        c.
                     
                     
                        Optimisation of the steam cycle
                     
                     
                        Operate with lower turbine exhaust pressure by utilisation of the lowest possible temperature of the condenser cooling water, within the design conditions
                     
                  
                        d.
                     
                     
                        Minimisation of energy consumption
                     
                     
                        Minimising the internal energy consumption (e.g. greater efficiency of the feed-water pump)
                     
                  
                        e.
                     
                     
                        Preheating of combustion air
                     
                     
                        Reuse of part of the heat recovered from the combustion flue-gas to preheat the air used in combustion
                     
                     
                        Generally applicable within the constraints related to the need to control NOX emissions
                     
                  
                        f.
                     
                     
                        Fuel preheating
                     
                     
                        Preheating of fuel using recovered heat
                     
                     
                        Generally applicable within the constraints associated with the boiler design and the need to control NOX emissions
                     
                  
                        g.
                     
                     
                        Advanced control system
                     
                     
                        See description in Section 8.2.
                        Computerised control of the main combustion parameters enables the combustion efficiency to be improved
                     
                     
                        Generally applicable to new units. The applicability to old units may be constrained by the need to retrofit the combustion system and/or control command system
                     
                  
                        h.
                     
                     
                        Feed-water preheating using recovered heat
                     
                     
                        Preheat water coming out of the steam condenser with recovered heat, before reusing it in the boiler
                     
                     
                        Only applicable to steam circuits and not to hot boilers.
                        Applicability to existing units may be limited due to constraints associated with the plant configuration and the amount of recoverable heat
                     
                  
                        i.
                     
                     
                        Heat recovery by cogeneration (CHP)
                     
                     
                        Recovery of heat (mainly from the steam system) for producing hot water/steam to be used in industrial processes/activities or in a public network for district heating. Additional heat recovery is possible from:
                        
                                    —
                                 
                                 
                                    flue-gas
                                 
                              
                                    —
                                 
                                 
                                    grate cooling
                                 
                              
                                    —
                                 
                                 
                                    circulating fluidised bed
                                 
                              
                     
                        Applicable within the constraints associated with the local heat and power demand.
                        The applicability may be limited in the case of gas compressors with an unpredictable operational heat profile
                     
                  
                        j.
                     
                     
                        CHP readiness
                     
                     
                        See description in Section 8.2.
                     
                     
                        Only applicable to new units where there is a realistic potential for the future use of heat in the vicinity of the unit
                     
                  
                        k.
                     
                     
                        Flue-gas condenser
                     
                     
                        See description in Section 8.2.
                     
                     
                        Generally applicable to CHP units provided there is enough demand for low-temperature heat
                     
                  
                        l.
                     
                     
                        Heat accumulation
                     
                     
                        Heat accumulation storage in CHP mode
                     
                     
                        Only applicable to CHP plants.
                        The applicability may be limited in the case of low heat load demand
                     
                  
                        m.
                     
                     
                        Wet stack
                     
                     
                        See description in Section 8.2.
                     
                     
                        Generally applicable to new and existing units fitted with wet FGD
                     
                  
                        n.
                     
                     
                        Cooling tower discharge
                     
                     
                        The release of emissions to air through a cooling tower and not via a dedicated stack
                     
                     
                        Only applicable to units fitted with wet FGD where reheating of the flue-gas is necessary before release, and where the unit cooling system is a cooling tower
                     
                  
                        o.
                     
                     
                        Fuel pre-drying
                     
                     
                        The reduction of fuel moisture content before combustion to improve combustion conditions
                     
                     
                        Applicable to the combustion of biomass and/or peat within the constraints associated with spontaneous combustion risks (e.g. the moisture content of peat is kept above 40 % throughout the delivery chain).
                        The retrofit of existing plants may be restricted by the extra calorific value that can be obtained from the drying operation and by the limited retrofit possibilities offered by some boiler designs or plant configurations
                     
                  
                        p.
                     
                     
                        Minimisation of heat losses
                     
                     
                        Minimising residual heat losses, e.g. those that occur via the slag or those that can be reduced by insulating radiating sources
                     
                     
                        Only applicable to solid-fuel-fired combustion units and to gasification/IGCC units
                     
                  
                        q.
                     
                     
                        Advanced materials
                     
                     
                        Use of advanced materials proven to be capable of withstanding high operating temperatures and pressures and thus to achieve increased steam/combustion process efficiencies
                     
                     
                        Only applicable to new plants
                     
                  
                        r.
                     
                     
                        Steam turbine upgrades
                     
                     
                        This includes techniques such as increasing the temperature and pressure of medium-pressure steam, addition of a low-pressure turbine, and modifications to the geometry of the turbine rotor blades
                     
                     
                        The applicability may be restricted by demand, steam conditions and/or limited plant lifetime
                     
                  
                        s.
                     
                     
                        Supercritical and ultra-supercritical steam conditions
                     
                     
                        Use of a steam circuit, including steam reheating systems, in which steam can reach pressures above 220,6 bar and temperatures above 374 °C in the case of supercritical conditions, and above 250 – 300 bar and temperatures above 580 – 600 °C in the case of ultra-supercritical conditions
                     
                     
                        Only applicable to new units of ≥ 600 MWth operated > 4 000  h/yr.
                        Not applicable when the purpose of the unit is to produce low steam temperatures and/or pressures in process industries.
                        Not applicable to gas turbines and engines generating steam in CHP mode.
                        For units combusting biomass, the applicability may be constrained by high-temperature corrosion in the case of certain biomasses
                     
                  
               1.5.   Water usage and emissions to water
            
            
               BAT 13.   In order to reduce water usage and the volume of contaminated waste water discharged, BAT is to use one or both of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Water recycling
                     
                     
                        Residual aqueous streams, including run-off water, from the plant are reused for other purposes. The degree of recycling is limited by the quality requirements of the recipient water stream and the water balance of the plant
                     
                     
                        Not applicable to waste water from cooling systems when water treatment chemicals and/or high concentrations of salts from seawater are present
                     
                  
                        b.
                     
                     
                        Dry bottom ash handling
                     
                     
                        Dry, hot bottom ash falls from the furnace onto a mechanical conveyor system and is cooled down by ambient air. No water is used in the process.
                     
                     
                        Only applicable to plants combusting solid fuels.
                        There may be technical restrictions that prevent retrofitting to existing combustion plants
                     
                  
               BAT 14.   In order to prevent the contamination of uncontaminated waste water and to reduce emissions to water, BAT is to segregate waste water streams and to treat them separately, depending on the pollutant content.
            
            
               Description
            
            Waste water streams that are typically segregated and treated include surface run-off water, cooling water, and waste water from flue-gas treatment.
            
               Applicability
            
            The applicability may be restricted in the case of existing plants due to the configuration of the drainage systems.
            
               BAT 15.   In order to reduce emissions to water from flue-gas treatment, BAT is to use an appropriate combination of the techniques given below, and to use secondary techniques as close as possible to the source in order to avoid dilution.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Typical pollutants prevented/abated
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                         
                     
                     
                        
                           Primary techniques
                        
                     
                  
                        a.
                     
                     
                        Optimised combustion (see BAT 6) and flue-gas treatment systems (e.g. SCR/SNCR, see BAT 7)
                     
                     
                        Organic compounds, ammonia (NH3)
                     
                     
                        Generally applicable
                     
                  
                         
                     
                     
                        
                           Secondary techniques
                            (29)
                        
                     
                  
                        b.
                     
                     
                        Adsorption on activated carbon
                     
                     
                        Organic compounds, mercury (Hg)
                     
                     
                        Generally applicable
                     
                  
                        c.
                     
                     
                        Aerobic biological treatment
                     
                     
                        Biodegradable organic compounds, ammonium (NH4
                           +)
                     
                     
                        Generally applicable for the treatment of organic compounds. Aerobic biological treatment of ammonium (NH4
                           +) may not be applicable in the case of high chloride concentrations (i.e. around 10 g/l)
                     
                  
                        d.
                     
                     
                        Anoxic/anaerobic biological treatment
                     
                     
                        Mercury (Hg), nitrate (NO3
                           -), nitrite (NO2
                           -)
                     
                     
                        Generally applicable
                     
                  
                        e.
                     
                     
                        Coagulation and flocculation
                     
                     
                        Suspended solids
                     
                     
                        Generally applicable
                     
                  
                        f.
                     
                     
                        Crystallisation
                     
                     
                        Metals and metalloids, sulphate (SO4
                           2-), fluoride (F-)
                     
                     
                        Generally applicable
                     
                  
                        g.
                     
                     
                        Filtration (e.g. sand filtration, microfiltration, ultrafiltration)
                     
                     
                        Suspended solids, metals
                     
                     
                        Generally applicable
                     
                  
                        h.
                     
                     
                        Flotation
                     
                     
                        Suspended solids, free oil
                     
                     
                        Generally applicable
                     
                  
                        i.
                     
                     
                        Ion exchange
                     
                     
                        Metals
                     
                     
                        Generally applicable
                     
                  
                        j.
                     
                     
                        Neutralisation
                     
                     
                        Acids, alkalis
                     
                     
                        Generally applicable
                     
                  
                        k.
                     
                     
                        Oxidation
                     
                     
                        Sulphide (S2-), sulphite (SO3
                           2-)
                     
                     
                        Generally applicable
                     
                  
                        l.
                     
                     
                        Precipitation
                     
                     
                        Metals and metalloids, sulphate (SO4
                           2-), fluoride (F-)
                     
                     
                        Generally applicable
                     
                  
                        m.
                     
                     
                        Sedimentation
                     
                     
                        Suspended solids
                     
                     
                        Generally applicable
                     
                  
                        n.
                     
                     
                        Stripping
                     
                     
                        Ammonia (NH3)
                     
                     
                        Generally applicable
                     
                  The BAT-AELs refer to direct discharges to a receiving water body at the point where the emission leaves the installation.
            
               Table 1
            
            BAT-AELs for direct discharges to a receiving water body from flue-gas treatment
            
                        
                           Substance/Parameter
                        
                     
                     
                        
                           BAT-AELs
                        
                     
                  
                        
                           Daily average
                        
                     
                  
                        Total organic carbon (TOC)
                     
                     
                        20 –50  mg/l (30)
                            (31)
                            (32)
                        
                     
                  
                        Chemical oxygen demand (COD)
                     
                     
                        60 –150  mg/l (30)
                            (31)
                            (32)
                        
                     
                  
                        Total suspended solids (TSS)
                     
                     
                        10 –30  mg/l
                     
                  
                        Fluoride (F-)
                     
                     
                        10 –25  mg/l (32)
                        
                     
                  
                        Sulphate (SO4
                           2-)
                     
                     
                        1,3 –2,0  g/l (32)
                            (33)
                            (34)
                            (35)
                        
                     
                  
                        Sulphide (S2-), easily released
                     
                     
                        0,1 –0,2  mg/l (32)
                        
                     
                  
                        Sulphite (SO3
                           2-)
                     
                     
                        1 –20  mg/l (32)
                        
                     
                  
                        Metals and metalloids
                     
                     
                        As
                     
                     
                        10 –50  μg/l
                     
                  
                        Cd
                     
                     
                        2 –5  μg/l
                     
                  
                        Cr
                     
                     
                        10 –50  μg/l
                     
                  
                        Cu
                     
                     
                        10 –50  μg/l
                     
                  
                        Hg
                     
                     
                        0,2 –3  μg/l
                     
                  
                        Ni
                     
                     
                        10 –50  μg/l
                     
                  
                        Pb
                     
                     
                        10 –20  μg/l
                     
                  
                        Zn
                     
                     
                        50 –200  μg/l
                     
                  
               1.6.   Waste management
            
            
               BAT 16.   In order to reduce the quantity of waste sent for disposal from the combustion and/or gasification process and abatement techniques, BAT is to organise operations so as to maximise, in order of priority and taking into account life-cycle thinking:
            
            
                        a.
                     
                     
                        waste prevention, e.g. maximise the proportion of residues which arise as by-products;
                     
                  
                        b.
                     
                     
                        waste preparation for reuse, e.g. according to the specific requested quality criteria;
                     
                  
                        c.
                     
                     
                        waste recycling;
                     
                  
                        d.
                     
                     
                        other waste recovery (e.g. energy recovery),
                     
                  by implementing an appropriate combination of techniques such as:
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Generation of gypsum as a by-product
                     
                     
                        Quality optimisation of the calcium-based reaction residues generated by the wet FGD so that they can be used as a substitute for mined gypsum (e.g. as raw material in the plasterboard industry). The quality of limestone used in the wet FGD influences the purity of the gypsum produced
                     
                     
                        Generally applicable within the constraints associated with the required gypsum quality, the health requirements associated to each specific use, and by the market conditions
                     
                  
                        b.
                     
                     
                        Recycling or recovery of residues in the construction sector
                     
                     
                        Recycling or recovery of residues (e.g. from semi-dry desulphurisation processes, fly ash, bottom ash) as a construction material (e.g. in road building, to replace sand in concrete production, or in the cement industry)
                     
                     
                        Generally applicable within the constraints associated with the required material quality (e.g. physical properties, content of harmful substances) associated to each specific use, and by the market conditions
                     
                  
                        c.
                     
                     
                        Energy recovery by using waste in the fuel mix
                     
                     
                        The residual energy content of carbon-rich ash and sludges generated by the combustion of coal, lignite, heavy fuel oil, peat or biomass can be recovered for example by mixing with the fuel
                     
                     
                        Generally applicable where plants can accept waste in the fuel mix and are technically able to feed the fuels into the combustion chamber
                     
                  
                        d.
                     
                     
                        Preparation of spent catalyst for reuse
                     
                     
                        Preparation of catalyst for reuse (e.g. up to four times for SCR catalysts) restores some or all of the original performance, extending the service life of the catalyst to several decades. Preparation of spent catalyst for reuse is integrated in a catalyst management scheme
                     
                     
                        The applicability may be limited by the mechanical condition of the catalyst and the required performance with respect to controlling NOX and NH3 emissions
                     
                  
               1.7.   Noise emissions
            
            
               BAT 17.   In order to reduce noise emissions, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Operational measures
                     
                     
                        These include:
                        
                                    —
                                 
                                 
                                    improved inspection and maintenance of equipment
                                 
                              
                                    —
                                 
                                 
                                    closing of doors and windows of enclosed areas, if possible
                                 
                              
                                    —
                                 
                                 
                                    equipment operated by experienced staff
                                 
                              
                                    —
                                 
                                 
                                    avoidance of noisy activities at night, if possible
                                 
                              
                                    —
                                 
                                 
                                    provisions for noise control during maintenance activities
                                 
                              
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Low-noise equipment
                     
                     
                        This potentially includes compressors, pumps and disks
                     
                     
                        Generally applicable when the equipment is new or replaced
                     
                  
                        c.
                     
                     
                        Noise attenuation
                     
                     
                        Noise propagation can be reduced by inserting obstacles between the emitter and the receiver. Appropriate obstacles include protection walls, embankments and buildings
                     
                     
                        Generally applicable to new plants. In the case of existing plants, the insertion of obstacles may be restricted by lack of space
                     
                  
                        d.
                     
                     
                        Noise-control equipment
                     
                     
                        This includes:
                        
                                    —
                                 
                                 
                                    noise-reducers
                                 
                              
                                    —
                                 
                                 
                                    equipment insulation
                                 
                              
                                    —
                                 
                                 
                                    enclosure of noisy equipment
                                 
                              
                                    —
                                 
                                 
                                    soundproofing of buildings
                                 
                              
                     
                        The applicability may be restricted by lack of space
                     
                  
                        e.
                     
                     
                        Appropriate location of equipment and buildings
                     
                     
                        Noise levels can be reduced by increasing the distance between the emitter and the receiver and by using buildings as noise screens
                     
                     
                        Generally applicable to new plants. In the case of existing plants, the relocation of equipment and production units may be restricted by lack of space or by excessive costs
                     
                  2.   BAT CONCLUSIONS FOR THE COMBUSTION OF SOLID FUELS
            
               2.1.   BAT conclusions for the combustion of coal and/or lignite
            
            Unless otherwise stated, the BAT conclusions presented in this section are generally applicable to the combustion of coal and/or lignite. They apply in addition to the general BAT conclusions given in Section 1.
            2.1.1.   General environmental performance
            
            
               BAT 18.   In order to improve the general environmental performance of the combustion of coal and/or lignite, and in addition to BAT 6, BAT is to use the technique given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Integrated combustion process ensuring high boiler efficiency and including primary techniques for NOX reduction (e.g. air staging, fuel staging, low-NOX burners (LNB) and/or flue-gas recirculation)
                     
                     
                        Combustion processes such as pulverised combustion, fluidised bed combustion or moving grate firing allow this integration
                     
                     
                        Generally applicable
                     
                  2.1.2.   Energy efficiency
            
            
               BAT 19.   In order to increase the energy efficiency of the combustion of coal and/or lignite, BAT is to use an appropriate combination of the techniques given in BAT 12 and below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Dry bottom ash handling
                     
                     
                        Dry hot bottom ash falls from the furnace onto a mechanical conveyor system and, after redirection to the furnace for reburning, is cooled down by ambient air. Useful energy is recovered from both the ash reburning and ash cooling
                     
                     
                        There may be technical restrictions that prevent retrofitting to existing combustion units
                     
                  
               
            
               Table 2
            
            BAT-associated energy efficiency levels (BAT-AEELs) for coal and/or lignite combustion
            
                        
                           Type of combustion unit
                        
                     
                     
                        
                           BAT-AEELs
                            (36)
                            (37)
                        
                     
                  
                        
                           Net electrical efficiency (%)
                            (38)
                        
                     
                     
                        
                           Net total fuel utilisation (%)
                            (38)
                            (39)
                            (40)
                        
                     
                  
                        
                           New unit
                            (41)
                            (42)
                        
                     
                     
                        
                           Existing unit
                            (41)
                            (43)
                        
                     
                     
                        
                           New or existing unit
                        
                     
                  
                        Coal-fired, ≥ 1 000  MWth
                        
                     
                     
                        45  – 46 
                     
                     
                        33,5  – 44 
                     
                     
                        75  – 97 
                     
                  
                        Lignite-fired, ≥ 1 000  MWth
                        
                     
                     
                        42  – 44  (44)
                        
                     
                     
                        33,5  – 42,5 
                     
                     
                        75  – 97 
                     
                  
                        Coal-fired, < 1 000  MWth
                        
                     
                     
                        36,5  – 41,5  (45)
                        
                     
                     
                        32,5  – 41,5 
                     
                     
                        75  – 97 
                     
                  
                        Lignite-fired, < 1 000  MWth
                        
                     
                     
                        36,5  – 40  (46)
                        
                     
                     
                        31,5  – 39,5 
                     
                     
                        75  – 97 
                     
                  2.1.3.   NOX, N2O and CO emissions to air
            
            
               BAT 20.   In order to prevent or reduce NOX emissions to air while limiting CO and N2O emissions to air from the combustion of coal and/or lignite, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Combustion optimisation
                     
                     
                        See description in Section 8.3.
                        Generally used in combination with other techniques
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Combination of other primary techniques for NOX reduction (e.g. air staging, fuel staging, flue-gas recirculation, low-NOX burners (LNB))
                     
                     
                        See description in Section 8.3 for each single technique.
                        The choice and performance of (an) appropriate (combination of) primary techniques may be influenced by the boiler design
                     
                  
                        c.
                     
                     
                        Selective non-catalytic reduction (SNCR)
                     
                     
                        See description in Section 8.3.
                        Can be applied with ‘slip’ SCR
                     
                     
                        The applicability may be limited in the case of boilers with a high cross-sectional area preventing homogeneous mixing of NH3 and NOX.
                        The applicability may be limited in the case of combustion plants operated < 1 500  h/yr with highly variable boiler loads
                     
                  
                        d.
                     
                     
                        Selective catalytic reduction (SCR)
                     
                     
                        See description in Section 8.3
                     
                     
                        Not applicable to combustion plants of < 300 MWth operated < 500 h/yr.
                        Not generally applicable to combustion plants of < 100 MWth.
                        There may be technical and economic restrictions for retrofitting existing combustion plants operated between 500 h/yr and 1 500  h/yr and for existing combustion plants of ≥ 300 MWth operated < 500 h/yr
                     
                  
                        e.
                     
                     
                        Combined techniques for NOX and SOX reduction
                     
                     
                        See description in Section 8.3
                     
                     
                        Applicable on a case-by-case basis, depending on the fuel characteristics and combustion process
                     
                  
               
            
               Table 3
            
            BAT-associated emission levels (BAT-AELs) for NOX emissions to air from the combustion of coal and/or lignite
            
                        
                           Combustion plant total rated thermal input
                        
                        
                           (MWth)
                        
                     
                     
                        
                           BAT-AELs (mg/Nm3)
                        
                     
                  
                        
                           Yearly average
                        
                     
                     
                        
                           Daily average or average over the sampling period
                        
                     
                  
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (47)
                        
                     
                     
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (48)
                            (49)
                        
                     
                  
                        < 100 
                     
                     
                        100 –150 
                     
                     
                        100 –270 
                     
                     
                        155 –200 
                     
                     
                        165 –330 
                     
                  
                        100 –300 
                     
                     
                        50 –100 
                     
                     
                        100 –180 
                     
                     
                        80 –130 
                     
                     
                        155 –210 
                     
                  
                        ≥ 300, FBC boiler combusting coal and/or lignite and lignite-fired PC boiler
                     
                     
                        50  – 85 
                     
                     
                        < 85  – 150  (50)
                            (51)
                        
                     
                     
                        80  – 125 
                     
                     
                        140  – 165  (52)
                        
                     
                  
                        ≥ 300, coal-fired PC boiler
                     
                     
                        65  – 85 
                     
                     
                        65  – 150 
                     
                     
                        80  – 125 
                     
                     
                        < 85  – 165  (53)
                        
                     
                  As an indication, the yearly average CO emission levels for existing combustion plants operated ≥ 1 500 h/yr or for new combustion plants will generally be as follows:
            
                        
                           Combustion plant total rated thermal input (MWth)
                        
                     
                     
                        
                           CO indicative emission level (mg/Nm3
                        
                     
                  
                        < 300
                     
                     
                        < 30 –140 
                     
                  
                        ≥ 300, FBC boiler combusting coal and/or lignite and lignite-fired PC boiler
                     
                     
                        < 30 –100  (54)
                        
                     
                  
                        ≥ 300, coal-fired PC boiler
                     
                     
                        < 5 –100  (54)
                        
                     
                  2.1.4.   SOX, HCl and HF emissions to air
            
            
               BAT 21.   In order to prevent or reduce SOX, HCl and HF emissions to air from the combustion of coal and/or lignite, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Boiler sorbent injection (in-furnace or in-bed)
                     
                     
                        See description in Section 8.4
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Duct sorbent injection (DSI)
                     
                     
                        See description in Section 8.4.
                        The technique can be used for HCl/HF removal when no specific FGD end-of-pipe technique is implemented
                     
                  
                        c.
                     
                     
                        Spray dry absorber (SDA)
                     
                     
                        See description in Section 8.4
                     
                  
                        d.
                     
                     
                        Circulating fluidised bed (CFB) dry scrubber
                     
                  
                        e.
                     
                     
                        Wet scrubbing
                     
                     
                        See description in Section 8.4.
                        The techniques can be used for HCl/HF removal when no specific FGD end-of-pipe technique is implemented
                     
                  
                        f.
                     
                     
                        Wet flue-gas desulphurisation (wet FGD)
                     
                     
                        See description in Section 8.4
                     
                     
                        Not applicable to combustion plants operated < 500 h/yr.
                        There may be technical and economic restrictions for applying the technique to combustion plants of < 300 MWth, and for retrofitting existing combustion plants operated between 500 h/yr and 1 500  h/yr
                     
                  
                        g.
                     
                     
                        Seawater FGD
                     
                  
                        h.
                     
                     
                        Combined techniques for NOX and SOX reduction
                     
                     
                        Applicable on a case-by-case basis, depending on the fuel characteristics and combustion process
                     
                  
                        i.
                     
                     
                        Replacement or removal of the gas-gas heater located downstream of the wet FGD
                     
                     
                        Replacement of the gas-gas heater downstream of the wet FGD by a multi-pipe heat extractor, or removal and discharge of the flue-gas via a cooling tower or a wet stack
                     
                     
                        Only applicable when the heat exchanger needs to be changed or replaced in combustion plants fitted with wet FGD and a downstream gas-gas heater
                     
                  
                        j.
                     
                     
                        Fuel choice
                     
                     
                        See description in Section 8.4.
                        Use of fuel with low sulphur (e.g. down to 0,1 wt-%, dry basis), chlorine or fluorine content
                     
                     
                        Applicable within the constraints associated with the availability of different types of fuel, which may be impacted by the energy policy of the Member State. The applicability may be limited due to design constraints in the case of combustion plants combusting highly specific indigenous fuels
                     
                  
               
            
               Table 4
            
            BAT-associated emission levels (BAT-AELs) for SO2 emissions to air from the combustion of coal and/or lignite
            
                        
                           Combustion plant total rated thermal input
                        
                        
                           (MWth)
                        
                     
                     
                        
                           BAT-AELs (mg/Nm3)
                        
                     
                  
                        
                           Yearly average
                        
                     
                     
                        
                           Daily average
                        
                     
                     
                        
                           Daily average or average over the sampling period
                        
                     
                  
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (55)
                        
                     
                     
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (56)
                        
                     
                  
                        < 100 
                     
                     
                        150 –200 
                     
                     
                        150 –360 
                     
                     
                        170 –220 
                     
                     
                        170 –400 
                     
                  
                        100 –300 
                     
                     
                        80 –150 
                     
                     
                        95 –200 
                     
                     
                        135 –200 
                     
                     
                        135 –220  (57)
                        
                     
                  
                        ≥ 300 , PC boiler
                     
                     
                        10 –75 
                     
                     
                        10 –130  (58)
                        
                     
                     
                        25 –110 
                     
                     
                        25 –165  (59)
                        
                     
                  
                        ≥ 300 , Fluidised bed boiler (60)
                        
                     
                     
                        20 –75 
                     
                     
                        20 –180 
                     
                     
                        25 –110 
                     
                     
                        50 –220 
                     
                  For a combustion plant with a total rated thermal input of more than 300 MW, which is specifically designed to fire indigenous lignite fuels and which can demonstrate that it cannot achieve the BAT-AELs mentioned in Table 4 for techno-economic reasons, the daily average BAT-AELs set out in Table 4 do not apply, and the upper end of the yearly average BAT-AEL range is as follows:
            
                        (i)
                     
                     
                        for a new FGD system: RCG x 0,01 with a maximum of 200 mg/Nm3;
                     
                  
                        (ii)
                     
                     
                        for an existing FGD system: RCG x 0,03 with a maximum of 320 mg/Nm3;
                        in which RCG represents the concentration of SO2 in the raw flue-gas as a yearly average (under the standard conditions given under General considerations) at the inlet of the SOX abatement system, expressed at a reference oxygen content of 6 vol-% O2.
                     
                  
                        (iii)
                     
                     
                        If boiler sorbent injection is applied as part of the FGD system, the RCG may be adjusted by taking into account the SO2 reduction efficiency of this technique (ηΒSI), as follows: RCG (adjusted) = RCG (measured)/(1-ηΒSI).
                     
                  
               Table 5
            
            BAT-associated emission levels (BAT-AELs) for HCl and HF emissions to air from the combustion of coal and/or lignite
            
                        
                           Pollutant
                        
                     
                     
                        
                           Combustion plant total rated thermal input
                        
                        
                           (MWth)
                        
                     
                     
                        
                           BAT-AELs (mg/Nm3)
                        
                     
                  
                        
                           Yearly average or average of samples obtained during one year
                        
                     
                  
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (61)
                        
                     
                  
                        HCl
                     
                     
                        < 100 
                     
                     
                        1 –6 
                     
                     
                        2 –10  (62)
                        
                     
                  
                        ≥ 100 
                     
                     
                        1 –3 
                     
                     
                        1 –5  (62)
                            (63)
                        
                     
                  
                        HF
                     
                     
                        < 100 
                     
                     
                        < 1 –3 
                     
                     
                        < 1 –6  (64)
                        
                     
                  
                        ≥ 100 
                     
                     
                        < 1 –2 
                     
                     
                        < 1 –3  (64)
                        
                     
                  2.1.5.   Dust and particulate-bound metal emissions to air
            
            
               BAT 22.   In order to reduce dust and particulate-bound metal emissions to air from the combustion of coal and/or lignite, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Electrostatic precipitator (ESP)
                     
                     
                        See description in Section 8.5
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Bag filter
                     
                  
                        c.
                     
                     
                        Boiler sorbent injection
                        (in-furnace or in-bed)
                     
                     
                        See descriptions in Section 8.5.
                        The techniques are mainly used for SOX, HCl and/or HF control
                     
                  
                        d.
                     
                     
                        Dry or semi-dry FGD system
                     
                  
                        e.
                     
                     
                        Wet flue-gas desulphurisation (wet FGD)
                     
                     
                        See applicability in BAT 21
                     
                  
               
            
               Table 6
            
            BAT-associated emission levels (BAT-AELs) for dust emissions to air from the combustion of coal and/or lignite
            
                        
                           Combustion plant total rated thermal input
                        
                        
                           (MWth)
                           
                        
                     
                     
                        
                           BAT-AELs (mg/Nm3)
                        
                     
                  
                        
                           Yearly average
                        
                     
                     
                        
                           Daily average or average over the sampling period
                        
                     
                  
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (65)
                        
                     
                     
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (66)
                        
                     
                  
                        < 100 
                     
                     
                        2 –5 
                     
                     
                        2 –18 
                     
                     
                        4 –16 
                     
                     
                        4 –22  (67)
                        
                     
                  
                        100 –300 
                     
                     
                        2 –5 
                     
                     
                        2 –14 
                     
                     
                        3 –15 
                     
                     
                        4 –22  (68)
                        
                     
                  
                        300 –1 000 
                     
                     
                        2 –5 
                     
                     
                        2 –10  (69)
                        
                     
                     
                        3 –10 
                     
                     
                        3 –11  (70)
                        
                     
                  
                        ≥ 1 000 
                     
                     
                        2 –5 
                     
                     
                        2 –8 
                     
                     
                        3 –10 
                     
                     
                        3 –11  (71)
                        
                     
                  2.1.6.   Mercury emissions to air
            
            
               BAT 23.   In order to prevent or reduce mercury emissions to air from the combustion of coal and/or lignite, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        
                           Co-benefit from techniques primarily used to reduce emissions of other pollutants
                        
                     
                  
                        a.
                     
                     
                        Electrostatic precipitator (ESP)
                     
                     
                        See description in Section 8.5.
                        Higher mercury removal efficiency is achieved at flue-gas temperatures below 130 °C.
                        The technique is mainly used for dust control
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Bag filter
                     
                     
                        See description in Section 8.5.
                        The technique is mainly used for dust control
                     
                  
                        c.
                     
                     
                        Dry or semi-dry FGD system
                     
                     
                        See descriptions in Section 8.5.
                        The techniques are mainly used for SOX, HCl and/or HF control
                     
                  
                        d.
                     
                     
                        Wet flue-gas desulphurisation (wet FGD)
                     
                     
                        See applicability in BAT 21
                     
                  
                        e.
                     
                     
                        Selective catalytic reduction (SCR)
                     
                     
                        See description in Section 8.3.
                        Only used in combination with other techniques to enhance or reduce the mercury oxidation before capture in a subsequent FGD or dedusting system.
                        The technique is mainly used for NOX control
                     
                     
                        See applicability in BAT 20
                     
                  
                        
                           Specific techniques to reduce mercury emissions
                        
                     
                  
                        f.
                     
                     
                        Carbon sorbent (e.g. activated carbon or halogenated activated carbon) injection in the flue-gas
                     
                     
                        See description in Section 8.5.
                        Generally used in combination with an ESP/bag filter. The use of this technique may require additional treatment steps to further segregate the mercury-containing carbon fraction prior to further reuse of the fly ash
                     
                     
                        Generally applicable
                     
                  
                        g.
                     
                     
                        Use of halogenated additives in the fuel or injected in the furnace
                     
                     
                        See description in Section 8.5
                     
                     
                        Generally applicable in the case of a low halogen content in the fuel
                     
                  
                        h.
                     
                     
                        Fuel pretreatment
                     
                     
                        Fuel washing, blending and mixing in order to limit/reduce the mercury content or improve mercury capture by pollution control equipment
                     
                     
                        Applicability is subject to a previous survey for characterising the fuel and for estimating the potential effectiveness of the technique
                     
                  
                        i.
                     
                     
                        Fuel choice
                     
                     
                        See description in Section 8.5
                     
                     
                        Applicable within the constraints associated with the availability of different types of fuel, which may be impacted by the energy policy of the Member State
                     
                  
               
            
               Table 7
            
            BAT-associated emission levels (BAT-AELs) for mercury emissions to air from the combustion of coal and lignite
            
                        
                           Combustion plant total rated thermal input (MWth)
                        
                     
                     
                        
                           BAT-AELs (μg/Nm3)
                        
                     
                  
                        
                           Yearly average or average of samples obtained during one year
                        
                     
                  
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (72)
                        
                     
                  
                        coal
                     
                     
                        lignite
                     
                     
                        coal
                     
                     
                        lignite
                     
                  
                        < 300 
                     
                     
                        < 1 –3 
                     
                     
                        < 1 –5 
                     
                     
                        < 1 –9 
                     
                     
                        < 1 –10 
                     
                  
                        ≥ 300 
                     
                     
                        < 1 –2 
                     
                     
                        < 1 –4 
                     
                     
                        < 1 –4 
                     
                     
                        < 1 –7 
                     
                  
               2.2.   BAT conclusions for the combustion of solid biomass and/or peat
            
            Unless otherwise stated, the BAT conclusions presented in this section are generally applicable to the combustion of solid biomass and/or peat. They apply in addition to the general BAT conclusions given in Section 1.
            2.2.1.   Energy efficiency
            
            
               Table 8
            
            BAT-associated energy efficiency levels (BAT-AEELs) for the combustion of solid biomass and/or peat
            
                        
                           Type of combustion unit
                        
                     
                     
                        
                           BAT-AEELs
                            (73)
                            (74)
                        
                     
                  
                        
                           Net electrical efficiency (%)
                            (75)
                        
                     
                     
                        
                           Net total fuel utilisation (%)
                            (76)
                            (77)
                        
                     
                  
                        
                           New unit
                            (78)
                        
                     
                     
                        
                           Existing unit
                        
                     
                     
                        
                           New unit
                        
                     
                     
                        
                           Existing unit
                        
                     
                  
                        Solid biomass and/or peat boiler
                     
                     
                        33,5 –to > 38 
                     
                     
                        28 –38 
                     
                     
                        73 –99 
                     
                     
                        73 –99 
                     
                  2.2.2.   NOX, N2O and CO emissions to air
            
            
               BAT 24.   In order to prevent or reduce NOX emissions to air while limiting CO and N2O emissions to air from the combustion of solid biomass and/or peat, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Combustion optimisation
                     
                     
                        See descriptions in Section 8.3
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Low-NOX burners (LNB)
                     
                  
                        c.
                     
                     
                        Air staging
                     
                  
                        d.
                     
                     
                        Fuel staging
                     
                  
                        e.
                     
                     
                        Flue-gas recirculation
                     
                  
                        f.
                     
                     
                        Selective non-catalytic reduction (SNCR)
                     
                     
                        See description in Section 8.3.
                        Can be applied with ‘slip’ SCR
                     
                     
                        Not applicable to combustion plants operated < 500 h/yr with highly variable boiler loads.
                        The applicability may be limited in the case of combustion plants operated between 500 h/yr and 1 500  h/yr with highly variable boiler loads.
                        For existing combustion plants, applicable within the constraints associated with the required temperature window and residence time for the injected reactants
                     
                  
                        g.
                     
                     
                        Selective catalytic reduction (SCR)
                     
                     
                        See description in Section 8.3.
                        The use of high-alkali fuels (e.g. straw) may require the SCR to be installed downstream of the dust abatement system
                     
                     
                        Not applicable to combustion plants operated < 500 h/yr.
                        There may be economic restrictions for retrofitting existing combustion plants of < 300 MWth.
                        Not generally applicable to existing combustion plants of < 100 MWth
                        
                     
                  
               
            
               Table 9
            
            BAT-associated emission levels (BAT-AELs) for NOX emissions to air from the combustion of solid biomass and/or peat
            
                        
                           Combustion plant total rated thermal input
                        
                        
                           (MWth)
                        
                     
                     
                        
                           BAT-AELs (mg/Nm3)
                        
                     
                  
                        
                           Yearly average
                        
                     
                     
                        
                           Daily average or average over the sampling period
                        
                     
                  
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (79)
                        
                     
                     
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (80)
                        
                     
                  
                        50 –100 
                     
                     
                        70 –150  (81)
                        
                     
                     
                        70 –225  (82)
                        
                     
                     
                        120 –200  (83)
                        
                     
                     
                        120 –275  (84)
                        
                     
                  
                        100 –300 
                     
                     
                        50 –140 
                     
                     
                        50 –180 
                     
                     
                        100 –200 
                     
                     
                        100 –220 
                     
                  
                        ≥ 300 
                     
                     
                        40 –140 
                     
                     
                        40 –150  (85)
                        
                     
                     
                        65 –150 
                     
                     
                        95 –165  (86)
                        
                     
                  As an indication, the yearly average CO emission levels will generally be:
            
                        —
                     
                     
                        < 30–250 mg/Nm3 for existing combustion plants of 50–100 MWth operated ≥ 1 500 h/yr, or new combustion plants of 50–100 MWth;
                     
                  
                        —
                     
                     
                        < 30–160 mg/Nm3 for existing combustion plants of 100–300 MWth operated ≥ 1 500 h/yr, or new combustion plants of 100–300 MWth;
                     
                  
                        —
                     
                     
                        < 30–80 mg/Nm3 for existing combustion plants of ≥ 300 MWth operated ≥ 1 500 h/yr, or new combustion plants of ≥ 300 MWth.
                     
                  2.2.3.   SOX, HCl and HF emissions to air
            
            
               BAT 25.   In order to prevent or reduce SOX, HCl and HF emissions to air from the combustion of solid biomass and/or peat, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Boiler sorbent injection (in-furnace or in-bed)
                     
                     
                        See descriptions in Section 8.4
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Duct sorbent injection (DSI)
                     
                  
                        c.
                     
                     
                        Spray dry absorber (SDA)
                     
                  
                        d.
                     
                     
                        Circulating fluidised bed (CFB) dry scrubber
                     
                  
                        e.
                     
                     
                        Wet scrubbing
                     
                  
                        f.
                     
                     
                        Flue-gas condenser
                     
                  
                        g.
                     
                     
                        Wet flue-gas desulphurisation (wet FGD)
                     
                     
                        Not applicable to combustion plants operated < 500 h/yr.
                        There may be technical and economic restrictions for retrofitting existing combustion plants operated between 500 h/yr and 1 500  h/yr
                     
                  
                        h.
                     
                     
                        Fuel choice
                     
                     
                        Applicable within the constraints associated with the availability of different types of fuel, which may be impacted by the energy policy of the Member State
                     
                  
               
            
               Table 10
            
            BAT-associated emission levels (BAT-AELs) for SO2 emissions to air from the combustion of solid biomass and/or peat
            
                        
                           Combustion plant total rated thermal input
                        
                        
                           (MWth)
                        
                     
                     
                        
                           BAT-AELs for SO2 (mg/Nm3)
                        
                     
                  
                        
                           Yearly average
                        
                     
                     
                        
                           Daily average or average over the sampling period
                        
                     
                  
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (87)
                        
                     
                     
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (88)
                        
                     
                  
                        < 100 
                     
                     
                        15 –70 
                     
                     
                        15 –100 
                     
                     
                        30 –175 
                     
                     
                        30 –215 
                     
                  
                        100 –300 
                     
                     
                        < 10 –50 
                     
                     
                        < 10 –70  (89)
                        
                     
                     
                        < 20 –85 
                     
                     
                        < 20 –175  (90)
                        
                     
                  
                        ≥ 300 
                     
                     
                        < 10 –35 
                     
                     
                        < 10 –50  (89)
                        
                     
                     
                        < 20 –70 
                     
                     
                        < 20 –85  (91)
                        
                     
                  
               
            
               Table 11
            
            BAT-associated emission levels (BAT-AELs) for HCl and HF emissions to air from the combustion of solid biomass and/or peat
            
                        
                           Combustion plant total rated thermal input (MWth)
                        
                     
                     
                        
                           BAT-AELs for HCl (mg/Nm3)
                            (92)
                            (93)
                        
                     
                     
                        
                           BAT-AELs for HF (mg/Nm3)
                        
                     
                  
                        
                           Yearly average or average of samples obtained during one year
                        
                     
                     
                        
                           Daily average or average over the sampling period
                        
                     
                     
                        
                           Average over the sampling period
                        
                     
                  
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                        
                        
                            (94)
                            (95)
                        
                     
                     
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (96)
                        
                     
                     
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (96)
                        
                     
                  
                        < 100 
                     
                     
                        1 –7 
                     
                     
                        1 –15 
                     
                     
                        1 –12 
                     
                     
                        1 –35 
                     
                     
                        < 1 
                     
                     
                        < 1,5 
                     
                  
                        100 –300 
                     
                     
                        1 –5 
                     
                     
                        1 –9 
                     
                     
                        1 –12 
                     
                     
                        1 –12 
                     
                     
                        < 1 
                     
                     
                        < 1 
                     
                  
                        ≥ 300 
                     
                     
                        1 –5 
                     
                     
                        1 –5 
                     
                     
                        1 –12 
                     
                     
                        1 –12 
                     
                     
                        < 1 
                     
                     
                        < 1 
                     
                  2.2.4.   Dust and particulate-bound metal emissions to air
            
            
               BAT 26.   In order to reduce dust and particulate-bound metal emissions to air from the combustion of solid biomass and/or peat, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Electrostatic precipitator (ESP)
                     
                     
                        See description in Section 8.5
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Bag filter
                     
                  
                        c.
                     
                     
                        Dry or semi-dry FGD system
                     
                     
                        See descriptions in Section 8.5
                        The techniques are mainly used for SOX, HCl and/or HF control
                     
                  
                        d.
                     
                     
                        Wet flue-gas desulphurisation (wet FGD)
                     
                     
                        See applicability in BAT 25
                     
                  
                        e.
                     
                     
                        Fuel choice
                     
                     
                        See description in Section 8.5
                     
                     
                        Applicable within the constraints associated with the availability of different types of fuel, which may be impacted by the energy policy of the Member State
                     
                  
               
            
               Table 12
            
            BAT-associated emission levels (BAT-AELs) for dust emissions to air from the combustion of solid biomass and/or peat
            
                        
                           Combustion plant total rated thermal input
                        
                        
                           (MWth)
                        
                     
                     
                        
                           BAT-AELs for dust (mg/Nm3)
                        
                     
                  
                        
                           Yearly average
                        
                     
                     
                        
                           Daily average or average over the sampling period
                        
                     
                  
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (97)
                        
                     
                     
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (98)
                        
                     
                  
                        < 100 
                     
                     
                        2 –5 
                     
                     
                        2 –15 
                     
                     
                        2 –10 
                     
                     
                        2 –22 
                     
                  
                        100 –300 
                     
                     
                        2 –5 
                     
                     
                        2 –12 
                     
                     
                        2 –10 
                     
                     
                        2 –18 
                     
                  
                        ≥ 300 
                     
                     
                        2 –5 
                     
                     
                        2 –10 
                     
                     
                        2 –10 
                     
                     
                        2 –16 
                     
                  2.2.5.   Mercury emissions to air
            
            
               BAT 27.   In order to prevent or reduce mercury emissions to air from the combustion of solid biomass and/or peat, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        
                           Specific techniques to reduce mercury emissions
                        
                     
                  
                        a.
                     
                     
                        Carbon sorbent (e.g. activated carbon or halogenated activated carbon) injection in the flue-gas
                     
                     
                        See descriptions in Section 8.5
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Use of halogenated additives in the fuel or injected in the furnace
                     
                     
                        Generally applicable in the case of a low halogen content in the fuel
                     
                  
                        c.
                     
                     
                        Fuel choice
                     
                     
                        Applicable within the constraints associated with the availability of different types of fuel, which may be impacted by the energy policy of the Member State
                     
                  
                        
                           Co-benefit from techniques primarily used to reduce emissions of other pollutants
                        
                     
                  
                        d.
                     
                     
                        Electrostatic precipitator (ESP)
                     
                     
                        See descriptions in Section 8.5.
                        The techniques are mainly used for dust control
                     
                     
                        Generally applicable
                     
                  
                        e.
                     
                     
                        Bag filter
                     
                  
                        f.
                     
                     
                        Dry or semi-dry FGD system
                     
                     
                        See descriptions in Section 8.5.
                        The techniques are mainly used for SOX, HCl and/or HF control
                     
                  
                        g.
                     
                     
                        Wet flue-gas desulphurisation (wet FGD)
                     
                     
                        See applicability in BAT 25
                     
                  The BAT-associated emission level (BAT-AEL) for mercury emissions to air from the combustion of solid biomass and/or peat is < 1–5 μg/Nm3 as average over the sampling period.
            3.   BAT CONCLUSIONS FOR THE COMBUSTION OF LIQUID FUELS
            The BAT conclusions presented in this section do not apply to combustion plants on offshore platforms; these are covered by Section 4.3
            
               3.1.   HFO- and/or gas-oil-fired boilers
            
            Unless otherwise stated, the BAT conclusions presented in this section are generally applicable to the combustion of HFO and/or gas oil in boilers. They apply in addition to the general BAT conclusions given in Section 1
            3.1.1.   Energy efficiency
            
            
               Table 13
            
            BAT-associated energy efficiency levels (BAT-AEELs) for HFO and/or gas oil combustion in boilers
            
                        
                           Type of combustion unit
                        
                     
                     
                        
                           BAT-AEELs
                            (99)
                            (100)
                        
                     
                  
                        
                           Net electrical efficiency (%)
                        
                     
                     
                        
                           Net total fuel utilisation (%)
                            (101)
                        
                     
                  
                        
                           New unit
                        
                     
                     
                        
                           Existing unit
                        
                     
                     
                        
                           New unit
                        
                     
                     
                        
                           Existing unit
                        
                     
                  
                        HFO- and/or gas-oil-fired boiler
                     
                     
                        > 36,4 
                     
                     
                        35,6 –37,4 
                     
                     
                        80 –96 
                     
                     
                        80 –96 
                     
                  3.1.2.   NOX and CO emissions to air
            
            
               BAT 28.   In order to prevent or reduce NOX emissions to air while limiting CO emissions to air from the combustion of HFO and/or gas oil in boilers, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Air staging
                     
                     
                        See descriptions in Section 8.3
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Fuel staging
                     
                  
                        c.
                     
                     
                        Flue-gas recirculation
                     
                  
                        d.
                     
                     
                        Low-NOX burners (LNB)
                     
                  
                        e.
                     
                     
                        Water/steam addition
                     
                     
                        Applicable within the constraints of water availability
                     
                  
                        f.
                     
                     
                        Selective non-catalytic reduction (SNCR)
                     
                     
                        Not applicable to combustion plants operated < 500 h/yr with highly variable boiler loads.
                        The applicability may be limited in the case of combustion plants operated between 500 h/yr and 1 500  h/yr with highly variable boiler loads
                     
                  
                        g.
                     
                     
                        Selective catalytic reduction (SCR)
                     
                     
                        See descriptions in Section 8.3
                     
                     
                        Not applicable to combustion plants operated < 500 h/yr.
                        There may be technical and economic restrictions for retrofitting existing combustion plants operated between 500 h/yr and 1 500  h/yr.
                        Not generally applicable to combustion plants of < 100 MWth
                        
                     
                  
                        h.
                     
                     
                        Advanced control system
                     
                     
                        Generally applicable to new combustion plants. The applicability to old combustion plants may be constrained by the need to retrofit the combustion system and/or control command system
                     
                  
                        i.
                     
                     
                        Fuel choice
                     
                     
                        Applicable within the constraints associated with the availability of different types of fuel, which may be impacted by the energy policy of the Member State
                     
                  
               
            
               Table 14
            
            BAT-associated emission levels (BAT-AELs) for NOX emissions to air from the combustion of HFO and/or gas oil in boilers
            
                        
                           Combustion plant total rated thermal input
                        
                        
                           (MWth)
                        
                     
                     
                        
                           BAT-AELs (mg/Nm3)
                        
                     
                  
                        
                           Yearly average
                        
                     
                     
                        
                           Daily average or average over the sampling period
                        
                     
                  
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (102)
                        
                     
                     
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (103)
                        
                     
                  
                        < 100 
                     
                     
                        75 –200 
                     
                     
                        150 –270 
                     
                     
                        100 –215 
                     
                     
                        210 –330  (104)
                        
                     
                  
                        ≥ 100 
                     
                     
                        45 –75 
                     
                     
                        45 –100  (105)
                        
                     
                     
                        85 –100 
                     
                     
                        85 –110  (106)
                            (107)
                        
                     
                  As an indication, the yearly average CO emission levels will generally be:
            
                        —
                     
                     
                        10-30 mg/Nm3 for existing combustion plants of < 100 MWth operated ≥ 1 500 h/yr, or new combustion plants of < 100 MWth;
                     
                  
                        —
                     
                     
                        10–20mg/Nm3 for existing combustion plants of ≥ 100 MWth operated ≥ 1 500 h/yr, or new combustion plants of ≥ 100MWth.
                     
                  3.1.3.   SOX, HCl and HF emissions to air
            
            
               BAT 29.   In order to prevent or reduce SOX, HCl and HF emissions to air from the combustion of HFO and/or gas oil in boilers, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Duct sorbent injection (DSI)
                     
                     
                        See description in Section 8.4
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Spray dry absorber (SDA)
                     
                  
                        c.
                     
                     
                        Flue-gas condenser
                     
                  
                        d.
                     
                     
                        Wet flue-gas desulphurisation
                        (wet FGD)
                     
                     
                        There may be technical and economic restrictions for applying the technique to combustion plants of < 300 MWth.
                        Not applicable to combustion plants operated < 500 h/yr.
                        There may be technical and economic restrictions for retrofitting existing combustion plants operated between 500 h/yr and 1 500  h/yr
                     
                  
                        e.
                     
                     
                        Seawater FGD
                     
                     
                        There may be technical and economic restrictions for applying the technique to combustion plants of < 300 MWth.
                        Not applicable to combustion plants operated < 500 h/yr.
                        There may be technical and economic restrictions for retrofitting existing combustion plants operated between 500 h/yr and 1 500  h/yr
                     
                  
                        f.
                     
                     
                        Fuel choice
                     
                     
                        Applicable within the constraints associated with the availability of different types of fuel, which may be impacted by the energy policy of the Member State
                     
                  
               
            
               Table 15
            
            BAT-associated emission levels (BAT-AELs) for SO2 emissions to air from the combustion of HFO and/or gas oil in boilers
            
                        
                           Combustion plant total rated thermal input
                        
                        
                           (MWth)
                        
                     
                     
                        
                           BAT-AELs for SO2 (mg/Nm3)
                        
                     
                  
                        
                           Yearly average
                        
                     
                     
                        
                           Daily average or average over the sampling period
                        
                     
                  
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (108)
                        
                     
                     
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (109)
                        
                     
                  
                        < 300 
                     
                     
                        50 –175 
                     
                     
                        50 –175 
                     
                     
                        150 –200 
                     
                     
                        150 –200  (110)
                        
                     
                  
                        ≥ 300 
                     
                     
                        35 –50 
                     
                     
                        50 –110 
                     
                     
                        50 –120 
                     
                     
                        150 –165  (111)
                            (112)
                        
                     
                  3.1.4.   Dust and particulate-bound metal emissions to air
            
            
               BAT 30.   In order to reduce dust and particulate-bound metal emissions to air from the combustion of HFO and/or gas oil in boilers, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Electrostatic precipitator (ESP)
                     
                     
                        See description in Section 8.5
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Bag filter
                     
                  
                        c.
                     
                     
                        Multicyclones
                     
                     
                        See description in Section 8.5.
                        Multicyclones can be used in combination with other dedusting techniques
                     
                  
                        d.
                     
                     
                        Dry or semi-dry FGD system
                     
                     
                        See descriptions in Section 8.5.
                        The technique is mainly used for SOX, HCl and/or HF control
                     
                  
                        e.
                     
                     
                        Wet flue-gas desulphurisation (wet FGD)
                     
                     
                        See description in Section 8.5.
                        The technique is mainly used for SOX, HCl and/or HF control
                     
                     
                        See applicability in BAT 29
                     
                  
                        f.
                     
                     
                        Fuel choice
                     
                     
                        See description in Section 8.5
                     
                     
                        Applicable within the constraints associated with the availability of different types of fuel, which may be impacted by the energy policy of the Member State
                     
                  
               
            
               Table 16
            
            BAT-associated emission levels (BAT-AELs) for dust emissions to air from the combustion of HFO and/or gas oil in boilers
            
                        
                           Combustion plant total rated thermal input
                        
                        
                           (MWth)
                        
                     
                     
                        
                           BAT-AELs for dust (mg/Nm3)
                        
                     
                  
                        
                           Yearly average
                        
                     
                     
                        
                           Daily average or average over the sampling period
                        
                     
                  
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (113)
                        
                     
                     
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (114)
                        
                     
                  
                        < 300 
                     
                     
                        2 –10 
                     
                     
                        2 –20 
                     
                     
                        7 –18 
                     
                     
                        7 –22  (115)
                        
                     
                  
                        ≥ 300 
                     
                     
                        2 –5 
                     
                     
                        2 –10 
                     
                     
                        7 –10 
                     
                     
                        7 –11  (116)
                        
                     
                  
               3.2.   HFO- and/or gas-oil-fired engines
            
            Unless otherwise stated, the BAT conclusions presented in this section are generally applicable to the combustion of HFO and/or gas oil in reciprocating engines. They apply in addition to the general BAT conclusions given in Section 1.
            As regards HFO- and/or gas-oil-fired engines, secondary abatement techniques for NOX, SO2 and dust may not be applicable to engines in islands that are part of a small isolated system(1) or a micro isolated system(2), due to technical, economic and logistical/infrastructure constraints, pending their interconnection to the mainland electricity grid or access to a natural gas supply. The BAT-AELs for such engines shall therefore only apply in small isolated system and micro isolated system as from 1 January 2025 for new engines, and as from 1 January 2030 for existing engines.
            
                        (1)
                     
                     
                        As defined in point 26 of Article 2 of Directive 2009/72/EC.
                     
                  
                        (2)
                     
                     
                        As defined in point 27 of Article 2 of Directive 2009/72/EC.
                     
                  3.2.1.   Energy efficiency
            
            
               BAT 31.   In order to increase the energy efficiency of HFO and/or gas oil combustion in reciprocating engines, BAT is to use an appropriate combination of the techniques given in BAT 12 and below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Combined cycle
                     
                     
                        See description in Section 8.2
                     
                     
                        Generally applicable to new units operated ≥ 1 500  h/yr.
                        Applicable to existing units within the constraints associated with the steam cycle design and the space availability.
                        Not applicable to existing units operated < 1 500  h/yr
                     
                  
               
            
               Table 17
            
            BAT-associated energy efficiency levels (BAT-AEELs) for the combustion of HFO and/or gas oil in reciprocating engines
            
                        
                           Type of combustion unit
                        
                     
                     
                        
                           BAT-AEELs
                            (117)
                        
                     
                  
                        
                           Net electrical efficiency (%)
                            (118)
                        
                     
                  
                        
                           New unit
                        
                     
                     
                        
                           Existing unit
                        
                     
                  
                        HFO- and/or gas-oil-fired reciprocating engine – single cycle
                     
                     
                        41,5 –44,5  (119)
                        
                     
                     
                        38,3 –44,5  (119)
                        
                     
                  
                        HFO- and/or gas-oil-fired reciprocating engine – combined cycle
                     
                     
                        > 48  (120)
                        
                     
                     
                        No BAT-AEEL
                     
                  3.2.2.   NOX, CO and volatile organic compound emissions to air
            
            
               BAT 32.   In order to prevent or reduce NOX emissions to air from the combustion of HFO and/or gas oil in reciprocating engines, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Low-NOX combustion concept in diesel engines
                     
                     
                        See descriptions in Section 8.3
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Exhaust-gas recirculation (EGR)
                     
                     
                        Not applicable to four-stroke engines
                     
                  
                        c.
                     
                     
                        Water/steam addition
                     
                     
                        Applicable within the constraints of water availability.
                        The applicability may be limited where no retrofit package is available
                     
                  
                        d.
                     
                     
                        Selective catalytic reduction (SCR)
                     
                     
                        Not applicable to combustion plants operated < 500 h/yr.
                        There may be technical and economic restrictions for retrofitting existing combustion plants operated between 500 h/yr and 1 500  h/yr.
                        Retrofitting existing combustion plants may be constrained by the availability of sufficient space
                     
                  
               BAT 33.   In order to prevent or reduce emissions of CO and volatile organic compounds to air from the combustion of HFO and/or gas oil in reciprocating engines, BAT is to use one or both of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Combustion optimisation
                     
                     
                         
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Oxidation catalysts
                     
                     
                        See descriptions in Section 8.3
                     
                     
                        Not applicable to combustion plants operated < 500 h/yr.
                        The applicability may be limited by the sulphur content of the fuel
                     
                  
               
            
               Table 18
            
            BAT-associated emission levels (BAT-AELs) for NOX emissions to air from the combustion of HFO and/or gas oil in reciprocating engines
            
                        
                           Combustion plant total rated thermal input
                        
                        
                           (MWth)
                        
                     
                     
                        
                           BAT-AELs (mg/Nm3)
                        
                     
                  
                        
                           Yearly average
                        
                     
                     
                        
                           Daily average or average over the sampling period
                        
                     
                  
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (121)
                        
                     
                     
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (122)
                            (123)
                        
                     
                  
                        ≥ 50 
                     
                     
                        115 –190  (124)
                        
                     
                     
                        125 –625 
                     
                     
                        145 –300 
                     
                     
                        150 –750 
                     
                  As an indication, for existing combustion plants burning only HFO and operated ≥ 1 500 h/yr or new combustion plants burning only HFO,
            
                        —
                     
                     
                        the yearly average CO emission levels will generally be 50–175 mg/Nm3;
                     
                  
                        —
                     
                     
                        the average over the sampling period for TVOC emission levels will generally be 10–40 mg/Nm3.
                     
                  3.2.3.   SOX, HCl and HF emissions to air
            
            
               BAT 34.   In order to prevent or reduce SOX, HCl and HF emissions to air from the combustion of HFO and/or gas oil in reciprocating engines, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Fuel choice
                     
                     
                        See descriptions in Section 8.4
                     
                     
                        Applicable within the constraints associated with the availability of different types of fuel, which may be impacted by the energy policy of the Member State
                     
                  
                        b.
                     
                     
                        Duct sorbent injection (DSI)
                     
                     
                        There may be technical restrictions in the case of existing combustion plants
                        Not applicable to combustion plants operated < 500 h/yr
                     
                  
                        c.
                     
                     
                        Wet flue-gas desulphurisation (wet FGD)
                     
                     
                        There may be technical and economic restrictions for applying the technique to combustion plants of < 300 MWth.
                        Not applicable to combustion plants operated < 500 h/yr.
                        There may be technical and economic restrictions for retrofitting existing combustion plants operated between 500 h/yr and 1 500  h/yr
                     
                  
               
            
               Table 19
            
            BAT-associated emission levels (BAT-AELs) for SO2 emissions to air from the combustion of HFO and/or gas oil in reciprocating engines
            
                        
                           Combustion plant total rated thermal input
                        
                        
                           (MWth)
                        
                     
                     
                        
                           BAT-AELs for SO2 (mg/Nm3)
                        
                     
                  
                        
                           Yearly average
                        
                     
                     
                        
                           Daily average or average over the sampling period
                        
                     
                  
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (125)
                        
                     
                     
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (126)
                        
                     
                  
                        All sizes
                     
                     
                        45 –100 
                     
                     
                        100 –200  (127)
                        
                     
                     
                        60 –110 
                     
                     
                        105 –235  (127)
                        
                     
                  3.2.4.   Dust and particulate-bound metal emissions to air
            
            
               BAT 35.   In order to prevent or reduce dust and particulate-bound metal emissions from the combustion of HFO and/or gas oil in reciprocating engines, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Fuel choice
                     
                     
                        See descriptions in Section 8.5
                     
                     
                        Applicable within the constraints associated with the availability of different types of fuel, which may be impacted by the energy policy of the Member State
                     
                  
                        b.
                     
                     
                        Electrostatic precipitator (ESP)
                     
                     
                        Not applicable to combustion plants operated < 500 h/yr
                     
                  
                        c.
                     
                     
                        Bag filter
                     
                  
               
            
               Table 20
            
            BAT-associated emission levels (BAT-AELs) for dust emissions to air from the combustion of HFO and/or gas oil in reciprocating engines
            
                        
                           Combustion plant total rated thermal input
                        
                        
                           (MWth)
                        
                     
                     
                        
                           BAT-AELs for dust (mg/Nm3)
                        
                     
                  
                        
                           Yearly average
                        
                     
                     
                        
                           Daily average or average over the sampling period
                        
                     
                  
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (128)
                        
                     
                     
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (129)
                        
                     
                  
                        ≥ 50 
                     
                     
                        5 –10 
                     
                     
                        5 –35 
                     
                     
                        10 –20 
                     
                     
                        10 –45 
                     
                  
               3.3.   Gas-oil-fired gas turbines
            
            Unless stated otherwise, the BAT conclusions presented in this section are generally applicable to the combustion of gas oil in gas turbines. They apply in addition to the general BAT conclusions given in Section 1.
            3.3.1.   Energy efficiency
            
            
               BAT 36.   In order to increase the energy efficiency of gas oil combustion in gas turbines, BAT is to use an appropriate combination of the techniques given in BAT 12 and below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Combined cycle
                     
                     
                        See description in Section 8.2
                     
                     
                        Generally applicable to new units operated ≥ 1 500  h/yr.
                        Applicable to existing units within the constraints associated with the steam cycle design and the space availability.
                        Not applicable to existing units operated < 1 500  h/yr
                     
                  
               
            
               Table 21
            
            BAT-associated energy efficiency levels (BAT-AEELs) for gas-oil-fired gas turbines
            
                        
                           Type of combustion unit
                        
                     
                     
                        
                           BAT-AEELs
                            (130)
                        
                     
                  
                        
                           Net electrical efficiency (%)
                            (131)
                        
                     
                  
                        
                           New unit
                        
                     
                     
                        
                           Existing unit
                        
                     
                  
                        Gas-oil-fired open-cycle gas turbine
                     
                     
                        > 33 
                     
                     
                        25 –35,7 
                     
                  
                        Gas-oil-fired combined cycle gas turbine
                     
                     
                        > 40 
                     
                     
                        33 –44 
                     
                  3.3.2.   NOX and CO emissions to air
            
            
               BAT 37.   In order to prevent or reduce NOX emissions to air from the combustion of gas oil in gas turbines, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Water/steam addition
                     
                     
                        See description in Section 8.3
                     
                     
                        The applicability may be limited due to water availability
                     
                  
                        b.
                     
                     
                        Low-NOX burners (LNB)
                     
                     
                        Only applicable to turbine models for which low-NOX burners are available on the market
                     
                  
                        c.
                     
                     
                        Selective catalytic reduction (SCR)
                     
                     
                        Not applicable to combustion plants operated < 500 h/yr.
                        There may be technical and economic restrictions for retrofitting existing combustion plants operated between 500 h/yr and 1 500  h/yr.
                        Retrofitting existing combustion plants may be constrained by the availability of sufficient space
                     
                  
               BAT 38.   In order to prevent or reduce CO emissions to air from the combustion of gas oil in gas turbines, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Combustion optimisation
                     
                     
                        See description in Section 8.3
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Oxidation catalysts
                     
                     
                        Not applicable to combustion plants operated < 500 h/yr.
                        Retrofitting existing combustion plants may be constrained by the availability of sufficient space
                     
                  As an indication, the emission level for NOX emissions to air from the combustion of gas oil in dual fuel gas turbines for emergency use operated < 500 h/yr will generally be 145–250 mg/Nm3 as a daily average or average over the sampling period.
            3.3.3.   SOX and dust emissions to air
            
            
               BAT 39.   In order to prevent or reduce SOX and dust emissions to air from the combustion of gas oil in gas turbines, BAT is to use the technique given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Fuel choice
                     
                     
                        See description in Section 8.4
                     
                     
                        Applicable within the constraints associated with the availability of different types of fuel, which may be impacted by the energy policy of the Member State
                     
                  
               
            
               Table 22
            
            BAT-associated emission levels for SO2 and dust emissions to air from the combustion of gas oil in gas turbines, including dual fuel gas turbines
            
                        
                           Type of combustion plant
                        
                     
                     
                        
                           BAT-AELs (mg/Nm3)
                        
                     
                  
                        
                           SO2
                           
                        
                     
                     
                        
                           Dust
                        
                     
                  
                        
                           Yearly average
                            (132)
                        
                     
                     
                        
                           Daily average or average over the sampling period
                            (133)
                        
                     
                     
                        
                           Yearly average
                            (132)
                        
                     
                     
                        
                           Daily average or average over the sampling period
                            (133)
                        
                     
                  
                        New and existing plants
                     
                     
                        35 –60 
                     
                     
                        50 –66 
                     
                     
                        2 –5 
                     
                     
                        2 –10 
                     
                  4.   BAT CONCLUSIONS FOR THE COMBUSTION OF GASEOUS FUELS
            
               4.1.   BAT conclusions for the combustion of natural gas
            
            Unless otherwise stated, the BAT conclusions presented in this section are generally applicable to the combustion of natural gas. They apply in addition to the general BAT conclusions given in Section 1. They do not apply to combustion plants on offshore platforms; these are covered by Section. 4.3.
            4.1.1.   Energy efficiency
            
            
               BAT 40.   In order to increase the energy efficiency of natural gas combustion, BAT is to use an appropriate combination of the techniques given in BAT 12 and below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Combined cycle
                     
                     
                        See description in Section 8.2
                     
                     
                        Generally applicable to new gas turbines and engines except when operated < 1 500  h/yr.
                        Applicable to existing gas turbines and engines within the constraints associated with the steam cycle design and the space availability.
                        Not applicable to existing gas turbines and engines operated < 1 500  h/yr.
                        Not applicable to mechanical drive gas turbines operated in discontinuous mode with extended load variations and frequent start-ups and shutdowns.
                        Not applicable to boilers
                     
                  
               
            
               Table 23
            
            BAT-associated energy efficiency levels (BAT-AEELs) for the combustion of natural gas
            
                        
                           Type of combustion unit
                        
                     
                     
                        
                           BAT-AEELs
                            (134)
                            (135)
                        
                     
                  
                        
                           Net electrical efficiency (%)
                        
                     
                     
                        
                           Net total fuel utilisation (%)
                            (136)
                            (137)
                        
                     
                     
                        
                           Net mechanical energy efficiency (%)
                            (137)
                            (138)
                        
                     
                  
                        
                           New unit
                        
                     
                     
                        
                           Existing unit
                        
                     
                     
                        
                           New unit
                        
                     
                     
                        
                           Existing unit
                        
                     
                  
                        
                           Gas engine
                        
                     
                     
                        39,5 –44  (139)
                        
                     
                     
                        35 –44  (139)
                        
                     
                     
                        56 –85  (139)
                        
                     
                     
                        No BAT-AEEL.
                     
                  
                        
                           Gas-fired boiler
                        
                     
                     
                        39 –42,5 
                     
                     
                        38 –40 
                     
                     
                        78 –95 
                     
                     
                        No BAT-AEEL.
                     
                  
                        
                           Open cycle gas turbine,
                        
                        
                           ≥ 50 MWth
                        
                     
                     
                        36 –41,5 
                     
                     
                        33 –41,5 
                     
                     
                        No BAT-AEEL
                     
                     
                        36,5 –41 
                     
                     
                        33,5 –41 
                     
                  
                        
                           Combined cycle gas turbine (CCGT)
                        
                     
                  
                        CCGT, 50–600 MWth
                        
                     
                     
                        53 –58,5 
                     
                     
                        46 –54 
                     
                     
                        No BAT-AEEL
                     
                     
                        No BAT-AEEL
                     
                  
                        CCGT, ≥ 600 MWth
                        
                     
                     
                        57 –60,5 
                     
                     
                        50 –60 
                     
                     
                        No BAT-AEEL
                     
                     
                        No BAT-AEEL
                     
                  
                        CHP CCGT, 50–600 MWth
                        
                     
                     
                        53 –58,5 
                     
                     
                        46 –54 
                     
                     
                        65 –95 
                     
                     
                        No BAT-AEEL
                     
                  
                        CHP CCGT, ≥ 600 MWth
                        
                     
                     
                        57 –60,5 
                     
                     
                        50 –60 
                     
                     
                        65 –95 
                     
                     
                        No BAT-AEEL
                     
                  4.1.2.   NOX, CO, NMVOC and CH4 emissions to air
            
            
               BAT 41.   In order to prevent or reduce NOX emissions to air from the combustion of natural gas in boilers, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Air and/or fuel staging
                     
                     
                        See descriptions in Section 8.3.
                        Air staging is often associated with low-NOX burners
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Flue-gas recirculation
                     
                     
                        See description in Section 8.3
                     
                  
                        c.
                     
                     
                        Low-NOX burners (LNB)
                     
                  
                        d.
                     
                     
                        Advanced control system
                     
                     
                        See description in Section 8.3.
                        This technique is often used in combination with other techniques or may be used alone for combustion plants operated < 500 h/yr
                     
                     
                        The applicability to old combustion plants may be constrained by the need to retrofit the combustion system and/or control command system
                     
                  
                        e.
                     
                     
                        Reduction of the combustion air temperature
                     
                     
                        See description in Section 8.3
                     
                     
                        Generally applicable within the constraints associated with the process needs
                     
                  
                        f.
                     
                     
                        Selective non–catalytic reduction (SNCR)
                     
                     
                        Not applicable to combustion plants operated < 500 h/yr with highly variable boiler loads.
                        The applicability may be limited in the case of combustion plants operated between 500 h/yr and 1 500  h/yr with highly variable boiler loads
                     
                  
                        g.
                     
                     
                        Selective catalytic reduction (SCR)
                     
                     
                        Not applicable to combustion plants operated < 500 h/yr.
                        Not generally applicable to combustion plants of < 100 MWth.
                        There may be technical and economic restrictions for retrofitting existing combustion plants operated between 500 h/yr and 1 500  h/yr
                     
                  
               BAT 42.   In order to prevent or reduce NOX emissions to air from the combustion of natural gas in gas turbines, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Advanced control system
                     
                     
                        See description in Section 8.3.
                        This technique is often used in combination with other techniques or may be used alone for combustion plants operated < 500 h/yr
                     
                     
                        The applicability to old combustion plants may be constrained by the need to retrofit the combustion system and/or control command system
                     
                  
                        b.
                     
                     
                        Water/steam addition
                     
                     
                        See description in Section 8.3
                     
                     
                        The applicability may be limited due to water availability
                     
                  
                        c.
                     
                     
                        Dry low-NOX burners (DLN)
                     
                     
                        The applicability may be limited in the case of turbines where a retrofit package is not available or when water/steam addition systems are installed
                     
                  
                        d.
                     
                     
                        Low-load design concept
                     
                     
                        Adaptation of the process control and related equipment to maintain good combustion efficiency when the demand in energy varies, e.g. by improving the inlet airflow control capability or by splitting the combustion process into decoupled combustion stages
                     
                     
                        The applicability may be limited by the gas turbine design
                     
                  
                        e.
                     
                     
                        Low-NOX burners (LNB)
                     
                     
                        See description in Section 8.3
                     
                     
                        Generally applicable to supplementary firing for heat recovery steam generators (HRSGs) in the case of combined-cycle gas turbine (CCGT) combustion plants
                     
                  
                        f.
                     
                     
                        Selective catalytic reduction (SCR)
                     
                     
                        Not applicable in the case of combustion plants operated < 500 h/yr.
                        Not generally applicable to existing combustion plants of < 100 MWth.
                        Retrofitting existing combustion plants may be constrained by the availability of sufficient space.
                        There may be technical and economic restrictions for retrofitting existing combustion plants operated between 500 h/yr and 1 500  h/yr
                     
                  
               BAT 43.   In order to prevent or reduce NOX emissions to air from the combustion of natural gas in engines, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Advanced control system
                     
                     
                        See description in Section 8.3.
                        This technique is often used in combination with other techniques or may be used alone for combustion plants operated < 500 h/yr
                     
                     
                        The applicability to old combustion plants may be constrained by the need to retrofit the combustion system and/or control command system
                     
                  
                        b.
                     
                     
                        Lean-burn concept
                     
                     
                        See description in Section 8.3.
                        Generally used in combination with SCR
                     
                     
                        Only applicable to new gas-fired engines
                     
                  
                        c.
                     
                     
                        Advanced lean-burn concept
                     
                     
                        See descriptions in Section 8.3
                     
                     
                        Only applicable to new spark plug ignited engines
                     
                  
                        d.
                     
                     
                        Selective catalytic reduction (SCR)
                     
                     
                        Retrofitting existing combustion plants may be constrained by the availability of sufficient space.
                        Not applicable to combustion plants operated < 500 h/yr.
                        There may be technical and economic restrictions for retrofitting existing combustion plants operated between 500 h/yr and 1 500  h/yr
                     
                  
               BAT 44.   In order to prevent or reduce CO emissions to air from the combustion of natural gas, BAT is to ensure optimised combustion and/or to use oxidation catalysts.
            
            
               Description
            
            See descriptions in Section 10.8.3.
            
               Table 24
            
            BAT-associated emission levels (BAT-AELs) for NOX emissions to air from the combustion of natural gas in gas turbines
            
                        
                           Type of combustion plant
                        
                     
                     
                        
                           Combustion plant total rated thermal input
                        
                        
                           (MWth)
                        
                     
                     
                        
                           BAT-AELs (mg/Nm3)
                            (140)
                            (141)
                        
                     
                  
                        
                           Yearly average
                        
                        
                            (142)
                            (143)
                        
                     
                     
                        
                           Daily average or average over the sampling period
                        
                     
                  
                        
                           Open-cycle gas turbines (OCGTs)
                            (144)
                            (145)
                        
                     
                  
                        New OCGT
                     
                     
                        ≥ 50 
                     
                     
                        15 –35 
                     
                     
                        25 –50 
                     
                  
                        Existing OCGT (excluding turbines for mechanical drive applications) – All but plants operated < 500 h/yr
                     
                     
                        ≥ 50 
                     
                     
                        15 –50 
                     
                     
                        25 –55  (146)
                        
                     
                  
                        
                           Combined-cycle gas turbines (CCGTs)
                            (144)
                            (147)
                        
                     
                  
                        New CCGT
                     
                     
                        ≥ 50 
                     
                     
                        10 –30 
                     
                     
                        15 –40 
                     
                  
                        Existing CCGT with a net total fuel utilisation of < 75 %
                     
                     
                        ≥ 600 
                     
                     
                        10 –40 
                     
                     
                        18 –50 
                     
                  
                        Existing CCGT with a net total fuel utilisation of ≥ 75 %
                     
                     
                        ≥ 600 
                     
                     
                        10 –50 
                     
                     
                        18 –55  (148)
                        
                     
                  
                        Existing CCGT with a net total fuel utilisation of < 75 %
                     
                     
                        50 –600 
                     
                     
                        10 –45 
                     
                     
                        35 –55 
                     
                  
                        Existing CCGT with a net total fuel utilisation of ≥ 75 %
                     
                     
                        50 –600 
                     
                     
                        25 –50  (149)
                        
                     
                     
                        35 –55  (150)
                        
                     
                  
                        
                           Open- and combined-cycle gas turbines
                        
                     
                  
                        Gas turbine put into operation no later than 27 November 2003, or existing gas turbine for emergency use and operated < 500 h/yr
                     
                     
                        ≥ 50 
                     
                     
                        No BAT-AEL
                     
                     
                        60 –140  (151)
                            (152)
                        
                     
                  
                        Existing gas turbine for mechanical drive applications – All but plants operated < 500 h/yr
                     
                     
                        ≥ 50 
                     
                     
                        15 –50  (153)
                        
                     
                     
                        25 –55  (154)
                        
                     
                  As an indication, the yearly average CO emission levels for each type of existing combustion plant operated ≥ 1 500 h/yr and for each type of new combustion plant will generally be as follows:
            
                        —
                     
                     
                        New OCGT of ≥ 50 MWth: < 5–40 mg/Nm3. For plants with a net electrical efficiency (EE) greater than 39 %, a correction factor may be applied to the higher end of this range, corresponding to [higher end] x EE/39, where EE is the net electrical energy efficiency or net mechanical energy efficiency of the plant determined at ISO baseload conditions.
                     
                  
                        —
                     
                     
                        Existing OCGT of ≥ 50 MWth (excluding turbines for mechanical drive applications): < 5–40 mg/Nm3. The higher end of this range will generally be 80 mg/Nm3 in the case of existing plants that cannot be fitted with dry techniques for NOX reduction, or 50 mg/Nm3 for plants that operate at low load.
                     
                  
                        —
                     
                     
                        New CCGT of ≥ 50 MWth: < 5–30 mg/Nm3. For plants with a net electrical efficiency (EE) greater than 55 %, a correction factor may be applied to the higher end of the range, corresponding to [higher end] x EE/55, where EE is the net electrical energy efficiency of the plant determined at ISO baseload conditions.
                     
                  
                        —
                     
                     
                        Existing CCGT of ≥ 50 MWth: < 5–30 mg/Nm3. The higher end of this range will generally be 50 mg/Nm3 for plants that operate at low load.
                     
                  
                        —
                     
                     
                        Existing gas turbines of ≥ 50 MWth for mechanical drive applications: < 5–40 mg/Nm3. The higher end of the range will generally be 50 mg/Nm3 when plants operate at low load.
                     
                  In the case of a gas turbine equipped with DLN burners, these indicative levels correspond to when the DLN operation is effective.
            
               Table 25
            
            BAT-associated emission levels (BAT-AELs) for NOX emissions to air from the combustion of natural gas in boilers and engines
            
                        
                           Type of combustion plant
                        
                     
                     
                        
                           BAT-AELs (mg/Nm3)
                        
                     
                  
                        
                           Yearly average
                            (155)
                        
                     
                     
                        
                           Daily average or average over the sampling period
                        
                     
                  
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (156)
                        
                     
                     
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (157)
                        
                     
                  
                        Boiler
                     
                     
                        10 –60 
                     
                     
                        50 –100 
                     
                     
                        30 –85 
                     
                     
                        85 –110 
                     
                  
                        Engine (158)
                        
                     
                     
                        20 –75 
                     
                     
                        20 –100 
                     
                     
                        55 –85 
                     
                     
                        55 –110  (159)
                        
                     
                  As an indication, the yearly average CO emission levels will generally be:
            
                        —
                     
                     
                        < 5–40 mg/Nm3 for existing boilers operated ≥ 1 500 h/yr;
                     
                  
                        —
                     
                     
                        < 5–15 mg/Nm3 for new boilers;
                     
                  
                        —
                     
                     
                        30–100 mg/Nm3 for existing engines operated ≥ 1 500 h/yr and for new engines.
                     
                  
               BAT 45.   In order to reduce non-methane volatile organic compounds (NMVOC) and methane (CH4) emissions to air from the combustion of natural gas in spark-ignited lean-burn gas engines, BAT is to ensure optimised combustion and/or to use oxidation catalysts.
            
            
               Description
            
            See descriptions in Section 10.8.3. Oxidation catalysts are not effective at reducing the emissions of saturated hydrocarbons containing less than four carbon atoms.
            
               Table 26
            
            BAT-associated emission levels (BAT-AELs) for formaldehyde and CH4 emissions to air from the combustion of natural gas in a spark-ignited lean-burn gas engine
            
                        
                           Combustion plant total rated thermal input (MWth)
                        
                     
                     
                        
                           BAT-AELs (mg/Nm3)
                        
                     
                  
                        
                           Formaldehyde
                        
                     
                     
                        
                           CH4
                           
                        
                     
                  
                        
                           Average over the sampling period
                        
                     
                  
                        
                           New or existing plant
                        
                     
                     
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                        
                     
                  
                        ≥ 50 
                     
                     
                        5 –15  (160)
                        
                     
                     
                        215 –500  (161)
                        
                     
                     
                        215 –560  (160)
                            (161)
                        
                     
                  
               4.2.   BAT conclusions for the combustion of iron and steel process gases
            
            Unless otherwise stated, the BAT conclusions presented in this section are generally applicable to the combustion of iron and steel process gases (blast furnace gas, coke oven gas, basic oxygen furnace gas), individually, in combination, or simultaneously with other gaseous and/or liquid fuels. They apply in addition to the general BAT conclusions given in Section 1.
            4.2.1.   Energy efficiency
            
            
               BAT 46.   In order to increase the energy efficiency of the combustion of iron and steel process gases, BAT is to use an appropriate combination of the techniques given in BAT 12 and below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Process gas management system
                     
                     
                        See description in Section 8.2
                     
                     
                        Only applicable to integrated steelworks
                     
                  
               
            
               Table 27
            
            BAT-associated energy efficiency levels (BAT-AEELs) for the combustion of iron and steel process gases in boilers
            
                        
                           Type of combustion unit
                        
                     
                     
                        
                           BAT-AEELs
                            (162)
                            (163)
                        
                     
                  
                        
                           Net electrical efficiency (%)
                        
                     
                     
                        
                           Net total fuel utilisation (%)
                            (164)
                        
                     
                  
                        Existing multi-fuel firing gas boiler
                     
                     
                        30 –40 
                     
                     
                        50 –84 
                     
                  
                        New multi-fuel firing gas boiler (165)
                        
                     
                     
                        36 –42,5 
                     
                     
                        50 –84 
                     
                  
               
            
               Table 28
            
            BAT-associated energy efficiency levels (BAT-AEELs) for the combustion of iron and steel process gases in CCGTs
            
                        
                           Type of combustion unit
                        
                     
                     
                        
                           BAT-AEELs
                            (166)
                            (167)
                        
                     
                  
                        
                           Net electrical efficiency (%)
                        
                     
                     
                        
                           Net total fuel utilisation
                           (%)
                            (168)
                        
                     
                  
                        
                           New unit
                        
                     
                     
                        
                           Existing unit
                        
                     
                  
                        CHP CCGT
                     
                     
                        > 47 
                     
                     
                        40 –48 
                     
                     
                        60 –82 
                     
                  
                        CCGT
                     
                     
                        > 47 
                     
                     
                        40 –48 
                     
                     
                        No BAT-AEEL
                     
                  4.2.2.   NOX and CO emissions to air
            
            
               BAT 47.   In order to prevent or reduce NOX emissions to air from the combustion of iron and steel process gases in boilers, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Low-NOX burners (LNB)
                     
                     
                        See description in Section 8.3.
                        Specially designed low-NOX burners in multiple rows per type of fuel or including specific features for multi-fuel firing (e.g. multiple dedicated nozzles for burning different fuels, or including fuels premixing)
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Air staging
                     
                     
                        See descriptions in Section 8.3
                     
                  
                        c.
                     
                     
                        Fuel staging
                     
                  
                        d.
                     
                     
                        Flue-gas recirculation
                     
                  
                        e.
                     
                     
                        Process gas management system
                     
                     
                        See description in Section 8.2.
                     
                     
                        Generally applicable within the constraints associated with the availability of different types of fuel
                     
                  
                        f.
                     
                     
                        Advanced control system
                     
                     
                        See description in Section 8.3.
                        This technique is used in combination with other techniques
                     
                     
                        The applicability to old combustion plants may be constrained by the need to retrofit the combustion system and/or control command system
                     
                  
                        g.
                     
                     
                        Selective non-catalytic reduction (SNCR)
                     
                     
                        See descriptions in Section 8.3
                     
                     
                        Not applicable to combustion plants operated < 500 h/yr
                     
                  
                        h.
                     
                     
                        Selective catalytic reduction (SCR)
                     
                     
                        Not applicable to combustion plants operated < 500 h/yr.
                        Not generally applicable to combustion plants of < 100 MWth.
                        Retrofitting existing combustion plants may be constrained by the availability of sufficient space and by the combustion plant configuration
                     
                  
               BAT 48.   In order to prevent or reduce NOX emissions to air from the combustion of iron and steel process gases in CCGTs, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Process gas management system
                     
                     
                        See description in Section 8.2
                     
                     
                        Generally applicable within the constraints associated with the availability of different types of fuel
                     
                  
                        b.
                     
                     
                        Advanced control system
                     
                     
                        See description in Section 8.3.
                        This technique is used in combination with other techniques
                     
                     
                        The applicability to old combustion plants may be constrained by the need to retrofit the combustion system and/or control command system
                     
                  
                        c.
                     
                     
                        Water/steam addition
                     
                     
                        See description in Section 8.3.
                        In dual fuel gas turbines using DLN for the combustion of iron and steel process gases, water/steam addition is generally used when combusting natural gas
                     
                     
                        The applicability may be limited due to water availability
                     
                  
                        d.
                     
                     
                        Dry low-NOX burners(DLN)
                     
                     
                        See description in Section 8.3.
                        DLN that combust iron and steel process gases differ from those that combust natural gas only
                     
                     
                        Applicable within the constraints associated with the reactiveness of iron and steel process gases such as coke oven gas.
                        The applicability may be limited in the case of turbines where a retrofit package is not available or when water/steam addition systems are installed
                     
                  
                        e.
                     
                     
                        Low-NOX burners (LNB)
                     
                     
                        See description in Section 8.3
                     
                     
                        Only applicable to supplementary firing for heat recovery steam generators (HRSGs) of combined-cycle gas turbine (CCGT) combustion plants
                     
                  
                        f.
                     
                     
                        Selective catalytic reduction (SCR)
                     
                     
                        Retrofitting existing combustion plants may be constrained by the availability of sufficient space
                     
                  
               BAT 49.   In order to prevent or reduce CO emissions to air from the combustion of iron and steel process gases, BAT is to use one or a combination of the techniques given below.
            
            
                         
                     
                     
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Combustion optimisation
                     
                     
                        See descriptions in Section 8.3
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Oxidation catalysts
                     
                     
                        Only applicable to CCGTs.
                        The applicability may be limited by lack of space, the load requirements and the sulphur content of the fuel
                     
                  
               
            
               Table 29
            
            BAT-associated emission levels (BAT-AELs) for NOX emissions to air from the combustion of 100 % iron and steel process gases
            
                        
                           Type of combustion plant
                        
                     
                     
                        
                           O2 reference level (vol-%)
                        
                     
                     
                        
                           BAT-AELs (mg/Nm3)
                            (169)
                        
                     
                  
                        
                           Yearly average
                        
                     
                     
                        
                           Daily average or average over the sampling period
                        
                     
                  
                        New boiler
                     
                     
                        3 
                     
                     
                        15 –65 
                     
                     
                        22 –100 
                     
                  
                        Existing boiler
                     
                     
                        3 
                     
                     
                        20 –100  (170)
                            (171)
                        
                     
                     
                        22 –110  (170)
                            (172)
                            (173)
                        
                     
                  
                        New CCGT
                     
                     
                        15 
                     
                     
                        20 –35 
                     
                     
                        30 –50 
                     
                  
                        Existing CCGT
                     
                     
                        15 
                     
                     
                        20 –50  (170)
                            (171)
                        
                     
                     
                        30 –55  (173)
                            (174)
                        
                     
                  As an indication, the yearly average CO emission levels will generally be:
            
                        —
                     
                     
                        < 5–100 mg/Nm3 for existing boilers operated ≥ 1 500 h/yr;
                     
                  
                        —
                     
                     
                        < 5–35 mg/Nm3 for new boilers;
                     
                  
                        —
                     
                     
                        < 5–20 mg/Nm3 for existing CCGTs operated ≥ 1 500 h/yr or new CCGTs.
                     
                  4.2.3.   SOX emissions to air
            
            
               BAT 50.   In order to prevent or reduce SOX emissions to air from the combustion of iron and steel process gases, BAT is to use a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Process gas management system and auxiliary fuel choice
                     
                     
                        See description in Section 8.2.
                        To the extent allowed by the iron- and steel-works, maximise the use of:
                        
                                    —
                                 
                                 
                                    a majority of blast furnace gas with a low sulphur content in the fuel diet;
                                 
                              
                                    —
                                 
                                 
                                    a combination of fuels with a low averaged sulphur content, e.g. individual process fuels with a very low S content such as:
                                    
                                                —
                                             
                                             
                                                Blast furnace gas with a sulphur content < 10 mg/Nm3;
                                             
                                          
                                                —
                                             
                                             
                                                coke oven gas with a sulphur content < 300 mg/Nm3;
                                             
                                          
                              
                                    —
                                 
                                 
                                    and auxiliary fuels such as:
                                    
                                                —
                                             
                                             
                                                natural gas;
                                             
                                          
                                                —
                                             
                                             
                                                liquid fuels with a sulphur content of ≤ 0,4 % (in boilers).
                                             
                                          
                              Use of a limited amount of fuels with a higher sulphur content
                     
                     
                        Generally applicable within the constraints associated with the availability of different types of fuel
                     
                  
                        b.
                     
                     
                        Coke oven gas pretreatment at the iron- and steel-works
                     
                     
                        Use of one of the following techniques:
                        
                                    —
                                 
                                 
                                    desulphurisation by absorption systems;
                                 
                              
                                    —
                                 
                                 
                                    wet oxidative desulphurisation
                                 
                              
                     
                        Only applicable to coke oven gas combustion plants
                     
                  
               
            
               Table 30
            
            BAT-associated emission levels (BAT-AELs) for SO2 emissions to air from the combustion of 100 % iron and steel process gases
            
                        
                           Type of combustion plant
                        
                     
                     
                        
                           O2 reference level (%)
                        
                     
                     
                        
                           BAT-AELs for SO2 (mg/Nm3)
                        
                     
                  
                        
                           Yearly average
                            (175)
                        
                     
                     
                        
                           Daily average or average over the sampling period
                            (176)
                        
                     
                  
                        New or existing boiler
                     
                     
                        3 
                     
                     
                        25 –150 
                     
                     
                        50 –200  (177)
                        
                     
                  
                        New or existing CCGT
                     
                     
                        15 
                     
                     
                        10 –45 
                     
                     
                        20 –70 
                     
                  4.2.4.   Dust emissions to air
            
            
               BAT 51.   In order to reduce dust emissions to air from the combustion of iron and steel process gases, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Fuel choice/management
                     
                     
                        Use of a combination of process gases and auxiliary fuels with a low averaged dust or ash content
                     
                     
                        Generally applicable within the constraints associated with the availability of different types of fuel
                     
                  
                        b.
                     
                     
                        Blast furnace gas pretreatment at the iron- and steel-works
                     
                     
                        Use of one or a combination of dry dedusting devices (e.g. deflectors, dust catchers, cyclones, electrostatic precipitators) and/or subsequent dust abatement (venturi scrubbers, hurdle-type scrubbers, annular gap scrubbers, wet electrostatic precipitators, disintegrators)
                     
                     
                        Only applicable if blast furnace gas is combusted
                     
                  
                        c.
                     
                     
                        Basic oxygen furnace gas pretreatment at the iron- and steel-works
                     
                     
                        Use of dry (e.g. ESP or bag filter) or wet (e.g. wet ESP or scrubber) dedusting. Further descriptions are given in the Iron and Steel BREF
                     
                     
                        Only applicable if basic oxygen furnace gas is combusted
                     
                  
                        d.
                     
                     
                        Electrostatic precipitator (ESP)
                     
                     
                        See descriptions in Section 8.5
                     
                     
                        Only applicable to combustion plants combusting a significant proportion of auxiliary fuels with a high ash content
                     
                  
                        e.
                     
                     
                        Bag filter
                     
                  
               
            
               Table 31
            
            BAT-associated emission levels (BAT-AELs) for dust emissions to air from the combustion of 100 % iron and steel process gases
            
                        
                           Type of combustion plant
                        
                     
                     
                        
                           BAT-AELs for dust (mg/Nm3)
                        
                     
                  
                        
                           Yearly average
                            (178)
                        
                     
                     
                        
                           Daily average or average over the sampling period
                            (179)
                        
                     
                  
                        New or existing boiler
                     
                     
                        2 –7 
                     
                     
                        2 –10 
                     
                  
                        New or existing CCGT
                     
                     
                        2 –5 
                     
                     
                        2 –5 
                     
                  
               4.3.   BAT conclusions for the combustion of gaseous and/or liquid fuels on offshore platforms
            
            Unless otherwise stated, the BAT conclusions presented in this section are generally applicable to the combustion of gaseous and/or liquid fuels on offshore platforms. They apply in addition to the general BAT conclusions given in Section 1.
            
               BAT 52.   In order to improve the general environmental performance of the combustion of gaseous and/or liquid fuels on offshore platforms, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Techniques
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Process optimisation
                     
                     
                        Optimise the process in order to minimise the mechanical power requirements
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Control pressure losses
                     
                     
                        Optimise and maintain inlet and exhaust systems in a way that keeps the pressure losses as low as possible
                     
                  
                        c.
                     
                     
                        Load control
                     
                     
                        Operate multiple generator or compressor sets at load points which minimise emissions
                     
                  
                        d.
                     
                     
                        Minimise the ‘spinning reserve’
                     
                     
                        When running with spinning reserve for operational reliability reasons, the number of additional turbines is minimised, except in exceptional circumstances
                     
                  
                        e.
                     
                     
                        Fuel choice
                     
                     
                        Provide a fuel gas supply from a point in the topside oil and gas process which offers a minimum range of fuel gas combustion parameters, e.g. calorific value, and minimum concentrations of sulphurous compounds to minimise SO2 formation. For liquid distillate fuels, preference is given to low-sulphur fuels
                     
                  
                        f.
                     
                     
                        Injection timing
                     
                     
                        Optimise injection timing in engines
                     
                  
                        g.
                     
                     
                        Heat recovery
                     
                     
                        Utilisation of gas turbine/engine exhaust heat for platform heating purposes
                     
                     
                        Generally applicable to new combustion plants. In existing combustion plants, the applicability may be restricted by the level of heat demand and the combustion plant layout (space)
                     
                  
                        h.
                     
                     
                        Power integration of multiple gas fields/oilfields
                     
                     
                        Use of a central power source to supply a number of participating platforms located at different gas fields/oilfields
                     
                     
                        The applicability may be limited depending on the location of the different gas fields/oilfields and on the organisation of the different participating platforms, including alignment of time schedules regarding planning, start-up and cessation of production
                     
                  
               BAT 53.   In order to prevent or reduce NOX emissions to air from the combustion of gaseous and/or liquid fuels on offshore platforms, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Advanced control system
                     
                     
                        See descriptions in Section 8.3
                     
                     
                        The applicability to old combustion plants may be constrained by the need to retrofit the combustion system and/or control command system
                     
                  
                        b.
                     
                     
                        Dry low-NOX burners (DLN)
                     
                     
                        Applicable to new gas turbines (standard equipment) within the constraints associated with fuel quality variations.
                        The applicability may be limited for existing gas turbines by: availability of a retrofit package (for low-load operation), complexity of the platform organisation and space availability
                     
                  
                        c.
                     
                     
                        Lean-burn concept
                     
                     
                        Only applicable to new gas-fired engines
                     
                  
                        d.
                     
                     
                        Low-NOX burners (LNB)
                     
                     
                        Only applicable to boilers
                     
                  
               BAT 54.   In order to prevent or reduce CO emissions to air from the combustion of gaseous and/or liquid fuels in gas turbines on offshore platforms, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Combustion optimisation
                     
                     
                        See descriptions in Section 8.3
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Oxidation catalysts
                     
                     
                        Not applicable to combustion plants operated < 500 h/yr.
                        Retrofitting existing combustion plants may be constrained by the availability of sufficient space and by weight restrictions
                     
                  
               
            
               Table 32
            
            BAT-associated emission levels (BAT-AELs) for NOX emissions to air from the combustion of gaseous fuels in open-cycle gas turbines on offshore platforms
            
                        
                           Type of combustion plant
                        
                     
                     
                        
                           BAT-AELs (mg/Nm3)
                            (180)
                        
                     
                  
                        
                           Average over the sampling period
                        
                     
                  
                        New gas turbine combusting gaseous fuels (181)
                        
                     
                     
                        15 –50  (182)
                        
                     
                  
                        Existing gas turbine combusting gaseous fuels (181)
                        
                     
                     
                        < 50 –350  (183)
                        
                     
                  As an indication, the average CO emission levels over the sampling period will generally be:
            
                        —
                     
                     
                        < 100 mg/Nm3 for existing gas turbines combusting gaseous fuels on offshore platforms operated ≥ 1 500 h/yr;
                     
                  
                        —
                     
                     
                        < 75 mg/Nm3 for new gas turbines combusting gaseous fuels on offshore platforms.
                     
                  5.   BAT CONCLUSIONS FOR MULTI-FUEL-FIRED PLANTS
            
               5.1.   BAT conclusions for the combustion of process fuels from the chemical industry
            
            Unless otherwise stated, the BAT conclusions presented in this section are generally applicable to the combustion of process fuels from the chemical industry, individually, in combination, or simultaneously with other gaseous and/or liquid fuels. They apply in addition to the general BAT conclusions given in Section 1.
            5.1.1.   General environmental performance
            
            
               BAT 55.   In order to improve the general environmental performance of the combustion of process fuels from the chemical industry in boilers, BAT is to use an appropriate combination of the techniques given in BAT 6 and below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Pretreatment of process fuel from the chemical industry
                     
                     
                        Perform fuel pretreatment on and/or off the site of the combustion plant to improve the environmental performance of fuel combustion
                     
                     
                        Applicable within the constraints associated with process fuel characteristics and space availability
                     
                  5.1.2.   Energy efficiency
            
            
               Table 33
            
            BAT-associated energy efficiency levels (BAT-AEELs) for the combustion of process fuels from the chemical industry in boilers
            
                        
                           Type of combustion unit
                        
                     
                     
                        
                           BAT-AEELs
                            (184)
                            (185)
                        
                     
                  
                        
                           Net electrical efficiency (%)
                        
                     
                     
                        
                           Net total fuel utilisation (%)
                            (186)
                            (187)
                        
                     
                  
                        
                           New unit
                        
                     
                     
                        
                           Existing unit
                        
                     
                     
                        
                           New unit
                        
                     
                     
                        
                           Existing unit
                        
                     
                  
                        Boiler using liquid process fuels from the chemical industry, including when mixed with HFO, gas oil and/or other liquid fuels
                     
                     
                        > 36,4 
                     
                     
                        35,6 –37,4 
                     
                     
                        80 –96 
                     
                     
                        80 –96 
                     
                  
                        Boiler using gaseous process fuels from the chemical industry, including when mixed with natural gas and/or other gaseous fuels
                     
                     
                        39 –42,5 
                     
                     
                        38 –40 
                     
                     
                        78 –95 
                     
                     
                        78 –95 
                     
                  5.1.3.   NOX and CO emissions to air
            
            
               BAT 56.   In order to prevent or reduce NOX emissions to air while limiting CO emissions to air from the combustion of process fuels from the chemical industry, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        Description
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Low-NOX burners (LNB)
                     
                     
                        See descriptions in Section 8.3
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Air staging
                     
                  
                        c.
                     
                     
                        Fuel staging
                     
                     
                        See description in Section 8.3.
                        Applying fuel staging when using liquid fuel mixtures may require a specific burner design
                     
                  
                        d.
                     
                     
                        Flue-gas recirculation
                     
                     
                        See descriptions in Section 8.3
                     
                     
                        Generally applicable to new combustion plants.
                        Applicable to existing combustion plants within the constraints associated with chemical installation safety
                     
                  
                        e.
                     
                     
                        Water/steam addition
                     
                     
                        The applicability may be limited due to water availability
                     
                  
                        f.
                     
                     
                        Fuel choice
                     
                     
                        Applicable within the constraints associated with the availability of different types of fuel and/or an alternative use of the process fuel
                     
                  
                        g.
                     
                     
                        Advanced control system
                     
                     
                        The applicability to old combustion plants may be constrained by the need to retrofit the combustion system and/or control command system
                     
                  
                        h.
                     
                     
                        Selective non-catalytic reduction (SNCR)
                     
                     
                        Applicable to existing combustion plants within the constraints associated with chemical installation safety.
                        Not applicable to combustion plants operated < 500 h/yr.
                        The applicability may be limited in the case of combustion plants operated between 500 h/yr and 1 500  h/yr with frequent fuel changes and frequent load variations
                     
                  
                        i.
                     
                     
                        Selective catalytic reduction (SCR)
                     
                     
                        Applicable to existing combustion plants within the constraints associated with duct configuration, space availability and chemical installation safety.
                        Not applicable to combustion plants operated < 500 h/yr.
                        There may be technical and economic restrictions for retrofitting existing combustion plants operated between 500 h/yr and 1 500  h/yr.
                        Not generally applicable to combustion plants of < 100 MWth
                        
                     
                  
               
            
               Table 34
            
            BAT-associated emission levels (BAT-AELs) for NOX emissions to air from the combustion of 100 % process fuels from the chemical industry in boilers
            
                        
                           Fuel phase used in the combustion plant
                        
                     
                     
                        
                           BAT-AELs (mg/Nm3)
                        
                     
                  
                        
                           Yearly average
                        
                     
                     
                        
                           Daily average or average over the sampling period
                        
                     
                  
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (188)
                        
                     
                     
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (189)
                        
                     
                  
                        Mixture of gases and liquids
                     
                     
                        30 –85 
                     
                     
                        80 –290  (190)
                        
                     
                     
                        50 –110 
                     
                     
                        100 –330  (190)
                        
                     
                  
                        Gases only
                     
                     
                        20 –80 
                     
                     
                        70 –100  (191)
                        
                     
                     
                        30 –100 
                     
                     
                        85 –110  (192)
                        
                     
                  As an indication, the yearly average CO emission levels for existing plants operated ≥ 1 500 h/yr and for new plants will generally be < 5–30 mg/Nm3.
            5.1.4.   SOX, HCl and HF emissions to air
            
            
               BAT 57.   In order to reduce SOX, HCl and HF emissions to air from the combustion of process fuels from the chemical industry in boilers, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Fuel choice
                     
                     
                        See descriptions in Section 8.4
                     
                     
                        Applicable within the constraints associated with the availability of different types of fuel and/or an alternative use of the process fuel
                     
                  
                        b.
                     
                     
                        Boiler sorbent injection (in-furnace or in-bed)
                     
                     
                        Applicable to existing combustion plants within the constraints associated with duct configuration, space availability and chemical installation safety.
                        Wet FGD and seawater FGD are not applicable to combustion plants operated < 500 h/yr.
                        There may be technical and economic restrictions for applying wet FGD or seawater FGD to combustion plants of < 300 MWth, and for retrofitting combustion plants operated between 500 h/yr and 1 500  h/yr with wet FGD or seawater FGD
                     
                  
                        c.
                     
                     
                        Duct sorbent injection (DSI)
                     
                  
                        d.
                     
                     
                        Spray dry absorber (SDA)
                     
                  
                        e.
                     
                     
                        Wet scrubbing
                     
                     
                        See description in Section 8.4.
                        Wet scrubbing is used to remove HCl and HF when no wet FGD is used to reduce SOX emissions
                     
                  
                        f.
                     
                     
                        Wet flue-gas desulphurisation
                        (wet FGD)
                     
                     
                        See descriptions in Section 8.4
                     
                  
                        g.
                     
                     
                        Seawater FGD
                     
                  
               
            
               Table 35
            
            BAT-associated emission levels (BAT-AELs) for SO2 emissions to air from the combustion of 100 % process fuels from the chemical industry in boilers
            
                        
                           Type of combustion plant
                        
                     
                     
                        
                           BAT-AELs (mg/Nm3)
                        
                     
                  
                        
                           Yearly average
                            (193)
                        
                     
                     
                        
                           Daily average or average over the sampling period
                            (194)
                        
                     
                  
                        New and existing boilers
                     
                     
                        10 –110 
                     
                     
                        90 –200 
                     
                  
               
            
               Table 36
            
            BAT-associated emission levels (BAT-AELs) for HCl and HF emissions to air from the combustion of process fuels from the chemical industry in boilers
            
                        
                           Combustion plant total rated thermal input
                        
                        
                           (MWth)
                        
                     
                     
                        
                           BAT-AELs (mg/Nm3)
                        
                     
                  
                        
                           HCl
                        
                     
                     
                        
                           HF
                        
                     
                  
                        
                           Average of samples obtained during one year
                        
                     
                  
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (195)
                        
                     
                     
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (195)
                        
                     
                  
                        < 100 
                     
                     
                        1 –7 
                     
                     
                        2 –15  (196)
                        
                     
                     
                        < 1 –3 
                     
                     
                        < 1 –6  (197)
                        
                     
                  
                        ≥ 100 
                     
                     
                        1 –5 
                     
                     
                        1 –9  (196)
                        
                     
                     
                        < 1 –2 
                     
                     
                        < 1 –3  (197)
                        
                     
                  5.1.5.   Dust and particulate-bound metal emissions to air
            
            
               BAT 58.   In order to reduce emissions to air of dust, particulate-bound metals, and trace species from the combustion of process fuels from the chemical industry in boilers, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Electrostatic precipitator (ESP)
                     
                     
                        See descriptions in Section 8.5
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Bag filter
                     
                  
                        c.
                     
                     
                        Fuel choice
                     
                     
                        See description in Section 8.5.
                        Use of a combination of process fuels from the chemical industry and auxiliary fuels with a low averaged dust or ash content
                     
                     
                        Applicable within the constraints associated with the availability of different types of fuel and/or an alternative use of the process fuel
                     
                  
                        d.
                     
                     
                        Dry or semi-dry FGD system
                     
                     
                        See descriptions in Section 8.5.
                        The technique is mainly used for SOX, HCl and/or HF control
                     
                     
                        See applicability in BAT 57
                     
                  
                        e.
                     
                     
                        Wet flue-gas desulphurisation (wet FGD)
                     
                  
               
            
               Table 37
            
            BAT-associated emission levels (BAT-AELs) for dust emissions to air from the combustion of mixtures of gases and liquids composed of 100 % process fuels from the chemical industry in boilers
            
                        
                           Combustion plant total rated thermal input
                        
                        
                           (MWth)
                        
                     
                     
                        
                           BAT-AELs for dust (mg/Nm3)
                        
                     
                  
                        
                           Yearly average
                        
                     
                     
                        
                           Daily average or average over the sampling period
                        
                     
                  
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (198)
                        
                     
                     
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                            (199)
                        
                     
                  
                        < 300 
                     
                     
                        2 –5 
                     
                     
                        2 –15 
                     
                     
                        2 –10 
                     
                     
                        2 –22  (200)
                        
                     
                  
                        ≥ 300 
                     
                     
                        2 –5 
                     
                     
                        2 –10  (201)
                        
                     
                     
                        2 –10 
                     
                     
                        2 –11  (200)
                        
                     
                  5.1.6.   Emissions of volatile organic compounds and polychlorinated dibenzo-dioxins and -furans to air
            
            
               BAT 59.   In order to reduce emissions to air of volatile organic compounds and polychlorinated dibenzo-dioxins and -furans from the combustion of process fuels from the chemical industry in boilers, BAT is to use one or a combination of the techniques given in BAT 6 and below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Activated carbon injection
                     
                     
                        See description in Section 8.5
                     
                     
                        Only applicable to combustion plants using fuels derived from chemical processes involving chlorinated substances.
                        For the applicability of SCR and rapid quenching see BAT 56 and BAT 57
                     
                  
                        b.
                     
                     
                        Rapid quenching using wet scrubbing/flue-gas condenser
                     
                     
                        See description of wet scrubbing/flue-gas condenser in Section 8.4
                     
                  
                        c.
                     
                     
                        Selective catalytic reduction (SCR)
                     
                     
                        See description in Section 8.3.
                        The SCR system is adapted and larger than an SCR system only used for NOX reduction
                     
                  
               
            
               Table 38
            
            BAT-associated emission levels (BAT-AELs) for PCDD/F and TVOC emissions to air from the combustion of 100 % process fuels from the chemical industry in boilers
            
                        
                           Pollutant
                        
                     
                     
                        
                           Unit
                        
                     
                     
                        
                           BAT-AELs
                        
                     
                  
                        
                           Average over the sampling period
                        
                     
                  
                        PCDD/F (202)
                        
                     
                     
                        ng I-TEQ/Nm3
                        
                     
                     
                        < 0,012 –0,036 
                     
                  
                        TVOC
                     
                     
                        mg/Nm3
                        
                     
                     
                        0,6 –12 
                     
                  6.   BAT CONCLUSIONS FOR THE CO-INCINERATION OF WASTE
            Unless otherwise stated, the BAT conclusions presented in this section are generally applicable to the co-incineration of waste in combustion plants. They apply in addition to the general BAT conclusions given in Section 1.
            When waste is co-incinerated, the BAT-AELs in this section apply to the entire flue-gas volume generated.
            In addition, when waste is co-incinerated together with the fuels covered by Section 2, the BAT-AELs set out in Section 2 also apply (i) to the entire flue-gas volume generated, and (ii) to the flue-gas volume resulting from the combustion of the fuels covered by that section using the mixing rule formula of Annex VI (part 4) to Directive 2010/75/EU, in which the BAT-AELs for the flue-gas volume resulting from the combustion of waste are to be determined on the basis of BAT 61.
            6.1.1.   General environmental performance
            
            
               BAT 60.   In order to improve the general environmental performance of the co-incineration of waste in combustion plants, to ensure stable combustion conditions, and to reduce emissions to air, BAT is to use technique BAT 60 (a) below and a combination of the techniques given in BAT 6 and/or the other techniques below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Waste pre-acceptance and acceptance
                     
                     
                        Implement a procedure for receiving any waste at the combustion plant according to the corresponding BAT from the Waste Treatment BREF. Acceptance criteria are set for critical parameters such as heating value, and the content of water, ash, chlorine and fluorine, sulphur, nitrogen, PCB, metals (volatile (e.g. Hg, Tl, Pb, Co, Se) and non-volatile (e.g. V, Cu, Cd, Cr, Ni)), phosphorus and alkali (when using animal by-products).
                        Apply quality assurance systems for each waste load to guarantee the characteristics of the wastes co-incinerated and to control the values of defined critical parameters (e.g. EN 15358 for non-hazardous solid recovered fuel)
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Waste selection/limitation
                     
                     
                        Careful selection of waste type and mass flow, together with limiting the percentage of the most polluted waste that can be co-incinerated. Limit the proportion of ash, sulphur, fluorine, mercury and/or chlorine in the waste entering the combustion plant.
                        Limitation of the amount of waste to be co-incinerated
                     
                     
                        Applicable within the constraints associated with the waste management policy of the Member State
                     
                  
                        c.
                     
                     
                        Waste mixing with the main fuel
                     
                     
                        Effective mixing of waste and the main fuel, as a heterogeneous or poorly mixed fuel stream or an uneven distribution may influence the ignition and combustion in the boiler and should be prevented
                     
                     
                        Mixing is only possible when the grinding behaviour of the main fuel and waste is similar or when the amount of waste is very small compared to the main fuel
                     
                  
                        d.
                     
                     
                        Waste drying
                     
                     
                        Pre-drying of the waste before introducing it into the combustion chamber, with a view to maintaining the high performance of the boiler
                     
                     
                        The applicability may be limited by insufficient recoverable heat from the process, by the required combustion conditions, or by the waste moisture content
                     
                  
                        e.
                     
                     
                        Waste pretreatment
                     
                     
                        See techniques described in the Waste Treatment and Waste Incineration BREFs, including milling, pyrolysis and gasification
                     
                     
                        See applicability in the Waste Treatment BREF and in the Waste incineration BREF
                     
                  
               BAT 61.   In order to prevent increased emissions from the co-incineration of waste in combustion plants, BAT is to take appropriate measures to ensure that the emissions of polluting substances in the part of the flue-gases resulting from waste co-incineration are not higher than those resulting from the application of BAT conclusions for the incineration of waste.
            
            
               BAT 62.   In order to minimise the impact on residues recycling of the co-incineration of waste in combustion plants, BAT is to maintain a good quality of gypsum, ashes and slags as well as other residues, in line with the requirements set for their recycling when the plant is not co-incinerating waste, by using one or a combination of the techniques given in BAT 60 and/or by restricting the co-incineration to waste fractions with pollutant concentrations similar to those in other combusted fuels.
            
            6.1.2.   Energy efficiency
            
            
               BAT 63.   In order to increase the energy efficiency of the co-incineration of waste, BAT is to use an appropriate combination of the techniques given in BAT 12 and BAT 19, depending on the main fuel type used and on the plant configuration.
            
            The BAT-associated energy efficiency levels (BAT-AEELs) are given in Table 8 for the co-incineration of waste with biomass and/or peat and in Table 2 for the co-incineration of waste with coal and/or lignite.
            6.1.3.   NOX and CO emissions to air
            
            
               BAT 64.   In order to prevent or reduce NOX emissions to air while limiting CO and N2O emissions from the co-incineration of waste with coal and/or lignite, BAT is to use one or a combination of the techniques given in BAT 20.
            
            
               BAT 65.   In order to prevent or reduce NOX emissions to air while limiting CO and N2O emissions from the co-incineration of waste with biomass and/or peat, BAT is to use one or a combination of the techniques given in BAT 24.
            
            6.1.4.   SOX, HCl and HF emissions to air
            
            
               BAT 66.   In order to prevent or reduce SOX, HCl and HF emissions to air from the co-incineration of waste with coal and/or lignite, BAT is to use one or a combination of the techniques given in BAT 21.
            
            
               BAT 67.   In order to prevent or reduce SOX, HCl and HF emissions to air from the co-incineration of waste with biomass and/or peat, BAT is to use one or a combination of the techniques given in BAT 25.
            
            6.1.5.   Dust and particulate-bound metal emissions to air
            
            
               BAT 68.   In order to reduce dust and particulate-bound metal emissions to air from the co-incineration of waste with coal and/or lignite, BAT is to use one or a combination of the techniques given in BAT 22.
            
            
               Table 39
            
            BAT-associated emission levels (BAT-AELs) for metal emissions to air from the co-incineration of waste with coal and/or lignite
            
                        
                           Combustion plant total rated thermal input (MWth)
                        
                     
                     
                        
                           BAT-AELs
                        
                     
                     
                        
                           Averaging period
                        
                     
                  
                        
                           Sb+As+Pb+Cr+Co+Cu+Mn+Ni+V (mg/Nm3
                        
                     
                     
                        
                           Cd+Tl (μg/Nm3
                        
                     
                  
                        < 300 
                     
                     
                        0,005 –0,5 
                     
                     
                        5 –12 
                     
                     
                        Average over the sampling period
                     
                  
                        
                           ≥ 300
                     
                     
                        0,005 –0,2 
                     
                     
                        5 –6 
                     
                     
                        Average of samples obtained during one year
                     
                  
               BAT 69.   In order to reduce dust and particulate-bound metal emissions to air from the co-incineration of waste with biomass and/or peat, BAT is to use one or a combination of the techniques given in BAT 26.
            
            
               Table 40
            
            BAT-associated emission levels (BAT-AELs) for metal emissions to air from the co-incineration of waste with biomass and/or peat
            
                        
                           BAT-AELs
                        
                        
                           (average of samples obtained during one year)
                        
                     
                  
                        
                           Sb+As+Pb+Cr+Co+Cu+Mn+Ni+V (mg/Nm3
                        
                     
                     
                        
                           Cd+Tl (μg/Nm3
                        
                     
                  
                        0,075 –0,3 
                     
                     
                        < 5 
                     
                  6.1.6.   Mercury emissions to air
            
            
               BAT 70.   In order to reduce mercury emissions to air from the co-incineration of waste with biomass, peat, coal and/or lignite, BAT is to use one or a combination of the techniques given in BAT 23 and BAT 27.
            
            6.1.7.   Emissions of volatile organic compounds and polychlorinated dibenzo-dioxins and -furans to air
            
            
               BAT 71.   In order to reduce emissions of volatile organic compounds and polychlorinated dibenzo-dioxins and -furans to air from the co-incineration of waste with biomass, peat, coal and/or lignite, BAT is to use a combination of the techniques given in BAT 6, BAT 26 and below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Activated carbon injection
                     
                     
                        See description in Section 8.5.
                        This process is based on the adsorption of pollutant molecules by the activated carbon
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Rapid quenching using wet scrubbing/flue-gas condenser
                     
                     
                        See description of wet scrubbing/flue-gas condenser in Section 8.4
                     
                  
                        c.
                     
                     
                        Selective catalytic reduction (SCR)
                     
                     
                        See description in Section 8.3.
                        The SCR system is adapted and larger than an SCR system only used for NOX reduction
                     
                     
                        See applicability in BAT 20 and in BAT 24
                     
                  
               
            
               Table 41
            
            BAT-associated emission levels (BAT-AELs) for PCDD/F and TVOC emissions to air from the co-incineration of waste with biomass, peat, coal and/or lignite
            
                        
                           Type of combustion plant
                        
                     
                     
                        
                           BAT-AELs
                        
                     
                  
                        
                           PCDD/F (ng I-TEQ/Nm3)
                        
                     
                     
                        
                           TVOC (mg/Nm3)
                        
                     
                  
                        
                           Average over the sampling period
                        
                     
                     
                        
                           Yearly average
                        
                     
                     
                        
                           Daily average
                        
                     
                  
                        Biomass-, peat-, coal- and/or lignite-fired combustion plant
                     
                     
                        < 0,01 –0,03 
                     
                     
                        < 0,1 –5 
                     
                     
                        0,5 –10 
                     
                  7.   BAT CONCLUSIONS FOR GASIFICATION
            Unless otherwise stated, the BAT conclusions presented in this section are generally applicable to all gasification plants directly associated to combustion plants, and to IGCC plants. They apply in addition to the general BAT conclusions given in Section 1.
            7.1.1.   Energy efficiency
            
            
               BAT 72.   In order to increase the energy efficiency of IGCC and gasification units, BAT is to use one or a combination of the techniques given in BAT 12 and below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Heat recovery from the gasification process
                     
                     
                        As the syngas needs to be cooled down to be cleaned further, energy can be recovered for producing additional steam to be added to the steam turbine cycle, enabling additional electrical power to be produced
                     
                     
                        Only applicable to IGCC units and to gasification units directly associated to boilers with syngas pretreatment that requires cooling down of the syngas
                     
                  
                        b.
                     
                     
                        Integration of gasification and combustion processes
                     
                     
                        The unit can be designed with full integration of the air supply unit (ASU) and the gas turbine, with all the air fed to the ASU being supplied (extracted) from the gas turbine compressor
                     
                     
                        The applicability is limited to IGCC units by the flexibility needs of the integrated plant to quickly provide the grid with electricity when renewable power plants are not available
                     
                  
                        c.
                     
                     
                        Dry feedstock feeding system
                     
                     
                        Use of a dry system for feeding the fuel to the gasifier, in order to improve the energy efficiency of the gasification process
                     
                     
                        Only applicable to new units
                     
                  
                        d.
                     
                     
                        High-temperature and -pressure gasification
                     
                     
                        Use of gasification technique with high-temperature and -pressure operating parameters, in order to maximise the efficiency of energy conversion
                     
                     
                        Only applicable to new units
                     
                  
                        e.
                     
                     
                        Design improvements
                     
                     
                        Design improvements, such as:
                        
                                    —
                                 
                                 
                                    modifications of the gasifier refractory and/or cooling system;
                                 
                              
                                    —
                                 
                                 
                                    installation of an expander to recover energy from the syngas pressure drop before combustion
                                 
                              
                     
                        Generally applicable to IGCC units
                     
                  
               
            
               Table 42
            
            BAT-associated energy efficiency levels (BAT-AEELs) for gasification and IGCC units
            
                        
                           Type of combustion unit configuration
                        
                     
                     
                        
                           BAT-AEELs
                        
                     
                  
                        
                           Net electrical efficiency (%) of an IGCC unit
                        
                     
                     
                        
                           Net total fuel utilisation (%) of a new or existing gasification unit
                        
                     
                  
                        
                           New unit
                        
                     
                     
                        
                           Existing unit
                        
                     
                  
                        Gasification unit directly associated to a boiler without prior syngas treatment
                     
                     
                        No BAT-AEEL
                     
                     
                        > 98 
                     
                  
                        Gasification unit directly associated to a boiler with prior syngas treatment
                     
                     
                        No BAT-AEEL
                     
                     
                        > 91 
                     
                  
                        IGCC unit
                     
                     
                        No BAT-AEEL
                     
                     
                        34 –46 
                     
                     
                        > 91 
                     
                  7.1.2.   NOX and CO emissions to air
            
            
               BAT 73.   In order to prevent and/or reduce NOX emissions to air while limiting CO emissions to air from IGCC plants, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Combustion optimisation
                     
                     
                        See description in Section 8.3
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Water/steam addition
                     
                     
                        See description in Section 8.3.
                        Some intermediate-pressure steam from the steam turbine is reused for this purpose
                     
                     
                        Only applicable to the gas turbine part of the IGCC plant.
                        The applicability may be limited due to water availability
                     
                  
                        c.
                     
                     
                        Dry low-NOX burners (DLN)
                     
                     
                        See description in Section 8.3
                     
                     
                        Only applicable to the gas turbine part of the IGCC plant.
                        Generally applicable to new IGCC plants.
                        Applicable on a case-by-case basis for existing IGCC plants, depending on the availability of a retrofit package. Not applicable for syngas with a hydrogen content of > 15 %
                     
                  
                        d.
                     
                     
                        Syngas dilution with waste nitrogen from the air supply unit (ASU)
                     
                     
                        The ASU separates the oxygen from the nitrogen in the air, in order to supply high-quality oxygen to the gasifier. The waste nitrogen from the ASU is reused to reduce the combustion temperature in the gas turbine, by being premixed with the syngas before combustion
                     
                     
                        Only applicable when an ASU is used for the gasification process
                     
                  
                        e.
                     
                     
                        Selective catalytic reduction (SCR)
                     
                     
                        See description in Section 8.3
                     
                     
                        Not applicable to IGCC plants operated < 500 h/yr.
                        Retrofitting existing IGCC plants may be constrained by the availability of sufficient space.
                        There may be technical and economic restrictions for retrofitting existing IGCC plants operated between 500 h/yr and 1 500  h/yr
                     
                  
               
            
               Table 43
            
            BAT-associated emission levels (BAT-AELs) for NOX emissions to air from IGCC plants
            
                        
                           IGCC plant total rated thermal input
                        
                        
                           (MWth)
                        
                     
                     
                        
                           BAT-AELs (mg/Nm3)
                        
                     
                  
                        
                           Yearly average
                        
                     
                     
                        
                           Daily average or average over the sampling period
                        
                     
                  
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                        
                     
                     
                        
                           New plant
                        
                     
                     
                        
                           Existing plant
                        
                     
                  
                        ≥ 100 
                     
                     
                        10 –25 
                     
                     
                        12 –45 
                     
                     
                        1 –35 
                     
                     
                        1 –60 
                     
                  As an indication, the yearly average CO emission levels for existing plants operated ≥ 1 500 h/yr and for new plants will generally be < 5–30 mg/Nm3.
            7.1.3.   SOX emissions to air
            
            
               BAT 74.   In order to reduce SOX emissions to air from IGCC plants, BAT is to use the technique given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Acid gas removal
                     
                     
                        Sulphur compounds from the feedstock of a gasification process are removed from the syngas via acid gas removal, e.g. including a COS (and HCN) hydrolysis reactor and the absorption of H2S using a solvent such as methyl diethanolamine. Sulphur is then recovered as either liquid or solid elemental sulphur (e.g. through a Claus unit), or as sulphuric acid, depending on market demands
                     
                     
                        The applicability may be limited in the case of biomass IGCC plants due to the very low sulphur content in biomass
                     
                  The BAT-associated emission level (BAT-AEL) for SO2 emissions to air from IGCC plants of ≥ 100 MWth is 3–16 mg/Nm3, expressed as a yearly average.
            7.1.4.   Dust, particulate-bound metal, ammonia and halogen emissions to air
            
            
               BAT 75.   In order to prevent or reduce dust, particulate-bound metal, ammonia and halogen emissions to air from IGCC plants, BAT is to use one or a combination of the techniques given below.
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                     
                        
                           Applicability
                        
                     
                  
                        a.
                     
                     
                        Syngas filtration
                     
                     
                        Dedusting using fly ash cyclones, bag filters, ESPs and/or candle filters to remove fly ash and unconverted carbon. Bag filters and ESPs are used in the case of syngas temperatures up to 400 °C
                     
                     
                        Generally applicable
                     
                  
                        b.
                     
                     
                        Syngas tars and ashes recirculation to the gasifier
                     
                     
                        Tars and ashes with a high carbon content generated in the raw syngas are separated in cyclones and recirculated to the gasifier, in the case of a low syngas temperature at the gasifier outlet (< 1 100  °C)
                     
                  
                        c.
                     
                     
                        Syngas washing
                     
                     
                        Syngas passes through a water scrubber, downstream of other dedusting technique(s), where chlorides, ammonia, particles and halides are separated
                     
                  
               
            
               Table 44
            
            BAT-associated emission levels (BAT-AELs) for dust and particulate-bound metal emissions to air from IGCC plants
            
                        
                           IGCC plant total rated thermal input
                        
                        
                           (MWth)
                        
                     
                     
                        
                           BAT-AELs
                        
                     
                  
                        
                           Sb+As+Pb+Cr+Co+Cu+Mn+Ni+V
                        
                        
                           (mg/Nm3)
                        
                        
                           (Average over the sampling period)
                        
                     
                     
                        
                           Hg (μg/Nm3)
                        
                        
                           (Average over the sampling period)
                        
                     
                     
                        
                           Dust (mg/Nm3)
                        
                        
                           (yearly average)
                        
                     
                  
                        ≥ 100 
                     
                     
                        < 0,025 
                     
                     
                        < 1 
                     
                     
                        < 2,5 
                     
                  8.   DESCRIPTION OF TECHNIQUES
            
               8.1.   General techniques
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                  
                        Advanced control system
                     
                     
                        The use of a computer-based automatic system to control the combustion efficiency and support the prevention and/or reduction of emissions. This also includes the use of high-performance monitoring.
                     
                  
                        Combustion optimisation
                     
                     
                        Measures taken to maximise the efficiency of energy conversion, e.g. in the furnace/boiler, while minimising emissions (in particular of CO). This is achieved by a combination of techniques including good design of the combustion equipment, optimisation of the temperature (e.g. efficient mixing of the fuel and combustion air) and residence time in the combustion zone, and use of an advanced control system.
                     
                  
               8.2.   Techniques to increase energy efficiency
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                  
                        Advanced control system
                     
                     
                        See Section 8.1
                     
                  
                        CHP readiness
                     
                     
                        The measures taken to allow the later export of a useful quantity of heat to an off-site heat load in a way that will achieve at least a 10 % reduction in primary energy usage compared to the separate generation of the heat and power produced. This includes identifying and retaining access to specific points in the steam system from which steam can be extracted, as well as making sufficient space available to allow the later fitting of items such as pipework, heat exchangers, extra water demineralisation capacity, standby boiler plant and back-pressure turbines. Balance of Plant (BoP) systems and control/instrumentation systems are suitable for upgrade. Later connection of back-pressure turbine(s) is also possible.
                     
                  
                        Combined cycle
                     
                     
                        Combination of two or more thermodynamic cycles, e.g. a Brayton cycle (gas turbine/combustion engine) with a Rankine cycle (steam turbine/boiler), to convert heat loss from the flue-gas of the first cycle to useful energy by subsequent cycle(s).
                     
                  
                        Combustion optimisation
                     
                     
                        See Section 8.1
                     
                  
                        Flue-gas condenser
                     
                     
                        A heat exchanger where water is preheated by the flue-gas before it is heated in the steam condenser. The vapour content in the flue-gas thus condenses as it is cooled by the heating water. The flue-gas condenser is used both to increase the energy efficiency of the combustion unit and to remove pollutants such as dust, SOX, HCl, and HF from the flue-gas.
                     
                  
                        Process gas management system
                     
                     
                        A system that enables the iron and steel process gases that can be used as fuels (e.g. blast furnace, coke oven, basic oxygen furnace gases) to be directed to the combustion plants, depending on the availability of these fuels and on the type of combustion plants in an integrated steelworks.
                     
                  
                        Supercritical steam conditions
                     
                     
                        The use of a steam circuit, including steam reheating systems, in which steam can reach pressures above 220,6 bar and temperatures of > 540 °C.
                     
                  
                        Ultra-supercritical steam conditions
                     
                     
                        The use of a steam circuit, including reheat systems, in which steam can reach pressures above 250–300 bar and temperatures above 580–600 °C.
                     
                  
                        Wet stack
                     
                     
                        The design of the stack in order to enable water vapour condensation from the saturated flue-gas and thus to avoid using a flue-gas reheater after the wet FGD.
                     
                  
               8.3.   Techniques to reduce emissions of NOX and/or CO to air
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                  
                        Advanced control system
                     
                     
                        See Section 8.1
                     
                  
                        Air staging
                     
                     
                        The creation of several combustion zones in the combustion chamber with different oxygen contents for reducing NOX emissions and ensuring optimised combustion. The technique involves a primary combustion zone with substoichiometric firing (i.e. with deficiency of air) and a second reburn combustion zone (running with excess air) to improve combustion. Some old, small boilers may require a capacity reduction to allow the space for air staging.
                     
                  
                        Combined techniques for NOX and SOX reduction
                     
                     
                        The use of complex and integrated abatement techniques for combined reduction of NOX, SOX and, often, other pollutants from the flue-gas, e.g. activated carbon and DeSONOX processes. They can be applied either alone or in combination with other primary techniques in coal-fired PC boilers.
                     
                  
                        Combustion optimisation
                     
                     
                        See Section 8.1
                     
                  
                        Dry low-NOX burners (DLN)
                     
                     
                        Gas turbine burners that include the premixing of the air and fuel before entering the combustion zone. By mixing air and fuel before combustion, a homogeneous temperature distribution and a lower flame temperature are achieved, resulting in lower NOX emissions.
                     
                  
                        Flue-gas or exhaust-gas recirculation (FGR/EGR)
                     
                     
                        Recirculation of part of the flue-gas to the combustion chamber to replace part of the fresh combustion air, with the dual effect of cooling the temperature and limiting the O2 content for nitrogen oxidation, thus limiting the NOX generation. It implies the supply of flue-gas from the furnace into the flame to reduce the oxygen content and therefore the temperature of the flame. The use of special burners or other provisions is based on the internal recirculation of combustion gases which cool the root of the flames and reduce the oxygen content in the hottest part of the flames.
                     
                  
                        Fuel choice
                     
                     
                        The use of fuel with a low nitrogen content.
                     
                  
                        Fuel staging
                     
                     
                        The technique is based on the reduction of the flame temperature or localised hot spots by the creation of several combustion zones in the combustion chamber with different injection levels of fuel and air. The retrofit may be less efficient in smaller plants than in larger plants.
                     
                  
                        Lean-burn concept and advanced lean-burn concept
                     
                     
                        The control of the peak flame temperature through lean-burn conditions is the primary combustion approach to limiting NOX formation in gas engines. Lean combustion decreases the fuel to air ratio in the zones where NOX is generated so that the peak flame temperature is less than the stoichiometric adiabatic flame temperature, therefore reducing thermal NOX formation. The optimisation of this concept is called the ‘advanced lean-burn concept’.
                     
                  
                        Low-NOX burners (LNB)
                     
                     
                        The technique (including ultra- or advanced low-NOX burners) is based on the principles of reducing peak flame temperatures; boiler burners are designed to delay but improve the combustion and increase the heat transfer (increased emissivity of the flame). The air/fuel mixing reduces the availability of oxygen and reduces the peak flame temperature, thus retarding the conversion of fuel-bound nitrogen to NOX and the formation of thermal NOX, while maintaining high combustion efficiency. It may be associated with a modified design of the furnace combustion chamber. The design of ultra-low-NOX burners (ULNBs) includes combustion staging (air/fuel) and firebox gases’ recirculation (internal flue-gas recirculation). The performance of the technique may be influenced by the boiler design when retrofitting old plants.
                     
                  
                        Low-NOX combustion concept in diesel engines
                     
                     
                        The technique consists of a combination of internal engine modifications, e.g. combustion and fuel injection optimisation (the very late fuel injection timing in combination with early inlet air valve closing), turbocharging or Miller cycle.
                     
                  
                        Oxidation catalysts
                     
                     
                        The use of catalysts (that usually contain precious metals such as palladium or platinum) to oxidise carbon monoxide and unburnt hydrocarbons with oxygen to form CO2 and water vapour.
                     
                  
                        Reduction of the combustion air temperature
                     
                     
                        The use of combustion air at ambient temperature. The combustion air is not preheated in a regenerative air preheater.
                     
                  
                        Selective catalytic reduction (SCR)
                     
                     
                        Selective reduction of nitrogen oxides with ammonia or urea in the presence of a catalyst. The technique is based on the reduction of NOX to nitrogen in a catalytic bed by reaction with ammonia (in general aqueous solution) at an optimum operating temperature of around 300–450 °C. Several layers of catalyst may be applied. A higher NOX reduction is achieved with the use of several catalyst layers. The technique design can be modular, and special catalysts and/or preheating can be used to cope with low loads or with a wide flue-gas temperature window. ‘In-duct’ or ‘slip’ SCR is a technique that combines SNCR with downstream SCR which reduces the ammonia slip from the SNCR unit.
                     
                  
                        Selective non-catalytic reduction (SNCR)
                     
                     
                        Selective reduction of nitrogen oxides with ammonia or urea without a catalyst. The technique is based on the reduction of NOX to nitrogen by reaction with ammonia or urea at a high temperature. The operating temperature window is maintained between 800 °C and 1 000  °C for optimal reaction.
                     
                  
                        Water/steam addition
                     
                     
                        Water or steam is used as a diluent for reducing the combustion temperature in gas turbines, engines or boilers and thus the thermal NOX formation. It is either premixed with the fuel prior to its combustion (fuel emulsion, humidification or saturation) or directly injected in the combustion chamber (water/steam injection).
                     
                  
               8.4.   Techniques to reduce emissions of SOX, HCl and/or HF to air
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                  
                        Boiler sorbent injection (in-furnace or in-bed)
                     
                     
                        The direct injection of a dry sorbent into the combustion chamber, or the addition of magnesium- or calcium-based adsorbents to the bed of a fluidised bed boiler. The surface of the sorbent particles reacts with the SO2 in the flue-gas or in the fluidised bed boiler. It is mostly used in combination with a dust abatement technique.
                     
                  
                        Circulating fluidised bed (CFB) dry scrubber
                     
                     
                        Flue-gas from the boiler air preheater enters the CFB absorber at the bottom and flows vertically upwards through a Venturi section where a solid sorbent and water are injected separately into the flue-gas stream. It is mostly used in combination with a dust abatement technique.
                     
                  
                        Combined techniques for NOX and SOX reduction
                     
                     
                        See Section 8.3
                     
                  
                        Duct sorbent injection (DSI)
                     
                     
                        The injection and dispersion of a dry powder sorbent in the flue-gas stream. The sorbent (e.g. sodium carbonate, sodium bicarbonate, hydrated lime) reacts with acid gases (e.g. the gaseous sulphur species and HCl) to form a solid which is removed with dust abatement techniques (bag filter or electrostatic precipitator). DSI is mostly used in combination with a bag filter.
                     
                  
                        Flue-gas condenser
                     
                     
                        See Section 8.2
                     
                  
                        Fuel choice
                     
                     
                        The use of a fuel with a low sulphur, chlorine and/or fluorine content
                     
                  
                        Process gas management system
                     
                     
                        See Section 8.2
                     
                  
                        Seawater FGD
                     
                     
                        A specific non-regenerative type of wet scrubbing using the natural alkalinity of theseawater to absorb the acidic compounds in the flue-gas. Generally requires an upstream abatement of dust.
                     
                  
                        Spray dry absorber (SDA)
                     
                     
                        A suspension/solution of an alkaline reagent is introduced and dispersed in the flue-gas stream. The material reacts with the gaseous sulphur species to form a solid which is removed with dust abatement techniques (bag filter or electrostatic precipitator). SDA is mostly used in combination with a bag filter.
                     
                  
                        Wet flue-gas desulphurisation (wet FGD)
                     
                     
                        Technique or combination of scrubbing techniques by which sulphur oxides are removed from flue-gases through various processes generally involving an alkaline sorbent for capturing gaseous SO2 and transforming it into solids. In the wet scrubbing process, gaseous compounds are dissolved in a suitable liquid (water or alkaline solution). Simultaneous removal of solid and gaseous compounds may be achieved. Downstream of the wet scrubber, the flue-gases are saturated with water and separation of the droplets is required before discharging the flue-gases. The liquid resulting from the wet scrubbing is sent to a waste water treatment plant and the insoluble matter is collected by sedimentation or filtration.
                     
                  
                        Wet scrubbing
                     
                     
                        Use of a liquid, typically water or an aqueous solution, to capture the acidic compounds from the flue-gas by absorption.
                     
                  
               8.5.   Techniques to reduce emissions to air of dust, metals including mercury, and/or PCDD/F
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                  
                        Bag filter
                     
                     
                        Bag or fabric filters are constructed from porous woven or felted fabric through which gases are passed to remove particles. The use of a bag filter requires the selection of a fabric suitable for the characteristics of the flue-gas and the maximum operating temperature.
                     
                  
                        Boiler sorbent injection (in-furnace or in-bed)
                     
                     
                        See general description in Section 10.8.4. There are co-benefits in the form of dust and metal emissions reduction.
                     
                  
                        Carbon sorbent (e.g. activated carbon or halogenated activated carbon) injection in the flue-gas
                     
                     
                        Mercury and/or PCDD/F adsorption by carbon sorbents, such as (halogenated) activated carbon, with or without chemical treatment. The sorbent injection system can be enhanced by the addition of a supplementary bag filter.
                     
                  
                        Dry or semi-dry FGD system
                     
                     
                        See general description of each technique (i.e. spray dry absorber (SDA), duct sorben injection (DSI), circulating fluidised bed (CFB) dry scrubber) in Section 8.4. There are co-benefits in the form of dust and metal emissions reduction.
                     
                  
                        Electrostatic precipitator (ESP)
                     
                     
                        Electrostatic precipitators operate such that particles are charged and separated under the influence of an electrical field. Electrostatic precipitators are capable of operating under a wide range of conditions. The abatement efficiency typically depends on the number of fields, the residence time (size), catalyst properties, and upstream particle removal devices. ESPs generally include between two and five fields. The most modern (high-performance) ESPs have up to seven fields.
                     
                  
                        Fuel choice
                     
                     
                        The use of a fuel with a low ash or metals (e.g. mercury) content.
                     
                  
                        Multicyclones
                     
                     
                        Set of dust control systems, based on centrifugal force, whereby particles are separated from the carrier gas, assembled in one or several enclosures.
                     
                  
                        Use of halogenated additives in the fuel or injected in the furnace
                     
                     
                        Addition of halogen compounds (e.g. brominated additives) into the furnace to oxidise elemental mercury into soluble or particulate species, thereby enhancing mercury removal in downstream abatement systems.
                     
                  
                        Wet flue-gas desulphurisation (wet FGD)
                     
                     
                        See general description in Section 8.4. There are co-benefits in the form of dust and metals emission reduction.
                     
                  
               8.6.   Techniques to reduce emissions to water
            
            
                        
                           Technique
                        
                     
                     
                        
                           Description
                        
                     
                  
                        Adsorption on activated carbon
                     
                     
                        The retention of soluble pollutants on the surface of solid, highly porous particles (the adsorbent). Activated carbon is typically used for the adsorption of organic compounds and mercury.
                     
                  
                        Aerobic biological treatment
                     
                     
                        The biological oxidation of dissolved organic pollutants with oxygen using the metabolism of microorganisms. In the presence of dissolved oxygen – injected as air or pure oxygen – the organic components are mineralised into carbon dioxide and water or are transformed into other metabolites and biomass. Under certain conditions, aerobic nitrification also takes place whereby microorganisms oxidise ammonium (NH4
                           +) to the intermediate nitrite (NO2
                           -), which is then further oxidised to nitrate (NO3
                           -).
                     
                  
                        Anoxic/anaerobic biological treatment
                     
                     
                        The biological reduction of pollutants using the metabolism of microorganisms (e.g. nitrate (NO3
                           -) is reduced to elemental gaseous nitrogen, oxidised species of mercury are reduced to elemental mercury).
                        The anoxic/anaerobic treatment of waste water from the use of wet abatement systems is typically carried out in fixed-film bioreactors using activated carbon as a carrier.
                        The anoxic/anaerobic biological treatment for the removal of mercury is applied in combination with other techniques.
                     
                  
                        Coagulation and flocculation
                     
                     
                        Coagulation and flocculation are used to separate suspended solids from waste water and are often carried out in successive steps. Coagulation is carried out by adding coagulants with charges opposite to those of the suspended solids. Flocculation is carried out by adding polymers, so that collisions of microfloc particles cause them to bond thereby producing larger flocs.
                     
                  
                        Crystallisation
                     
                     
                        The removal of ionic pollutants from waste water by crystallising them on a seed material such as sand or minerals, in a fluidised bed process
                     
                  
                        Filtration
                     
                     
                        The separation of solids from waste water by passing it through a porous medium. It includes different types of techniques, e.g. sand filtration, microfiltration and ultrafiltration.
                     
                  
                        Flotation
                     
                     
                        The separation of solid or liquid particles from waste water by attaching them to fine gas bubbles, usually air. The buoyant particles accumulate at the water surface and are collected with skimmers.
                     
                  
                        Ion exchange
                     
                     
                        The retention of ionic pollutants from waste water and their replacement by more acceptable ions using an ion exchange resin. The pollutants are temporarily retained and afterwards released into a regeneration or backwashing liquid.
                     
                  
                        Neutralisation
                     
                     
                        The adjustment of the pH of the waste water to the neutral pH level (approximately 7) by adding chemicals. Sodium hydroxide (NaOH) or calcium hydroxide (Ca(OH)2) is generally used to increase the pH whereas sulphuric acid (H2SO4), hydrochloric acid (HCl) or carbon dioxide (CO2) is generally used to decrease the pH. The precipitation of some pollutants may occur during neutralisation.
                     
                  
                        Oil-water separation
                     
                     
                        The removal of free oil from waste water by gravity separation using devices such as the American Petroleum Institute separator, a corrugated plate interceptor, or a parallel plate interceptor. Oil-water separation is normally followed by flotation, supported by coagulation/flocculation. In some cases, emulsion breaking may be needed prior to oil-water separation.
                     
                  
                        Oxidation
                     
                     
                        The conversion of pollutants by chemical oxidising agents to similar compounds that are less hazardous and/or easier to abate. In the case of waste water from the use of wet abatement systems, air may be used to oxidise sulphite (SO3
                           2-) to sulphate (SO4
                           2-).
                     
                  
                        Precipitation
                     
                     
                        The conversion of dissolved pollutants into insoluble compounds by adding chemical precipitants. The solid precipitates formed are subsequently separated by sedimentation, flotation or filtration. Typical chemicals used for metal precipitation are lime, dolomite, sodium hydroxide, sodium carbonate, sodium sulphide and organosulphides. Calcium salts (other than lime) are used to precipitate sulphate or fluoride.
                     
                  
                        Sedimentation
                     
                     
                        The separation of suspended solids by gravitational settling.
                     
                  
                        Stripping
                     
                     
                        The removal of purgeable pollutants (e.g. ammonia) from waste water by contact with a high flow of a gas current in order to transfer them to the gas phase. The pollutants are removed from the stripping gas in a downstream treatment and may potentially be reused.
                     
                  
               (1)  Commission Implementing Decision 2012/249/EU of 7 May 2012 concerning the determination of start-up and shut-down periods for the purposes of Directive 2010/75/EU of the European Parliament and of the Council on industrial emissions (notified under document C(2012) 2948) (OJ L 123, 9.5.2012, p. 44).
            
               (2)  For any parameter where, due to sampling or analytical limitations, 30-minute measurement is inappropriate, a suitable sampling period is employed. For PCDD/F, a sampling period of 6 to 8 hours is used.
            
               (3)  The continuous measurement of the water vapour content of the flue-gas is not necessary if the sampled flue-gas is dried before analysis.
            
               (4)  Generic EN standards for continuous measurements are EN 15267-1, EN 15267-2, EN 15267-3, and EN 14181. EN standards for periodic measurements are given in the table.
            
               (5)  The monitoring frequency does not apply where plant operation would be for the sole purpose of performing an emission measurement.
            
               (6)  In the case of plants with a rated thermal input of < 100 MW operated < 1 500 h/yr, the minimum monitoring frequency may be at least once every six months. For gas turbines, periodic monitoring is carried out with a combustion plant load of > 70 %. For co-incineration of waste with coal, lignite, solid biomass and/or peat, the monitoring frequency needs to also take into account Part 6 of Annex VI to the IED.
            
               (7)  In the case of use of SCR, the minimum monitoring frequency may be at least once every year, if the emission levels are proven to be sufficiently stable.
            
               (8)  In the case of natural-gas-fired turbines with a rated thermal input of < 100 MW operated < 1 500 h/yr, or in the case of existing OCGTs, PEMS may be used instead.
            
               (9)  PEMS may be used instead.
            
               (10)  Two sets of measurements are carried out, one with the plant operated at loads of > 70 % and the other one at loads of < 70 %.
            
               (11)  As an alternative to the continuous measurement in the case of plants combusting oil with a known sulphur content and where there is no flue-gas desulphurisation system, periodic measurements at least once every three months and/or other procedures ensuring the provision of data of an equivalent scientific quality may be used to determine the SO2 emissions.
            
               (12)  In the case of process fuels from the chemical industry, the monitoring frequency may be adjusted for plants of < 100 MWth after an initial characterisation of the fuel (see BAT 5) based on an assessment of the relevance of pollutant releases (e.g. concentration in fuel, flue-gas treatment employed) in the emissions to air, but in any case at least each time that a change of the fuel characteristics may have an impact on the emissions.
            
               (13)  If the emission levels are proven to be sufficiently stable, periodic measurements may be carried out each time that a change of the fuel and/or waste characteristics may have an impact on the emissions, but in any case at least once every year. For co-incineration of waste with coal, lignite, solid biomass and/or peat, the monitoring frequency needs to also take into account Part 6 of Annex VI to the IED.
            
               (14)  In the case of process fuels from the chemical industry, the monitoring frequency may be adjusted after an initial characterisation of the fuel (see BAT 5) based on an assessment of the relevance of pollutant releases (e.g. concentration in fuel, flue-gas treatment employed) in the emissions to air, but in any case at least each time that a change of the fuel characteristics may have an impact on the emissions.
            
               (15)  In the case of plants with a rated thermal input of < 100 MW operated < 500 h/yr, the minimum monitoring frequency may be at least once every year. In the case of plants with a rated thermal input of < 100 MW operated between 500 h/yr and 1 500 h/yr, the monitoring frequency may be reduced to at least once every six months.
            
               (16)  If the emission levels are proven to be sufficiently stable, periodic measurements may be carried out each time that a change of the fuel and/or waste characteristics may have an impact on the emissions, but in any case at least once every six months.
            
               (17)  In the case of plants combusting iron and steel process gases, the minimum monitoring frequency may be at least once every six months if the emission levels are proven to be sufficiently stable.
            
               (18)  The list of pollutants monitored and the monitoring frequency may be adjusted after an initial characterisation of the fuel (see BAT 5) based on an assessment of the relevance of pollutant releases (e.g. concentration in fuel, flue-gas treatment employed) in the emissions to air, but in any case at least each time that a change of the fuel characteristics may have an impact on the emissions.
            
               (19)  In the case of plants operated < 1 500 h/yr, the minimum monitoring frequency may be at least once every six months.
            
               (20)  In the case of plants operated < 1 500 h/yr, the minimum monitoring frequency may be at least once every year.
            
               (21)  Continuous sampling combined with frequent analysis of time-integrated samples, e.g. by a standardised sorbent trap monitoring method, may be used as an alternative to continuous measurements.
            
               (22)  If the emission levels are proven to be sufficiently stable due to the low mercury content in the fuel, periodic measurements may be carried out only each time that a change of the fuel characteristics may have an impact on the emissions.
            
               (23)  The minimum monitoring frequency does not apply in the case of plants operated < 1 500 h/yr.
            
               (24)  Measurements are carried out with the plant operated at loads of > 70 %.
            
               (25)  In the case of process fuels from the chemical industry, monitoring is only applicable when the fuels contain chlorinated substances.
            
               (26)  TOC monitoring and COD monitoring are alternatives. TOC monitoring is the preferred option because it does not rely on the use of very toxic compounds.
            
               (27)  he list of substances/parameters characterised can be reduced to only those that can reasonably be expected to be present in the fuel(s) based on information on the raw materials and the production processes.
            
               (28)  This characterisation is carried out without prejudice of application of the waste pre-acceptance and acceptance procedure set in BAT 60(a), which may lead to the characterisation and/or checking of other substances/parameters besides those listed here.
            
               (29)  The descriptions of the techniques are given in Section 8.6
            
               (30)  Either the BAT-AEL for TOC or the BAT-AEL for COD applies. TOC is the preferred option because its monitoring does not rely on the use of very toxic compounds.
            
               (31)  This BAT-AEL applies after subtraction of the intake load.
            
               (32)  This BAT-AEL only applies to waste water from the use of wet FGD.
            
               (33)  This BAT-AEL only applies to combustion plants using calcium compounds in flue-gas treatment.
            
               (34)  The higher end of the BAT-AEL range may not apply in the case of highly saline waste water (e.g. chloride concentrations ≥ 5 g/l) due to the increased solubility of calcium sulphate.
            
               (35)  This BAT-AEL does not apply to discharges to the sea or to brackish water bodies.
            
               (36)  These BAT-AEELs do not apply in the case of units operated < 1 500 h/yr.
            
               (37)  In the case of CHP units, only one of the two BAT-AEELs ‘Net electrical efficiency’ or ‘Net total fuel utilisation’ applies, depending on the CHP unit design (i.e. either more oriented towards electricity generation or towards heat generation).
            
               (38)  The lower end of the range may correspondent to cases where the achieved energy efficiency is negatively affected (up to four percentage points) by the type of cooling system used or the geographical location of the unit.
            
               (39)  These levels may not be achievable if the potential heat demand is too low.
            
               (40)  These BAT-AEELs do not apply to plants generating only electricity.
            
               (41)  The lower ends of the BAT-AEEL ranges are achieved in the case of unfavourable climatic conditions, low-grade lignite-fired units, and/or old units (first commissioned before 1985).
            
               (42)  The higher end of the BAT-AEEL range can be achieved with high steam parameters (pressure, temperature).
            
               (43)  The achievable electrical efficiency improvement depends on the specific unit, but an increase of more than three percentage points is considered as reflecting the use of BAT for existing units, depending on the original design of the unit and on the retrofits already performed.
            
               (44)  In the case of units burning lignite with a lower heating value below 6 MJ/kg, the lower end of the BAT-AEEL range is 41,5 %.
            
               (45)  The higher end of the BAT-AEEL range may be up to 46 % in the case of units of ≥ 600 MWth using supercritical or ultra-supercritical steam conditions.
            
               (46)  The higher end of the BAT-AEEL range may be up to 44 % in the case of units of ≥ 600 MWth using supercritical or ultra-supercritical steam conditions.
            
               (47)  These BAT-AELs do not apply to plants operated < 1 500 h/yr.
            
               (48)  In the case of coal-fired PC boiler plants put into operation no later than 1 July 1987, which are operated < 1 500 h/yr and for which SCR and/or SNCR is not applicable, the higher end of the range is 340 mg/Nm3.
            
               (49)  For plants operated < 500 h/yr, these levels are indicative.
            
               (50)  The lower end of the range is considered achievable when using SCR.
            
               (51)  The higher end of the range is 175 mg/Nm3 for FBC boilers put into operation no later than 7 January 2014 and for lignite-fired PC boilers.
            
               (52)  The higher end of the range is 220 mg/Nm3 for FBC boilers put into operation no later than 7 January 2014 and for lignite-fired PC boilers.
            
               (53)  In the case of plants put into operation no later than 7 January 2014, the higher end of the range is 200 mg/Nm3 for plants operated ≥ 1 500 h/yr, and 220 mg/Nm3 for plants operated < 1 500 h/yr.
            
               (54)  The higher end of the range may be up to 140 mg/Nm3 in the case of limitations due to boiler design, and/or in the case of fluidised bed boilers not fitted with secondary abatement techniques for NOX emissions reduction.
            
               (55)  These BAT-AELs do not apply to plants operated < 1 500 h/yr.
            
               (56)  For plants operated < 500 h/yr, these levels are indicative.
            
               (57)  In the case of plants put into operation no later than 7 January 2014, the upper end of the BAT-AEL range is 250 mg/Nm3.
            
               (58)  The lower end of the range can be achieved with the use of low-sulphur fuels in combination with the most advanced wet abatement system designs.
            
               (59)  The higher end of the BAT-AEL range is 220 mg/Nm3 in the case of plants put into operation no later than 7 January 2014 and operated < 1 500 h/yr. For other existing plants put into operation no later than 7 January 2014, the higher end of the BAT-AEL range is 205 mg/Nm3.
            
               (60)  For circulating fluidised bed boilers, the lower end of the range can be achieved by using high-efficiency wet FGD. The higher end of the range can be achieved by using boiler in-bed sorbent injection.
            
               (61)  The lower end of these BAT-AEL ranges may be difficult to achieve in the case of plants fitted with wet FGD and a downstream gas-gas heater.
            
               (62)  The higher end of the BAT-AEL range is 20 mg/Nm3 in the following cases: plants combusting fuels where the average chlorine content is 1 000 mg/kg (dry) or higher; plants operated < 1 500 h/yr; FBC boilers. For plants operated < 500 h/yr, these levels are indicative.
            
               (63)  In the case of plants fitted with wet FGD with a downstream gas-gas heater, the higher end of the BAT-AEL range is 7 mg/Nm3.
            
               (64)  The higher end of the BAT-AEL range is 7 mg/Nm3 in the following cases: plants fitted with wet FGD with a downstream gas-gas heater; plants operated < 1 500 h/yr; FBC boilers. For plants operated < 500 h/yr, these levels are indicative.
            
               (65)  These BAT-AELs do not apply to plants operated < 1 500 h/yr.
            
               (66)  For plants operated < 500 h/yr, these levels are indicative.
            
               (67)  The higher end of the BAT-AEL range is 28 mg/Nm3 for plants put into operation no later than 7 January 2014.
            
               (68)  The higher end of the BAT-AEL range is 25 mg/Nm3 for plants put into operation no later than 7 January 2014.
            
               (69)  The higher end of the BAT-AEL range is 12 mg/Nm3 for plants put into operation no later than 7 January 2014.
            
               (70)  The higher end of the BAT-AEL range is 20 mg/Nm3 for plants put into operation no later than 7 January 2014.
            
               (71)  The higher end of the BAT-AEL range is 14 mg/Nm3 for plants put into operation no later than 7 January 2014.
            
               (72)  The lower end of the BAT-AEL range can be achieved with specific mercury abatement techniques.
            
               (73)  These BAT-AEELs do not apply in the case of units operated < 1 500 h/yr.
            
               (74)  In the case of CHP units, only one of the two BAT-AEELs ‘Net electrical efficiency’ or ‘Net total fuel utilisation’ applies, depending on the CHP unit design (i.e. either more oriented towards electricity generation or towards heat generation).
            
               (75)  The lower end of the range may correspond to cases where the achieved energy efficiency is negatively affected (up to four percentage points) by the type of cooling system used or the geographical location of the unit.
            
               (76)  These levels may not be achievable if the potential heat demand is too low.
            
               (77)  These BAT-AEELs do not apply to plants generating only electricity.
            
               (78)  The lower end of the range may be down to 32 % in the case of units of < 150 MWth burning high-moisture biomass fuels.
            
               (79)  These BAT-AELs do not apply to plants operated < 1 500 h/yr.
            
               (80)  For combustion plants operated < 500 h/yr, these levels are indicative.
            
               (81)  For plants burning fuels where the average potassium content is 2 000 mg/kg (dry) or higher, and/or the average sodium content is 300 mg/kg or higher, the higher end of the BAT-AEL range is 200 mg/Nm3.
            
               (82)  For plants burning fuels where the average potassium content is 2 000 mg/kg (dry) or higher, and/or the average sodium content is 300 mg/kg or higher, the higher end of the BAT-AEL range is 250 mg/Nm3.
            
               (83)  For plants burning fuels where the average potassium content is 2 000 mg/kg (dry) or higher, and/or the average sodium content is 300 mg/kg or higher, the higher end of the BAT-AEL range is 260 mg/Nm3.
            
               (84)  For plants put into operation no later than 7 January 2014 and burning fuels where the average potassium content is 2 000 mg/kg (dry) or higher, and/or the average sodium content is 300 mg/kg or higher, the higher end of the BAT-AEL range is 310 mg/Nm3.
            
               (85)  The higher end of the BAT-AEL range is 160 mg/Nm3 for plants put into operation no later than 7 January 2014.
            
               (86)  The higher end of the BAT-AEL range is 200 mg/Nm3 for plants put into operation no later than 7 January 2014.
            
               (87)  These BAT-AELs do not apply to plants operated < 1 500 h/yr.
            
               (88)  For plants operated < 500 h/yr, these levels are indicative.
            
               (89)  For existing plants burning fuels where the average sulphur content is 0,1 wt-% (dry) or higher, the higher end of the BAT-AEL range is 100 mg/Nm3.
            
               (90)  For existing plants burning fuels where the average sulphur content is 0,1 wt-% (dry) or higher, the higher end of the BAT-AEL range is 215 mg/Nm3.
            
               (91)  For existing plants burning fuels where the average sulphur content is 0,1 wt-% (dry) or higher, the higher end of the BAT-AEL range is 165 mg/Nm3, or 215 mg/Nm3 if those plants have been put into operation no later than 7 January 2014 and/or are FBC boilers combusting peat.
            
               (92)  For plants burning fuels where the average chlorine content is ≥ 0,1 wt-% (dry), or for existing plants co-combusting biomass with sulphur-rich fuel (e.g. peat) or using alkali chloride-converting additives (e.g. elemental sulphur), the higher end of the BAT-AEL range for the yearly average for new plants is 15 mg/Nm3, the higher end of the BAT-AEL range for the yearly average for existing plants is 25 mg/Nm3. The daily average BAT-AEL range does not apply to these plants.
            
               (93)  The daily average BAT-AEL range does not apply to plants operated < 1 500 h/yr. The higher end of the BAT-AEL range for the yearly average for new plants operated < 1 500 h/yr is 15 mg/Nm3.
            
               (94)  These BAT-AELs do not apply to plants operated < 1 500 h/yr.
            
               (95)  The lower end of these BAT-AEL ranges may be difficult to achieve in the case of plants fitted with wet FGD and a downstream gas-gas heater.
            
               (96)  For plants operated < 500 h/yr, these levels are indicative.
            
               (97)  These BAT-AELs do not apply to plants operated < 1 500 h/yr.
            
               (98)  For plants operated < 500 h/yr, these levels are indicative.
            
               (99)  These BAT-AEELs do not apply to units operated < 1 500 h/yr.
            
               (100)  In the case of CHP units, only one of the two BAT-AEELs ‘Net electrical efficiency’ or ‘Net total fuel utilisation’ applies, depending on the CHP unit design (i.e. either more oriented towards electricity generation or towards heat generation).
            
               (101)  These levels may not be achievable if the potential heat demand is too low.
            
               (102)  These BAT-AELs do not apply to plants operated < 1 500 h/yr.
            
               (103)  For plants operated < 500 h/yr, these levels are indicative.
            
               (104)  For industrial boilers and district heating plants put into operation no later than 27 November 2003, which are operated < 1 500 h/yr and for which SCR and/or SNCR is not applicable, the higher end of the BAT-AEL range is 450 mg/Nm3.
            
               (105)  The higher end of the BAT-AEL range is 110 mg/Nm3 for plants of 100–300 MWth and plants of ≥ 300 MWth that were put into operation no later than 7 January 2014.
            
               (106)  The higher end of the BAT-AEL range is 145 mg/Nm3 for plants of 100–300 MWth and plants of ≥ 300 MWth that were put into operation no later than 7 January 2014.
            
               (107)  For industrial boilers and district heating plants of > 100 MWth put into operation no later than 27 November 2003, which are operated < 1 500 h/yr and for which SCR and/or SNCR is not applicable, the higher end of the BAT-AEL range is 365 mg/Nm3.
            
               (108)  These BAT-AELs do not apply to plants operated < 1 500 h/yr.
            
               (109)  For plants operated < 500 h/yr, these levels are indicative.
            
               (110)  For industrial boilers and district heating plants put into operation no later than 27 November 2003 and operated < 1 500 h/yr, the higher end of the BAT-AEL range is 400 mg/Nm3.
            
               (111)  The higher end of the BAT-AEL range is 175 mg/Nm3 for plants put into operation no later than 7 January 2014.
            
               (112)  For industrial boilers and district heating plants put into operation no later than 27 November 2003, which are operated < 1 500 h/yr and for which wet FGD is not applicable, the higher end of the BAT-AEL range is 200 mg/Nm3.
            
               (113)  These BAT-AELs do not apply to plants operated < 1 500 h/yr.
            
               (114)  For plants operated < 500 h/yr, these levels are indicative.
            
               (115)  The higher end of the BAT-AEL range is 25 mg/Nm3 for plants put into operation no later than 7 January 2014.
            
               (116)  The higher end of the BAT-AEL range is 15 mg/Nm3 for plants put into operation no later than 7 January 2014.
            
               (117)  These BAT-AEELs do not apply to units operated < 1 500 h/yr.
            
               (118)  Net electrical efficiency BAT-AEELs apply to CHP units whose design is oriented towards power generation, and to units generating only power.
            
               (119)  These levels may be difficult to achieve in the case of engines fitted with energy-intensive secondary abatement techniques.
            
               (120)  This level may be difficult to achieve in the case of engines using a radiator as a cooling system in dry, hot geographical locations.
            
               (121)  These BAT-AELs do not apply to plants operated < 1 500 h/yr or to plants that cannot be fitted with secondary abatement techniques.
            
               (122)  The BAT-AEL range is 1 150–1 900 mg/Nm3 for plants operated < 1 500 h/yr and for plants that cannot be fitted with secondary abatement techniques.
            
               (123)  For plants operated < 500 h/yr, these levels are indicative.
            
               (124)  For plants including units of < 20MWth combusting HFO, the higher end of the BAT-AEL range applying to those units is 225 mg/Nm3.
            
               (125)  These BAT-AELs do not apply to plants operated < 1 500 h/yr.
            
               (126)  For plants operated < 500 h/yr, these levels are indicative.
            
               (127)  The higher end of the BAT-AEL range is 280 mg/Nm3 if no secondary abatement technique can be applied. This corresponds to a sulphur content of the fuel of 0,5 wt-% (dry).
            
               (128)  These BAT-AELs do not apply to plants operated < 1 500 h/yr.
            
               (129)  For plants operated < 500 h/yr, these levels are indicative.
            
               (130)  These BAT-AEELs do not apply to units operated < 1 500 h/yr.
            
               (131)  Net electrical efficiency BAT-AEELs apply to CHP units whose design is oriented towards power generation, and to units generating only power.
            
               (132)  These BAT-AELs do not apply to existing plants operated < 1 500 h/yr.
            
               (133)  For existing plants operated < 500 h/yr, these levels are indicative.
            
               (134)  These BAT-AEELs do not apply to units operated < 1 500 h/yr.
            
               (135)  In the case of CHP units, only one of the two BAT-AEELs ‘Net electrical efficiency’ or ‘Net total fuel utilisation’ applies, depending on the CHP unit design (i.e. either more oriented towards electricity generation or heat generation).
            
               (136)  Net total fuel utilisation BAT-AEELs may not be achievable if the potential heat demand is too low.
            
               (137)  These BAT-AEELs do not apply to plants generating only electricity.
            
               (138)  These BAT-AEELs apply to units used for mechanical drive applications.
            
               (139)  These levels may be difficult to achieve in the case of engines tuned in order to reach NOX levels lower than 190 mg/Nm3.
            
               (140)  These BAT-AELs also apply to the combustion of natural gas in dual-fuel-fired turbines.
            
               (141)  In the case of a gas turbine equipped with DLN, these BAT-AELs apply only when the DLN operation is effective.
            
               (142)  These BAT-AELs do not apply to existing plants operated < 1 500 h/yr.
            
               (143)  Optimising the functioning of an existing technique to reduce NOX emissions further may lead to levels of CO emissions at the higher end of the indicative range for CO emissions given after this table.
            
               (144)  These BAT-AELs do not apply to existing turbines for mechanical drive applications or to plants operated < 500 h/yr.
            
               (145)  For plants with a net electrical efficiency (EE) greater than 39 %, a correction factor may be applied to the higher end of the range, corresponding to [higher end] x EE/39, where EE is the net electrical energy efficiency or net mechanical energy efficiency of the plant determined at ISO baseload conditions.
            
               (146)  The higher end of the range is 80 mg/Nm3 in the case of plants which were put into operation no later than 27 November 2003 and are operated between 500 h/yr and 1 500 h/yr.
            
               (147)  For plants with a net electrical efficiency (EE) greater than 55 %, a correction factor may be applied to the higher end of the BAT-AEL range, corresponding to [higher end] x EE/55, where EE is the net electrical efficiency of the plant determined at ISO baseload conditions.
            
               (148)  For existing plants put into operation no later than 7 January 2014, the higher end of the BAT-AEL range is 65 mg/Nm3.
            
               (149)  For existing plants put into operation no later than 7 January 2014, the higher end of the BAT-AEL range is 55 mg/Nm3.
            
               (150)  For existing plants put into operation no later than 7 January 2014, the higher end of the BAT-AEL range is 80 mg/Nm3.
            
               (151)  The lower end of the BAT-AEL range for NOX can be achieved with DLN burners.
            
               (152)  These levels are indicative.
            
               (153)  For existing plants put into operation no later than 7 January 2014, the higher end of the BAT-AEL range is 60 mg/Nm3.
            
               (154)  For existing plants put into operation no later than 7 January 2014, the higher end of the BAT-AEL range is 65 mg/Nm3.
            
               (155)  Optimising the functioning of an existing technique to reduce NOX emissions further may lead to levels of CO emissions at the higher end of the indicative range for CO emissions given after this table.
            
               (156)  These BAT-AELs do not apply to plants operated < 1 500 h/yr.
            
               (157)  For plants operated < 500 h/yr, these levels are indicative.
            
               (158)  These BAT-AELs only apply to spark-ignited and dual-fuel engines. They do not apply to gas-diesel engines.
            
               (159)  In the case of engines for emergency use operated < 500 h/yr that could not apply the lean-burn concept or use SCR, the higher end of the indicative range is 175 mg/Nm3.
            
               (160)  For existing plants operated < 500 h/yr, these levels are indicative.
            
               (161)  This BAT-AEL is expressed as C at full load operation.
            
               (162)  These BAT-AEELs do not apply in the case of units operated < 1 500 h/yr.
            
               (163)  In the case of CHP units, only one of the two BAT-AEELs ‘Net electrical efficiency’ or ‘Net total fuel utilisation’ applies, depending on the CHP unit design (i.e. either more oriented towards electricity generation or towards heat generation).
            
               (164)  These BAT-AEELs do not apply to plants generating only electricity.
            
               (165)  The wide range of energy efficiencies in CHP units is largely dependent on the local demand for electricity and heat.
            
               (166)  These BAT-AEELs do not apply in the case of units operated < 1 500 h/yr.
            
               (167)  In the case of CHP units, only one of the two BAT-AEELs ‘Net electrical efficiency’ or ‘Net total fuel utilisation’ applies, depending on the CHP unit design (i.e. either more oriented towards electricity generation or towards heat generation).
            
               (168)  These BAT-AEELs do not apply to plants generating only electricity.
            
               (169)  Plants combusting a mixture of gases with an equivalent LHV of > 20 MJ/Nm3 are expected to emit at the higher end of the BAT-AEL ranges.
            
               (170)  The lower end of the BAT-AEL range can be achieved when using SCR.
            
               (171)  For plants operated < 1 500 h/yr, these BAT AELs do not apply.
            
               (172)  In the case of plants put into operation no later than 7 January 2014, the higher end of the BAT-AEL range is 160 mg/Nm3. Furthermore, the higher end of the BAT-AEL range may be exceeded when SCR cannot be used and when using a high share of COG (e.g. > 50 %) and/or when combusting COG with a relatively high level of H2. In this case, the higher end of the BAT-AEL range is 220 mg/Nm3.
            
               (173)  For plants operated < 500 h/yr, these levels are indicative.
            
               (174)  In the case of plants put into operation no later than 7 January 2014, the higher end of the BAT-AEL range is 70 mg/Nm3.
            
               (175)  For existing plants operated < 1 500 h/yr, these BAT AELs do not apply.
            
               (176)  For existing plants operated < 500 h/yr, these levels are indicative.
            
               (177)  The higher end of the BAT-AEL range may be exceeded when using a high share of COG (e.g. > 50 %). In this case, the higher end of the BAT-AEL range is 300 mg/Nm3.
            
               (178)  For existing plants operated < 1 500 h/yr, these BAT-AELs do not apply.
            
               (179)  For existing plants operated < 500 h/yr, these levels are indicative
            
               (180)  These BAT-AELs are based on > 70 % of baseload power available on the day.
            
               (181)  This includes single fuel and dual fuel gas turbines.
            
               (182)  The higher end of the BAT-AEL range is 250 mg/Nm3 if DLN burners are not applicable.
            
               (183)  The lower end of the BAT-AEL range can be achieved with DLN burners.
            
               (184)  These BAT-AEELs do not apply to units operated < 1 500 h/yr.
            
               (185)  In the case of CHP units, only one of the two BAT-AEELs ‘Net electrical efficiency’ or ‘Net total fuel utilisation’ applies, depending on the CHP unit design (i.e. either more oriented towards generation electricity or towards heat generation).
            
               (186)  These BAT-AEELs may not be achievable if the potential heat demand is too low.
            
               (187)  These BAT-AEELs do not apply to plants generating only electricity.
            
               (188)  For plants operated < 1 500 h/yr, these BAT AELs do not apply.
            
               (189)  For plants operated < 500 h/yr, these levels are indicative.
            
               (190)  For existing plants of ≤ 500 MWth put into operation no later than 27 November 2003 using liquid fuels with a nitrogen content higher than 0,6 wt-%, the higher end of the BAT-AEL range is 380 mg/Nm3.
            
               (191)  For existing plants put into operation no later than 7 January 2014, the higher end of the BAT-AEL range is 180 mg/Nm3.
            
               (192)  For existing plants put into operation no later than 7 January 2014, the higher end of the BAT-AEL range is 210 mg/Nm3.
            
               (193)  For existing plants operated < 1 500 h/yr, these BAT-AELs do not apply.
            
               (194)  For existing plants operated < 500 h/yr, these levels are indicative.
            
               (195)  For plants operated < 500 h/yr, these levels are indicative.
            
               (196)  In the case of plants operated < 1 500 h/yr, the higher end of the BAT-AEL range is 20 mg/Nm3.
            
               (197)  In the case of plants operated < 1 500 h/yr, the higher end of the BAT-AEL range is 7 mg/Nm3.
            
               (198)  For plants operated < 1 500 h/yr, these BAT-AELs do not apply.
            
               (199)  For plants operated < 500 h/yr, these levels are indicative.
            
               (200)  For plants put into operation no later than 7 January 2014, the higher end of the BAT-AEL range is 25 mg/Nm3.
            
               (201)  For plants put into operation no later than 7 January 2014, the higher end of the BAT-AEL range is 15 mg/Nm3.
            
               (202)  These BAT-AELs only apply to plants using fuels derived from chemical processes involving chlorinated substances.