CELEX: 32013D0163
Language: en
Date: 2013-03-26 00:00:00
Title: 2013/163/EU: Commission Implementing Decision of 26 March 2013 establishing the best available techniques (BAT) conclusions under Directive 2010/75/EU of the European Parliament and of the Council on industrial emissions for the production of cement, lime and magnesium oxide (notified under document C(2013) 1728)  Text with EEA relevance

9.4.2013   
            
            
               EN
            
            
               Official Journal of the European Union
            
            
               L 100/1
            
         
      COMMISSION IMPLEMENTING DECISION
   
   of 26 March 2013
   establishing the best available techniques (BAT) conclusions under Directive 2010/75/EU of the European Parliament and of the Council on industrial emissions for the production of cement, lime and magnesium oxide
   (notified under document C(2013) 1728)
   (Text with EEA relevance)
   (2013/163/EU)
   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)
            
            
               Article 13(1) of Directive 2010/75/EU requires the Commission to organise an exchange of information on industrial emissions between it and Member States, the industries concerned and non-governmental organisations promoting environmental protection in order to facilitate the drawing up of best available techniques (BAT) reference documents as defined in Article 3(11) of that Directive.
            
         
               (2)
            
            
               In accordance with Article 13(2) of Directive 2010/75/EU, the exchange of information is to address the performance of installations and techniques in terms of emissions, expressed as short- and long-term averages, where appropriate, and the associated reference conditions, consumption and nature of raw materials, water consumption, use of energy and generation of waste and the techniques used, associated monitoring, cross-media effects, economic and technical viability and developments therein and best available techniques and emerging techniques identified after considering the issues mentioned in points (a) and (b) of Article 13(2) of that Directive.
            
         
               (3)
            
            
               ‘BAT conclusions’ as defined in Article 3(12) of Directive 2010/75/EU are the key element of BAT reference documents and lay down the conclusions on best available techniques, their description, information to assess their applicability, the emission levels associated with the best available techniques, associated monitoring, associated consumption levels and, where appropriate, relevant site remediation measures.
            
         
               (4)
            
            
               In accordance with Article 14(3) of Directive 2010/75/EU, BAT conclusions are to be the reference for setting permit conditions for installations covered by Chapter II of that Directive.
            
         
               (5)
            
            
               Article 15(3) of Directive 2010/75/EU requires the competent authority 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 referred to in Article 13(5) of Directive 2010/75/EU.
            
         
               (6)
            
            
               Article 15(4) of Directive 2010/75/EU provides for derogations from the requirement laid down in Article 15(3) only where the costs associated with the achievement of the emission levels associated with the BAT disproportionately outweigh the environmental benefits due to the geographical location, the local environmental conditions or the technical characteristics of the installation concerned.
            
         
               (7)
            
            
               Article 16(1) of Directive 2010/75/EU provides that the monitoring requirements in the permit referred to in point (c) of Article 14(1) of the Directive are to be based on the conclusions on monitoring as described in the BAT conclusions.
            
         
               (8)
            
            
               In accordance with Article 21(3) of Directive 2010/75/EU, within 4 years of publication of decisions on BAT conclusions, the competent authority is to reconsider and, if necessary, update all the permit conditions and ensure that the installation complies with those permit conditions.
            
         
               (9)
            
            
               Commission Decision of 16 May 2011 establishing a forum for the exchange of information pursuant to Article 13 of Directive 2010/75/EU on industrial emissions (2) established a forum composed of representatives of Member States, the industries concerned and non-governmental organisations promoting environmental protection.
            
         
               (10)
            
            
               In accordance with Article 13(4) of Directive 2010/75/EU, the Commission obtained the opinion (3) of that forum on the proposed content of the BAT reference document for the production of cement, lime and magnesium oxide on 13 September 2012 and made it publicly available.
            
         
               (11)
            
            
               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 BAT conclusions for the production of cement, lime and magnesium oxide are set out in the Annex to this Decision.
   Article 2
   This Decision is addressed to the Member States.
   
      Done at Brussels, 26 March 2013.
      
         
            For the Commission
         
         Janez POTOČNIK
         
         
            Member of the Commission
         
      
   
   
      (1)  OJ L 334, 17.12.2010, p. 17.
   
      (2)  OJ C 146, 17.5.2011, p. 3.
   
      (3)  http://circa.europa.eu/Public/irc/env/ied/library?l=/ied_art_13_forum/opinions_article
   
      ANNEX
      
         BAT CONCLUSIONS FOR THE PRODUCTION OF CEMENT, LIME AND MAGNESIUM OXIDE
      
      SCOPE
      NOTE ON THE EXCHANGE OF INFORMATION
      DEFINITIONS
      GENERAL CONSIDERATIONS
      BAT CONCLUSIONS
      
                  1.1
               
               General BAT conclusions
            
                  1.1.1
               
               Environmental management systems (EMS)
            
                  1.1.2
               
               Noise
            
                  1.2
               
               BAT conclusions for the cement industry
            
                  1.2.1
               
               General primary techniques
            
                  1.2.2
               
               Monitoring
            
                  1.2.3
               
               Energy consumption and process selection
            
                  1.2.4
               
               Use of waste
            
                  1.2.5
               
               Dust emissions
            
                  1.2.6
               
               Gaseous compounds
            
                  1.2.7
               
               PCDD/F emissions
            
                  1.2.8
               
               Metal emissions
            
                  1.2.9
               
               Process losses/waste
            
                  1.3
               
               BAT conclusions for the lime industry
            
                  1.3.1
               
               General primary techniques
            
                  1.3.2
               
               Monitoring
            
                  1.3.3
               
               Energy consumption
            
                  1.3.4
               
               Consumption of limestone
            
                  1.3.5
               
               Selection of fuels
            
                  1.3.6
               
               Dust emissions
            
                  1.3.7
               
               Gaseous compounds
            
                  1.3.8
               
               PCDD/F emissions
            
                  1.3.9
               
               Metal emissions
            
                  1.3.10
               
               Process losses/waste
            
                  1.4
               
               BAT conclusions for the magnesium oxide industry
            
                  1.4.1
               
               Monitoring
            
                  1.4.2
               
               Energy consumption
            
                  1.4.3
               
               Dust emissions
            
                  1.4.4
               
               Gaseous compounds
            
                  1.4.5
               
               Process losses/waste
            
                  1.4.6
               
               Use of wastes as fuels and/or raw materials
            DESCRIPTION OF TECHNIQUES
      
                  1.5
               
               Description of techniques for the cement industry
            
                  1.5.1
               
               Dust emissions
            
                  1.5.2
               
               NOx emissions
            
                  1.5.3
               
               SOx emissions
            
                  1.6
               
               Description of techniques for lime industry
            
                  1.6.1
               
               Dust emissions
            
                  1.6.2
               
               NOx emissions
            
                  1.6.3
               
               SOx emissions
            
                  1.7
               
               Description of techniques for the magnesia industry (dry process route)
            
                  1.7.1
               
               Dust emissions
            
                  1.7.2
               
               SOx emissions
            SCOPE
      These BAT conclusions concern the following industrial activities specified in Section 3.1 of Annex I to Directive 2010/75/EU, namely:
      
                  ‧3.1.
               
               
                  Production of cement, lime and magnesium oxide‧, which involve:
                  
                              (a)
                           
                           
                              production of cement clinker in rotary kilns with a production capacity exceeding 500 tonnes per day or in other kilns with a production capacity exceeding 50 tonnes per day;
                           
                        
                              (b)
                           
                           
                              production of lime in kilns with a production capacity exceeding 50 tonnes per day;
                           
                        
                              (c)
                           
                           
                              production of magnesium oxide in kilns with a production capacity exceeding 50 tonnes per day.
                           
                        
            Regarding point 3.1(c) above, these BAT conclusions only address the production of MgO using the dry process route based on mined natural magnesite (magnesium carbonate - MgCO3).
      In particular, concerning the above-mentioned activities, these BAT conclusions cover the following:
      
                  —
               
               
                  production of cement, lime and magnesium oxide (dry process route)
               
            
                  —
               
               
                  raw materials – storage and preparation
               
            
                  —
               
               
                  fuels – storage and preparation
               
            
                  —
               
               
                  use of waste as raw materials and/or fuels – quality requirements, control and preparation
               
            
                  —
               
               
                  products – storage and preparation
               
            
                  —
               
               
                  packaging and dispatch.
               
            These BAT conclusions do not address the following activities:
      
                  —
               
               
                  the production of magnesium oxide using the wet process route using magnesium chloride as the starting material, covered by the Reference Document on Best Available Techniques for Large Volume Inorganic Chemicals – Solids and Others Industry (LVIC-S)
               
            
                  —
               
               
                  the production of ultra low-carbon dolime (i.e. a mixture of calcium and magnesium oxides produced by the nearly full decarbonation of dolomite (CaCO3.MgCO3). The residual CO2 content of the product is below 0,25 % and the bulk density well below 3,05 g/cm3)
               
            
                  —
               
               
                  shaft kilns for cement clinker production
               
            
                  —
               
               
                  activities which are not directly associated with the primary activity such as quarrying.
               
            Other reference documents which are of relevance for the activities covered by these BAT conclusions are the following:
      
                  Reference documents
               
               
                  Activity
               
            
                  Emissions from Storage (EFS)
               
               
                  Storage and handling of raw materials and products
               
            
                  General Principles of Monitoring (MON)
               
               
                  Emissions monitoring
               
            
                  Waste Treatments Industries (WT)
               
               
                  Waste treatment
               
            
                  Energy Efficiency (ENE)
               
               
                  General energy efficiency
               
            
                  Economic and Cross-media Effects (ECM)
               
               
                  Economics and cross-media effects of 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.
      Where these BAT conclusions address waste co-incineration plants, this is without prejudice to the provisions of Chapter IV of and Annex VI to Directive 2010/75/EU.
      Where these BAT conclusions address energy efficiency, this is without prejudice to the provisions of the new Directive 2012/27/EU of the European Parliament and of the Council (1) on Energy Efficiency.
      NOTE ON THE EXCHANGE OF INFORMATION
      The exchange of information on BAT for the Cement, Lime and Magnesium Oxide sectors ended in 2008. The information available then, complemented by additional information concerning the emissions from magnesium oxide production, was used for reaching these BAT conclusions.
      DEFINITIONS
      For the purposes of these BAT conclusions, the following definitions apply:
      
                  Term used
               
               
                  Definition
               
            
                  New plant
               
               
                  A plant introduced on the site of the installation following the publication of these BAT conclusions or a complete replacement of a plant on the existing foundations of the installation following the publication of these BAT conclusions
               
            
                  Existing plant
               
               
                  A plant which is not a new plant
               
            
                  Major upgrade
               
               
                  An upgrade of the plant/kiln involving a major change in the kiln requirements or technology, or replacement of the kiln
               
            
                  ‧Use of waste as fuel and/or raw material‧
               
               
                  The term covers the use of:
                  
                              —
                           
                           
                              waste fuels with significant calorific value; and
                           
                        
                              —
                           
                           
                              waste materials without significant calorific value but with mineral components used as raw materials that contribute to the intermediate product clinker; and
                           
                        
                              —
                           
                           
                              waste materials that have both a significant calorific value and mineral components
                           
                        
            
         Definition for certain products
      
      
                  Term used
               
               
                  Definition
               
            
                  White cement
               
               
                  Cement falling under the following PRODCOM 2007 code: 26.51.12.10 – White Portland cement
               
            
                  Special cement
               
               
                  Special cements falling under the following PRODCOM 2007 codes:
                  
                              —
                           
                           
                              26.51.12.50 – Aluminous cement
                           
                        
                              —
                           
                           
                              26.51.12.90 – Other hydraulic cements
                           
                        
            
                  Dolime or calcinated dolime
               
               
                  A mixture of calcium and magnesium oxides produced by the decarbonation of dolomite (CaCO3.MgCO3) with a residual CO2 content of the product exceeding 0,25 % and the bulk density of the commercial product well below 3,05 g/cm3. The free content as MgO is usually between 25 % and 40 %.
               
            
                  Sintered dolime
               
               
                  A mixture of calcium and magnesium oxides used solely for the production of refractory bricks and other refractory products, with a minimum bulk density of 3,05 g/cm3
                  
               
            
         Definition for certain air pollutants
      
      
                  Term used
               
               
                  Definition
               
            
                  NOx expressed as NO2
                  
               
               
                  The sum of nitrogen oxide (NO) and nitrogen dioxide (NO2) expressed as NO2
                  
               
            
                  SOx expressed as SO2
                  
               
               
                  The sum of sulphur dioxide (SO2) and sulphur trioxide (SO3) expressed as SO2
                  
               
            
                  Hydrogen chloride expressed as HCl
               
               
                  All gaseous chlorides expressed as HCl
               
            
                  Hydrogen fluoride expressed as HF
               
               
                  All gaseous fluorides expressed as HF
               
            
         Abbreviations
      
      
                  ASK
               
               
                  Annular shaft kiln
               
            
                  DBM
               
               
                  Dead burned magnesia
               
            
                  I-TEQ
               
               
                  International toxicity equivalent
               
            
                  LRK
               
               
                  Long rotary kiln
               
            
                  MFSK
               
               
                  Mixed feed shaft kiln
               
            
                  OK
               
               
                  Other kilns
                  For the lime industry this covers:
                  
                              —
                           
                           
                              double-inclined shaft kilns
                           
                        
                              —
                           
                           
                              multi-chamber shaft kilns
                           
                        
                              —
                           
                           
                              central burner shaft kilns
                           
                        
                              —
                           
                           
                              external chamber shaft kilns
                           
                        
                              —
                           
                           
                              beam burner shaft kilns
                           
                        
                              —
                           
                           
                              internal arch shaft kilns
                           
                        
                              —
                           
                           
                              travelling grate kilns
                           
                        
                              —
                           
                           
                              ‘top-shaped’ kilns
                           
                        
                              —
                           
                           
                              flash calciner kilns
                           
                        
                              —
                           
                           
                              rotating hearth kilns
                           
                        
            
                  OSK
               
               
                  Other shaft kiln (shaft kilns other than ASK and MFSK)
               
            
                  PCDD
               
               
                  Polychlorinated dibenzo-p-dioxin
               
            
                  PCDF
               
               
                  Polychlorinated dibenzofuran
               
            
                  PFRK
               
               
                  Parallel flow regenerative kiln
               
            
                  PRK
               
               
                  Rotary kiln with preheater
               
            GENERAL CONSIDERATIONS
      
         Averaging periods and reference conditions for air emissions
      
      Emission levels associated with the best available techniques (BAT-AELs) given in these BAT conclusions refer to standard conditions: dry gas at a temperature of 273 K, and a pressure of 1 013 hPa.
      Values given in concentrations apply under the following reference conditions:
      
                  Activities
               
               
                  Reference conditions
               
            
                  
                     Kiln activities
                  
               
               
                  Cement industry
               
               
                  10 % oxygen by volume
               
            
                  Lime industry (2)
                  
               
               
                  11 % oxygen by volume
               
            
                  Magnesium oxide industry (dry process route) (3)
                  
               
               
                  10 % oxygen by volume
               
            
                  
                     Non-kiln activities
                  
               
               
                  All processes
               
               
                  No correction for oxygen
               
            
                  Lime hydrating plants
               
               
                  As emitted
                  (no correction for oxygen and for dry gas)
               
            For averaging periods the following definitions apply:
      
                  Daily average value
               
               
                  Average value over a period of 24 hours measured by the continuous monitoring of emissions
               
            
                  Average over the sampling period
               
               
                  Average value of spot measurements (periodic) of at least 30 minutes each, unless otherwise stated
               
            
         Conversion to reference oxygen concentration
      
      The formula for calculating the emissions concentration at a reference oxygen level is shown below:
      
         
      Where:
      
                  ER (mg/Nm3)
               
               
                  :
               
               
                  emissions concentration related to the reference oxygen level OR
                  
               
            
                  OR (vol %)
               
               
                  :
               
               
                  reference oxygen level
               
            
                  EM (mg/Nm3)
               
               
                  :
               
               
                  emissions concentration related to the measured oxygen level OM
                  
               
            
                  OM (vol %)
               
               
                  :
               
               
                  measured oxygen level
               
            BAT CONCLUSIONS
      1.1   General BAT conclusions
      
      The BAT mentioned in this section apply to all installations covered by these BAT conclusions (cement, lime and magnesium oxide industry).
      The process-specific BAT included in Sections 1.2 - 1.4 apply in addition to the general BAT mentioned in this section.
      1.1.1   Environmental management systems (EMS)
      
      1.   In order to improve the overall environmental performance of the plants/installations producing cement, lime and magnesium oxide, production 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 of an environmental policy that includes the continuous improvement of the installation by the management;
               
            
                  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)
                           
                           
                              training, awareness and competence
                           
                        
                              (c)
                           
                           
                              communication
                           
                        
                              (d)
                           
                           
                              employee involvement
                           
                        
                              (e)
                           
                           
                              documentation
                           
                        
                              (f)
                           
                           
                              efficient process control
                           
                        
                              (g)
                           
                           
                              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 Reference Document on the General Principles of Monitoring)
                           
                        
                              (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 of the EMS and its continuing suitability, adequacy and effectiveness by senior management;
               
            
                  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;
               
            
                  ix.
               
               
                  application of sectoral benchmarking on a regular basis.
               
            
         Applicability
      
      The scope (e.g. level of details) and nature of the EMS (e.g. standardised or non-standardised) will generally be related to the nature, scale and complexity of the installation, and the range of environmental impacts it may have.
      1.1.2   Noise
      
      2.   In order to reduce/minimise noise emissions during the manufacturing processes for cement, lime and magnesium oxide, BAT is to use a combination of the following techniques:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  Select an appropriate location for noisy operations
               
            
                  b
               
               
                  Enclose noisy operations/units
               
            
                  c
               
               
                  Use vibration insulation of operations/units
               
            
                  d
               
               
                  Use internal and external lining made of impact-absorbent material
               
            
                  e
               
               
                  Use soundproofed buildings to shelter any noisy operations involving material transformation equipment
               
            
                  f
               
               
                  Use noise protection walls and/or natural noise barriers
               
            
                  g
               
               
                  Use outlet silencers to exhaust stacks
               
            
                  h
               
               
                  Lag ducts and final blowers which are situated in soundproofed buildings
               
            
                  i
               
               
                  Close doors and windows of covered areas
               
            
                  j
               
               
                  Use sound insulation of machine buildings
               
            
                  k
               
               
                  Use sound insulation of wall breaks, e.g. by installation of a sluice at the entrance point of a belt conveyor
               
            
                  l
               
               
                  Install sound absorbers at air outlets, e.g. the clean gas outlet of dedusting units
               
            
                  m
               
               
                  Reduce flow rates in ducts
               
            
                  n
               
               
                  Use sound insulation of ducts
               
            
                  o
               
               
                  Apply the decoupled arrangement of noise sources and potentially resonant components, e.g. of compressors and ducts
               
            
                  p
               
               
                  Use silencers for filter fans
               
            
                  q
               
               
                  Use soundproofed modules for technical devices (e.g. compressors)
               
            
                  r
               
               
                  Use rubber shields for mills (avoiding the contact of metal against metal)
               
            
                  s
               
               
                  Construct buildings or growing trees and bushes between the protected area and the noisy activity
               
            1.2   BAT conclusions for the cement industry
      
      Unless otherwise stated, the BAT conclusions presented in this section can be applied to all installations in the cement industry.
      1.2.1   General primary techniques
      
      3.   In order to reduce emissions from the kiln and use energy efficiently, BAT is to achieve a smooth and stable kiln process, operating close to the process parameter set points by using the following techniques:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  Process control optimisation, including computer-based automatic control
               
            
                  b
               
               
                  Using modern, gravimetric solid fuel feed systems
               
            4.   In order to prevent and/or reduce emissions, BAT is to carry out a careful selection and control of all substances entering the kiln.
      
         Description
      
      Careful selection and control of substances entering the kiln can reduce emissions. The chemical composition of the substances and the way they are fed in the kiln are factors that should be taken into account during the selection. Substances of concern may include the substances mentioned in BAT 11 and in BAT 24 to 28.
      1.2.2   Monitoring
      
      5.   BAT is to carry out the monitoring and measurements of process parameters and emissions on a regular basis and to monitor emissions in accordance with the relevant EN standards or, if EN standards are not available, ISO, national or other international standards that ensure the provision of data of an equivalent scientific quality, including the following:
      
                   
               
               
                  Technique
               
               
                  Applicability
               
            
                  a
               
               
                  Continuous measurements of process parameters demonstrating the process stability, such as temperature, O2 content, pressure and flowrate
               
               
                  Generally applicable
               
            
                  b
               
               
                  Monitoring and stabilising critical process parameters, i.e. homogenous raw material mix and fuel feed, regular dosage and excess oxygen
               
               
                  Generally applicable
               
            
                  c
               
               
                  Continuous measurements of NH3 emissions when SNCR is applied
               
               
                  Generally applicable
               
            
                  d
               
               
                  Continuous measurements of dust, NOx, SOx, and CO emissions
               
               
                  Applicable to kiln processes
               
            
                  e
               
               
                  Periodic measurements of PCDD/F and metal emissions
               
            
                  f
               
               
                  Continuous or periodic measurements of HCl, HF and TOC emissions.
               
            
                  g
               
               
                  Continuous or periodic measurements of dust
               
               
                  Applicable to non-kiln activities.
                  For small sources (< 10 000 Nm3/h) from dusty operations other than cooling and the main milling processes, the frequency of measurements or performance checks should be based on a maintenance management system.
               
            
         Description
      
      The selection between continuous or periodic measurements mentioned in BAT 5(f) is based on the emission source and the type of pollutant expected.
      1.2.3   Energy consumption and process selection
      
      1.2.3.1   Process selection
      
      6.   In order to reduce energy consumption, BAT is to use a dry process kiln with multistage preheating and precalcination.
      
         Description
      
      In this type of kiln system, exhaust gases and recovered waste heat from the cooler can be used to preheat and precalcine the raw material feed before entering the kiln, providing significant savings in energy consumption.
      
         Applicability
      
      Applicable to new plants and major upgrades, subject to raw materials moisture content.
      
         BAT-associated energy consumption levels
      
      See Table 1.
      
         Table 1
      
      
         BAT-associated energy consumption levels for new plants and major upgrades using dry process kiln with multistage preheating and precalcination
      
      
                  Process
               
               
                  Unit
               
               
                  BAT-associated energy consumption levels (4)
                  
               
            
                  Dry process with multistage preheating and precalcination
               
               
                  MJ/tonne clinker
               
               
                  2 900 – 3 300 (5)
                      (6)
                  
               
            1.2.3.2   Energy consumption
      
      7.   In order to reduce/minimise thermal energy consumption, BAT is to use a combination of the following techniques:
      
                   
               
               
                  Technique
               
               
                  Applicability
               
            
                  a
               
               
                  Applying improved and optimised kiln systems and a smooth and stable kiln process, operating close to the process parameter set points by applying:
                  
                              I.
                           
                           
                              process control optimisation, including computer-based automatic control systems
                           
                        
                              II.
                           
                           
                              modern, gravimetric solid fuel feed systems
                           
                        
                              III.
                           
                           
                              preheating and precalcination to the extent possible, considering the existing kiln system configuration
                           
                        
               
                  Generally applicable. For existing kilns, the applicability of preheating and precalcination is subject to the kiln system configuration
               
            
                  b
               
               
                  Recovering excess heat from kilns, especially from their cooling zone. In particular, the kiln excess heat from the cooling zone (hot air) or from the preheater can be used for drying raw materials
               
               
                  Generally applicable in the cement industry.
                  Recovery of excess heat from the cooling zone is applicable when grate coolers are used.
                  Limited recovery efficiency can be achieved on rotary coolers
               
            
                  c
               
               
                  Applying the appropriate number of cyclone stages related to the characteristics and properties of raw material and fuels used
               
               
                  Cyclone preheater stages are applicable to new plants and major upgrades.
               
            
                  d
               
               
                  Using fuels with characteristics which have a positive influence on the thermal energy consumption
               
               
                  The technique is generally applicable to the cement kilns subject to fuel availability and for existing kilns subject to the technical possibilities of injecting the fuel into the kiln
               
            
                  e
               
               
                  When replacing conventional fuels by waste fuels, using optimised and suitable cement kiln systems for burning wastes
               
               
                  Generally applicable to all cement kiln types
               
            
                  f
               
               
                  Minimising bypass flows
               
               
                  Generally applicable to the cement industry
               
            
         Description
      
      Several factors affect the energy consumption of modern kiln systems such as raw materials properties (e.g. moisture content, burnability), the use of fuels, with different properties, as well as the use of a gas bypass system. Furthermore, the production capacity of the kiln has an influence on the energy demand.
      Technique 7c: the appropriate number of cyclone stages for preheating is determined by the throughput and the moisture content of raw materials and fuels which have to be dried by the remaining flue-gas heat because local raw materials vary widely regarding their moisture content or burnability
      Technique 7d: conventional and waste fuels can be used in the cement industry. The characteristics of the fuels used, such as adequate calorific value and low moisture content, have a positive influence on the specific energy consumption of the kiln.
      Technique 7f: the removal of hot raw material and hot gas leads to a higher specific energy consumption of about 6 – 12 MJ/tonne clinker per percentage point of removed kiln inlet gas. Hence, minimising the use of gas bypass has a positive effect on energy consumption.
      8.   In order to reduce primary energy consumption, BAT is to consider the reduction of the clinker content of cement and cement products.
      
         Description
      
      The reduction of the clinker content of cement and cement products can be achieved by adding fillers and/or additions, such as blast furnace slag, limestone, fly ash and pozzolana in the grinding step in accordance with the relevant cement standards.
      
         Applicability
      
      Generally applicable to the cement industry, subject to (local) availability of fillers and/or additions and local market specificities.
      9.   In order to reduce primary energy consumption, BAT is to consider cogeneration/combined heat and power plants.
      
         Description
      
      The employment of cogeneration plants for the production of steam and electricity or combined heat and power plants can be applied in the cement industry by recovering waste heat from the clinker cooler or kiln flue-gases using the conventional steam cycle processes or other techniques. Furthermore, excess heat can be recovered from the clinker cooler or kiln flue-gases for district heating or industrial applications.
      
         Applicability
      
      The technique is applicable in all cement kilns if sufficient excess heat is available, if appropriate process parameters can be met, and if economic viability is ensured.
      10.   In order to reduce/minimise electrical energy consumption, BAT is to use one or a combination of the following techniques:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  Using power management systems
               
            
                  b
               
               
                  Using grinding equipment and other electricity based equipment with high energy efficiency
               
            
                  c
               
               
                  Using improved monitoring systems
               
            
                  d
               
               
                  Reducing air leaks into the system
               
            
                  e
               
               
                  Process control optimisation
               
            1.2.4   Use of waste
      
      1.2.4.1   Waste quality control
      
      11.   In order to guarantee the characteristics of the wastes to be used as fuels and/or raw materials in a cement kiln and reduce emissions, BAT is to apply the following techniques:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  Apply quality assurance systems to guarantee the characteristics of wastes and to analyse any waste that is to be used as raw material and/or fuel in a cement kiln for:
                  
                              I.
                           
                           
                              constant quality
                           
                        
                              II.
                           
                           
                              physical criteria, e.g. emissions formation, coarseness, reactivity, burnability, calorific value
                           
                        
                              III.
                           
                           
                              chemical criteria, e.g. chlorine, sulphur, alkali and phosphate content and relevant metals content
                           
                        
            
                  b
               
               
                  Control the amount of relevant parameters for any waste that is to be used as raw material and/or fuel in a cement kiln, such as chlorine, relevant metals (e.g. cadmium, mercury, thallium), sulphur, total halogen content
               
            
                  c
               
               
                  Apply quality assurance systems for each waste load
               
            
         Description
      
      Different types of waste materials can replace primary raw materials and/or fossil fuels in cement manufacturing and will contribute to saving natural resources.
      1.2.4.2   Waste feeding into the kiln
      
      12.   In order to ensure appropriate treatment of the wastes used as fuel and/or raw materials in the kiln, BAT is to use the following techniques:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  Use appropriate points to feed the waste into the kiln in terms of temperature and residence time depending on kiln design and kiln operation
               
            
                  b
               
               
                  To feed waste materials containing organic components that can be volatilised before the calcining zone into the adequately high temperature zones of the kiln system
               
            
                  c
               
               
                  To operate in such a way that the gas resulting from the co-incineration of waste is raised in a controlled and homogeneous fashion, even under the most unfavourable conditions, to a temperature of 850 °C for 2 seconds
               
            
                  d
               
               
                  To raise the temperature to 1 100 °C, if hazardous waste with a content of more than 1 % of halogenated organic substances, expressed as chlorine, are co-incinerated
               
            
                  e
               
               
                  To feed wastes continuously and constantly
               
            
                  f
               
               
                  Delay or stop co-incinerating waste for operations such as start-ups and/or shutdowns when appropriate temperatures and residence times cannot be reached, as noted in a) to d) above
               
            1.2.4.3   Safety management for the use of hazardous waste materials
      
      13.   BAT is to apply safety management for the storage, handling and feeding of hazardous waste materials, such as using a risk-based approach according to the source and type of waste, for the labelling, checking, sampling and testing of waste to be handled.
      1.2.5   Dust emissions
      
      1.2.5.1   Diffuse dust emissions
      
      14.   In order to minimise/prevent diffuse dust emissions from dusty operations, BAT is to use one or a combination of the following techniques:
      
                   
               
               
                  Technique
               
               
                  Applicability
               
            
                  a
               
               
                  Use a simple and linear site layout of the installation
               
               
                  Applicable to new plants only
               
            
                  b
               
               
                  Enclose/encapsulate dusty operations, such as grinding, screening and mixing
               
               
                  Generally applicable
               
            
                  c
               
               
                  Cover conveyors and elevators, which are constructed as closed systems, if diffuse dust emissions are likely to be released from dusty material
               
            
                  d
               
               
                  Reduce air leakages and spillage points
               
            
                  e
               
               
                  Use automatic devices and control systems
               
            
                  f
               
               
                  Ensure trouble-free operations
               
            
                  g
               
               
                  Ensure proper and complete maintenance of the installation using mobile and stationary vacuum cleaning.
                  
                              —
                           
                           
                              During maintenance operations or in cases of trouble with conveying systems, spillage of materials can take place. To prevent the formation of diffuse dust during removal operations, vacuum systems should be used. New buildings can easily be equipped with stationary vacuum cleaning piping, while existing buildings are normally better fitted with mobile systems and flexible connections
                           
                        
                              —
                           
                           
                              In specific cases, a circulation process could be favoured for pneumatic conveying systems
                           
                        
            
                  h
               
               
                  Ventilate and collect dust in fabric filters:
                  
                              —
                           
                           
                              As far as possible, all material handling should be conducted in closed systems maintained under negative pressure. The suction air for this purpose is then dedusted by a fabric filter before being emitted into the air
                           
                        
            
                  i
               
               
                  Use closed storage with an automatic handling system:
                  
                              —
                           
                           
                              Clinker silos and closed fully automated raw material storage areas are considered the most efficient solution to the problem of diffuse dust generated by high volume stocks. These types of storage are equipped with one or more fabric filters to prevent diffuse dust formation in loading and unloading operations
                           
                        
                              —
                           
                           
                              Use storage silos with adequate capacities, level indicators with cut out switches and with filters to deal with dust-bearing air displaced during filling operations
                           
                        
            
                  j
               
               
                  Use flexible filling pipes for dispatch and loading processes, equipped with a dust extraction system for loading cement, which are positioned towards the loading floor of the lorry
               
            15.   In order to minimise/prevent diffuse dust emissions from bulk storage areas, BAT is to use one or a combination of the following techniques:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  Cover bulk storage areas or stockpiles or enclose them with screening, walling or an enclosure consisting of vertical greenery (artificial or natural wind barriers for open pile wind protection)
               
            
                  b
               
               
                  Use open pile wind protection:
                  
                              —
                           
                           
                              Outdoor storage piles of dusty materials should be avoided, but when they do exist it is possible to reduce diffuse dust by using properly designed wind barriers
                           
                        
            
                  c
               
               
                  Use water spray and chemical dust suppressors:
                  
                              —
                           
                           
                              When the point source of diffuse dust is well localised, a water spray injection system can be installed. The humidification of dust particles aids agglomeration and so helps dust settle. A wide variety of agents is also available to improve the overall efficiency of the water spray
                           
                        
            
                  d
               
               
                  Ensure paving, road wetting and housekeeping:
                  
                              —
                           
                           
                              Areas used by lorries should be paved when possible and the surface should be kept as clean as possible. Wetting the roads can reduce diffuse dust emissions, especially during dry weather. They also can be cleaned with road sweepers. Good housekeeping practices should be used in order to keep diffuse dust emissions to a minimum
                           
                        
            
                  e
               
               
                  Ensure humidification of stockpiles:
                  
                              —
                           
                           
                              Diffuse dust emissions at stockpiles can be reduced by using sufficient humidification of the charging and discharging points, and by using conveyor belts with adjustable heights
                           
                        
            
                  f
               
               
                  Match the discharge height to the varying height of the heap, automatically if possible or by reduction of the unloading velocity, when diffuse dust emissions at the charging or discharging points of storage sites cannot be avoided
               
            1.2.5.2   Channelled dust emissions from dusty operations
      
      This section concerns dust emissions arising from dusty operations other than those from kiln firing, cooling and the main milling processes. This covers processes such as the crushing of raw materials; raw material conveyors and elevators; the storage of raw materials, clinker and cement; the storage of fuels and the dispatch of cement.
      16.   In order to reduce channelled dust emissions, BAT is to apply a maintenance management system which especially addresses the performance of filters applied to dusty operations, other than those from kiln firing, cooling and main milling processes. Taking this management system into account, BAT is to use dry flue-gas cleaning with a filter.
      
         Description
      
      For dusty operations, dry flue-gas cleaning with a filter usually consists of a fabric filter. A description of fabric filters is provided in Section 1.5.1.
      
         BAT-associated emission levels
      
      The BAT-AEL for channelled dust emissions from dusty operations (other than those from kiln firing, cooling and the main milling processes) is < 10 mg/Nm3, as the average over the sampling period (spot measurement, for at least half an hour).
      It should be noted that for small sources (< 10 000 Nm3/h) a priority approach, based on the maintenance management system, regarding the frequency for checking the performance of the filter has to be taken into account (see also BAT 5).
      1.2.5.3   Dust emissions from kiln firing processes
      
      17.   In order to reduce dust emissions from flue-gases of kiln firing processes, BAT is to use dry flue-gas cleaning with a filter.
      
                   
               
               
                  Technique (7)
                  
               
               
                  Applicability
               
            
                  a
               
               
                  Electrostatic precipitators (ESPs)
               
               
                  Applicable to all kiln systems
               
            
                  b
               
               
                  Fabric filters
               
            
                  c
               
               
                  Hybrid filters
               
            
         BAT-associated emission levels
      
      The BAT-AEL for dust emissions from flue-gases of kiln firing processes is <10 – 20 mg/Nm3, as the daily average value. When applying fabric filters or new or upgraded ESPs, the lower level is achieved.
      1.2.5.4   Dust emissions from cooling and milling processes
      
      18.   In order to reduce dust emissions from the flue-gases of cooling and milling processes, BAT is to use dry flue-gas cleaning with a filter.
      
                   
               
               
                  Technique (8)
                  
               
               
                  Applicability
               
            
                  a
               
               
                  Electrostatic precipitators (ESPs)
               
               
                  Generally applicable to clinker coolers and cement mills.
               
            
                  b
               
               
                  Fabric filters
               
               
                  Generally applicable to clinker coolers and mills
               
            
                  c
               
               
                  Hybrid filters
               
               
                  Applicable to clinker coolers and cement mills.
               
            
         BAT-associated emission levels
      
      The BAT-AEL for dust emissions from the flue-gases of cooling and milling processes is <10 – 20 mg/Nm3, as the daily average value or average over the sampling period (spot measurements for at least half an hour). When applying fabric filters or new or upgraded ESPs, the lower level is achieved.
      1.2.6   Gaseous compounds
      
      1.2.6.1   NOx emissions
      
      19.   In order to reduce the emissions of NOx from the flue-gases of kiln firing and/or preheating/precalcining processes, BAT is to use one or a combination of the following techniques:
      
                   
               
               
                  Technique (9)
                  
               
               
                  Applicability
               
            
                  a
               
               
                  Primary techniques
               
            
                  
                              I.
                           
                           
                              Flame cooling
                           
                        
               
                  Applicable to all types of kilns used for cement manufacturing. The degree of applicability can be limited by product quality requirements and potential impacts on process stability
               
            
                  
                              II.
                           
                           
                              Low NOx burners
                           
                        
               
                  Applicable to all rotary kilns, in the main kiln as well as in the precalciner
               
            
                  
                              III.
                           
                           
                              Mid-kiln firing
                           
                        
               
                  Generally applicable to long rotary kilns
               
            
                  
                              IV.
                           
                           
                              Addition of mineralisers to improve the burnability of the raw meal (mineralised clinker)
                           
                        
               
                  Generally applicable to rotary kilns subject to final product quality requirements
               
            
                  
                              V.
                           
                           
                              Process optimisation
                           
                        
               
                  Generally applicable to all kilns
               
            
                  b
               
               
                  Staged combustion (conventional or waste fuels), also in combination with a precalciner and the use of optimised fuel mix
               
               
                  In general, can only be applied in kilns equipped with a precalciner. Substantial plant modifications are necessary in cyclone preheater systems without a precalciner.
                  In kilns without precalciner, lump fuels firing might have a positive effect on NOx reduction depending on the ability to produce a controlled reduction atmosphere and to control the related CO emissions
               
            
                  c
               
               
                  Selective non-catalytic reduction (SNCR)
               
               
                  In principle, applicable to rotary cement kilns. The injection zones vary with the type of kiln process. In long wet and long dry process kilns it may be difficult to obtain the right temperature and retention time needed. See also BAT 20
               
            
                  d
               
               
                  Selective catalytic reduction (SCR)
               
               
                  Applicability is subject to appropriate catalyst and process development in the cement industry
               
            
         BAT-associated emission levels
      
      See Table 2.
      
         Table 2
      
      
         BAT-associated emission levels for NOx from the flue-gases of kiln firing and/or preheating/precalcining processes in the cement industry
      
      
                  Kiln type
               
               
                  Unit
               
               
                  BAT-AEL
                  (daily average value)
               
            
                  Preheater kilns
               
               
                  mg/Nm3
                  
               
               
                  < 200 – 450 (10)
                      (11)
                  
               
            
                  Lepol and long rotary kilns
               
               
                  mg/Nm3
                  
               
               
                  400 – 800 (12)
                  
               
            20.   When SNCR is used, BAT is to achieve efficient NOx reduction, while keeping the ammonia slip as low as possible, by using the following technique:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  To apply an appropriate and sufficient NOx reduction efficiency along with a stable operating process
               
            
                  b
               
               
                  To apply a good stoichiometric distribution of ammonia in order to achieve the highest efficiency of NOx reduction and to reduce the NH3 slip
               
            
                  c
               
               
                  To keep the emissions of NH3 slip (due to unreacted ammonia) from the flue-gases as low as possible taking into account the correlation between the NOx abatement efficiency and the NH3 slip
               
            
         Applicability
      
      SNCR is generally applicable to rotary cement kilns. The injection zones vary with the type of kiln process. In long wet and long dry process kilns it may be difficult to obtain the right temperature and retention time needed. See also BAT 19.
      
         BAT-associated emission levels
      
      See Table 3.
      
         Table 3
      
      
         BAT-associated emission levels for NH3 slip in the flue-gases when SNCR is applied
      
      
                  Parameter
               
               
                  Unit
               
               
                  BAT-AEL
                  (daily average value)
               
            
                  NH3 slip
               
               
                  mg/Nm3
                  
               
               
                  < 30 – 50 (13)
                  
               
            1.2.6.2   SOx emissions
      
      21.   In order to reduce/minimise the emissions of SOx from the flue-gases of kiln firing and/or preheating/precalcining processes, BAT is to use one of the following techniques:
      
                   
               
               
                  Technique (14)
                  
               
               
                  Applicability
               
            
                  a
               
               
                  Absorbent addition
               
               
                  Absorbent addition is, in principle, applicable to all kiln systems, although it is mostly used in suspension preheaters. Lime addition to the kiln feed reduces the quality of the granules/nodules and causes flow problems in Lepol kilns. For preheater kilns it has been found that direct injection of slaked lime into the flue-gas is less efficient than adding slaked lime to the kiln feed
               
            
                  b
               
               
                  Wet scrubber
               
               
                  Applicable to all cement kiln types with appropriate (sufficient) SO2 levels for manufacturing the gypsum
               
            
         Description
      
      Depending on the raw materials and the fuel quality, levels of SOx emissions can be kept low not requiring the use of an abatement technique.
      If necessary, primary techniques and/or abatement techniques such as absorbent addition or wet scrubber can be used to reduce SOx emissions.
      Wet scrubbers have already been operated in plants with initial unabated SOx levels higher than 800 – 1 000 mg/Nm3.
      
         BAT-associated emission levels
      
      See Table 4.
      
         Table 4
      
      
         BAT-associated emission levels for SOx from the flue-gases of kiln firing and/or preheating/precalcining processes in the cement industry
      
      
                  Parameter
               
               
                  Unit
               
               
                  BAT-AEL (15)
                      (16)
                  
                  (daily average value)
               
            
                  SOx expressed as SO2
                  
               
               
                  mg/Nm3
                  
               
               
                  < 50 – 400
               
            22.   In order to reduce SO2 emissions from the kiln, BAT is to optimise the raw milling processes.
      
         Description
      
      The technique consists of optimising the raw milling process so that the raw mill can be operated to act as SO2 abatement for the kiln. This can be achieved by adjusting factors such as:
      
                  —
               
               
                  raw material moisture
               
            
                  —
               
               
                  mill temperature
               
            
                  —
               
               
                  retention time in the mill
               
            
                  —
               
               
                  fineness of the ground material.
               
            
         Applicability
      
      Applicable if the dry milling process is used in compound mode.
      1.2.6.3   CO emissions and CO trips
      
      1.2.6.3.1   Reduction of CO trips
      23.   In order to minimise the frequency of CO trips and keep their total duration to below 30 minutes annually, when using electrostatic precipitators (ESPs) or hybrid filters, BAT is to use the following techniques in combination:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  Manage CO trips in order to reduce the ESP downtime
               
            
                  b
               
               
                  Continuous automatic CO measurements by means of monitoring equipment with a short response time and situated close to the CO source
               
            
         Description
      
      For safety reasons, due to the risk of explosions, ESPs will have to shut down during elevated CO levels in the flue-gases. The following techniques prevent CO trips and, therefore, reduce ESP shutdown times:
      
                  —
               
               
                  control of the combustion process
               
            
                  —
               
               
                  control of the organic load of raw materials
               
            
                  —
               
               
                  control of the quality of the fuels and fuel feeding system.
               
            Disruptions predominantly happen during the start-up operation phase. For safe operation, the gas analysers for ESP protection have to be on-line during all operational phases and the ESP downtime can be reduced by using a backup monitoring system maintained in operation.
      The continuous CO monitoring system needs to be optimised for reaction time and should be located close to the CO source, e.g. at a preheater tower outlet, or at a kiln inlet in the case of a wet kiln application.
      When hybrid filters are used, the grounding of the bag support cage with the cell plate is recommended.
      1.2.6.4   Total organic carbon emissions (TOC)
      
      24.   In order to keep the emissions of TOC from the flue-gases of the kiln firing processes low, BAT is to avoid feeding raw materials with a high content of volatile organic compounds (VOC) into the kiln system via the raw material feeding route.
      1.2.6.5   Hydrogen chloride (HCl) and hydrogen fluoride (HF) emissions
      
      25.   In order prevent/reduce the emissions of HCl from flue-gases of the kiln firing processes, BAT is to use one or a combination of the following primary techniques:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  Using raw materials and fuels with a low chlorine content
               
            
                  b
               
               
                  Limiting the amount of chlorine content for any waste that is to be used as raw material and/or fuel in a cement kiln
               
            
         BAT-associated emission levels
      
      The BAT-AEL for the emissions of HCl is <10 mg/Nm3, as the daily average value or average over the sampling period (spot measurements, for at least half an hour).
      26.   In order to prevent/reduce the emissions of HF from the flue-gases of the kiln firing processes, BAT is to use one or a combination of the following primary techniques:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  Using raw materials and fuels with a low fluorine content
               
            
                  b
               
               
                  Limiting the amount of fluorine content for any waste that is to be used as raw material and/or fuel in a cement kiln
               
            
         BAT-associated emission levels
      
      The BAT-AEL for the emissions of HF is <1 mg/Nm3, as the daily average value or average over the sampling period (spot measurements, for at least half an hour).
      1.2.7   PCDD/F emissions
      
      27.   In order to prevent emissions of PCDD/F or to keep the emissions of PCDD/F from the flue-gases of the kiln firing processes low, BAT is to use one or a combination of the following techniques:
      
                   
               
               
                  Technique
               
               
                  Applicability
               
            
                  a
               
               
                  Carefully selecting and controlling of kiln inputs (raw materials), i.e. chlorine, copper and volatile organic compounds
               
               
                  Generally applicable
               
            
                  b
               
               
                  Carefully selecting and controlling kiln inputs (fuels), i.e. chlorine and copper
               
               
                  Generally applicable
               
            
                  c
               
               
                  Limiting/avoiding the use of wastes which contain chlorinated organic materials
               
               
                  Generally applicable
               
            
                  d
               
               
                  Avoid feeding fuels with a high content of halogens (e.g. chlorine) in secondary firing
               
               
                  Generally applicable
               
            
                  e
               
               
                  Quick cooling of kiln flue-gases to lower than 200 °C and minimising residence time of flue-gases and oxygen content in zones where the temperatures range between 300 and 450 °C
               
               
                  Applicable to long wet kilns and long dry kilns without preheating. In modern preheater and precalciner kilns, this feature is already inherent
               
            
                  f
               
               
                  Stop co-incinerating waste for operations such as start-ups and/or shutdowns
               
               
                  Generally applicable
               
            
         BAT-associated emission levels
      
      The BAT-AEL for the emissions of PCDD/F from the flue-gases of the kiln firing processes is <0,05 – 0,1 ng PCDD/F I-TEQ/Nm3, as the average over the sampling period (6 – 8 hours).
      1.2.8   Metal emissions
      
      28.   In order to minimise the emissions of metals from the flue-gases of the kiln firing processes, BAT is to use one or a combination of the following techniques:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  Selecting materials with a low content of relevant metals and limiting the content of relevant metals in materials, especially mercury
               
            
                  b
               
               
                  Using a quality assurance system to guarantee the characteristics of the waste materials used
               
            
                  c
               
               
                  Using effective dust removal techniques as set out in BAT 17
               
            
         BAT-associated emission levels
      
      See Table 5.
      
         Table 5
      
      
         BAT-associated emission levels for metals from the flue-gases of kiln firing processes
      
      
                  Metals
               
               
                  Unit
               
               
                  BAT-AEL
                  (average over the sampling period (spot measurements, for at least half an hour))
               
            
                  Hg
               
               
                  mg/Nm3
                  
               
               
                  < 0,05 (18)
                  
               
            
                  Σ (Cd, Tl)
               
               
                  mg/Nm3
                  
               
               
                  < 0,05 (17)
                  
               
            
                  Σ (As, Sb, Pb, Cr, Co, Cu, Mn, Ni, V)
               
               
                  mg/Nm3
                  
               
               
                  < 0,5 (17)
                  
               
            1.2.9   Process losses/waste
      
      29.   In order to reduce solid waste from the cement manufacturing process along with raw material savings, BAT is to:
      
                   
               
               
                  Technique
               
               
                  Applicability
               
            
                  a
               
               
                  Reuse collected dusts in the process, wherever practicable
               
               
                  Generally applicable but subject to dust chemical composition
               
            
                  b
               
               
                  Utilise these dusts in other commercial products, when possible
               
               
                  The utilisation of the dusts in other commercial products may not be within the control of the operator
               
            
         Description
      
      Collected dust can be recycled back into the production processes whenever practicable. This recycling may take place directly into the kiln or kiln feed (the alkali metal content being the limiting factor) or by blending with finished cement products. A quality assurance procedure might be required when the collected dusts are recycled back into the production processes. Alternative uses may be found for material that cannot be recycled (e.g. additive for flue-gas desulphurisation in combustion plants).
      1.3   BAT conclusions for the lime industry
      
      Unless otherwise stated, the BAT conclusions presented in this section can be applied to all installations in the lime industry.
      1.3.1   General primary techniques
      
      30.   In order to reduce all kiln emissions and use energy efficiently, BAT is to achieve a smooth and stable kiln process, operating close to the process parameter set points by using the following techniques:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  Process control optimisation, including computer-based automatic control
               
            
                  b
               
               
                  Using modern, gravimetric solid fuel feed systems and/or gas flow meters
               
            
         Applicability
      
      Process control optimisation is applicable to all lime plants to varying degrees. Complete process automation is generally not achievable due to the uncontrollable variables, i.e. quality of the limestone.
      31.   In order to prevent and/or reduce emissions, BAT is to carry out a careful selection and control of the raw materials entering the kiln.
      
         Description
      
      Raw materials entering the kiln have a significant effect on air emissions due to their impurities content; hence, a careful selection of raw materials may reduce these emissions at source. For example, the variations of sulphur and chlorine contents in the limestone/dolomite have an effect on the range of the SO2 and HCl emissions in the flue-gas, while the presence of organic matter has an influence on TOC and CO emissions.
      
         Applicability
      
      The applicability depends on the (local) availability of raw materials with low impurities content. The type of final product and the type of kiln used may represent an additional constraint.
      1.3.2   Monitoring
      
      32.   BAT is to carry out monitoring and measurements of process parameters and emissions on a regular basis and to monitor emissions in accordance with the relevant EN standards or, if EN standards are not available, ISO, national or other international standards that ensure the provision of data of an equivalent scientific quality, including the following:
      
                   
               
               
                  Technique
               
               
                  Applicability
               
            
                  a
               
               
                  Continuous measurements of process parameters demonstrating the process stability, such as temperature, O2 content, pressure, flow rate and CO emissions
               
               
                  Applicable to kiln processes
               
            
                  b
               
               
                  Monitoring and stabilising of critical process parameters, e.g. fuel feed, regular dosage and excess oxygen
               
            
                  c
               
               
                  Continuous or periodic measurements of dust, NOx, SOx, CO emissions and NH3 emissions when SNCR is applied
               
               
                  Applicable to kiln processes
               
            
                  d
               
               
                  Continuous or periodic measurements of HCl and HF emissions in case wastes are co-incinerated
               
               
                  Applicable to kiln processes
               
            
                  e
               
               
                  Continuous or periodic measurements of TOC emissions or continuous measurements in case wastes are co-incinerated
               
               
                  Applicable to kiln processes
               
            
                  f
               
               
                  Periodic measurements of PCDD/F and metal emissions
               
               
                  Applicable to kiln processes
               
            
                  g
               
               
                  Continuous or periodic measurements of dust emissions
               
               
                  Applicable to non-kiln processes
                  For small sources (<10 000 Nm3/h) the frequency of the measurements should be based on a maintenance management system
               
            
         Description
      
      The selection between continuous or periodic measurements mentioned in BAT 32(c) to 32(f) is based on the emission source and the type of pollutant expected.
      For periodic measurements of dust, NOx, SOx and CO emissions, a frequency of once a month and up to once a year at the time of normal operating conditions is given as an indication.
      For periodic measurements of PCDD/F, TOC, HCl, HF, metal emissions, a frequency appropriate to the raw materials and fuels that are used in the process should be applied.
      1.3.3   Energy consumption
      
      33.   In order to reduce/minimise thermal energy consumption, BAT is to use a combination of the following techniques:
      
                   
               
               
                  Technique
               
               
                  Description
               
               
                  Applicability
               
            
                  a
               
               
                  Applying improved and optimised kiln systems and a smooth and stable kiln process, operating close to the process parameter set points, through:
                  
                              I.
                           
                           
                              process control optimisation
                           
                        
                              II.
                           
                           
                              heat recovery from flue-gases (e.g. use of surplus heat from rotary kilns to dry limestone for other processes such as limestone milling)
                           
                        
                              III.
                           
                           
                              modern, gravimetric solid fuel feed systems
                           
                        
                              IV.
                           
                           
                              maintenance of the equipment (e.g. air tightness, erosion of refractory)
                           
                        
                              V.
                           
                           
                              the use of optimised grain size of stone
                           
                        
               
                  Maintaining kiln control parameters close to their optimum values has the effect of reducing all consumption parameters due to, among other things, reduced numbers of shutdowns and upset conditions.
                  The use of optimised grain size of stone is subject to raw material availability
               
               
                  Technique (a) II is applicable only to long rotary kilns (LRK)
               
            
                  b
               
               
                  Using fuels with characteristics which have a positive influence on thermal energy consumption
               
               
                  The characteristics of fuels, e.g. high calorific value and low moisture content can have a positive effect on the thermal energy consumption
               
               
                  The applicability depends on the technical possibility to feed the selected fuel into the kiln and on the availability of suitable fuels (e.g. high calorific value and low humidity) which may be impacted by the energy policy of the Member State
               
            
                  c
               
               
                  Limiting excess air
               
               
                  A decrease of excess air used for combustion has a direct effect on fuel consumption since high percentages of air require more thermal energy to heat up the excess volume.
                  Only in LRK and PRK the limitation of excess air has an impact on thermal energy consumption.
                  The technique has a potential of increasing TOC and CO emission
               
               
                  Applicable to LRK and PRK within the limits of a potential overheating of some areas in the kiln with consequent deterioration of the refractory lifetime
               
            
         BAT-associated consumption levels
      
      See Table 6.
      
         Table 6
      
      
         BAT-associated levels for thermal energy consumption in the lime and dolime industry
      
      
                  Kiln type
               
               
                  Thermal energy consumption (19)
                  
                  GJ/tonne of product
               
            
                  Long rotary kilns (LRK)
               
               
                  6,0 – 9,2
               
            
                  Rotary kilns with preheater (PRK)
               
               
                  5,1 – 7,8
               
            
                  Parallel flow regenerative kilns (PFRK)
               
               
                  3,2 – 4,2
               
            
                  Annular shaft kilns (ASK)
               
               
                  3,3 – 4,9
               
            
                  Mixed feed shaft kilns (MFSK)
               
               
                  3,4 – 4,7
               
            
                  Other kilns (OK)
               
               
                  3,5 – 7,0
               
            34.   In order to minimise electrical energy consumption, BAT is to use one or a combination of the following techniques:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  Using power management systems
               
            
                  b
               
               
                  Using optimised grain size of limestone
               
            
                  c
               
               
                  Using grinding equipment and other electricity based equipment with high energy efficiency
               
            
         Description – Technique (b)
      
      Vertical kilns can usually burn only coarse limestone pebbles. However, rotary kilns with higher energy consumption can also valorise small fractions and new vertical kilns can burn small granules from 10 mm. The larger granules of kiln feed stone are used more in vertical kilns than in rotary kilns.
      1.3.4   Consumption of limestone
      
      35.   In order to minimise limestone consumption, BAT is to use one or a combination of the following techniques:
      
                   
               
               
                  Technique
               
               
                  Applicability
               
            
                  a
               
               
                  Specific quarrying, crushing and well directed use of limestone (quality, grain size)
               
               
                  Generally applicable in the lime industry; however, stone processing is dependent on the limestone quality
               
            
                  b
               
               
                  Selecting kilns applying optimised techniques which allow for operating with a wider range of limestone grain sizes to make optimum use of quarried limestone
               
               
                  Applicable to new plants and major upgrades of kiln.
                  Vertical kilns can in principle only burn coarse limestone pebbles. Fine lime PFRK and/or rotary kilns can operate with smaller limestone grain sizes
               
            1.3.5   Selection of fuels
      
      36.   In order to prevent/reduce emissions, BAT is to carry out a careful selection and control of fuels entering the kiln.
      
         Description
      
      Fuels entering the kiln may have a significant effect on air emissions due to their impurities content. The content of sulphur (for long rotary kilns in particular), nitrogen and chlorine have an effect on the range of the SOx, NOx and HCl emissions in the flue-gas. Depending on the chemical composition of the fuel and the type of kiln used, the choice of appropriate fuels or a fuel mix can lead to emissions reductions.
      
         Applicability
      
      Except for mixed feed shaft kilns, all types of kilns can operate with all types of fuels and fuel mixtures subject to fuels availability which may be impacted by the energy policy of the Member State. The selection of fuel also depends on the desired quality of the final product, the technical possibility to feed the fuel into the selected kiln, and economic considerations.
      1.3.5.1   Use of waste fuels
      
      1.3.5.1.1   Waste quality control
      37.   In order to guarantee the characteristics of waste to be used as fuel in a lime kiln, BAT is to apply the following techniques:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  Apply a quality assurance system to guarantee and control the characteristics of wastes and to analyse any waste that is to be used as fuel in the kiln for:
                  
                              I.
                           
                           
                              constant quality
                           
                        
                              II.
                           
                           
                              physical criteria, e.g. emissions formation, coarseness, reactivity, burnability, calorific value
                           
                        
                              III.
                           
                           
                              chemical criteria, e.g. total chlorine content, sulphur, alkali, and phosphate content and relevant metals content (e.g. total chromium, lead, cadmium, mercury, thallium)
                           
                        
            
                  b
               
               
                  Control the amount of relevant components for any waste that is to be used as fuel, such as total halogen content, metals (e.g. total chromium, lead, cadmium, mercury, thallium) and sulphur
               
            1.3.5.1.2   Waste feeding into the kiln
      38.   In order to prevent/reduce emissions occurring from the use of waste fuels into the kiln, BAT is to use the following techniques:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  To use appropriate burners for feeding suitable wastes depending on kiln design and kiln operation
               
            
                  b
               
               
                  To operate in such a way that the gas resulting from the co-incineration of waste is raised in a controlled and homogeneous fashion and even under the most unfavourable conditions, to a temperature of 850 °C for 2 seconds
               
            
                  c
               
               
                  To raise the temperature to 1 100 °C if hazardous wastes with a content of more than 1 % of halogenated organic substances, expressed as chlorine, are co-incinerated
               
            
                  d
               
               
                  To feed wastes continuously and constantly
               
            
                  e
               
               
                  To stop feeding waste for operations such as start-ups and/or shutdowns when appropriate temperatures and residence times cannot be reached, as mentioned in (b) and (c) above
               
            1.3.5.1.3   Safety management for the use of hazardous waste materials
      39.   In order to prevent accidental emissions, BAT is to use safety management for the storage, handling and feeding into the kiln of hazardous waste materials.
      
         Description
      
      The use of a safety management for the storage, handling and feeding of hazardous waste materials consists of a risk-based approach according to the source and type of waste, for the labelling, checking, sampling and testing of waste to be handled.
      1.3.6   Dust emissions
      
      1.3.6.1   Diffuse dust emissions
      
      40.   In order to minimise/prevent diffuse dust emissions from dusty operations, BAT is to use one or a combination of the following techniques:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  Enclosure/encapsulation of dusty operations, such as grinding, screening and mixing
               
            
                  b
               
               
                  Use of covered conveyors and elevators, which are constructed as closed systems, if dust emissions are likely to be released from dusty material
               
            
                  c
               
               
                  Use of storage silos with adequate capacity, level indicators with cut out switches and with filters to deal with dust-bearing air displaced during filling operations
               
            
                  d
               
               
                  Use of a circulation process which is favoured for pneumatic conveying systems
               
            
                  e
               
               
                  Material handling in closed systems maintained under negative pressure and dedusting of the suction air by a fabric filter before being emitted into the air
               
            
                  f
               
               
                  Reduction of air leakage and spillage points, completion of installation
               
            
                  g
               
               
                  Proper and complete maintenance of the installation
               
            
                  h
               
               
                  Use of automatic devices and control systems
               
            
                  i
               
               
                  Use of continuous trouble-free operations
               
            
                  j
               
               
                  Use of flexible filling pipes equipped with a dust extraction system for loading lime which are positioned at the loading floor of the lorry
               
            
         Applicability
      
      In raw material preparation operations, like crushing and sieving, dust separation is not normally needed, because of the moisture content of the raw material.
      41.   In order to minimise/prevent diffuse dust emissions from bulk storage areas, BAT is to use one or a combination of the following techniques:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  Enclose storage locations using screening, walling or vertical greenery (artificial or natural wind barriers for open pile wind protection)
               
            
                  b
               
               
                  Use product silos and closed, fully-automated raw material storages. These types of storage are equipped with one or more fabric filters to prevent diffuse dust formation in loading and unloading operations
               
            
                  c
               
               
                  Reduce diffuse dust emissions at stockpiles by using sufficient humidification of stockpile charging and discharging points and the use of conveyor belts with adjustable height. When using humidification or spraying measures/techniques, the ground can be sealed and the surplus water can be gathered, and if necessary this can be treated and used in closed cycles
               
            
                  d
               
               
                  Reduce diffuse dust emissions at charging or discharging points of storage sites if they cannot be avoided, by matching the discharge height to the varying height of the heap, if possible automatically, or by reduction of the unloading velocity
               
            
                  e
               
               
                  Keep the locations wet, especially dry areas, using spraying devices and clean them by cleaning lorries
               
            
                  f
               
               
                  Use vacuum systems during removal operations. New buildings can easily be equipped with stationary vacuum cleaning systems, while existing buildings are normally better fitted with mobile systems and flexible connections
               
            
                  g
               
               
                  Reduce diffuse dust emissions arising in areas used by lorries, by paving these areas when possible and keeping the surface as clean as possible. Wetting the roads can reduce diffuse dust emissions, especially during dry weather. Good housekeeping practices can be used in order to keep diffuse dust emissions to a minimum
               
            1.3.6.2   Channelled dust emissions from dusty operations other than those from kiln firing processes
      
      42.   In order to reduce channelled dust emissions from dusty operations other than those from kiln firing processes, BAT is to use one of the following techniques and to use a maintenance management system which specifically addresses the performance of filters:
      
                   
               
               
                  Technique (20)
                      (21)
                  
               
               
                  Applicability
               
            
                  a
               
               
                  Fabric filter
               
               
                  Generally applicable to milling and grinding plants and subsidiary processes in the lime industry; material transport; and storage and loading facilities. The applicability of fabric filters in hydrating lime plants may be limited by the high moisture and low temperature of the flue-gases
               
            
                  b
               
               
                  Wet scrubbers
               
               
                  Mainly applicable to hydrating lime plants
               
            
         BAT-associated emission levels
      
      See Table 7.
      
         Table 7
      
      
         BAT-associated emission levels for channelled dust emissions from dusty operations other than those from kiln firing processes
      
      
                  Technique
               
               
                  Unit
               
               
                  BAT-AEL
                  (daily average or average over the sampling period (spot measurements for at least half an hour))
               
            
                  Fabric filter
               
               
                  mg/Nm3
                  
               
               
                  < 10
               
            
                  Wet scrubber
               
               
                  mg/Nm3
                  
               
               
                  < 10 – 20
               
            It should be noted that for small sources (< 10 000 Nm3/h) a priority approach regarding the frequency for checking the performance of the filter has to be taken into account (see BAT 32).
      1.3.6.3   Dust emissions from kiln firing processes
      
      43.   In order to reduce dust emissions from the flue-gases of kiln firing processes, BAT is to use flue-gas cleaning with a filter. One or a combination of the following techniques can be used:
      
                   
               
               
                  Technique (22)
                  
               
               
                  Applicability
               
            
                  a
               
               
                  ESP
               
               
                  Applicable to all kiln systems
               
            
                  b
               
               
                  Fabric filter
               
               
                  Applicable to all kiln systems
               
            
                  c
               
               
                  Wet dust separator
               
               
                  Applicable to all kiln systems
               
            
                  d
               
               
                  Centrifugal separator/cyclone
               
               
                  Centrifugal separators are only suitable as pre-separators and can be used to pre-clean the flue-gases from all kiln systems
               
            
         BAT-associated emission levels
      
      See Table 8.
      
         Table 8
      
      
         BAT-associated emission levels for dust emissions from the flue-gases of kiln firing processes
      
      
                  Technique
               
               
                  Unit
               
               
                  BAT-AEL
                  (daily average value or average over the sampling period (spot measurements for at least half an hour))
               
            
                  Fabric filter
               
               
                  mg/Nm3
                  
               
               
                  < 10
               
            
                  ESP or other filters
               
               
                  mg/Nm3
                  
               
               
                  < 20 (23)
                  
               
            1.3.7   Gaseous compounds
      
      1.3.7.1   Primary techniques for reducing emissions of gaseous compounds
      
      44.   In order to reduce the emissions of gaseous compounds (i.e. NOx, SOx, HCl, CO, TOC/VOC, volatile metals) from the flue-gases of kiln firing processes, BAT is to use one or a combination of the following techniques:
      
                   
               
               
                  Technique
               
               
                  Applicability
               
            
                  a
               
               
                  Careful selection and control of substances entering the kiln
               
               
                  Generally applicable
               
            
                  b
               
               
                  Reducing the pollutant precursors in fuels and, if possible, in raw materials, i.e.
                  
                              I.
                           
                           
                              selecting fuels, where available, with low contents of sulphur (for long rotary kilns in particular), nitrogen and chlorine
                           
                        
                              II.
                           
                           
                              selecting raw materials, if possible, with low contents of organic matter
                           
                        
                              III.
                           
                           
                              selecting suitable waste fuels for the process and the burner
                           
                        
               
                  Generally applicable in the lime industry subject to local availability of raw materials and fuels, the type of kiln used, the desired product qualities and the technical possibility of feeding the fuels into the selected kiln
               
            
                  c
               
               
                  Using process optimisation techniques to ensure an efficient absorption of sulphur dioxide (e.g. efficient contact between the kiln gases and the quicklime)
               
               
                  Applicable to all lime plants.
                  In general, complete process automation is not achievable due to uncontrollable variables, i.e. quality of the limestone
               
            1.3.7.2   NOx emissions
      
      45.   In order to reduce the emissions of NOX from the flue-gases of kiln firing processes, BAT is to use one or a combination of the following techniques:
      
                   
               
               
                  Technique
               
               
                  Applicability
               
            
                  a
               
               
                  Primary techniques
               
            
                   
               
               
                  
                              I.
                           
                           
                              Appropriate fuel selection along with limitation of nitrogen content in the fuel
                           
                        
               
                  Generally applicable in the lime industry subject to fuel availability which may be impacted by the energy policy of the Member State and to the technical possibility to feed a certain type of fuel into the selected kiln
               
            
                  
                              II.
                           
                           
                              Process optimisation including flame shaping and temperature profile
                           
                        
               
                  Optimisation of process and process control can be applied in lime manufacturing but is subject to the final product quality
               
            
                  
                              III.
                           
                           
                              Burner design (low NOX burner) (24)
                              
                           
                        
               
                  Low NOX burners are applicable to rotary kilns and to annular shaft kilns presenting conditions of high primary air. PFRKs and other shaft kilns have flameless combustion, thus rendering low NOX burners not applicable to this kiln type
               
            
                  
                              IV.
                           
                           
                              Air staging (24)
                              
                           
                        
               
                  Not applicable to shaft kilns.
                  Applicable only to PRK but not when hard burned lime is produced. The applicability may be limited by constraints imposed by the type of final product, due to possible overheating in some areas of the kiln and consequent deterioration of the refractory lining
               
            
                  b
               
               
                  SNCR (24)
                  
               
               
                  Applicable to Lepol rotary kilns. See also BAT 46
               
            
         BAT-associated emission levels
      
      See Table 9.
      
         Table 9
      
      
         BAT-associated emission levels for NOx from flue-gases of kiln firing processes in the lime industry
      
      
                  Kiln type
               
               
                  Unit
               
               
                  BAT-AEL
                  (daily average value or average over the sampling period (spot measurements for at least half an hour), stated as NO2)
               
            
                  PFRK, ASK, MFSK, OSK
               
               
                  mg/Nm3
                  
               
               
                  100 – 350 (25)
                      (27)
                  
               
            
                  LRK, PRK
               
               
                  mg/Nm3
                  
               
               
                  < 200 – 500 (25)
                      (26)
                  
               
            46.   When SNCR is used, BAT is to achieve efficient NOx reduction, while keeping the ammonia slip as low as possible, by using the following technique:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  To apply an appropriate and sufficient reduction efficiency along with a stable operating process
               
            
                  b
               
               
                  To apply a good stoichiometric ratio and distribution of ammonia in order to achieve the highest efficiency of NOx reduction and to reduce the ammonia slip
               
            
                  c
               
               
                  To keep the emissions of NH3 slip (due to unreacted ammonia) from the flue-gases as low as possible, taking into account the correlation between the NOx abatement efficiency and the NH3 slip.
               
            
         Applicability
      
      Applicable only to Lepol rotary kilns, where the ideal temperature range of 850 to 1 020 °C is accessible. See also BAT 45, technique (b).
      
         BAT-associated emission levels
      
      The BAT-AEL for the emissions of NH3 slip from the flue-gases is <30 mg/Nm3, as the daily average value or average over the sampling period (spot measurements for at least half an hour).
      1.3.7.3   SOx emissions
      
      47.   In order to reduce the emissions of SOx from the flue-gases of kiln firing processes, BAT is to use one or a combination of the following techniques:
      
                   
               
               
                  Technique
               
               
                  Applicability
               
            
                  a
               
               
                  Process optimisation to ensure an efficient absorption of sulphur dioxide (e.g. efficient contact between the kiln gases and the quicklime)
               
               
                  Process control optimisation is applicable to all lime plants
               
            
                  b
               
               
                  Selecting fuels with a low sulphur content
               
               
                  Generally applicable, subject to fuel availability in particular for use in long rotary kilns (LRK), due to high SOx emissions
               
            
                  c
               
               
                  Using absorbent addition techniques (e.g. absorbent addition, dry flue-gas cleaning with a filter, wet scrubber, or activated carbon injection) (28)
                  
               
               
                  Absorbent addition techniques are, in principle, applicable in the lime industry; however, this technique had not yet been applied in the lime sector in 2007. Particularly for rotary lime kilns further investigation is required in order to assess its applicability
               
            
         BAT-associated emission levels
      
      See Table 10.
      
         Table 10
      
      
         BAT-associated emission levels for SOx from flue-gases of kiln firing processes in the lime industry
      
      
                  Kiln type
               
               
                  Unit
               
               
                  BAT-AEL (29)
                      (30)
                  
                  (daily average value or average over the sampling period (spot measurements for at least half an hour), SOx expressed as SO2)
               
            
                  PFRK, ASK, MFSK, OSK, PRK
               
               
                  mg/Nm3
                  
               
               
                  < 50 – 200
               
            
                  LRK
               
               
                  mg/Nm3
                  
               
               
                  < 50 – 400
               
            1.3.7.4   CO emissions and CO trips
      
      1.3.7.4.1   CO emissions
      48.   In order to reduce the emissions of CO from the flue-gases of kiln firing processes, BAT is to use one or a combination of the following techniques:
      
                   
               
               
                  Technique
               
               
                  Applicability
               
            
                  a
               
               
                  Selecting, raw materials with a low content of organic matter
               
               
                  Generally applicable to the lime industry within the constraints of the local availability and composition of raw materials, the type of kiln used and the quality of the final product
               
            
                  b
               
               
                  Using process optimisation techniques to achieve a stable and complete combustion
               
               
                  Applicable to all lime plants.
                  In general, complete process automation is not achievable due to uncontrollable variables, i.e. quality of the limestone
               
            In this context, see also BAT 30 and 31 in Section 1.3.1 and BAT 32 in Section 1.3.2.
      
         BAT-associated emission levels
      
      See Table 11.
      
         Table 11
      
      
         BAT-associated emission levels for CO from the flue-gas of kiln firing processes
      
      
                  Kiln type
               
               
                  Unit
               
               
                  BAT-AEL (31)
                      (32)
                  
                  (daily average value or average over the sampling period (spot measurements for at least half an hour))
               
            
                  PFRK, OSK, LRK, PRK
               
               
                  mg/Nm3
                  
               
               
                  < 500
               
            1.3.7.4.2   Reduction of CO trips
      49.   In order to minimise the frequency of CO trips when using electrostatic precipitators, BAT is to use the following techniques:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  Manage CO trips in order to reduce the ESP downtime
               
            
                  b
               
               
                  Continuous automatic CO measurements by means of monitoring equipment with a short response time and situated close to the CO source
               
            
         Description
      
      For safety reasons, due to the risk of explosions, ESPs will have to shut down during elevated CO levels in the flue-gases. The following techniques prevent CO trips and, therefore, reduce ESP shutdown times:
      
                  —
               
               
                  control of the combustion process
               
            
                  —
               
               
                  control of the organic load of raw materials
               
            
                  —
               
               
                  control of the quality of the fuels and fuel feeding system.
               
            Disruptions predominantly happen during the start-up operation phase. For safe operation, the gas analysers for ESP protection have to be online during all operational phases and the ESP downtime can be reduced by using a backup monitoring system maintained in operation.
      The continuous CO monitoring system needs to be optimised for reaction time and should be located close to the CO source, e.g. at a preheater tower outlet, or at a kiln inlet in the case of a wet kiln application.
      
         Applicability
      
      Generally applicable to rotary kilns fitted with electrostatic precipitators (ESPs).
      1.3.7.5   Total organic carbon emissions (TOC)
      
      50.   In order to reduce the emissions of TOC from the flue-gases of kiln firing processes, BAT is to use one or a combination of the following techniques:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  Applying general primary techniques and monitoring (see also BAT 30 and 31 in Section 1.3.1, and BAT 32 in Section 1.3.2)
               
            
                  b
               
               
                  Avoid feeding raw materials with a high content of volatile organic compounds into the kiln system (except for hydraulic lime production)
               
            
         Applicability
      
      For applicability of general primary techniques and monitoring see BAT 30 and 31 in Section 1.3.1, and BAT 32 in Section 1.3.2.
      Technique (b) is generally applicable to the lime industry, subject to local raw materials availability and/or the type of lime produced.
      
         BAT-associated emission levels
      
      See Table 12.
      
         Table 12
      
      
         BAT-associated emission levels for TOC from the flue-gas of kiln firing processes
      
      
                  Kiln type
               
               
                  Unit
               
               
                  BAT-AEL (33)
                  
                  (daily average value or average over the sampling period (spot measurements for at least half an hour))
               
            
                  LRK, PRK
               
               
                  mg/Nm3
                  
               
               
                  < 10
               
            
                  ASK, MFSK (34), PFRK (34)
                  
               
               
                  mg/Nm3
                  
               
               
                  < 30
               
            1.3.7.6   Hydrogen chloride (HCl) and hydrogen fluoride (HF) emissions
      
      51.   In order to reduce the emissions of HCl and the emissions of HF from the flue-gas of kiln firing processes, when using waste, BAT is to use the following primary techniques:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  Using conventional fuels with a low chlorine and fluorine content
               
            
                  b
               
               
                  Limiting the amount of chlorine and fluorine content for any waste that is to be used as fuel in a lime kiln
               
            
         Applicability
      
      The techniques are generally applicable in the lime industry but subject to local availability of suitable fuel.
      
         BAT-associated emission levels
      
      See Table 13.
      
         Table 13
      
      
         BAT-associated emission levels for HCl and HF emissions from the flue-gas of kiln firing processes, when using wastes
      
      
                  Emission
               
               
                  Unit
               
               
                  BAT-AEL
                  (daily average value or the average value over the sampling period (spot measurements, for at least half an hour))
               
            
                  HCl
               
               
                  mg/Nm3
                  
               
               
                  < 10
               
            
                  HF
               
               
                  mg/Nm3
                  
               
               
                  < 1
               
            1.3.8   PCDD/F emissions
      
      52.   In order to prevent or reduce the emissions of PCDD/F from the flue-gas of kiln firing processes, BAT is to use one or a combination of the following primary techniques:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  Selecting fuels with a low chlorine content
               
            
                  b
               
               
                  Limiting the copper input through the fuel
               
            
                  c
               
               
                  Minimising the residence time of the flue-gases and the oxygen content in zones where the temperatures range between 300 and 450 °C
               
            
         BAT-associated emission levels
      
      The BAT-AELs are < 0,05 – 0,1 ng PCDD/F I-TEQ/Nm3, as the average over the sampling period (6 – 8 hours).
      1.3.9   Metal emissions
      
      53.   In order to minimise the emissions of metals from the flue-gases of kiln firing processes, BAT is to use one or a combination of the following techniques:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  Selecting fuels with a low content of metals
               
            
                  b
               
               
                  Using a quality assurance system to guarantee the characteristics of the waste fuels used
               
            
                  c
               
               
                  Limiting the content of relevant metals in materials, especially mercury
               
            
                  d
               
               
                  Using one or a combination of dust removal techniques as set out in BAT 43
               
            
         BAT-associated emission levels
      
      See Table 14.
      
         Table 14
      
      
         BAT associated emission levels for metals from the flue-gases of kiln firing processes, when using wastes
      
      
                  Metals
               
               
                  Unit
               
               
                  BAT-AEL
                  (average over the sampling period (spot measurements for at least half an hour))
               
            
                  Hg
               
               
                  mg/Nm3
                  
               
               
                  < 0,05
               
            
                  Σ (Cd, Tl)
               
               
                  mg/Nm3
                  
               
               
                  < 0,05
               
            
                  Σ (As, Sb, Pb, Cr, Co, Cu, Mn, Ni, V)
               
               
                  mg/Nm3
                  
               
               
                  < 0,5
               
            
                  
                              NB:
                           
                           
                              Low levels were reported when applying techniques as mentioned in BAT 53 (a) – (d).
                           
                        
            Furthermore in this context, see also BAT 37 (Section 1.3.5.1.1) and BAT 38 (Section 1.3.5.1.2).
      1.3.10   Process losses/waste
      
      54.   In order to reduce the solid wastes from the lime manufacturing processes and to save raw materials, BAT is to use the following techniques:
      
                   
               
               
                  Technique
               
               
                  Applicability
               
            
                  a
               
               
                  Reuse the collected dust or other particulate matter (e.g. sand, gravel) in the process
               
               
                  Generally applicable whenever practicable
               
            
                  b
               
               
                  Utilise dust, off-specification quicklime and off-specification hydrated lime in selected commercial products
               
               
                  Generally utilised in different kinds of selected commercial products, whenever practicable
               
            1.4   BAT conclusions for the magnesium oxide industry
      
      Unless otherwise stated, the BAT conclusions presented in this section can be applied to all installations in the magnesium oxide industry (dry process route).
      1.4.1   Monitoring
      
      55.   BAT is to carry out monitoring and measurements of process parameters and emissions on a regular basis and to monitor emissions in accordance with the relevant EN standards or, if EN standards are not available, ISO, national or other international standards that ensure the provision of data of an equivalent scientific quality, including the following:
      
                   
               
               
                  Technique
               
               
                  Applicability
               
            
                  a
               
               
                  Continuous measurements of process parameters demonstrating the process stability, such as temperature, O2 content, pressure, flow rate
               
               
                  Generally applicable to kiln processes
               
            
                  b
               
               
                  Monitoring and stabilising critical process parameters, i.e. raw material and fuel feed, regular dosage and excess oxygen
               
            
                  c
               
               
                  Continuous or periodic measurements of dust, NOx, SOx and CO emissions
               
               
                  Generally applicable to kiln processes
               
            
                  d
               
               
                  Continuous or periodic measurements of dust emissions
               
               
                  Applicable to non-kiln processes.
                  For small source (< 10 000 Nm3/h) the frequency of the measurements or performance check should be based on a maintenance management system
               
            
         Description
      
      The selection between continuous or periodic measurements mentioned in BAT 55 (c) is based on the emission source and the type of pollutant expected.
      For periodic measurements for dust, NOx, SOx and CO emissions from kiln processes, a frequency of once a month and up to once a year and at the time of normal operating conditions is given as an indication.
      1.4.2   Energy consumption
      
      56.   In order to reduce thermal energy consumption, BAT is to use a combination of the following techniques:
      
                   
               
               
                  Technique
               
               
                  Description
               
               
                  Applicability
               
            
                  a
               
               
                  Applying improved and optimised kiln systems and a smooth and stable kiln process by applying:
                  
                              I.
                           
                           
                              process control optimisation
                           
                        
                              II.
                           
                           
                              heat recovery from flue-gases from kiln and coolers
                           
                        
               
                  Heat recovery from flue-gases by the preliminary heating of the magnesite can be used in order to reduce fuel energy use. Heat recovered from the kiln can be used for drying fuels, raw materials and some packaging materials
               
               
                  Process control optimisation is applicable to all kiln types used in the magnesia industry.
               
            
                  b
               
               
                  Using fuels with characteristics which have a positive influence on thermal energy consumption
               
               
                  The characteristics of fuels, e.g. high calorific value and low moisture content have a positive effect on the thermal energy consumption
               
               
                  Generally applicable subject to availability of the fuels, the type of kilns used, the desired product qualities and the technical possibilities of injecting the fuels into the kiln.
               
            
                  c
               
               
                  Limiting excess air
               
               
                  The excess oxygen level to obtain the required quality of the products and for optimal combustion is usually in practice about 1 – 3 %
               
               
                  Generally applicable
               
            
         BAT-associated consumption levels
      
      The BAT-associated thermal energy consumption is 6 – 12 GJ/t, depending on the process and the products (35).
      57.   In order to minimise electrical energy consumption, BAT is to use one or a combination of the following techniques:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  Using power management systems
               
            
                  b
               
               
                  Using grinding equipment and other electricity based equipment with high energy efficiency
               
            1.4.3   Dust emissions
      
      1.4.3.1   Diffuse dust emissions
      
      58.   In order to minimise/prevent diffuse dust emissions from dusty operations, BAT is to use one or a combination of the following techniques:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  Simple and linear site layout
               
            
                  b
               
               
                  Good housekeeping of buildings and roads, along with proper and complete maintenance of the installation
               
            
                  c
               
               
                  Watering of raw material piles
               
            
                  d
               
               
                  Enclosure/encapsulation of dusty operations, such as grinding and screening
               
            
                  e
               
               
                  Use of covered conveyors and elevators, which are constructed as closed systems, if dust emissions are likely to be released from dusty material
               
            
                  f
               
               
                  Use of storage silos with adequate capacities and equipping them with filters to deal with dust-bearing air displaced during filling operations
               
            
                  g
               
               
                  A circulation process is favoured for pneumatic conveying systems
               
            
                  h
               
               
                  Reduction of air leakage and spillage points
               
            
                  i
               
               
                  Use of automatic devices and control systems
               
            
                  k
               
               
                  Use of continuous trouble-free operations
               
            1.4.3.2   Channelled dust emissions from dusty operations other than kiln firing processes
      
      59.   In order to reduce channelled dust emissions from dusty operations other than those from kiln firing processes, BAT is to use flue-gas cleaning with a filter by applying one or a combination of the following techniques, and to use a maintenance management system which specifically addresses the performance of techniques:
      
                   
               
               
                  Technique (36)
                  
               
               
                  Applicability
               
            
                  a
               
               
                  Fabric filters
               
               
                  Generally applicable to all units in the magnesium oxide manufacturing process, especially for dusty operations, screening, grinding and milling
               
            
                  b
               
               
                  Centrifugal separators/ cyclones
               
               
                  Because of the system-dependent limited degree of separation, cyclones are mainly applicable as preliminary separators for coarse dust and flue-gases
               
            
                  c
               
               
                  Wet dust separators
               
               
                  Generally applicable
               
            
         BAT-associated emission levels
      
      The BAT-AEL for channelled dust emissions from dusty operations other than those from kiln firing processes is < 10 mg/Nm3, as daily average or average over the sampling period (spot measurements, for at least half an hour).
      It should be noted that for small sources (< 10 000 Nm3/h) a priority approach, based on a maintenance management system regarding the frequency for checking the performance of the filter has to be taken into account (see BAT 55).
      1.4.3.3   Dust emissions from the kiln firing process
      
      60.   In order to reduce dust emissions from the flue-gases of kiln firing processes, BAT is to use flue-gas cleaning with a filter by applying one or a combination of the following techniques:
      
                   
               
               
                  Technique (37)
                  
               
               
                  Applicability
               
            
                  a
               
               
                  Electrostatic precipitators (ESPs)
               
               
                  ESPs are mainly applicable in rotary kilns. They are applicable for flue-gas temperatures above the dew point and up to 370 – 400 °C
               
            
                  b
               
               
                  Fabric filters
               
               
                  Fabric filters for dust removal from flue-gases can, in principle, be applied for all units in the magnesium oxide manufacturing process. They can be used for flue-gas temperatures above the dew point and up to 280 °C.
                  For the production of caustic calcined magnesia (CCM) and sintered/dead burned magnesia (DBM), due to the high temperatures, the corrosive nature and the high volume of the flue-gases occurring from the kiln firing process, special fabric filters with high temperature-resistant filter material have to be used. However, experience from the magnesia industry producing DBM shows that no suitable equipment is available for flue-gas temperatures of approximately 400 °C for magnesia production
               
            
                  c
               
               
                  Centrifugal separators/ cyclones
               
               
                  Because of the system-dependent limited degree of separation, cyclones are mainly applicable as preliminary separators for coarse dust and flue-gases
               
            
                  d
               
               
                  Wet dust separators
               
               
                  Generally applicable
               
            
         BAT-associated emission levels
      
      The BAT-AEL for dust emissions from the flue-gases of kiln firing processes is < 20 – 35 mg/Nm3 as the daily average value or average over the sampling period (spot measurements, for at least half an hour).
      1.4.4   Gaseous compounds
      
      1.4.4.1   General primary techniques for reducing emissions of gaseous compounds
      
      61.   In order to reduce the emissions of gaseous compounds (i.e. NOx, HCl, SOx, CO) from flue-gases of kiln firing processes, BAT is to use one or a combination of the following primary techniques:
      
                   
               
               
                  Technique
               
               
                  Applicability
               
            
                  a
               
               
                  Careful selection and control of the substances entering the kiln in order to reduce the pollutant precursors, i.e.:
                  
                              I.
                           
                           
                              selecting fuels with low contents of sulphur, if available, chlorine and nitrogen
                           
                        
                              II.
                           
                           
                              selecting raw materials with low contents of organic matter
                           
                        
                              III.
                           
                           
                              selecting suitable waste fuels for the process and the burner
                           
                        
               
                  Generally applicable subject to availability of raw materials and fuels, the type of kiln used, the desired product qualities and the technical possibility of injecting the fuels into the selected kiln.
                  Waste materials can be considered as fuels in the magnesia industry but had not yet been applied in the magnesia industry in 2007
               
            
                  b
               
               
                  Using process optimisation measures/techniques to ensure a smooth and stable kiln process, operating close to the stoichiometric required air
               
               
                  Process control optimisation is applicable to all kiln types used in the magnesia industry. However, a highly sophisticated process control system may be necessary
               
            1.4.4.2   NOx emissions
      
      62.   In order to reduce the emissions of NOx from the flue-gases of kiln firing processes, BAT is to use a combination of the following techniques:
      
                   
               
               
                  Technique
               
               
                  Applicability
               
            
                  a
               
               
                  Appropriate fuel selection along with a limited nitrogen content in the fuel
               
               
                  Generally applicable subject to fuels availability
               
            
                  b
               
               
                  Process optimisation and improved firing technique
               
               
                  Generally applicable in the magnesia industry
               
            
         BAT-associated emission levels
      
      The BAT-AEL for the emissions of NOX from the flue-gases of kiln firing processes is < 500 – 1 500 mg/Nm3, as the daily average value or average over the sampling period (spot measurements for at least half an hour) stated as NO2. The higher values are related to the high temperature DBM process.
      1.4.4.3   CO emissions and CO trips
      
      1.4.4.3.1   CO emissions
      63.   In order to reduce the emissions of CO from the flue-gases of kiln firing processes, BAT is to use a combination of the following techniques:
      
                   
               
               
                  Technique
               
               
                  Description
               
            
                  a
               
               
                  Selecting raw materials with a low content of organic matter
               
               
                  A part of CO emissions results from the organic matter of raw materials thus selection of raw materials with low organic content can reduce CO emissions
               
            
                  b
               
               
                  Process control optimisation
               
               
                  A complete and correct combustion is essential to reduce CO emissions. Air supply from cooler and primary air as well as the draught of the stack fan can be controlled in order to keep an oxygen level of between 1 (sinter) and 1,5 % (caustic) during the combustion. A change of air and fuel charge can reduce CO emissions. Furthermore, CO emissions can be decreased by changing the depth of the burner
               
            
                  c
               
               
                  Feeding fuels controlled, constantly and continuously
               
               
                  Controlled fuel addition includes, e.g.:
                  
                              —
                           
                           
                              using weight feeders and precision rotary valves for petcoke feeding and/or
                           
                        
                              —
                           
                           
                              using flow meters and precision valves for heavy oil or gas feeding regulation to the kiln burner
                           
                        
            
         Applicability
      
      The techniques for the reduction of CO emissions are generally applicable to the magnesia industry. The selection of raw materials with a low content of organic matter is subject to raw materials availability.
      
         BAT-associated emission levels
      
      The BAT-AEL for the emissions of CO from the flue-gases of kiln firing processes is < 50 – 1 000 mg/Nm3, as the daily average value or average over the sampling period (spot measurements for at least half an hour).
      1.4.4.3.2   Reduction of CO trips
      64.   In order to minimise the number of CO trips when applying ESPs, BAT is to use the following techniques:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  Manage CO trips in order to reduce the ESP downtime
               
            
                  b
               
               
                  Continuous automatic CO measurements by means of monitoring equipment with a short response time and situated close to the CO source
               
            
         Description
      
      For safety reasons, due to the risk of explosions, ESPs will have to shut down during elevated CO levels in the flue-gases. The following techniques prevent CO trips and, therefore, reduce ESP shutdown times:
      
                  —
               
               
                  control of the combustion process
               
            
                  —
               
               
                  control of the organic load of raw materials
               
            
                  —
               
               
                  control of the quality of the fuels and fuel feeding system.
               
            Disruptions predominantly happen during the start-up operation phase. For safe operation, the gas analysers for ESP protection have to be online during all operational phases and the ESP downtime can be reduced by using a backup monitoring system maintained in operation.
      The continuous CO monitoring system needs to be optimised for reaction time and should be located close to the CO source, e.g. at a preheater tower outlet, or at a kiln inlet in the case of a wet kiln application.
      
         Applicability
      
      Generally applicable to kilns fitted with electrostatic precipitators (ESPs).
      1.4.4.4   SOx emissions
      
      65.   In order to reduce the emissions of SOx from the flue-gases of kiln firing processes, BAT is to use a combination of the following primary and secondary techniques:
      
                   
               
               
                  Technique
               
               
                  Applicability
               
            
                  a
               
               
                  Process optimisation techniques
               
               
                  Generally applicable
               
            
                  b
               
               
                  Selecting fuels with a low sulphur content
               
               
                  Generally applicable subject to availability of low sulphur fuels which may be impacted by the energy policy of the Member State. The selection of fuel also depends on the quality of the final product, technical possibilities and economic considerations
               
            
                  c
               
               
                  A dry absorbent addition technique (sorbent addition into the flue gas stream such as reactive MgO grades, hydrated lime, activated carbon, etc.), in combination with a filter (38)
                  
               
               
                  Generally applicable
               
            
                  d
               
               
                  Wet scrubber (38)
                  
               
               
                  The applicability may be limited in arid areas by the large volume of water necessary and the need for waste water treatment and the related cross-media effects
               
            
         BAT-associated emission levels
      
      See Table 15.
      
         Table 15
      
      
         BAT-associated emission levels for SOx from flue-gases of kiln firing processes in the magnesia industry
      
      
                  Parameter
               
               
                  Unit
               
               
                  BAT-AEL (39)
                      (40)
                  
                  (daily average value or average over the sampling period (spot measurements for at least half an hour))
               
            
                  SOX expressed as SO2
                  
               
               
                  mg/Nm3
                  
               
               
                  < 50 – 400 (41)
                  
               
            1.4.5   Process losses/waste
      
      66.   In order to reduce/minimise process losses/waste, BAT is to reuse various types of collected magnesium carbonate dusts in the process.
      
         Applicability
      
      Generally applicable, subject to dust chemical composition.
      67.   In order to reduce/minimise process losses/waste, BAT is to utilise the various types of collected magnesium carbonate dusts in other marketable products when these are not recyclable.
      
         Applicability
      
      The utilisation of magnesium carbonate dusts in other marketable products may not be within the control of the operator.
      68.   In order to reduce/minimise process losses/waste, BAT is to reuse sludge resulting from the wet process of the flue-gas desulphurisation in the process or in other sectors.
      
         Applicability
      
      The utilisation of sludge resulting from the wet process of the flue-gas desulphurisation in other sectors may not be within the control of the operator.
      1.4.6   Use of wastes as fuels and/or raw materials
      
      69.   In order to guarantee the characteristics of waste to be used as fuels and/or raw materials in magnesium oxide kilns, BAT is to use the following techniques:
      
                   
               
               
                  Technique
               
            
                  a
               
               
                  To select suitable wastes for the process and the burner
               
            
                  b
               
               
                  To apply quality assurance systems to guarantee and control the characteristics of wastes and to analyse any waste that is to be used for:
                  
                              I.
                           
                           
                              availability
                           
                        
                              II.
                           
                           
                              constant quality
                           
                        
                              III.
                           
                           
                              physical criteria, e.g. emissions formation, coarseness, reactivity, burnability, calorific value
                           
                        
                              IV.
                           
                           
                              chemical criteria, e.g. chlorine, sulphur, alkali and phosphate content and relevant metals (e.g. total chromium, lead, cadmium, mercury, thallium) content
                           
                        
            
                  c
               
               
                  To control the amount of relevant parameters for any waste that is to be used, such as total halogen content, metals (e.g. total chromium, lead, cadmium, mercury, thallium) and sulphur
               
            
         Applicability
      
      Wastes may be used as fuels and/or raw materials in the magnesia industry (although they had not yet been applied in the magnesia industry in 2007) subject to availability, the type of kiln used, the desired product qualities and the technical possibility of feeding the fuels into the kiln.
      DESCRIPTION OF TECHNIQUES
      1.5   Description of techniques for the cement industry
      
      1.5.1   Dust emissions
      
      
                   
               
               
                  Technique
               
               
                  Description
               
            
                  a
               
               
                  Electrostatic precipitators
               
               
                  Electrostatic precipitators (ESPs) generate an electrostatic field across the path of particulate matter in the air stream. The particles become negatively charged and migrate towards positively charged collection plates. The collection plates are rapped or vibrated periodically, dislodging the material so that it falls into collection hoppers below. It is important that ESP rapping cycles be optimised to minimise particulate re-entrainment and thereby minimise the potential to affect plume visibility.
                  ESPs are characterised by their ability to operate under conditions of high temperatures (up to approximately 400 °C) and high humidity. The major disadvantages of this technique are their decreased efficiency with an insulating layer and a build-up of material that may be generated with high chlorine and sulphur inputs. For the overall performance of ESPs, it is important to avoid CO trips
                  Even though there are no technical restrictions on the applicability of ESPs in the various processes in the cement industry, they are not often chosen for cement mill dedusting because of the investment costs and the efficiency (relatively high emissions) during start-ups and shutdowns
               
            
                  b
               
               
                  Fabric filters
               
               
                  Fabric filters are efficient dust collectors. The basic principle of fabric filtration is to use a fabric membrane which is permeable to gas but which will retain the dust. Basically, the filter medium is arranged geometrically. Initially, dust is deposited both on the surface fibres and within the depth of the fabric, but as the surface layer builds up, the dust itself becomes the dominating filter medium. Off-gas can flow either from the inside of the bag outwards or vice versa. As the dust cake thickens, the resistance to gas flow increases. Periodic cleaning of the filter medium is therefore necessary to control the gas pressure drop across the filter. The fabricfilter should have multiple compartments which can be individually isolated in case of bag failure and there should be sufficient of these to allow adequate performance to be maintained if a compartment is taken off line. There should be ‘burst bag detectors’ in each compartment to indicate the need for maintenance when this happens. Filter bags are available in a range of woven and non-woven fabrics. Modern synthetic fabrics can operate at quite high temperatures of up to 280 °C.
                  The performance of fabric filters is mainly influenced by different parameters, such as compatibility of the filter medium with the characteristics of the flue-gas and the dust, suitable properties for thermal, physical and chemical resistance, such as hydrolysis, acid, alkali, and oxidation and process temperature. Moisture and temperature of the flue-gases have to be taken into consideration during the selection of the technique.
               
            
                  c
               
               
                  Hybrid filters
               
               
                  Hybrid filters are the combination of ESPs and fabric filters in the same device. They generally result from the conversion of existing ESPs. They allow the partial reuse of the old equipment
               
            1.5.2   NOx emissions
      
      
                   
               
               
                  Technique
               
               
                  Description
               
            
                  a
               
               
                  Primary measures/techniques
               
            
                   
               
               
                  
                              I
                           
                           
                              Flame cooling
                           
                        
               
                  The addition of water to the fuel or directly to the flame by using different injection methods, such as injection of one fluid (liquid) or two fluids (liquid and compressed air or solids) or the use of liquid/solid wastes with a high water content reduces the temperature and increases the concentration of hydroxyl radicals. This can have a positive effect on NOx reduction in the burning zone
               
            
                  
                              II
                           
                           
                              Low NOx burners
                           
                        
               
                  Designs of low NOx burners (indirect firing) vary in detail but essentially the fuel and air are injected into the kiln through concentric tubes. The primary air proportion is reduced to some 6 – 10 % of that required for stoichiometric combustion (typically 10 – 15 % in traditional burners). Axial air is injected at high momentum in the outer channel. The coal may be blown through the centre pipe or the middle channel. A third channel is used for swirl air, its swirl being induced by vanes at, or behind, the outlet of the firing pipe. The net effect of this burner design is to produce very early ignition, especially of the volatile compounds in the fuel, in an oxygen-deficient atmosphere, and this will tend to reduce the formation of NOx.
                  The application of low NOx burners is not always followed by a reduction of NOx emissions. The set-up of the burner has to be optimised
               
            
                  
                              III
                           
                           
                              Mid kiln firing
                           
                        
               
                  In long wet and long dry kilns, the creation of a reducing zone by firing lump fuel can reduce NOx emissions. As long kilns usually have no access to a temperature zone of about 900 – 1 000 °C, mid-kiln firing systems can be installed in order to be able to use waste fuels that cannot pass the main burner (for example tyres).
                  The rate of the burning of fuels can be critical. If it is too slow, reducing conditions can occur in the burning zone, which may severely affect product quality. If it is too high, the kiln chain section can be overheated – resulting in the chains being burned out. A temperature range of less than 1 100 °C excludes the use of hazardous waste with a chlorine content of greater than 1 %
               
            
                  
                              IV
                           
                           
                              Addition of mineralisers to improve the burnability of the raw meal (mineralised clinker)
                           
                        
               
                  The addition of mineralisers, such as fluorine, to the raw material is a technique to adjust the clinker quality and allow the sintering zone temperature to be reduced. By reducing/lowering the burning temperature, NOx formation is also reduced
               
            
                  
                              V
                           
                           
                              Process optimisation
                           
                        
               
                  Optimisation of the process, such as smoothing and optimising the kiln operation and firing conditions, optimising the kiln operation control and/or homogenisation of the fuel feedings, can be applied for reducing NOx emissions. General primary optimisation measures/techniques, such as process control measures/techniques, an improved indirect firing technique, optimised cooler connections and fuel selection, and optimised oxygen levels have been applied
               
            
                  b
               
               
                  Staged combustion (conventional or waste fuels), also in combination with a precalciner and the use of optimised fuel mix
               
               
                  Staged combustion is applied at cement kilns with an especially designed precalciner. The first combustion stage takes place in the rotary kiln under optimum conditions for the clinker burning process. The second combustion stage is a burner at the kiln inlet, which produces a reducing atmosphere that decomposes a portion of the nitrogen oxides generated in the sintering zone. The high temperature in this zone is particularly favourable for the reaction which reconverts the NOx to elementary nitrogen. In the third combustion stage, the calcining fuel is fed into the calciner with an amount of tertiary air, producing a reducing atmosphere there, too. This system reduces the generation of NOx from the fuel, and also decreases the NOx coming out of the kiln. In the fourth and final combustion stage, the remaining tertiary air is fed into the system as ‘top air’ for residual combustion
               
            
                  c
               
               
                  SNCR
               
               
                  Selective non-catalytic reduction (SNCR) involves injecting ammonia water (up to 25 % NH3), ammonia precursor compounds or urea solution into the combustion gas to reduce NO to N2. The reaction has an optimum effect in a temperature window of about 830 to 1 050 °C, and sufficient retention time must be provided for the injected agents to react with NO
               
            
                  d
               
               
                  SCR
               
               
                  SCR reduces NO and NO2 to N2 with the help of NH3 and a catalyst at a temperature range of about 300 – 400 °C. This technique is widely used for NOx abatement in other industries (coal fired power stations, waste incinerators). In the cement industry, basically two systems are considered: low dust configuration between a dedusting unit and stack, and a high dust configuration between a preheater and a dedusting unit. Low dust flue-gas systems require the reheating of the flue-gases after dedusting, which may cause additional energy costs and pressure losses. High dust systems are considered preferable for technical and economical reasons. These systems do not require reheating, because the waste gas temperature at the outlet of the preheater system is usually in the right temperature range for SCR operation
               
            1.5.3   SOx emissions
      
      
                   
               
               
                  Technique
               
               
                  Description
               
            
                  a
               
               
                  Absorbent addition
               
               
                  Absorbent is either added to the raw materials (e.g. hydrated lime addition) or injected into the gas stream (e.g. hydrated or slaked lime (Ca(OH)2), quicklime (CaO), activated fly ash with a high CaO content or sodium bicarbonate (NaHCO3)).
                  Hydrated lime can be charged into the raw mill together with the raw material constituents or directly added to the kiln feed. The addition of hydrated lime offers the advantage that the calcium-bearing additive forms reaction products that can be directly incorporated into the clinker-burning process.
                  Absorbent injection into the gas stream can be applied in a dry or wet form (semi-dry scrubbing). The absorbent is injected into the flue-gas path at temperatures close to the water dew point, which results in more favourable conditions for SO2 capture. In cement kiln systems, this temperature range is usually reached in the area between the raw mill and the dust collector
               
            
                  b
               
               
                  Wet scrubber
               
               
                  The wet scrubber is the most commonly used technique for flue-gas desulphurisation in coal-fired power plants. For cement manufacturing processes, the wet process for reducing SO2 emissions is an established technique. Wet scrubbing is based on the following chemical reaction:
                  
                     
                  SOx are absorbed by a liquid/slurry which is sprayed in a spray tower. The absorbent is generally calcium carbonate. Wet scrubbing systems provide the highest removal efficiencies for soluble acid gases of all flue-gas desulphurisation (FGD) methods with the lowest excess stoichiometric factors and the lowest solid waste production rate. The technique requires certain amounts of water with a consequent need for waste water treatment
               
            1.6   Description of techniques for lime industry
      
      1.6.1   Dust emissions
      
      
                   
               
               
                  Technique
               
               
                  Description
               
            
                  a
               
               
                  ESP
               
               
                  A general description of ESPs is provided in Section 1.5.1.
                  ESPs are suitable for use at temperatures above the dew point and up to 400 °C. Furthermore, it is also possible to use ESPs close to, or below, the dew point. Because of high volume flows and relatively high dust loads, mainly rotary kilns without preheaters but also rotary kilns with preheaters are equipped with ESPs. In the case of combination with a quenching tower, excellent performance can be achieved
               
            
                  b
               
               
                  Fabric filter
               
               
                  A general description of fabric filters is provided in Section 1.5.1.
                  Fabric filters are well suited for kilns, milling and grinding plants for quicklime as well as for limestone; lime hydrating plants; material transport; and storage and loading facilities. Often a combination with cyclone prefilters is useful. The operation of fabric filters is limited by the flue-gas conditions such as temperature, moisture, dust load and chemical composition. There are various fabric materials available to resist mechanical, thermal and chemical wear to meet those conditions
               
            
                  c
               
               
                  Wet dust separator
               
               
                  With wet dust separators, dust is eliminated from off-gas streams by bringing the gas flow into close contact with a scrubbing liquid (usually water), so that the dust particles are retained in the liquid and can be rinsed away. There are a number of different types of wet scrubbers available for dust removal. The main types that have been used in lime kilns are multi-cascade/multistage wet scrubbers, dynamic wet scrubbers and venturi wet scrubbers. The majority of wet scrubbers used on lime kilns are multi-cascade/multistage wet scrubbers.
                  Wet scrubbers are chosen when the flue-gas temperatures are close to, or below the dew point. They may also be chosen when space is limited. Wet scrubbers are sometimes used with higher temperature gases, in which case, the water cools the gases and reduces their volume
               
            
                  d
               
               
                  Centrifugal Separator/cyclone
               
               
                  In a centrifugal separator/cyclone, the dust particles to be eliminated from an off-gas stream are forced out against the outer wall of the unit by centrifugal action and then eliminated through an aperture at the bottom of the unit. Centrifugal forces can be developed by directing the gas flow in a downward spiral motion through a cylindrical vessel (cyclonic separators) or by a rotating impeller fitted in the unit (mechanical centrifugal separators). However, they are only suitable as pre-separators because of their limited particle removal efficiency and they relieve ESPs and fabric filters from high dust loading, and reduce abrasion problems
               
            1.6.2   NOx emissions
      
      
                   
               
               
                  Technique
               
               
                  Description
               
            
                  a
               
               
                  Burner design (low NOx burner)
               
               
                  The low NOx burners are useful for reducing the flame temperature and thus reducing thermal and (to some extent) fuel derived NOx. The NOx reduction is achieved by supplying rinsing air for lowering the flame temperature or pulsed operation of the burners. Low NOx burners are designed to reduce the primary air portion which leads to lower NOx formation whereas common multi-channel burners are operated with a primary air portion of 10 to 18 % of the total combustion air. The higher portion of the primary air leads to a short and intensive flame by the early mixing of hot secondary air and fuel. This results in high flame temperatures along with a creation of a high amount of NOx formation which can be avoided by using low NOx burners
               
            
                  b
               
               
                  Air staging
               
               
                  A reducing zone is created by reducing the oxygen supply in the primary reaction zones. High temperatures in this zone are particularly favourable for the reaction which reconverts the NOx to elementary nitrogen. At later combustion zones, the air and oxygen supply is increased to oxidise the gases formed. Effective air/gas mixing in the firing zone is required to ensure that CO and NOx are both maintained at low levels.
                  In 2007, air staging had never been applied in the lime sector
               
            
                  c
               
               
                  SNCR
               
               
                  Nitrogen oxides (NO and NO2) from the flue-gases are removed by selective non-catalytic reduction and converted into nitrogen and water by injecting a reducing agent into the kiln which reacts with the nitrogen oxides. Ammonia or urea is typically used as the reducing agent. The reactions occur at temperatures of between 850 and 1 020 °C, with the optimal range typically between 900 to 920 °C
               
            1.6.3   SOx emissions
      
      
                   
               
               
                  Technique
               
               
                  Description
               
            
                  a
               
               
                  Absorbent addition techniques
               
               
                  The technique involves the addition of an absorbent in dry form directly into the kiln (fed or injected) or in dry or wet form (e.g. hydrated lime or sodium bicarbonate) into the flue-gases in order to remove SOx emissions. When absorbent is injected into the flue-gases, a sufficient residence time between the injection point and the dust collector (fabric filter or ESP) must be provided in order to obtain an efficient absorption.
                  For rotary kilns, absorption techniques may include:
                  
                              —
                           
                           
                              Use of fine limestone: At a straight rotary kiln fed with dolomite, significant reductions in SO2 emissions can occur with feedstones which either contain high levels of finely divided limestone or are prone to break up on heating. The finely divided limestone calcines are entrained in the kiln gases and remove SO2 en route to, and in, the dust collector.
                           
                        
                              —
                           
                           
                              Lime injection into the combustion air: A patented technique (EP 0 734 755 A1) which removes SO2 emissions from rotary kilns by injecting finely divided quick or hydrated lime into the air fed into the firing hood of the kiln
                           
                        
            1.7   Description of techniques for the magnesia industry (dry process route)
      
      1.7.1   Dust emissions
      
      
                   
               
               
                  Measure/Technique
               
               
                  Description
               
            
                  a
               
               
                  Electrostatic precipitators (ESPs)
               
               
                  A general description of ESPs is provided in Section 1.5.1
               
            
                  b
               
               
                  Fabric filters
               
               
                  A general description of fabric filters is provided in Section 1.5.1
                  Fabric filters receive high particle retention, typically over 98 % and up to 99 % depending on the particle size. This technique offers the best efficiency on particle collection in comparison to other dust abatement measures/techniques used in the magnesia industry. However, because of the high temperatures of the kiln flue-gases, special filter materials which can tolerate high temperatures have to be used.
                  In DBM manufacturing, filter materials operating with temperatures of up to 250 °C are used, such as PTFE (Teflon) filter material. This filter material shows good resistance to acids or alkalis and a lot of corrosion problems have been solved
               
            
                  c
               
               
                  Cyclones (centrifugal separator)
               
               
                  A general description of cyclones is provided in Section 1.6.1. They are robust equipment and they have a wide operational temperature range with a low energy requirement. Because of the system-dependent limited degree of separation, cyclones are mainly used as preliminary separators for coarse dust and flue-gases
               
            
                  d
               
               
                  Wet dust separators
               
               
                  General description of wet dust separators (also called wet scrubbers) is provided in Section 1.6.1
                  Wet dust separators can be divided into various types according to their design and working principles, such as the venturi type. This type of wet dust separator has a number of applications in the magnesia industry, including when gas is directed through the narrowest section of the venturi tube, the ‘venturi neck’, and gas velocities of between 60 and 120 m/s can be achieved. The washing fluids which are fed into the venturi tube neck are diffused into a mist of very fine droplets and are intensively mixed with the gas. The particles separated onto the water droplets become heavier and can be readily drawn off using a drop separator installed in this venturi wet dust separator
               
            1.7.2   SOx emissions
      
      
                   
               
               
                  Technique
               
               
                  Description
               
            
                  a
               
               
                  Absorbent addition technique
               
               
                  The technique involves the injection of an absorbent in dry or wet form (semi-dry scrubbing) into the flue-gases in order to remove SOx emissions. A sufficient gas residence time between the injection point and the dust collector is very important to obtain highly efficient absorption. Reactive MgO grades can be used as efficient absorbents for SO2 in the magnesia industry. Despite the lower efficiency compared to other absorbents, the use or reactive MgO grades has a double advantage as it lowers the investment costs and also the filter dust is not contaminated by other substances and can be reused in place of raw materials for the production of magnesia or employed as a fertiliser (magnesium sulphate) minimising waste generation
               
            
                  b
               
               
                  Wet scrubber
               
               
                  In the wet scrubbing technique, SOx are absorbed by a liquid/slurry which is sprayed countercurrently to the flue-gases in a spray tower. The technique requires an amount of water between 5 and 12 m3/tonne product, with a consequent need for a waste water treatment
               
            
         (1)  OJ L 315, 14.11.2012, p. 1.
      
         (2)  For sintered dolime produced by the ‧double-pass process‧, the correction for oxygen does not apply.
      
         (3)  For dead burned magnesia (DBM) produced by the ‧double-pass process‧, the correction for oxygen does not apply.
      
         (4)  Levels do not apply to plants producing special cement or white cement clinker that require significantly higher process temperatures due to product specifications.
      
         (5)  Under normal (excluding, e.g. start-ups and shutdowns) and optimised operational conditions.
      
         (6)  The production capacity has an influence on the energy demand, with higher capacities providing energy savings and smaller capacities requiring more energy. Energy consumption also depends on the number of cyclone preheater stages, with more cyclone preheater stages leading to lower energy consumption of the kiln process. The appropriate number of cyclone preheater stages is mainly determined by the moisture content of raw materials.
      
         (7)  A description of the techniques is given in Section 1.5.1.
      
         (8)  A description of the techniques is given in Section 1.5.1
      
         (9)  A description of the techniques is provided in Section 1.5.2.
      
         (10)  The upper level of the BAT-AEL range is 500 mg/Nm3, if the initial NOx level after primary techniques is > 1 000 mg/Nm3.
      
         (11)  Existing kiln system design, fuel mix properties including waste and raw material burnability (e.g. special cement or white cement clinker) can influence the ability to be within the range. Levels below 350 mg/Nm3 are achieved at kilns with favourable conditions when using SNCR. In 2008, the lower value of 200 mg/Nm3 has been reported as a monthly average for three plants (easy burning mix used) using SNCR.
      
         (12)  Depending on initial levels and NH3 slip.
      
         (13)  The ammonia slip depends on the initial NOx level and on the NOx abatement efficiency. For Lepol and long rotary kilns, the level may be even higher.
      
         (14)  A description of the techniques is provided in Section 1.5.3
      
         (15)  The range takes into account the sulphur content in the raw materials.
      
         (16)  For white cement and special cement clinker production, the ability of clinker to retain fuel sulphur might be significantly lower leading to higher SOX emissions.
      
         (17)  Low levels have been reported based on the quality of the raw materials and the fuels.
      
         (18)  Low levels have been reported based on the quality of the raw materials and the fuels. Values higher than 0,03 mg/Nm3 have to be further investigated. Values close to 0,05 mg/Nm3 require consideration of additional techniques (e.g. lowering of the flue-gas temperature, activated carbon).
      
         (19)  Energy consumption depends on the type of product, the product quality, the process conditions and the raw materials
      
         (20)  A description of the techniques is provided in Section 1.6.1.
      
         (21)  If necessary, centrifugal separators/cyclones can be used as pretreatment of the flue-gases.
      
         (22)  A description of the techniques is provided in Section 1.6.1.
      
         (23)  In exceptional cases where the resistivity of dust is high, the BAT-AEL could be higher, up to 30 mg/Nm3, as the daily average value.
      
         (24)  A description of the techniques is provided in Section 1.6.2
      
         (25)  The higher ends of the ranges are related to the production of dolime and hard burned lime. Higher levels than the upper end of the range may be associated with the production of sintered dolime.
      
         (26)  For LRK and PRK with shaft producing hard burned lime, the upper level is up to 800 mg/Nm3
      
      
         (27)  Where primary techniques as indicated in BAT 45 (a)I are not sufficient to reach this level and where secondary techniques are not applicable to reduce the NOx emissions to 350 mg/Nm3, the upper level is 500 mg/Nm3, especially for hard burned lime and for the use of biomass as fuel.
      
         (28)  A description of the techniques is provided in Section 1.6.3
      
         (29)  The level depends on the initial SOx level in the flue-gas and on the reduction technique used.
      
         (30)  For the production of sintered dolime using the ‘double- pass process’, SOx emissions might be higher than the upper end of the range.
      
         (31)  Emissions can be higher depending on raw materials used and/or type of lime produced, e.g. hydraulic lime.
      
         (32)  BAT-AEL does not apply to MFSK and ASK.
      
         (33)  Level can be higher depending on the content of organic matter of raw materials used and/or the type of lime produced, in particular for the production of natural hydraulic lime.
      
         (34)  In exceptional cases, the level can be higher.
      
         (35)  This range only reflects information provided for the magnesium oxide chapter of the BREF. More specific information about best performing techniques along with the products produced was not provided.
      
         (36)  A description of the techniques is provided in Section 1.7.1
      
         (37)  A description of the techniques is provided in Section 1.7.1.
      
         (38)  A description of the measure/technique is provided in Section 1.7.2
      
         (39)  The BAT-AELs depend on the content of sulphur in the raw materials and fuels. The lower end of the range is associated with the use of raw materials with low sulphur content and the use of natural gas; the upper end of the range is associated with the use of raw materials with higher sulphur content and/or the use of sulphur-containing fuels.
      
         (40)  Cross-media effects should be taken into account to assess the best combination of BAT to reduce SOx emissions.
      
         (41)  When a wet scrubber is not applicable, BAT-AELs depend on the sulphur content of raw materials and fuels. In this case, the BAT-AEL is < 1 500 mg/Nm3 while ensuring a SOX emissions removal efficiency of at least 60 %.