cdti mpilar.gonzalez@cdti - uah · 20 (23/06/2016) heating & cooling • tackling h&c...
TRANSCRIPT
H2020: ENERGÍA LIMPIA, SEGURA Y EFICIENTE:
PRÓXIMAS OPORTUNIDADES DEPARTICIPACIÓN
Pilar González GotorNCP Energía H2020
División de Programas de la UECDTI
Madrid 16 de junio de 2016
Índice
oVisión General H2020oContexto PolíticooPrograma de Trabajo 2016-2017: Eficiencia energética Energía Baja en Carbono Ciudades Inteligentes
oOtros
Índice
oVisión General H2020oContexto PolíticooPrograma de Trabajo 2016-2017: Eficiencia energética Energía Baja en Carbono Ciudades Inteligentes
oOtros
¿Qué es H2020?Instrumento financiero para implementar estrategia y políticas europeas
¿Cuál es el objetivo?Contribuir a la construcción de una economía basada en el conocimiento y la innovación
¿Cómo pretende alcanzar su objetivo? Haciendo más énfasis en el impacto de los
proyectos que financia Fortaleciendo actividades «bottom-up» Mejorando el acceso a financiación para las
empresas Integrando investigación e innovación
Horizonte 2020: Enfoque estratégico hacia la innovación
Ciencia excelenteReforzar y ampliar la excelencia de labase científica de la Unión, así como consolidar el Espacio Europeo de Investigación
Liderazgo industrialAcelerar el desarrollo de las tecnologíase innovaciones que sustentarán las empresas del mañana
Retos socialesEstimular la masa crítica de esfuerzos de investigación e innovación necesaria para alcanzar los objetivos políticos de laUnión
Horizonte 2020: Estructura
6 (23/06/2016)
Estructura y Presupuesto
Modalidades de participación A través de las convocatorias ordinarias Vía Partenariados u otras Iniciativas
europeas Accediendo a la financiación de riesgo
Cómo participar en Horizonte 2020
TYPES of ACTIONSResearch and Innovation Action
(RIA)- establish new knowledge and/or to explore the feasibility of a new or improved technology, product, process, service or solution- 100% funding rate- At least 3 legal entities from 3 different MS/AC
Innovation Action (IA)- producing plans/arrangements or designs for new, altered or improved products, processes or services (incl. prototyping, testing, demonstrating, piloting, large-scale product validation and market replication)- 70% funding rate (but 100% for non-profit organisations)- At least 3 legal entities from 3 different MS/AC
Coordination and Support Action (CSA)
- accompanying measures such as standardisation, dissemination, awareness-raising and communication, networking, coordination or support services- 100% funding rate- At least 1 legal entity from MS/AC
ERA-NET Cofund- support public-public partnerships in their preparation, networking, design, implementation and coordination of joint activities as well as EU topping-up of a trans-national call for proposals- At least 3 legal entities from 3 different MS/AC- participants must be 'research funders'
Funding rates
• One project = One rate For all beneficiaries and all activities in
the grant.
Defined in the Work Programme: ‒ Up to 100 % of the eligible costs;‒ but limited to a maximum of 70 %
for innovation projects (exception for non-profit organisations - maximum of 100%)
‒ Specific reimbursement rates for programme co-fund actions(*) Research and technological development includes scientific coordination.
(**) For beneficiaries that are non-profit public bodies, secondary and highereducation establishments, research organisations and SMEs(***) The reimbursement of indirect eligible costs, in the case of coordinationand support actions, may reach a maximum 7% of the direct eligible costs,excluding the direct eligible costs for subcontracting and the costs ofresources made available by third parties which are not used on the premisesof the beneficiary.(****) Including research for the benefit of specific groups (in particularSMEs)
Maximum reimbursement
rates
Research and technological development activities (*)
Demonstration activities
Other activities
Network of excellence
50%75% (**)
100%
Collaborative project(****)
50%75% (**)
50% 100%
Coordination and support action
100% (***)
FP7
Single indirect cost-model
20% ?60% ?
Real ?
Simplified?
Single model:25 % Flat RateFP7
Technology Readiness Levels
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oVisión General H2020oContexto PolíticooPrograma de Trabajo 2016-2017: Eficiencia energética Energía Baja en Carbono Ciudades Inteligentes
oOtros
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http://eur-lex.europa.eu/legal-content/EN/TXT/PDF/?uri=CELEX:52014DC0015&from=EN
14 (23/06/2016)
Political Context2030 Climate-Energy Package• 40% reduction of Greenhouse Gases• 27% of renewable energy• 27% improvement in energy efficiency
Energy Union Energy security, solidarity and trust A fully integrated internal energy market Energy efficiency first Transition to a low-carbon society An Energy Union for Research,
Innovation and Competiveness
SET-Plan Integrated Roadmap Communication on
Integrated SET-Plan (COM[2015]6317)
15 (23/06/2016)
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oVisión General H2020oContexto PolíticooPrograma de Trabajo 2016-2017: Eficiencia energética Energía Baja en Carbono Ciudades Inteligentes
oOtros
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Secure Clean end efficient Energy
Energy Efficiency25 Topics
Budget: 194 M.€
Low Carbon Technologies
36 topicsBudget: 720,22 M.€
Smart Cities and Communities
1 topicBudget: 131,5 M.€
EASME(EACI)
INEA(TEN-T EA)
RS3: Programme Structure Call 2016-2017
Cross-Cutting activities
17 (23/06/2016)
Indicative budget distribution per area for Energy calls 2016-2017
Total budget 2016-2017: EUR 1 344 million
* Other Actions = actions not implemented through calls for proposals (e.g. Risk Finance, procurements, subscriptions, contributions, grant to identified beneficiaries)
18 (23/06/2016)
Índice
oVisión General H2020oContexto PolíticooPrograma de Trabajo 2016-2017: Eficiencia energética Energía Baja en Carbono Ciudades Inteligentes
oOtros
19 (23/06/2016)
Heating and cooling
Engaging consumer
BuildingsIndustry,
services and products
Innovative Financing
Call Energy Efficiency
Reducir el consumo de energía y la huella de carbono mediante un uso inteligente y sostenible
20%
≥27%
2020
2030
PPP E2BPPP SPIRE
20 (23/06/2016)
Heating & Cooling
• Tackling H&C consumption –Moderating demand
• Increasing energy efficiencyin supply
• Maximising use of local sustainable and renewable energy sources
• Recovering waste heat• Linking with electricity system• Achieving affordable costs
21 (23/06/2016)
Heating & Cooling – Topics 2016-2017
• Topics EE-1-2017, EE-17-2016-2017, EE-20-2017
Innovation in waste heat recovery and reuse technologies (in cities and industry)
• Topics EE-1-2017, EE-2-2017
District heating networks: innovation in urban waste heat reuse in DH, replication of efficient retrofitting of DH networks
• Topic, EE-4-2016-2017• *Provisional
Research and innovation of efficient and low-carbon H&C technologies. Calefacción de distrito con edificios de alto rendimiento.*
22 (23/06/2016)
New deal for energy consumers: Empowering consumer Deploying demand side response Using smart technologies Protecting vulnerable customers
Objectives: Achieve a deeper understanding of consumer behaviour and motivation
structures Inform, engage and activate consumers
Consumer in the centre
23 (23/06/2016)
• Topic EE-6-2016-2017
Engaging private consumers towards sustainable energy
• Topic EE-7-2016-2017
Behavioural change toward energy-efficiency through ICT
• Topic EE-9-2016-2017
Engaging and activating public authorities
Consumer engagement –Topics 2016-2017
Consumer empowerment through smart homes system and demand response EE-12-2017
Consumer information through EU product efficiency legislation EE-16-2016-2017
24 (23/06/2016)
Buildings
Buildings account for 40% of the final energy consumption
• Increasing the rate, quality and effectiveness of renovation to reduce the energy use in buildings, as well as their replication capacity;
• Integration of demand response in energy management systems while ensuring interoperability;
• Reducing the cost of designing and constructing new Near-Zero Energy Buildings (NZEBs) in order to increase their market uptake;
• Building capacity and provide support for sustainable energy policy implementation.
25 (23/06/2016)
Buildings – Topics 2016-2017
• Topics EE-11-2016-2017
Deep renovation of buildings
• Topic EE-12-2017 (EeB-PPP)
Demand response in energy management systems
• Topic EE-13-2016
Cost reduction of new Nearly Zero-Energy buildings
• Topic EE-14-2016-2017
Construction skills
26 (23/06/2016)
Industry and service sectors represent more than 39% of the EU's final energy consumption
Industry, services and products
• Design of manufacturing processes, energy recovery, energy
audits and energy management systems
• Re-use of industrial waste,
• Optimisation of the value chain
• Development and market uptake of innovative highly efficient
energy-related products, systems and services .
27 (23/06/2016)
Industry, services and products – Topics 2016-2017
• Topic EE-15-2017, EE-18-2017
Capacity building in industry and energy services for industrial parks
• Topic EE-17-2016-2017 (SPIRE-PPP)
Waste heat recovery / Energy symbiosis in industrial systems
• EE-21-2016
Joint energy-efficiency R&I efforts in industry & services (ERA-NET Cofund)
• Topic EE-16-2016-2017
Effective implementation of EU product legislation
• Topic EE-20-2017
Energy efficient and integrated data centres
• Topic EE-19-2017 Public procurement of innovative energy efficiency solutions
28 (23/06/2016)
Financing Energy Efficiency
100 bn € investments/year needed to achieve EE targets
Improve supply of large-scale finance at a low cost for by:
– Providing Project Development Assistance to public and private sectors to deliver innovative and bankable sustainable energy investments;
– Development of innovative financing schemes insuring flow of private finance for EE investments;
– Increase "readability" of market fundamentals for financiers and investors through benchmarking and standardisation of EE investments;
– Develop, demonstrate and standardise new types of energy efficiency services and business models
29 (23/06/2016)
Financing Energy Efficiency – Topics 2016-2017
• Topic EE-22-2016-2017
Aggregation - Project development assistance
• Topic EE-24-2016
De-risking - Standardisation and benchmarking
• Topic EE-25-2016, EE-23-2017
Market based culture - Energy efficiency services and innovative financing schemes
30 (23/06/2016)
Energy Efficiency call 2016 - Overview
Deadline 21 January 2016
• Sub-budget: EUR 16 million• EE-10• EE-17
• Sub-budget: EUR 34 million• EE-3• EE-4• EE-5• EE-7• EE-8
Deadline 15 September 2016
• EE-6• EE-9• EE-16• EE-11• EE-13• EE-14• EE-25• EE-24• EE-22• EE-21
IA – greenRIA – blue
CSA- orangeERA-NET - black
EUR 16 million
EUR 4 million
EUR 8 million
EUR 4 million
EUR 6 million
EUR 5 million
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Energy Efficiency call 2017 - Overview
Deadline 19 January 2017
• Sub-budget: EUR 8 million• EE-12
• Sub-budget: EUR 11 million• EE-17
• Sub-budget: EUR 16 million• EE-1• EE-4*
• Sub-budget: EUR 8 million• EE-7
• Sub-budget: EUR 6 million• EE-20
Deadline 7 June 2017
• EE-2• EE-6• EE-9• EE-11• EE-14• EE-15• EE-16• EE-18• EE-19• EE-23• EE-24• EE-22
IA – greenCSA- orange
ERA-NET – blackPPI - purple
*Provisional. Cambio de RIA a IA pendiente aprobación
EUR 4 millionEUR 5 millionEUR 7 million
EUR 8 million
EUR 11 million
EUR 4 million
EUR 8 million
EUR 4 million
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Energy Efficiency WP 2016-2017 ACTUALIZACIONES 1
Modificaciones en el texto de algunos topics:● EE-06-2016-2017: Engaging private consumers towards
sustainable energy● EE-23-2017: Innovative Financing Schemes● EE-22-2016-2017: Project Development Assistance● EE-19-2017: Public Procurement of Innovative Solutions for
energy efficiency● EE-17-2016-2017: Valorisation of waste heat in industrial systems
(SPIRE PPP)● EE-16-2016-2017: Effective implementation of EU product
efficiency legislation
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Energy Efficiency WP 2016-2017 ACTUALIZACIONES 2
Modificaciones en la fecha de apertura● Call 2017: la fecha de apertura de los topics EE-01, EE-04, EE-07, EE-20,
EE-12 and EE-17 será el 26 de Julio de 2016.
Cambios en presupuesto: El presupuesto inicialmente asignado se ha dividido por topics o bloques de topics. Los cambios hacen referencia a los siguientes topic: ● Call 2016: Topics CSA: EE-06, EE-09, EE-16, EE-11, EE-13, EE-14, EE-25,
EE-24● Call 2017: Topics IA: EE-12 y EE-17● Call 2017: Topics RIA/IA: EE-01, EE-04, EE-07 y EE-20 ● Call 2017: Topics CSA/PPI: EE-02, EE-06, EE-09, EE-11, EE-14, EE-15, EE-
16, EE-18, EE-19, EE-23 y EE-24
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Energy Efficiency WP 2016-2017 ACTUALIZACIONES 3
Modificaciones en los umbrales de aprobación de proyectos:● En los topics EE-12-2017 y EE-17-2016-2017, SÓLO para la
convocatoria 2017, el umbral de evaluación del criterio de Excelencia e Impacto será de 4, y el umbral de evaluación total, tras la suma de los umbrales parciales será de 12.
PUEDE HABER MÁS CAMBIOS!!!!
Más información en:H2020 Calls - Research Participant Portal
35 (23/06/2016)
Índice
oVisión General H2020oContexto PolíticooPrograma de Trabajo 2016-2017: Eficiencia energética Energía Baja en Carbono Ciudades Inteligentes
oOtros
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Integrated EU energy system
Renewable energy
technologies
Decarbonisation of Fossil Fuels
Social, economic and human aspects
European Research Area
in Energy
Cross-cutting issues
Call Competitive Low Carbon
Energy
Suministro de electricidad a bajo coste y de baja emisión de
carbono
2020 2030
2020
2030
2020
2030
10%
≥27%
20%
15%
-40%
-20%
Interconnections
RES
GGE
37 (23/06/2016)
Energy System
● maturation of promising next generation technologies for the distribution network: demand-response, smart grid, storage and energy system integration
● demonstrating technologies for the distribution network integrating several technologies
● demonstration of integration of technologies with a center of gravity on the transmission network
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Energy System
● LCE-01-2016-2017. Maturation of promising next generation technologies for the distribution network: demand-response, smart grid. RIA. TRL 3-6. 2-4M€/project. 19*M€
● LCE-04-2017. Demonstration of integration of technologies with a center of gravity on the transmission network, but including links with the distribution network. IA. TRL 5-8. 15-20 M€/project. 66,29* M€
● LCE-05-2017. Tools and technologies for coordination and integration of the European energy system. RIA. 2-4 M€/project**. 30* M€
Deadline: 14/02/2017*Provisional
**0.1 to 1 MEur if area 5 alone
39 (23/06/2016)
Renewable energies
● Support the next set of technologies for cost-competitiveness and market introduction (off-shore wind, certain areas of PV, CSP, tidal and wave energy, and geothermal energy);
● Continue supporting those technologies that have started to reach cost-competiveness but where continued efforts are needed (on-shore wind, areas of PV, advanced biofuels, and solar heating and cooling);
● Continue supporting new and emerging technologies (e.g. advanced and solar fuels, ocean thermal energy conversion (OTEC), Salienty gradient energy, etc.), mature technologies where further innovation remains important (hydropower, PV-thermal) and replace critical pollutant/expensive materials by eco-friendly/sustainable materials.
40 (23/06/2016)
Renewable energies
Basic Research(TRL <4)
Advanced Research (TRL 3-5)
Demonstration(TRL 5-7)
Market uptake
PV
LCE-6
LCE-7
LCE-9, LCE-10LCE-21
CSP LCE-11Solar Heating and Cooling
LCE-12
Wind Energy LCE-13, LCE-14
LCE-21
Ocean Energy LCE-15, LCE-16HydropowerGeothermal Energy
LCE-17, LCE-23, LCE-18
CHPRES integration in the systemBio- and Renewable Alternative Fuels
LCE-8, LCE-22LCE-19, LCE-20
41 (23/06/2016)
Photovoltaics (PV)
Basic research (RIA)• Upscaling technologies currently at lab-scale (excluding activities funded under
NMBP 19-2016!) - LCE-6-2017Advanced research (RIA)• Next generation of perovskite PV cells and modules – LCE-7-2016-2017Demonstration (IA)• Manufacturing innovations at pilot-line level for industrial production of cells
and modules – LCE-9-2016 • Reducing cost of PV electricity – LCE-10-2017 Market-uptake (CSA)• Tackling the bottlenecks of high penetration levels of PV electricity into the
electric power network – LCE-21-2017
• High power generation potential;• Reducing the total cost of installed solar energy systems and grid-integration
bottlenecks remains a priority for the sector;• PV R&D is necessary to re-launch an innovative and worldwide competitive
industry relying on the existing PV technology knowledge-base in Europe
42 (23/06/2016)
Concentrated Solar Power (CSP)
Basic research (RIA)• Upscaling technologies currently at lab-scale - LCE-6-2017Advanced research (RIA)• New cycles and power blocks for reducing costs of CSP plants – LCE-7-
2016-2017Demonstration (IA)• Reducing water consumption of CSP plants – LCE-11-2016 (EUR 12 million)Market-uptake (CSA)• Facilitating the supply of electricity from CSP plants in Southern Europe to
Central and Northern European countries – LCE-21-2017
• Strong European industrial presence but the larger share of the market is outside Europe. The competition is growing.
• Need to reduce further the capital and the operational costs as well as to improve system operations, performances and environmental footprint (water consumption).
43 (23/06/2016)
Solar Heating and Cooling (SHC)
Basic research (RIA)• Upscaling technologies currently at lab-scale - LCE-6-2017Advanced research (RIA)• Development of components for residential single-family solar-active
houses – LCE-7-2016-2017Demonstration (IA)• Solar heat in industrial processes – LCE-12-2017
• Mature technology exists but it still remains under-exploited; • New technology is needed to enlarge the application sectors;• Issues of cost, performance and operability still exist;• Cost competitiveness and acceptability of solar heating systems need to be
improved
44 (23/06/2016)
Geothermal energy
Basic research (RIA)• Upscaling technologies currently at lab-scale - LCE-6-2017Advanced research (RIA)• Materials for geothermal installations (deep geothermal) – LCE-7-2016-2017Demonstration (IA)• Geothermal systems for retrofitting buildings – LCE-17-2017 • EGS in different geological conditions – LCE-18-2017 Market-uptake (CSA)• Tackling bottlenecks for high penetration – LCE-21-2017• Accelerating the penetration of heat pumps for heating and cooling – LCE-21-
2017
• Geothermal energy has great untapped potential for diversifying the energy mix.• "Shallow geothermal": retroffiting existing installations with improved technology;• Enhanced geothermal systems (EGS): reduction of drilling costs and risks;
demonstration of viable technologies to create new reservoirs.
45 (23/06/2016)
Wind energy
Basic research (RIA)• Improved understanding of the physics of wind as primary energy source and wind
energy technology - LCE-6-2017Advanced research (RIA)• Reduction of environmental impact – LCE-7-2016-2017Demonstration (IA)• Solutions for reduced maintenance, increased reliability and extended life-time of
off-shore wind turbines/farms – LCE-13-2016 • Large >10 MW wind turbines – LCE-14-2017 Market-uptake (CSA)• Increase market share of wind energy – LCE-21-2017
• European industries are still world leaders but the competition is growing;• Cost reductions for all components essential, in particular for offshore;• Offshore considered as the future market - large turbines to be demonstrated• Issues remain on environmental and social impact, and on public acceptance
46 (23/06/2016)
Ocean energy
Basic research (RIA)• Upscaling technologies currently at lab-scale - LCE-6-2017Advanced research (RIA)• Innovative power take-off systems and control strategies – LCE-7-2016-2017Demonstration (IA)• Scaling up in the ocean energy sector to arrays – LCE-15-2016 • Design tools for ocean energy devices and arrays development/deployment
– LCE-16-2017
• European industries are leading the emergence of the technologies. • Many devices developed / prototypes tested, but market potential yet to be realised.• Demonstration of reliable and survivable systems essential.• Environmental, social and public impacts to be addressed
47 (23/06/2016)
Combined Heat and Power (CHP)
Basic research (RIA)• Upscaling technologies currently at lab-scale - LCE-6-2017Advanced research (RIA)• Transforming renewable energy into intermediates – LCE-7-2016-2017
• CHP installations already in use, commercial applications exist and have been supported under previous framework programmes
• Market potential for residential scale and for specific industrial applications to increase generation flexibility.
48 (23/06/2016)
Integration of RES in the energy system
Advanced research (RIA)LCE-7-2016-2017:• Developing system support functions (or ancillary services) enabling RES
technologies to contribute - at transmission and distribution grid level - to a stable and safe energy system;
• Define most suitable pathways for including integration considerations into the different RES development roadmaps
• Growing share of renewable energy sources requires rethink of system management;• Complementing activities supported under the area 'Integrated EU energy system',
integration is also addressed from the perspective of the generation sources in order to share burden and costs.
49 (23/06/2016)
Biofuels (1/2)
Basic research (RIA)• Diversification of renewable fuel production through novel conversion routes/fuels -
LCE-6-2017Advanced research (RIA)• LCE-8-2016-2017. Next generation of:
• Biofuels from CO2 in industrial waste flue gases through biochemicalconversion by autotrophic ( chemo and photo –autotrophic) micro-organisms;
• Biofuels from organic fraction of municipal and industrial wastes throughthermochemical, biochemical or chemical pathways with improvedperformance and sustainability;
• Biofuels from phototrophic algae & bacteria with improved performance and sustainability.
• European industries have leading technologies, but currently little deployment in EU;• Biofuels are medium-term solution for road and maritime transports and the only solution
for air transport;• Both biological and thermo-chemical pathways are necessary to provide technology
diversity, but the challenges in each pathway are different;• Large scale demonstrations are needed to boost market access;• Research needed to reduce cost, improve environmental impact and performance efficiency.
50 (23/06/2016)
Biofuels (2/2)
Advanced research (RIA) Cont.• LCE-22-2016
•Cooperation with Brazil on advanced lignocellulosic biofuelsDemonstration (IA)• LCE-19-2016-2017
• Biomass gasification (2016)• Biomass pyrolysis and torrefaction to intermediate bioenergy carriers
(2016)• Biochecmical conversion to diesel and jet fuels (2016)• Biofuels from waste flue gases / other wastes and residues (2017)• Biomass from aquatic biomass (2017)
• LCE-20-2016-2017• Pre-commercial production of advanced aviation biofuels
Market-uptake (CSA)• Market roll-out of liquid advanced biofuels and liquid renewable
alternative fuels – LCE-21-2017
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Renewable energy – Topic overview
Deadline 16 February 2016
• LCE-7 – budget 61,3 M€• LCE-8 – budget 10 M€• LCE-23 – budget 10 M€
IA – greenRIA – blue
CSA- orange
Deadline 8 September 2016
• LCE-9 – budget 25 M€• LCE-13 – budget 10 M€• LCE-15 – budget 15 M€• LCE-19 – budget 15 M€• LCE-20 – budget 15 M€• LCE-22 – budget 5 M€
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Deadline 5 January 2017
• LCE-8 – budget: 10 M€• LCE-21 – budget 15 M€
Deadline 7 September 2017
• LCE-10 – budget 10 M€• LCE-11 – budget 12 M€• LCE-12 – budget: 8 M• LCE-14 – budget 25 M€• LCE-16 – budget 7 M€• LCE-17 – budget 8 M€• LCE-18 – budget 10 M€• LCE-19 – budget 15 M€• LCE-20 – budget 10 M€
Renewable energy – Topic overview
*Provisional
Deadlines*: 1st stage: 29/11/2016
2nd: 22/8/2017• LCE-6 – budget 20 M€• LCE-7 – budget 63,5 M€*
RIA – blueIA – green
CSA- orange
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Decarbonisation of Fossil Fuels
● Fossil fuels will be used in Europe's power generation as well as in industrial processes for decades to come.
● A forward-looking approach to Carbon Capture and Storage (CCS) and Carbon Capture and Use (CCU) for the power and industrial sectors is crucial for reaching the 2050 climate objectives in a cost-effective way.
● Shale gas can contribute to our energy security, provided that issues of public acceptance and environmental impact are adequately addressed.
● New solutions for fossil fuel power plants to provide highly flexible yet efficient back-up power to stabilise the grid for RES integration.
Topics: LCE 27(15M€), 28 (15M€), 29 & 30 (20M€*), RIADeadline: 5/1/2017
*Provisional
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Social Sciences and Humanities (SSH)
• Socioeconomic incentive structures that encourage or discourage energy-responsible behaviour;
• Political, institutional, and organizational frameworks that condition and structure citizen participation, including questions of inclusiveness, gender, democracy, organizational formats and business models.
• Topic: LCE31 RIA. 10M€ budget. Prop 2-4M€Deadline: Dos fases: 1ª: 29/11/2016, 2ª: 22/8/2017
Transition to a low-carbon energy system is a complex societal problem because it changes the interrelations between all relevant actors in the
system (-> policy, economic, governance challenges)
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Supporting the development of the European Research Area in energy
• Encourage coordination of national and EU efforts to increase effectiveness and efficiency;
• Pool resources and create critical mass to address challenges that no country can tackle alone;
• Align efforts to develop a European Research Area in energy and to create the Energy Union, one of the political priorities of the Juncker Commission;
• The new Integrated SET Plan provides the strategic framework for setting priorities and for discussing implementation;Topic: LCE 35,37* (ERA-NETs)
*Provisional
56 (23/06/2016)
Cross-cutting issues
Support to the energy stakeholders to contribute to the SET-Plan (LCE-36-2016-2017)
• Areas supported for 2017*:– Geothermal Energy*
*Provisional
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Índice
oVisión General H2020oContexto PolíticooPrograma de Trabajo 2016-2017: Eficiencia energética Energía Baja en Carbono Ciudades Inteligentes
oOtros
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Call Smart Cities and Communities
Improving quality of live, competitiveness and sustainability
Exporting European knowledge in a strong growth market estimated globally at €1.3 trillion in 2020
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WP CROSS-CUTTING ACTIVITIES
(ii) Internet of Things
(iii) Smart and Sustainable Cities
(i) Industry 2020 in the Circular Economy
Smart Cities and Communities (SCC-01)
Sustainable cities though Nature-based solutions (SCC-02)
SCC-1-2016-2017: Smart Cities and Communities light house projects
SCC-2-2016-2017: Demonstrating innovative nature-based solutions in cities
SCC-3-2016: New gobernance, business, financing models and economic impact assessment tools for sustainable cities with nature-based solutions (urban re-naturing)
SCC-4-2016: Sustainable urbanisation
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WP 2016-2017Topic SCC-01
Smart and Sustainable Cities
Sustainable, cost-effective and replicable district-scale solutions at the intersection of energy, transport enabled by ICT
Intelligent, user-driven and demand-oriented city infrastructure and services
'Lighthouse project' approach continue
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INTEGRATION
BALANCED COMBINATION
REPLICATION
• smart buildings (existing/new)
• smart grids (electricity, DH, telecom, water, etc…)
• energy storage,
• electric vehicles and smart charging infrastructures,
• latest generation ICT platforms based on open specifications
Capitalizing on synergies between components to increase efficiency and reduce costs.
SCC1 calls 2016/2017 SCOPE
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Each PROJECTMust: • Be realised in 3 new ligthhouse cities situated in different EU member
states or associated countries.
• Involved at least 3 follower cities from at least 3 different EU member states or associated countries.
SCC1 calls 2016/2017 SCOPE
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City 1City 2
City 3
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City 1 City 2
City 3
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Important details
A city can be funded as a lighthouse city only once under Horizon2020
Follower cities are defined as cities that have not yet acquired the full technical
competence to become a lighthouse city
Sustainable Energy Actions Plans (SEAP - Covenant of Mayors approved or
evaluated by DG JRC as having at least similar quality) are obligatory for
lighthouse cities.
Performance monitoring for at least 2 years
Convincing and realistic work, replication and investment plans
Incorporate all performance data into SCIS (Smart Cities Information System)
SCC1 calls 2016/2017 SCOPE
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CALL CONDITIONS
Foreseen contribution from the EU: between EUR 12 to 18 million / selected project
Call 2017: Deadline: 14 February 2017Budget: 71,5 M.€
FAQ: https://ec.europa.eu/research/participants/portal/desktop/en/support/faq.html
Type of action: Innovation Action (IA)
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Índice
oVisión General H2020oContexto PolíticooPrograma de Trabajo 2016-2017: Eficiencia energética Energía Baja en Carbono Ciudades Inteligentes
oOtros
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Energy outside the Energy Challenge
Cross-thematic priorities
Bottom-up activities
Implementation
• Materials, Key Enabling Technologies• ICT• Energy-efficiency in buildings/industry • Biomass production• Energy in transport• Socio-economics• Access to risk finance• Research Infrastructures
• European Research Council (ERC)• Marie Skłodowska-Curie actions • Future and Emerging Technologies (FET)• Fast-track to Innovation
• European Commission/ Executive Agencies• Public-Private Partnerships• Joint Technology Initiatives (JTI)• EIT – KIC InnoEnergy• European Investment Bank
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- Multi-annual Work-Plan 2014-2020 (support H2020)- EU budget: 665 mill. EUR- Objectives: reduce the (production) cost, increase the lifetime, increase
the efficiency, reduce ‘Critical raw materials’
JTI-FCH 2014-2020
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Y no olvidar…
Instrumento Pyme Piloto de Fast Track to Innovation APC Programa de gestores en SOST Seminario de gestores…
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Roles en la gestión de Horizonte 2020
PARTICIPANTES
NCP
REPRESENTANTE
CCAA, MinisteriosExpertos
Mª Pilar González Gotor (NCP CDTI):[email protected]
Virginia Vivanco (NCP IDAE): [email protected]
Cristina Quintana (NCP CIEMAT): [email protected]
Mª Luisa Revilla:[email protected]
MUCHAS GRACIASPilar González Gotor
Reto Energía – Horizonte 2020División Programas Europeos- CDTI