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Transcript of H2020 energía limpia, segura y eficiente próximas oportunidades de participación
H2020: ENERGÍA LIMPIA, SEGURA Y EFICIENTE:
PRÓXIMAS OPORTUNIDADES DE
PARTICIPACIÓN
Pilar González GotorNCP Energía H2020
División de Programas de la UECDTI
Barcelona 21 de diciembre de 2016
Índice
oContexto PolíticooPrograma de Trabajo 2016-2017: Eficiencia energética Energía Baja en Carbono Ciudades Inteligentes
oOtros
Índice
oContexto PolíticooPrograma de Trabajo 2016-2017: Eficiencia energética Energía Baja en Carbono Ciudades Inteligentes
oOtros
5 (22/12/2016)
Political Context
2030 Climate-Energy Package• 40% reduction of Greenhouse Gases
• 27% of renewable energy
• 30% 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)
R&I as drivers for the 3 overarching goals of the Winter Package:
• Energy efficiency first
• Europe as a global leader in renewables
• A fair deal for consumers
CLEAN ENERGY FOR ALL EUROPEANS
6
Clean Energy R&Ias a part of the Energy Union Winter Package
7 (22/12/2016)
Índice
oContexto 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
Technologies36 topics
Budget: 720,22 M.€
Smart Cities and
Communities1 topic
Budget: 131,5 M.€
EASME
(EACI)
INEA
(TEN-T EA)
RS3: Programme Structure Call 2016-2017
Cross-Cutting activities
9 (22/12/2016)
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)
10 (22/12/2016)
Índice
oContexto PolíticooPrograma de Trabajo 2016-2017: Eficiencia energética Energía Baja en Carbono Ciudades Inteligentes
oOtros
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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%
≥30%
2020
2030
PPP E2BPPP SPIRE
12 (22/12/2016)
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
13 (22/12/2016)
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
Research and innovation of efficient and low-carbon H&C technologies. Calefacción de distrito de baja temperatura con edificios de alto rendimiento.
14 (22/12/2016)
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
15 (22/12/2016)
• 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
16 (22/12/2016)
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.
17 (22/12/2016)
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-14-2016-2017
Construction skills
18 (22/12/2016)
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
.
19 (22/12/2016)
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
• 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
20 (22/12/2016)
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
21 (22/12/2016)
Financing Energy Efficiency – Topics 2016-2017
• Topic EE-22-2016-2017
Aggregation - Project development assistance
• EE-23-2017
Market based culture - Energy efficiency services and innovative financing schemes
22 (22/12/2016)
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 – green
CSA- orange
ERA-NET – black
PPI - purple
EUR 4 million
EUR 5 millionEUR 7 million
EUR 8 million
EUR 11 million
EUR 4 million
EUR 8 million
EUR 8 million
23 (22/12/2016)
Índice
oContexto PolíticooPrograma de Trabajo 2016-2017: Eficiencia energética Energía Baja en Carbono Ciudades Inteligentes
oOtros
24 (22/12/2016)
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
25 (22/12/2016)
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
26 (22/12/2016)
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. 65,29 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**0.1 to 1 MEur if area 5 alone
27 (22/12/2016)
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.
28 (22/12/2016)
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-11
Solar Heating
and CoolingLCE-12
Wind Energy LCE-13, LCE-14
LCE-21
Ocean Energy LCE-15, LCE-16
Hydropower
Geothermal
Energy
LCE-17, LCE-23, LCE-
18
CHP
RES integration
in the system
Bio- and
Renewable
Alternative FuelsLCE-8, LCE-22
LCE-19, LCE-20
29 (22/12/2016)
Photovoltaics (PV)
Basic research (RIA)
• Upscaling technologies currently at lab-scale (excluding activities funded underNMBP 19-2016!) - LCE-6-2017
Advanced research (RIA)
• Next generation of perovskite PV cells and modules – LCE-7-2016-2017
Demonstration (IA)
• 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
30 (22/12/2016)
Concentrated Solar Power (CSP)
Basic research (RIA)
• Upscaling technologies currently at lab-scale - LCE-6-2017
Advanced research (RIA)
• New cycles and power blocks for reducing costs of CSP plants – LCE-7-2016-2017
Demonstration (IA)
• Reducing water consumption of CSP plants – LCE-11-2017 (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).
31 (22/12/2016)
Solar Heating and Cooling (SHC)
Basic research (RIA)
• Upscaling technologies currently at lab-scale - LCE-6-2017
Advanced research (RIA)
• Development of components for residential single-family solar-active houses – LCE-7-2016-2017
Demonstration (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
32 (22/12/2016)
Geothermal energy
Basic research (RIA)
• Upscaling technologies currently at lab-scale - LCE-6-2017
Advanced research (RIA)
• Materials for geothermal installations (deep geothermal) – LCE-7-2016-2017
Demonstration (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.
33 (22/12/2016)
Wind energy
Basic research (RIA)
• Improved understanding of the physics of wind as primary energy source and windenergy technology - LCE-6-2017
Advanced research (RIA)
• Reduction of environmental impact – LCE-7-2016-2017
Demonstration (IA)
• Large >10 MW wind turbines (logistics) – 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
34 (22/12/2016)
Ocean energy
Basic research (RIA)
• Upscaling technologies currently at lab-scale - LCE-6-2017
Advanced research (RIA)
• Innovative power take-off systems and control strategies – LCE-7-2016-2017
Demonstration (IA)
• 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
35 (22/12/2016)
Combined Heat and Power (CHP)
Basic research (RIA)
• Upscaling technologies currently at lab-scale - LCE-6-2017
Advanced 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.
36 (22/12/2016)
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.
37 (22/12/2016)
Biofuels (1/2)
Basic research (RIA)
• Diversification of renewable fuel production through novel conversion routes/fuels -LCE-6-2017
Advanced 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.
38 (22/12/2016)
Biofuels (2/2)
Demonstration (IA)
• LCE-19-2016-2017
• 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 renewablealternative fuels – LCE-21-2017
39 (22/12/2016)
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
Deadlines: 1st stage: 29/11/2016
2nd: 22/8/2017
• LCE-6 – budget 20 M€
• LCE-7 – budget 64,5 M€RIA – blueIA – green
CSA- orange
40 (22/12/2016)40
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€), RIA
Deadline: 5/1/2017
41 (22/12/2016)
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)
42 (22/12/2016)
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)
43 (22/12/2016)
Cross-cutting issues
Support to the energy stakeholders to contribute to the SET-Plan (LCE-36-2016-2017)
• Areas supported for 2017*:
– Geothermal Energy
44 (22/12/2016)
Índice
oContexto PolíticooPrograma de Trabajo 2016-2017: Eficiencia energética Energía Baja en Carbono Ciudades Inteligentes
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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
46 (22/12/2016)
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
47 (22/12/2016)
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
48 (22/12/2016)
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
49 (22/12/2016)
Each PROJECT
Must:
• 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
52 (22/12/2016)
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
53 (22/12/2016)
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)
55 (22/12/2016)
Índice
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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
57 (22/12/2016)
- 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
60
Tasas de éxito globales – 2014-2015Propuestas Proyectos Tasa de Éxito
EE 781 87 11,1%
LCE 615 115 18,7%
SCC 80 9 11,2%
Total 1476 211 14,3%
RETORNOS – RS ENERGIA 2014-2015
1476 propuestas, de las cuales 211 se han financiadoEn 124 proyectos aprobados hay participación española (58,7%)
33 proyectos de los financiados están liderados por españoles. (15,6%)Retorno UE (27) – 13,1% (141,1 M.€) (Total adjudicado: 1.077,6 M.€)
2º Pais en retornos por detrás de Alemania (15,7%), y seguido de UK (13%)55% de participación empresarial en proyectos aprobados.
61
Calls EE 2014 y 2015:
0,0
2,0
4,0
6,0
8,0
10,0
12,0
14,0
16,0
18,0
20,0
Call EE - 2014-2015. Retornos por paísesM.€
De 87 proyectos, en 52 hay participación española.15 proyectos liderados por España.
12,2% - tasa de éxito española.Entidades más destacadas: CIRCE, Diput.Girona, Giroa, SA, Wellness SC SL, Escan
SL, UPCatalunya, Tekniker, Deloitte, Accional Infraestructura
62
Calls LCE 2014 y 2015:
0,0
20,0
40,0
60,0
80,0
100,0
120,0
140,0
Call LCE - 2014-2015. Retornos por paísesM.€
De 115 proyectos, en 64 hay participación española.15 proyectos liderados por España.
19,6% - tasa de éxito española. Retorno España 12,1%Entidades más destacadas: Acciona Infra, Esteyco, SA, Tecnalia, Adwen OS,SL, EDP
Renovables, SL, F.CENER-CIEMAT, CIRCE, Ciemat, CSIC.
63
SCC 2014 y 2015: Light House Projects, CSA
9 proyecto con participación española en 8. 3 liderados por España
Lighthouse cities: VALLADOLID, BARCELONA, SAN SEBASTIAN, VITORIAFollowers: SABADELL, SANTIAGO DE COMPOSTELA
Lideres: Tecnalia, Fundación Cartif, Fomento de S.Sebastian, S.A.
64
Resultados RS-ENERGIA WP2014-2015
Empresa 55,7%
Admon.Pca12,7%
CT 11,7%
Univ. 7,3%
CPI 5,4%
Asoc. Invest 4,6%
Asoc.2,7%
Por tipo de Entidad:
40,9 39,2
20,0
9,57,5
5,0 4,9 4,5 4,41,9 1,1 0,7 0,6 0,5 0,2 0,2
0,0
5,0
10,0
15,0
20,0
25,0
30,0
35,0
40,0
45,0
M.€ - Estadisticas por CCAA
66
7,1
5,8
4,74,4 4,4
3,83,1
2,6 2,5 2,3 2,1
1,00,7 0,5 0,5 0,5
2,0
0,0
1,0
2,0
3,0
4,0
5,0
6,0
7,0
8,0
Resultados EE-RIA/IA Deadline 21/1/2016Estadísticas, retorno por país.
15 propuestas a financiar – Subvención solicitada: 47,76 M.€ Subv.España: 4,4 M.€
67
26,7
12,3 11,4
9,48,0 7,7 7,5
5,84,8 4,4 3,9 3,4 3,3 3,0 3,0 2,0 1,3 1,2 1,0 1,0
3,7
0,0
5,0
10,0
15,0
20,0
25,0
30,0
Resultados convocatoria Renovables, CCS, SSH . Deadline: 16 febrero 2016. Estadísticas, retorno por país.
Retorno económico provisional en M.€
ESPAÑA: De un total de 24 proyectos financiados en esta convocatoria, 5 son liderados por España. 23 participaciones españolas financiadas de un total de
276. Retorno España: 9,4 M.€ de un total de 125 M.€ adjudicados.
68
Resultados 2ª convocatoria SGS Estadísticas, retorno por país.
Retorno económico provisional en M.€
12,5
11,1
8,07,2 7,1 6,9 6,5
5,9 5,8 5,6 5,34,8
4,03,0 2,6 2,3 2,0
1,2 1,1 1,01,7
0,0
2,0
4,0
6,0
8,0
10,0
12,0
14,0
ESPAÑA: De un total de 13 proyectos financiados en esta convocatoria, 4 son liderados por España. 21 participaciones españolas financiadas de un total de
171. Retorno España: 12,5 M.€ de un total de 105,6 M.€ adjudicados.
69
6,7
5,4 5,1 4,94,5
4,1
2,4
1,1 1,10,6 0,4 0,1 0,1
0,0
1,0
2,0
3,0
4,0
5,0
6,0
7,0
8,0
Call 2016 - SCC
Call 2016:Sólo 8 propuestas evaluadas, y 2 financiadas (2014 – 19 (3); 2015 – 37(4)
Budget inicial: 60 M.€ - Sólo se adjudica 36,35 M.€Retorno España: 2,38 M.€ (6,5% UE-27 y Total)
7ª posicion en retorno
70 (22/12/2016)
Y no olvidar…
Instrumento Pyme APC Programa de gestores en SOST Seminario de gestores…
29/01/2016 71
"The SME instrument is not an R&D programme. It is an accelerator for market introduction of promising
technological or non-technological innovations."
Subvención en fases para PYMES.
Sin requisito mínimo de consorcio.
Sólo para PYME como socios.
Subcontratación libre.
4 fechas de corte al año
CIERRE FASE 2 18/01/2017 CIERRE FASE 1 15/02/2017CIERRE FASE 2 06/04/2017CIERRE FASE 1 03/05/2017 CIERRE FASE 2 01/06/2017 CIERRE FASE 1 06/09/2017 CIERRE FASE 2 18/10/2017 CIERRE FASE 1 08/11/2017
29/01/2016 72
Implementación a través de topicsTopics
Budgets (EUR million)
2016 2017
SMEInst-01-2016-2017: Open Disruptive Innovation Scheme 60,00 66,00
SMEInst-02-2016-2017: Accelerating the uptake of nanotechnologies advancedmaterials or advanced manufacturing and processing technologies by SMEs
31,83 35,32
SMEInst-03-2016-2017: Dedicated support to biotechnology SMEs closing the gap fromlab to market
7,50 7,50
SMEInst-04-2016-2017: Engaging SMEs in space research and development 11,37 12,60
SMEInst-05-2016-2017: Supporting innovative SMEs in the healthcare biotechnologysector
35,00 45,00
SMEInst-06-2016-2017: Accelerating market introduction of ICT solutions for Health,Well-Being and Ageing Well
18,00 12,50
SMEInst-07-2016-2017: Stimulating the innovation potential of SMEs for sustainableand competitive agriculture, forestry, agri-food and bio-based sectors
25,81 32,54
SMEInst-08-2016-2017: Supporting SMEs efforts for the development - deploymentand market replication of innovative solutions for blue growth
9,50 10,00
SMEInst-09-2016-2017: Stimulating the innovation potential of SMEs for a low carbonand efficient energy system
46,00 50,00
SMEInst-10-2016-2017: Small business innovation research for Transport and SmartCities Mobility
57,57 61,23
SMEInst-11-2016-2017: Boosting the potential of small businesses in the areas ofclimate action, environment, resource efficiency and raw materials
25,00 27,50
SMEInst-12-2016-2017: New business models for inclusive, innovative and reflectivesocieties
10,80 11,40
SMEInst-13-2016-2017: Engaging SMEs in security research and development 15,37 14,67
Overall indicative budget 353,75 386,26
29/01/2016 73
Fase 1:
Análisis de viabilidad
Fase2:
Proyecto de Innovación
• Viabilidad del concepto.
• Análisis de riesgos.
• Régimen PI.
• Planteamiento de proyecto.
• Estudio de diseño/s.
• Estrategia de innovación
• Desarrollo I+D, prototipos, y/o ensayos.
• “Demostrar” procesos, productos o servicios innovadores.
• Diseño de productos
• Planificación y desarrollo del escalado industrial.
• Actualización modelo de negocio.
Subvención (lump sum):50 k€ / 6 meses
Fase 3: Comercialización
Subvención70% Reembolso de costes1-2,5 M€ financiación EC
12 -24 meses
• Etiqueta calidad para proyectos exitosos.
•Acciones de soporte a través de networking, formación, coaching, información ,etc.
•Dirigidos a la gestión de IPR, compartir conocimiento y promoción y difusión.
Sin financiación directa
Y
N
Y
N
Esquema de “Mentoring y Coaching” para las PYMES beneficiarias
Otros
Consorcios
y/o PYMES
Fases del Instrumento PYMEId
ea/
Co
nce
pto
Pla
n d
e N
ego
cio
s I
Output: Plan de Negocio II Output: Plan de Negocio III “Investor ready”
29/01/2016 74
Enlaces
https://ec.europa.eu/inea/en/news-events/events/2016-info-day-horizon-2020-smart-grids-and-storage
http://ec.europa.eu/research/index.cfm?pg=events&eventcode=E8549B02-9403-39F9-E71BF7B28BF5B857
https://ec.europa.eu/inea/en/news-events/events/h2020-energy-research-virtual-info-day
https://ec.europa.eu/easme/en/horizon-2020-secure-clean-and-efficient-energy-info-day
https://ec.europa.eu/inea/en/news-events/events/2016-information-day-horizon-2020-smart-cities-and-communities
75 (22/12/2016)
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 GRACIAS
Pilar González Gotor
Reto Energía – Horizonte 2020
División Programas Europeos- CDTI
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