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Matched Legal Cases: ['art 10', 'art 10', 'art 10', 'art 10', 'art 10', 'art 10', 'art 10', 'art 10', 'art 10', 'art 10', 'art 10', 'art 10', 'art 10', 'art 10', 'art 10', 'art 10', 'art 10', 'art 10', 'art 10']

Horizon Work Programme 'Secure, Clean and Efficient Energy' - PDF
Horizon Work Programme 'Secure, Clean and Efficient Energy'
Download "Horizon 2020. Work Programme 2016-2017. 10. 'Secure, Clean and Efficient Energy'"
Eustace Farmer
2 Table of contents Introduction... 8 Call - Energy Efficiency Call Introduction Heating and cooling EE : Waste heat recovery from urban facilities and re-use to increase energy efficiency of district or individual heating and cooling systems EE : Improving the performance of inefficient district heating networks EE : Standardised installation packages integrating renewable and energy efficiency solutions for heating, cooling and/or hot water preparation EE : New heating and cooling solutions using low grade sources of thermal energy EE : Models and tools for heating and cooling mapping and planning Engaging consumers towards sustainable energy EE : Engaging private consumers towards sustainable energy EE : Behavioural change toward energy efficiency through ICT EE : Socio-economic research on consumer's behaviour related to energy efficiency EE : Engaging and activating public authorities Buildings EE : Supporting accelerated and cost-effective deep renovation of buildings through Public Private Partnership (EeB PPP) EE : Overcoming market barriers and promoting deep renovation of buildings EE : Integration of Demand Response in Energy Management Systems while ensuring interoperability through Public Private Partnership (EeB PPP) EE : Cost reduction of new Nearly Zero-Energy buildings EE : Construction skills Industry, services and products EE : Increasing capacities for actual implementation of energy efficiency measures in industry and services EE : Effective implementation of EU product efficiency legislation EE : Valorisation of waste heat in industrial systems (SPIRE PPP) EE : Energy efficiency of industrial parks through energy cooperation and mutualised energy services EE : Public Procurement of Innovative Solutions for energy efficiency Part 10 - Page 2 of 184
3 EE : Bringing to market more energy efficient and integrated data centres EE : ERA-NET Cofund actions supporting Joint Actions towards increasing energy efficiency in industry and services Innovative financing for energy efficiency investments EE : Project Development Assistance EE : Innovative financing schemes EE : Making the energy efficiency market investible EE : Development and roll-out of innovative energy efficiency services Conditions for the Call - Energy Efficiency Call Call - COMPETITIVE LOW-CARBON ENERGY Towards an integrated EU energy system LCE : Next generation innovative technologies enabling smart grids, storage and energy system integration with increasing share of renewables: distribution network. 63 LCE : Demonstration of smart grid, storage and system integration technologies with increasing share of renewables: distribution system LCE : Support to R&I strategy for smart grid and storage LCE : Demonstration of smart transmission grid, storage and system integration technologies with increasing share of renewables LCE : Tools and technologies for coordination and integration of the European energy system Renewable energy technologies Developing the next generation of renewable energy technologies LCE : New knowledge and technologies LCE : Developing the next generation technologies of renewable electricity and heating/cooling LCE : Development of next generation biofuel technologies Demonstrating innovative renewable energy technologies LCE : Increasing the competitiveness of the EU PV manufacturing industry LCE : Reducing the cost of PV electricity LCE : Near-to-market solutions for reducing the water consumption of CSP Plants LCE : Near-to-market solutions for the use of solar heat in industrial processes.. 88 LCE : Solutions for reduced maintenance, increased reliability and extended lifetime of off-shore wind turbines/farms LCE : Demonstration of large >10MW wind turbine LCE : Scaling up in the ocean energy sector to arrays Part 10 - Page 3 of 184
4 LCE : 2nd Generation of design tools for ocean energy devices and arrays development and deployment LCE : Easier to install and more efficient geothermal systems for retrofitting buildings LCE : EGS in different geological conditions LCE : Demonstration of the most promising advanced biofuel pathways LCE : Enabling pre-commercial production of advanced aviation biofuel.. 96 Supporting the market uptake of renewable energy technologies LCE : Market uptake of renewable energy technologies Fostering international cooperation in the area of renewable energy LCE : International Cooperation with Brazil on advanced lignocellulosic biofuels LCE : International Cooperation with Mexico on geothermal energy Enabling the decarbonisation of the use of fossil fuels during the transition to a lowcarbon economy LCE : International Cooperation with South Korea on new generation highefficiency capture processes LCE : Utilisation of captured CO2 as feedstock for the process industry LCE : Cross-thematic ERA-NET on Applied Geosciences LCE : Measuring, monitoring and controlling the risks of CCS, EGS and unconventional hydrocarbons in the subsurface LCE : Highly flexible and efficient fossil fuel power plants LCE : CCS in industry, including Bio-CCS LCE : Geological storage pilots Social, economic and human aspects of the energy system LCE : Social Sciences and Humanities Support for the Energy Union LCE : European Platform for energy-related Social Sciences and Humanities research Supporting the development of a European research area in the field of energy LCE : European Common Research and Innovation Agendas (ECRIAs) in support of the implementation of the SET Action Plan LCE : Joint Actions towards the demonstration and validation of innovative energy solutions LCE : Framework Partnership Agreement supporting Joint Actions towards the demonstration and validation of innovative energy solutions Cross-cutting issues LCE : Support to the energy stakeholders to contribute to the SET-Plan Conditions for the Call - COMPETITIVE LOW-CARBON ENERGY Part 10 - Page 4 of 184
5 SME instrument Fast-track-to-Innovation pilot Other actions Horizon prize for CO2 reuse Horizon prize for a Combined Heat and Power (CHP) Installation in a hospital using 100% Renewable Energy Sources Horizon prize for Integrated Photovoltaic System in European Protected Historic Urban districts Assessment of costs and benefits and of macro-economic impacts of energy efficiency policies Assistance with the verification of compliance of national legislative measures implementing Directive 2012/27/EU on energy efficiency Improvement of CHP data collection Analysis of calculation method of Member States for their indicative national energy efficiency target (Article 3 of the Energy Efficiency Directive) Online platform Research on the need for training and retraining of energy system professionals Monitoring the impact of the information and dissemination activities on available energy efficiency mechanisms and financial and legal framework carried out by the Member States Study on the impact of energy audits requirement on large industry Support to the initiative on sustainable energy in the defence and security sector Study analysing the cost-effective share of efficient district heating and cooling in the EU Study on utility models Study on heat market design including coordination, pricing and trading mechanisms, business models, as well as consumer protection, engagement and participation models and conditions Continuation of the Building Stock Observatory and production of relevant bottom-up statistical data on buildings Support for the implementation of the EU voluntary certification scheme for nonresidential buildings and related follow-up to standardisation work on EPBD and related communication and dissemination Provision of technical assistance, studies and/or IT tools to collect and analyse relevant data and to properly assess complex technical, environmental, economic, legal and social aspects of different product groups Technical support on standardisation work for energy related products including technical support to the Commission, and technical support to stakeholders on standardisation work for energy related products Part 10 - Page 5 of 184
6 20. Support for the development and implementation of the EU Energy Star Programme including maintenance of the website, development of new technical specifications, impact analysis and market penetration survey Communication efforts in support of the implementation of the legislative framework for energy efficiency Studies on energy efficiency investments financing framework underpinning the work on the EPBD review under the "Smart finance for smart buildings initiative" EASME external communication activities (publications, audiovisual, events) Support initiative to assist actors working on sustainable energy at the local and regional level while taking into account existing initiatives and platforms Concerted Action EED: support to Member States and participating countries for the implementation of the Energy Efficiency Directive Administrative arrangement with the JRC, to implement the relevant provisions of Energy Efficiency related Directives or Regulations, including Directive 2012/27/EU and the EPBD ELENA (European Local Energy Assistance) InnovFin Energy Demonstration Projects (EDP) Pilot Facility Coordination of renewable fuel stakeholder's strategy in the field of aviation Support for alternative and renewable liquid and gaseous fuels forum (policy and market issues) A joint mapping platform for bioenergy issues Carbon Capture and Sequestration (CCS) knowledge sharing and European CCS Demonstration Project Network Monitoring and assessment of the performance indicators of renewable energy, investment and RES market trends in Europe Renewable energy progress report Technical support for evaluation of Member State strategic energy plans for post 2020 for the deployment of renewable energy, and their adequacy for achieving the binding EU renewable target for Technical support for a comprehensive assessment of practical implementation of administrative procedures for RES projects in Member States and recommendations for common guidelines for permit procedures and coordination requirements Leading the debate on the EU ambition to become world leader in renewable energy with a post-2020 vision Support activities for further development and implementation of the sustainability scheme for biofuels Technical support activities to assess the competitiveness of the European renewable energy industry Information and communication activities Energy System Modelling Studies on the EU energy system in support of policy Support to Research and Innovation Policy in the areas of Renewable Energy, Carbon Capture and Storage and More Efficient Coal Combustion Part 10 - Page 6 of 184
7 44. Support services for exploitation of research results Study on a comprehensive EU approach as regards international cooperation in the energy area the R&I perspective Grant to named beneficiary to support the operations of the European Energy Research Alliance (EERA) Contribution to Implementing Agreements (IA) of the International Energy Agency (IEA) Contribution to the International Renewable Energy Agency (IRENA) Contribution to the Global CCS Institute Support to the European Innovation Partnership on Smart Cities and Communities and its Market Place Smart Cities and Communities information system Support Services for the Covenant of Mayors Administrative arrangement with the JRC on the identification of the technologies and innovative solutions that support to the cost-effective implementation of EU energy policy priorities within the ESIF Support to the Slovak Presidency Conference on the European Strategic Technology Plan (Set-Plan) Support to the UK Presidency Conference on the European Strategic Technology Plan (Set-Plan) An Economic Evaluation for SET-Plan Mapping technology priorities of SET-Plan to incentives for the investment community Community-Building of the investment community for innovative energy technology projects Communication and information activities External expertise Experts for policy relevant analyses and forward looking reflection Specific Grant Agreements (SGAs) for ERA-NET Cofund actions supporting Joint Actions towards the demonstration and validation of innovative energy solutions Support to European Standardisation Organisations on standardisation work for energy related products. specific grant agreement under FW grant agreement with CEN CENELEC Standardisation request to the CEN (European Committee for Standardisation) for algae and algae-based products in support of the implementation of the RED Directive 2009/28/EC Budget Part 10 - Page 7 of 184
8 Introduction The European Energy Union, as set out in the recent framework strategy 1, calls for increased energy security, solidarity and trust, a fully integrated European energy market, improved energy efficiency contributing to the moderation of demand, a decarbonisation of the economy as well as increased efforts as regards research, innovation and competitiveness. With more than EUR 1 billion dedicated to supporting energy-related research and innovation activities in , this Work Programme is as a key instrument to progress towards an European Energy Union which provides EU consumers households and businesses with secure, sustainable, competitive and affordable energy. Achieving this goal will require a fundamental transformation of Europe's energy system Important milestones for this transformation are the EU's energy and climate targets for 2030 which also underpin Europe's leading role in the fight against climate change: at least 40% domestic reduction in greenhouse gas emissions compared to 1990, at least 27% for the share of renewable energy consumed in the EU, at least 27% improvement of energy efficiency and an electricity interconnection target of 10% 2. Responding to the challenges highlighted in the Energy Union framework strategy and building on the priorities identified in the Set-Plan Integrated Roadmap 3, this work programme part will put particular emphasis on enabling the participation of consumers in the energy transition, and improving the efficiency of the energy system, especially as regards the building stock and developing the next generation of renewable energy technologies and their integration in the energy system (including energy storage). To increase the leverage of EU activities, this work programme part strengthens cooperation with national funding programmes based on discussions between Member States/Associated Countries and the European Commission on the updating of the SET-Plan and provides support for first-of-akind, commercial-scale industrial demonstration projects. More specifically, activities included in this work programme part contribute to the two focus areas "Energy Efficiency" and "Competitive Low-Carbon Energy". The "Smart Cities and Communities" under the "Smart and Sustainable Cities" focus area is included in the crosscutting part of the work programme (Annex 20). Activities cover the full innovation cycle from 'proof of concept' to applied research, pre-commercial demonstration and market uptake measures. This work programme part also includes a range of activities aiming at facilitating the market uptake of energy technologies and services, fostering social innovation, removing non-technological barriers, promoting standards and accelerating the cost effective implementation of the Union's energy policies See 'Framework Strategy for a Resilient Energy Union with a Forward-Looking Climate Change Policy', COM (2015)80 final EUCO 169/14 See Part 10 - Page 8 of 184
9 The transformation of the energy system encompasses technological, societal, cultural, economic and environmental aspects and calls for a more important role for citizens and communities. New approaches will therefore have to be stimulated as regards business models, competitive services, and an increasingly smart and dynamic system utilizing, wherever possible, a multi-disciplinary approach, integrating different social sciences and humanities fields. This systemic approach is in line with the Horizon 2020 Responsible Research and Innovation 4 (RRI) cross-cutting issue, engaging society, integrating the gender and ethical dimensions, ensuring the access to research outcomes and encouraging formal and informal science education. Efforts to secure Europe's technological leadership must be complemented by production capabilities and technology supply chains across Europe. Industrial participation in the programme is therefore crucial. Given the central role of SMEs as a source of innovation, growth and jobs, this work programme features a number of topics particularly tailored to the needs of SMEs, including one topic for the SME instrument. Energy being a cross-cutting issue, the Horizon 2020 Energy Societal Challenge exploits synergies with other relevant areas, e.g. information and communication technologies and material-related research. In addition, the Energy Challenge contributes to the 'Blue Growth' focus area as well as to the Public Private Partnerships on Energy-efficient Buildings and Sustainable Process Industries (SPIRE). Whilst projects are expected to contribute to a more sustainable energy system, technology development is encouraged to comply with the Circular economy principles 5. International cooperation with strategic partner countries and global technology leaders will support European energy and climate objectives and contribute to the global efforts to mitigate climate change and reduce CO2 emissions. In line with the EU's strategy for international cooperation in research and innovation 6, all activities are open for third country participants 7 ; in addition, certain partner countries are also specifically targeted in a number of topics 8. This work programme also encourages synergies between Horizon 2020 and other European Union funds, such as European Structural and Investment Funds (ESIF) that can increase the impact of both funds in terms of scientific excellence and place-based socio-economic development respectively 9. The European Regional Development Fund (ERDF) will invest COM(2014) 398 COM(2012) 497 Note that participants from industrialized and emerging countries outside of the EU are not automatically eligible for EU funding. For detailed rules concerning participation from third countries see Article 10 of the Rules for the Participation. Topics specifically targeting third countries: LCE-22,-2016, LCE , LCE , LCE , LCE , LCE Examples are the development and equipment of innovation infrastructures or the fostering of innovation skills through ESIF that enable the participation in a Horizon2020 project, or the transfer of knowledge and Part 10 - Page 9 of 184
10 about EUR 100 billion (estimated) in R&I in the period and EUR 38 billion (estimated) in low carbon economy that will fund among others the take-up of energy efficiency and renewable solutions 10. Applicants could be interested in investigating additional, complementary or follow-up funding for their projects in their region/country. To achieve this, applicants could seek contact with the ESIF managing authorities 11 and the authorities who developed the Research and Innovation Smart Specialisation Strategy for their EU Member State or region 12. All activities should demonstrate a good understanding and handling of ethical aspects and promote the highest ethical standards in the field. The most common issues to be considered include personal data protection and privacy, protection of participants and researchers and ensuring informed consent, involvement of vulnerable population, the potential misuse of the research results, fair benefit sharing when developing countries are involved and the protection of the environment. A novelty in Horizon 2020 is the Pilot on Open Research Data which aims to improve and maximise access to and re-use of research data generated by projects. Projects funded under 'Smart Cities and Communities' (in the cross-cutting part of the Work Programme (Annex 20)) will by default participate in the Pilot on Open Research Data in Horizon Projects funded under the other calls of this Work Programme may participate in the Open Research Data Pilot in Horizon 2020 on a voluntary basis 13. Activities specifically targeting Fuel Cells and Hydrogen are not supported in the calls 'Energy Efficiency', 'Competitive Low-Carbon Energy' and 'Smart Cities and Communities', but through calls for proposals of the Fuel Cells and Hydrogen JU technologies resulting from Horizon2020 projects to firms that can, thanks to ESIF support, develop it further, test, prototype, etc. towards innovations fit for market take-up. ESIF can also be used to expand the support and advisory services for potential Horizon2020 participants. ESIF can also help deploying innovative solutions emanating from Horizon2020, e.g. through public procurement. See See See Projects have the possibility to opt out of the Pilot under certain conditions. Participation in the Pilot is not taken into account during the evaluation procedure. In other words, proposals will not be evaluated favourably because they are part of the Pilot and will not be penalised for opting out of the Pilot. A further new element in Horizon 2020 is the use of Data Management Plans (DMPs) detailing what data the project will generate, whether and how it will be exploited or made accessible for verification and re-use, and how it will be curated and preserved. The use of a DMP is required for projects participating in the Open Research Data Pilot. Other projects are invited to submit a DMP if relevant for their planned research. Only funded projects are required to submit a DMP. Further guidance on the Pilot on Open Research Data and Data Management is available on the Participant Portal. Part 10 - Page 10 of 184
11 Call - Energy Efficiency Call H2020-EE INTRODUCTION Moderating energy demand can be considered as 'the foundation of the energy transition' 15. A high level of energy efficiency is beneficial for security of supply, sustainability, affordability for households and industry and competitiveness of the EU economy. It is one of the key objectives of EU energy and climate policy, as set out in the recent Energy Union Communication 16, the 2014 European Energy Security Strategy 17 and Energy Efficiency Communication 18. Achievement of the EU's energy efficiency objectives for 2030, as endorsed by the European Council in October 2014, will require a strong boost in Research and Innovation (R&I) investments to remove current technological and market uptake obstacles. In order to achieve this, an update of the EU's energy research and innovation policy, the Strategic Energy Technology (SET) Plan, has been launched with the aim of strengthening it and making it more effective in meeting its objectives. As a first step, a large number of stakeholders representing the entire energy system have been working together to identify the new R&I challenges and needs. This consultation exercise has resulted in a document titled "Towards an Integrated Roadmap" which identifies four key challenges for the entire energy system, among which are the need to increase energy efficiency in buildings, heating and cooling, industry and services, and the need to activate consumers at the centre of the energy system. At the same time, the comprehensive regulatory framework that is currently in place to guarantee further progress in energy efficiency needs to support R&I actions. This would enable faster market penetration of innovative energy saving technology solutions and services, as well as removing persistent (and mostly non-technological) market and nonmarket barriers to improving energy efficiency. Building on the priorities of the consultation under the SET-Plan's "Towards an Integrated Roadmap", the Energy Efficiency area of this Work Programme has been designed for 2016/2017 with a stronger focus on consumer-related issues under the sub-area 'Engaging consumers towards energy efficiency'. In addition, a strong consumer-oriented approach characterises many of the topics in the sub areas of 'Heating and cooling', 'Buildings', 'Industry, products and services', and 'Innovative financing for energy efficiency' Strategic Energy Technology (SET) Plan, Towards an Integrated Roadmap: Research & Innovation Challenges and Needs of the EU Energy System, 2014, p.8. COM(2015) 80 final COM(2014) 330 final COM(2014) 520 final Part 10 - Page 11 of 184
12 The sub-area Engaging consumers towards energy efficiency aims at changing consumer behaviour with respect to the uptake of sustainable energy solutions. In the future private consumers should be more aware and active, as well as playing a more prominent role by producing energy for their own consumption, where this is possible. Engagement actions are therefore needed to address non technological barriers and to achieve behavioural change towards more sustainable choices and decisions for energy. On the other hand, research is needed to better understand consumer s decision making and to quantify the positive impacts of energy efficiency, in order to improve the design of future energy policies and to better reflect the behaviour of consumers in energy models. It is also necessary to demonstrate that ICT-based solutions can contribute to saving energy by supporting behavioural change in energy end-users. Finally, as stated in the Energy Efficiency Directive 19, public bodies at all levels should play an exemplary role as regards energy efficiency; actions are therefore sought to engage and increase the capacity of public authorities to develop and implement ambitious sustainable energy policies and plans. Particular attention is given to the Buildings sub-area (representing 40% of final energy consumption), which offers the highest potential for efficiency improvement and savings on energy bills. The focus is on reducing the cost of renovations targeting improved energy efficiency, while also increasing the depth and rate of renovation with the aim of achieving Nearly Zero-Energy Buildings (NZEB) performance. Buildings should maintain high levels of indoor environment quality (thermal comfort, air quality, etc.). Attention is also given to removing market barriers, stimulating the market for energy efficiency driven renovations, enabling further harmonisation in calculation of energy performance and certification of buildings, and coherent cost-effective methods to assess achieved energy performance in use. In addition a qualified building workforce is needed, therefore appropriate certification and accreditation schemes to continuously improve the knowledge and skills of the building workforce are expected. Particular emphasis is placed on the citizen's engagement in energy efficiency as well as on interoperability and interaction with energy grids of the building and its energy management systems. The activities of the contractual Public-Private Partnership on Energy efficient Buildings will also contribute to this sub-area. Under the Heating and cooling sub-area the challenge is to moderate the demand for heating and cooling, increase energy efficiency in supply, maximise the use of renewable energy and reduce costs of heating and cooling to affordable levels for all. Therefore, also in line with the Commission's decision to bring forward a heating and cooling strategy in 2015, research and innovation actions in this Work Programme focus on optimising and matching efficient and sustainable heating and cooling supply, improving our understanding of barriers hindering the development of this market, developing models and tools for heating and cooling mapping and planning, investigating heating and cooling systems and solutions using low and very low temperature resources, as well as stimulating market uptake measures based on the replication of successful approaches for the retrofitting of inefficient district heating networks. Appropriate consideration needs to be given to solutions for the development and effective /27/EU Part 10 - Page 12 of 184
13 management of district heating/cooling systems with cost-effective and efficient management and reuse of waste heat. The Industry, products and services sub-area is aimed at improving the energy efficiency of products, production processes and technologies in support of the competitiveness of EU industry and services, taking into account the EU's energy and climate objectives. In the area of industry, energy efficiency investments can lead to important productivity and operational benefits which can represent up to 2.5 times (250%) the value of energy savings 20. This is why design of manufacturing processes, energy recovery, energy audits and energy management systems, re-use of industrial waste, optimisation of the value chain and industrial symbiosis will all be addressed. Development and market uptake of innovative highly efficient energy-related products, systems and services will also be part of the scope. The Innovative financing for energy efficiency sub-area aims to deliver more investment through stronger private capital participation in energy efficiency investment markets, addressing a financing need of around EUR 100 billion per year. Activities are focussed on the development of innovative financing mechanisms, investment instruments and schemes for energy efficiency that allow the demonstration and uptake of business cases related to energy savings, and kick-starting a large scale market for energy efficiency finance. Emphasis is given to increasing investor confidence, capacity building, leveraging existing solutions and rollout of energy services with the aim of bringing the relevant stakeholder groups and market organisations closer together in order to speed up development of the market. 1. HEATING AND COOLING Heating and cooling constitutes around half of the EU's final energy consumption and is the biggest energy end-use sector, ahead of transport and electricity. Around 85% of heating and cooling is produced from natural gas, coal, oil products and non-res electricity. Only 15% is generated from renewable energy. This shows that the heating and cooling sector has a crucial role to play in the EU's transition towards an energy efficient and decarbonised energy system and in achieving long term energy security. The challenge is to moderate demand for heating and cooling, to increase energy efficiency in supply, to maximise the use of renewable energy and to reduce the cost of heating and cooling to affordable levels for all. The use of renewable energy and local sustainable resources (e.g. residual sources of heat) is key to decarbonising heating and cooling supply systems and improving their efficiency. Further research and demonstration is required in order to develop new and to improve existing technological solutions that are able to take advantage of these energy sources. Moderating energy demand and switching heating and cooling to renewable and other local sustainable resources is at the core of the European energy transition, which is underpinned by 20 The multiple Benefits of Energy Efficiency: A guide to quantifying the value-added", IEA, 2014 Part 10 - Page 13 of 184
14 the Energy Union Communication 21 and by Directives on renewable energy 22, energy performance of buildings 23, eco-design and energy labelling 24. The Energy Efficiency Directive 25 contains provisions that require Member States to take into account the potential of efficient heating and cooling at local, regional and national levels. In this context it is important to develop tools that are user friendly and easy to deploy, and to ensure that planning of heating and cooling becomes a mainstream practice for public authorities and economic actors. Despite the existence of technically proven cost effective, efficient and renewable energydriven heating and cooling systems, there is a need to increase capacity and capability in the supply chain, to improve customer acceptance of low carbon heating technology and to develop credible commercial models for delivery that would support wider market roll-out. Issues relating to energy system integration also need to be addressed in order to facilitate and accelerate the technology shift. Integrated approaches need to be deployed to provide solutions for holistic organisational, managerial and financial measures that facilitate and accelerate the technology shift. Proposals are invited against the following topic(s): EE : Waste heat recovery from urban facilities and re-use to increase energy efficiency of district or individual heating and cooling systems Specific Challenge: Europe is not recovering enough of its waste energy. A vast amount of waste heat is produced in urban areas from a range of local sources (e.g. from metros, large buildings, extensive ventilation systems) and from urban waste or waste water systems. Data centres are another rapidly growing sector generating heat that could potentially be recovered and reused for heating or cooling buildings. Thermal energy captured can be supplied through individual central heating and cooling systems or distributed through district heating and cooling networks to multiple buildings. In some cases, it might be needed to combine the recovery of waste heat with different technologies, (e.g., heat pumps) in order to bring the temperature level of the waste heat to those matching the existing heating and cooling applications addressed in the proposal. Scope: Demonstrate waste heat and waste water heat recovery in urban areas, in services sector and transport system facilities and their connection and integration into the existing COM(2015) 80 final (A Framework Strategy for a Resilient Energy Union with a Forward-Looking Climate Change Policy) 2009/28/EC (Directive on the promotion of the use of energy from renewable sources! /31/EU (recast) (Energy Performance of Buildings Directive) /125/EC and 2010/30/EU (Ecodesign and Energy Labelling Directives) /27/EU (Energy Efficiency Directive) Part 10 - Page 14 of 184
15 heating and cooling supply systems in buildings/facilities or district heating/cooling systems. Focus should be given to replicability, scalability and modularity that facilitate application and rapid deployment. Develop sustainable business models and organisational, managerial, and financial solutions for deployment of the proposed technological solutions in the EU, with due regard to the legislative framework. Projects should build on previous projects supported under FP7 and Horizon The activities are expected to be implemented at Technology Readiness Level (TRL) 6-8 (please see part G of the General Annexes). The Commission considers that proposals requesting a contribution from the EU of between EUR 3 and 4 million would allow this challenge to be addressed appropriately. This does not preclude submission and selection of proposals requesting other amounts. Expected Impact: Proposals are expected to demonstrate the impacts listed below, using quantified indicators and targets wherever possible: Primary energy savings and GHG emission savings triggered by the proposed actions (compared to best available solution existing today); Increase in share of waste heat captured and utilised in urban areas; Scale of the replicability potential of the proposed solutions. Type of Action: Innovation action The conditions related to this topic are provided at the end of this call and in the General Annexes. EE : Improving the performance of inefficient district heating networks Specific Challenge: District heating's share on heat supply in Europe is about 12%, with some Member States and Associated Countries having a much higher share. In order to preserve existing heating networks and to increase their efficiency, successful approaches to diagnosing and retrofitting inefficient networks, including sustainable business and organisational models, have to be widely promoted and disseminated. Many systems are old and inefficient and run using fossil fuels. These systems often have poor maintenance, high customer heat costs and limited ability for user control undermining the image of district heating. The result is that a significant number of customers disconnect from district heating networks and install individual heating systems which do not always take advantage of the potential for efficiency gains. The retrofitting of these district heating systems can offer a cost effective approach to supplying efficient heat. Schemes can include city-wide networks or networks at the district/neighbourhood level. Scope: Actions are needed to accelerate the cost effective and energy efficient retrofitting existing, inefficient district heating networks. Part 10 - Page 15 of 184
16 Activities supported under this topic should replicate or develop successful technical, managerial, organisational and financial approaches and should lead to the initiation of concrete schemes that guarantee substantial primary energy savings and efficiency gains, including the use of renewable and residual sources of heat as appropriate. Proposals should engage and involve as necessary, those in charge of city networks, district heating companies, managers of buildings blocks, housing associations and other building owners/managers and end consumers. Proposals should also lead to the development of concrete regional or national action plans for the retrofitting of inefficient district heating networks. As necessary, actions should consider interventions that are needed on the building side, e.g. retrofitting and / or modifications of internal heat distribution systems and system and end user controls. They should also take into account the evolution of thermal demand in the future due to improving building energy performance standards and increased rate of building renovations. The Commission considers that proposals requesting a contribution from the EU of between EUR 1 and 2 million would allow this challenge to be addressed appropriately. This does not preclude submission and selection of proposals requesting other amounts. Expected Impact: Proposals are expected to demonstrate the impacts listed below, using quantified indicators and targets wherever possible: Primary energy savings and GHG emission savings triggered by the proposed actions (compared to best available solution existing today), considering the different climate regions of Europe; Increased share of waste/residual and renewable sources of heat; Scale of the replicability potential of the proposed solutions; Number of retrofitting approaches initiated by the project within its duration which are integrated in the regional or national action plans. Type of Action: Coordination and support action The conditions related to this topic are provided at the end of this call and in the General Annexes. EE : Standardised installation packages integrating renewable and energy efficiency solutions for heating, cooling and/or hot water preparation Specific Challenge: In order to increase the roll-out in the market of new technologies for heating and cooling, Innovation Actions are needed to bring forward combined, adaptable and plug-and-play solutions. For these to be successful, the costs and energy benefits should be further demonstrated. The challenge is therefore to develop new heating/cooling and/or hot water preparation systems and demonstrate their real potential. Part 10 - Page 16 of 184
17 With the growing contribution of intermittent renewable energy sources, the use of thermal energy storage will grow in importance. The uptake of systems that use or combine renewable energy sources, energy storage or smart controls is still relatively low. Integration with other parts of the building (including historical buildings) or its services is an unresolved issue due to lack of planning and simulation tools and the lack of expertise and confidence among designers and installers. Instead, they stay with conventional heating and cooling solutions, which results in a negative lock-in effect. Packaged systems claiming high levels of energy efficiency are already available in the market; however their potential is not always demonstrated in place, which develops into a lack of trust in new solutions. Therefore, there is a need to demonstrate the real potential of the new solutions by providing information on the overall system performance to the end user. Scope: Actions are needed for the development and demonstration of cost-effective compact and fully integrated heating and cooling units installed at the building level. Applications should: demonstrate their cost-effective integration in buildings, demonstration of high values of seasonal performance, fossil fuel and/or primary energy savings considering a wide range of both new and existing buildings and allow for remote access and control. Proposals could develop methods and parameters to support design and installation of multi-component heating, cooling and/or hot water preparation solutions. Proposals should also include consumer information system on the overall system performance. In addition, remote inspection of these systems should be made possible. The solutions may include the use of renewable energy including heat pumps, co-generation, thermal storage or smart controls that should be used with the specific aim to minimise primary energy demand (gas, electricity). Proposals should take into account the need for high indoor environmental quality (thermal comfort, acoustics, air quality, etc.).the focus of the solutions should be on scalability, modularity and adaptability, easy integration, assembly and installation. Quality and technical reliability are also important aspects to ensure that solutions deliver their potential. Inspection and monitoring should be considered, building upon the requirements of the EPBD 26 (articles 14 and 15). For the purposes of calculating and showcasing their energy performance, the solutions should also build upon the package labelling scheme established under regulations 811/2013 and 812/2013 (where applicable). Projects should involve producers of different heating and cooling technologies and control systems, installer associations, designers and architects. The activities are expected to be implemented at Technology Readiness Level (TRL) 6-8 (please see part G of the General Annexes). The Commission considers that proposals requesting a contribution from the EU of between EUR 3 and 4 million would allow this challenge to be addressed appropriately. This does not preclude submission and selection of proposals requesting other amounts. 26 (2010/31/EU) Energy Performance of Buildings Directive Part 10 - Page 17 of 184
18 Expected Impact: Proposals are expected to demonstrate the impacts listed below, using quantified indicators and targets wherever possible: Primary energy savings and GHG emission savings triggered by the proposed actions (compared to best available solution existing today) ; Demonstration of smart controls to optimise energy demand and energy supply at the building level; Demonstration of solutions allowing better remote operation, monitoring and inspection; Roll-out in the market of standardised compact installation packages integrating multicomponents (hybrid) renewable and energy efficiency solutions; Impact on heating and cooling industry as a whole (not just for a specific product). Type of Action: Innovation action The conditions related to this topic are provided at the end of this call and in the General Annexes. EE : New heating and cooling solutions using low grade sources of thermal energy Specific Challenge: In their vast majority, heating and cooling demand is supplied using high valued energy sources e.g. electricity and fossil fuel driven appliances. However, there is a wide range of thermal energy sources 27 which due to their temperature levels are not generally used to deliver useful heating and/or cooling. On the one hand, the share of low valued energy sources in the supply of useful heat and cooling can be increased if low exergy systems 28 are used. On the other hand, a number of technologies can be used to take advantage of low/moderate temperature resources 29, e.g. by upgrading them in order to generate useful heating and cooling and, in some cases, also electricity. Scope: Actions are needed to develop, demonstrate, validate and improve the overall efficiencies of: technologies that are able to use low valued (low-grade) energy sources (residual and renewable sources of thermal energy) in low-exergy heating and cooling systems Sources of residual and renewable energy e.g. sewage water, underground resources, solar heat, low grade waste heat, etc. In the context of this topic this refers to systems able to deliver useful heating and cooling using low grade energy sources, e.g. sources of heating or cooling at temperature levels close to room temperature for space heating and cooling applications The levels of temperature referred to as low/moderate will depend on the concrete application Part 10 - Page 18 of 184
19 technologies that are able to take advantage of very low and low (moderate) temperature resources, e.g. by upgrading them, in order to generate useful heating and cooling 30 and if relevant electricity. (e.g. heat pumps able to harvest low-grade heat, heat driven chillers and heat driven combined heat and power cycles). Necessary attention should be paid to improving system reliability and automated operation. Proposals are expected to address one or both of the two areas mentioned above, as necessary. The activities are expected to be implemented at Technology Readiness Level (TRL) 4-6 (please see part G of the General Annexes). The Commission considers that proposals requesting a contribution from the EU of between EUR 3 and 4 million would allow this specific challenge to be addressed appropriately. Nonetheless, this does not preclude submission and selection of proposals requesting other amounts. The scope of this topic might change in 2017 to investigate the applicability of low and very low temperature district heating for buildings with high thermal performance. This will depend on the conclusions of the Heating and Cooling Strategy by the end of 2015 and will be subject of a Work Programme revision in Expected Impact: Proposals are expected to demonstrate the impacts listed below, using quantified indicators and targets wherever possible: Primary energy savings and GHG emission savings triggered by the proposed solutions (compared to best available solution existing today); Increased share of residual and renewable sources of thermal energy in the supply heating and cooling demand; Gains in the overall efficiencies of heating and cooling systems using very low and low (moderate) temperature sources of thermal energy. Type of Action: Research and Innovation action The conditions related to this topic are provided at the end of this call and in the General Annexes. EE : Models and tools for heating and cooling mapping and planning Specific Challenge: There is a need to better identify, analyse, model and map resources and solutions making energy demand more efficient and match it with efficient sustainable energy sources at the least cost. Such public planning is already mandated in the Energy Efficiency Directive through the 5-yearly Comprehensive Assessment for efficient heating and cooling. This needs to be done at local, regional and national levels to help develop energy strategies 30 In here useful heating and cooling can embrace, as relevant to the proposed action, all types of end uses and temperature ranges (e.g. space heating and cooling, how water preparation, supply of industry processes, etc.) Part 10 - Page 19 of 184
20 and ensure their consistency at national level and with EU policies. Today only a few public authorities have the expertise, knowledge and tools to perform heat and cooling mapping and planning. The future demand on public energy planning necessitates that such modelling tools are available and used as part of the policy making processes of public authorities. Scope: Actions are needed to mainstream and further develop methods and tools of heating and cooling planning (heat planning) in the administrative practices of public authorities. Heat planning is an iterative process, as plans need to be updated regularly 31. The planning tools should be able to process large and complex data sets to provide a detailed and comprehensive description of the existing energy system and the dynamic development of all relevant supply and demand elements within a given geography (generation units, renewable and residual energy sources, infrastructures, buildings' energy consumption and quantity and quality (temperature) of the thermal supply sources and that of the demand) and allow modelling of the possible scenarios reflecting hourly, seasonal and yearly variations in supply and demand to optimally reach energy goals. The heat and cooling mapping tool should be able to link with other types of maps (e.g. spatial, infrastructure, renewable energy sources maps). It should be capable of modelling flexibility needed for integrating variable renewable energy, and demand response and enable analysing the impact of the increasing number of low energy buildings (building renovation programmes, introduction of Nearly Zero Energy Buildings). The modelling tools should be user friendly and open source yet able to model the full energy system, i.e. heating and cooling, electricity and transport. The tools should include instruction and training modules and be validated, demonstrated and piloted with the target groups. The activities are expected to be implemented at Technology Readiness Level (TRL) 5-7 (please see part G of the General Annexes). The Commission considers that proposals requesting a contribution from the EU of between EUR 2.5 and 3 million would allow this specific challenge to be addressed appropriately. Nonetheless, this does not preclude submission and selection of proposals requesting other amounts. Expected Impact: Proposals are expected to demonstrate the impacts listed below, using quantified indicators and targets wherever possible: Better integration of heating and cooling mapping in existing energy models and in the regional and local planning; Number of people within the target groups trained on the use of the models and tools developed; 31 This is essential, if the EU is to achieve its 2020 and 2030 energy efficiency objectives and further progress with energy demand moderation. The Energy Efficiency Directive (2012/27/EU) mandates that the national Comprehensive Heating and Cooling Assessments are updated every five years; updates should be of increasing accuracy, coverage and efficacy. Part 10 - Page 20 of 184