This document discusses opportunities for participation in the Horizon 2020 program related to clean, secure, and efficient energy. It provides context on relevant EU political goals and frameworks. The 2016-2017 work program is outlined, focusing on energy efficiency, low-carbon energy, and smart cities topics. Specific funding opportunities are highlighted within areas like heating and cooling, renewable energy technologies, energy systems, and more. Budget amounts and deadlines are indicated for various calls within the energy program.
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H2020 energía limpia, segura y eficiente próximas oportunidades de participación
1. H2020: ENERGÍA LIMPIA,
SEGURA Y EFICIENTE:
PRÓXIMAS OPORTUNIDADES DE
PARTICIPACIÓN
Pilar González Gotor
NCP Energía H2020
División de Programas de la UE
CDTI
mpilar.gonzalez@cdti.es
Barcelona 21 de diciembre de 2016
5. 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)
6. 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&I
as a part of the Energy Union Winter
Package
9. 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)
12. 12 (22/12/2016)
Heating & Cooling
• Tackling H&C consumption –
Moderating demand
• Increasing energy efficiency
in supply
• Maximising use of local sustainable
and renewable energy sources
• Recovering waste heat
• Linking with electricity system
• Achieving affordable costs
13. 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. 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. 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. 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. 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. 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. 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. 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. 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 (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 million
EUR 7 million
EUR 8 million
EUR 11 million
EUR 4 million
EUR 8 million
EUR 8 million
24. 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. 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. 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. 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. 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-10
LCE-21
CSP LCE-11
Solar Heating
and Cooling
LCE-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 Fuels
LCE-8, LCE-22
LCE-19, LCE-20
29. 29 (22/12/2016)
Photovoltaics (PV)
Basic research (RIA)
• Upscaling technologies currently at lab-scale (excluding activities funded under
NMBP 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. 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. 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. 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. 33 (22/12/2016)
Wind energy
Basic research (RIA)
• Improved understanding of the physics of wind as primary energy source and wind
energy 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. 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. 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. 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. 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 biochemical
conversion by autotrophic ( chemo and photo –autotrophic) micro-organisms;
• Biofuels from organic fraction of municipal and industrial wastes through
thermochemical, biochemical or chemical pathways with improved
performance 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. 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 renewable
alternative fuels – LCE-21-2017
40. 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. 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. 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)
45. 45 (22/12/2016)
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. 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. 47 (22/12/2016)
WP 2016-2017
Topic 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. 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. 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. 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. 53 (22/12/2016)
CALL CONDITIONS
Foreseen contribution from the EU: between EUR 12 to 18 million /
selected project
Call 2017:
Deadline: 14 February 2017
Budget: 71,5 M.€
FAQ:
https://ec.europa.eu/research/participants/portal/desktop/en/support/faq.
html
Type of action: Innovation Action (IA)
56. 56 (22/12/2016)
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. 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. 60
Tasas de éxito globales – 2014-2015
Propuestas 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 financiado
En 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. 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. 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. 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, VITORIA
Followers: SABADELL, SANTIAGO DE COMPOSTELA
Lideres: Tecnalia, Fundación Cartif, Fomento de S.Sebastian, S.A.
67. 67
26,7
12,3 11,4
9,4
8,0 7,7 7,5
5,8
4,8 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. 68
Resultados 2ª convocatoria SGS Estadísticas, retorno por país.
Retorno económico provisional en M.€
12,5
11,1
8,0
7,2 7,1 6,9 6,5
5,9 5,8 5,6 5,3
4,8
4,0
3,0 2,6 2,3 2,0
1,2 1,1 1,0
1,7
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.
70. 70 (22/12/2016)
Y no olvidar…
Instrumento Pyme
APC
Programa de gestores en SOST
Seminario de gestores…
71. 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 15/02/2017
CIERRE FASE 2 06/04/2017
CIERRE 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
72. 29/01/2016 72
Implementación a través de topics
Topics
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 advanced
materials or advanced manufacturing and processing technologies by SMEs
31,83 35,32
SMEInst-03-2016-2017: Dedicated support to biotechnology SMEs closing the gap from
lab 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 biotechnology
sector
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 sustainable
and competitive agriculture, forestry, agri-food and bio-based sectors
25,81 32,54
SMEInst-08-2016-2017: Supporting SMEs efforts for the development - deployment
and 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 carbon
and efficient energy system
46,00 50,00
SMEInst-10-2016-2017: Small business innovation research for Transport and Smart
Cities Mobility
57,57 61,23
SMEInst-11-2016-2017: Boosting the potential of small businesses in the areas of
climate action, environment, resource efficiency and raw materials
25,00 27,50
SMEInst-12-2016-2017: New business models for inclusive, innovative and reflective
societies
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
73. 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
Subvención
70% Reembolso de costes
1-2,5 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 PYMEIdea/Concepto
PlandeNegociosI
Output: Plan de Negocio II Output: Plan de Negocio III
“Investor ready”