HORIZONTE 2020: EL NUEVO PROGRAMA MARCO.
ENERGÍA SEGURA, LIMPIA Y EFICIENTE CONVOCATORIAS SEPTIEMBRE 2014
Guillermo ÁLVAREZ JIMÉNEZ
División Programas de la UE Dirección de Programas Internacionales
CDTI
Índice
1. Introducción. Aspectos generales de Horizonte 2020:
Estructura y Presupuesto
2. Condiciones y proceso de participación
3. Reto Social 3: Energía limpia, segura y eficiente. WP 2014-2015
4. Convocatorias Sept 2014
Evolución histórica del presupuesto del PM
7,56,3
6,7
6,58,3
4,9
5,1
7,3
6,3
10,8
0
2
4
6
8
10
12
III PM IV PM V PM VI PM VII PM*
Retorno (%UE-27)
Liderazgo proyectos (%)
Participación Española
140,1
29,911,2
210,9
13,2
47,9
572,5
305,5
69,6
5,8
146,0
366,9
297,1
0,59,1
161,6
8,2
255,2
111,3
206,8
9,2%
6,0%
6,0%
12,9%
8,8%
8,0%
8,3%
6,1%
5,2%
7,3%
9,6%
11,2%
9,7% 9,6%
5,2%
14,6%
13,0%
5,5%
9,3%
7,7%
0%
4%
8%
12%
16%
0
100
200
300
400
500
600
700
BIO CSH CYS* ENE ERA ESP ICT IDE* IIN* INC* MA NMP PER* POL* POT* PYM REG SAL SEG TRS
M€
4 (04/07/2014)
H O R I Z O N T E 2 0 2 0 : El objetivo
Aunar los esfuerzos de investigación e innovación.
Más apertura y flexibilidad, convocatorias menos
prescriptivas y mejor uso de los instrumentos bottom-up.
Financiación EU enfocada a los grandes retos sociales
y da apoyo a los objetivos de las políticas de la UE.
Continuidad de los aspectos “exitosos” del VII PM.
(ERC, Marie Curie, proyectos colaborativos...)
Simplificación.
Apoyo en toda la cadena de la innovación, especialmente en
actividades cercanas al mercado (ej. Demos, pilotos).
5 (04/07/2014)
¿Qué es Horizonte 2020?
ICT
Nanotechnology
Biotechnology
Advanced Materials
Advanced Manufacturing & Processing
Space
Access to Risk Finance
Innovation in SMEs
European Research Council (ERC)
Future and Emerging Technologies (FET)
Marie Skłodowska-Curie actions on skills, training and career development
European research infrastructures
Health, demographic change and wellbeing
Food security, sustainable agriculture and forestry, marine and maritime and inland water research and the bioeconomy;
Secure, clean and efficient energy;
Smart, green and integrated transport;
Climate action, environment, resource efficiency and raw materials
Secure Societies: Protecting freedom and security of Europe and its citizens
Europe in a changing world-Inclusive, innovative and reflexive societies
Excellent Science
Societal Challenges
Industrial Leadership
Programa Marco de Investigación e Innovación (2014-2020)
6 (04/07/2014)
Índice
1. Introducción. Aspectos generales de Horizonte 2020: Estructura
y Presupuesto
2. Condiciones y proceso de participación
3. Reto Social 3: Energía limpia, segura y eficiente. WP 2014-2015
4. Convocatorias Sept 2014
8 (04/07/2014)
HORIZON 2020: Las reglas (que cambian)
Conjunto de reglas único… pero flexible para cada caso.
(p.e Participación de 3 entidades de tres países, salvo en
ERC, instrumento PYME, Marie Curie,…)
Criterios de evaluación continuistas: Excelencia, Impacto,
Implementación.
Cambio radical en la financiación por reembolso de costes.
–1 proyecto= 1 porcentaje fijo. (100% o 70%)
–1 único flat rate para costes indirectos del 25%.
Aumento de tipo de instrumentos financieros. (no sólo GA
sino también premios, Lump Sums, Capital riesgo, Esquemas
de garantías, Compra pública precomercial o innovadora,…)
9 (04/07/2014)
Actividades Tipo de participantes Comisión Europea Consejo (PGA)*
20% 25% 20% Reales
Universidades/ Centros
de investigación/ PYME/
Otros sin ánimo de lucro
100% 70%
Empresas (grandes) 70% 50%
Universidades/ Centros
de investigación/ Otros
sin ánimo de lucro
100% 100% 70%
PYME 70% 100% 70%
Empresas (grandes) 70% 70% 50%
Nota: Adicionalmente se contará con la financiación del BEI mediante créditos
Financiación propuesta para las actividades en Horizonte 2020
% FINANCIACIÓN
I+D
Actividades cercanas
al mercado,
desarrollo
experimental
Parlamento Europeo
Costes indirectos (% costes directos)
100%
70%
100%
HORIZON 2020: Financiación
Actividades Tipo de participantes Comisión Europea Consejo (PGA)*
20% 25% 20% Reales
Universidades/ Centros
de investigación/ PYME/
Otros sin ánimo de lucro
100% 70%
Empresas (grandes) 70% 50%
Universidades/ Centros
de investigación/ Otros
sin ánimo de lucro
100% 100% 70%
PYME 70% 100% 70%
Empresas (grandes) 70% 70% 50%
Nota: Adicionalmente se contará con la financiación del BEI mediante créditos
Financiación propuesta para las actividades en Horizonte 2020
% FINANCIACIÓN
I+D
Actividades cercanas
al mercado,
desarrollo
experimental
Parlamento Europeo
Costes indirectos (% costes directos)
100%
70%
100%
Actividades Tipo de participantes Comisión Europea Consejo (PGA)*
20% 25% 20% Reales
Universidades/ Centros
de investigación/ PYME/
Otros sin ánimo de lucro
100% 70%
Empresas (grandes) 70% 50%
Universidades/ Centros
de investigación/ Otros
sin ánimo de lucro
100% 100% 70%
PYME 70% 100% 70%
Empresas (grandes) 70% 70% 50%
Nota: Adicionalmente se contará con la financiación del BEI mediante créditos
Financiación propuesta para las actividades en Horizonte 2020
% FINANCIACIÓN
I+D
Actividades cercanas
al mercado,
desarrollo
experimental
Parlamento Europeo
Costes indirectos (% costes directos)
100%
70%
100%
10 (04/07/2014)
Otras novedades:
IVA elegible si no es recuperable
Mayor aceptación de las prácticas contables de los participantes para los costes directos.
No “time-sheet” para personal trabajando a tiempo completo
Certificados de auditoría: al final y si se supera 325.000 € por socio.
Capacidad financiera ex ante solo cuando se solicite más de 500 K.€ y sólo para coordinadores.
Plazo hasta contrato: 8 meses
La capacidad financiera puede ser avalada por otro beneficiario
Nuevas reglas de financiación
11 (04/07/2014)
R&I Activities 100% Innovation Activities
70%
Coordination & Support Actions
100%
SME Instrument
Otras acciones
¿Cómo funciona?
ERA-Nets
12 (04/07/2014)
RIA 100%
IA 70%
• TRL 1: Basic Principles Observed
• TRL 2: Technology Concept formulated
• TRL 3: Experimental Proof of Concept
• TRL 4: Technology Validated in lab
• TRL 5: Technology Validated in Relevant Environment (industrially relevant environment in the case of KET)
• TRL 6: Technology Demonstrated in Relevant Environment (industrially relevant environment in the case of KET)
• TRL 7: System Prototype Demonstration in Operational Environment
• TRL 8: System Complete and Qualified
• TRL 9: Actual system proven in Operational Environment
Technology Readiness Levels
Índice
1. Introducción. Aspectos generales de Horizonte 2020: Estructura
y Presupuesto
2. Condiciones y proceso de participación
3. Reto Social 3: Energía limpia, segura y eficiente. WP
2014-2015
4. Convocatorias Sept 2014
14 (04/07/2014)
Horizonte 2020
ICT
Nanotechnology
Biotechnology
Advanced Materials
Advanced Manufacturing & Processing
Space
Access to Risk Finance
Innovation in SMEs
European Research Council (ERC)
Future and Emerging Technologies (FET)
Marie Skłodowska-Curie actions on skills, training and career development
European research infrastructures
Health, demographic change and wellbeing
Food security, sustainable agriculture and forestry, marine and maritime and inland water research and the bioeconomy;
Secure, clean and efficient energy;
Smart, green and integrated transport;
Climate action, environment, resource efficiency and raw materials
Secure Societies: Protecting freedom and security of Europe and its citizens
Europe in a changing world-Inclusive, innovative and reflexive societies
Excellent Science Societal Challenges
Industrial Leadership
Programa Marco de Investigación e Innovación (2014-2020)
15 (04/07/2014)
Añadir valor a escala de la UE
Fijar prioridades – integración de tecnologías energéticas para conseguir un mayor impacto en el sistema energético global- versus- desarrollo de tecnologías
Integrar acciones en la cadena de valor de la innovación energética
Puesta en común de recursos y el uso de una cartera de instrumentos financieros
Centrar la atención en tecnologías prometedoras más allá del 2020.
Principios Generales
16 (04/07/2014)
• Programa de Trabajo Bienal (2014, 2015) (LINK) • Horizonte 2020 Energía = VII PM Energía + CIP IEE + TIC
Energía + BEI RSFF Energía • Financiación de la Investigación a la Innovación • Basado en Retos – Soluciones a Problemas • Aproximación transversal: inputs y colaboración de otras
“partes” de Horizonte 2020 . Colaboración multidisciplinar (incluido ciencias sociales y humanidades)
• Importancia de proyectos demostración y despliegue comercial
• Uso de los TRLs para especificar el alcance de las actividades
Energía segura, limpia y eficiente - WP
17 (04/07/2014)
Secure Clean end efficient Energy
Energy Efficiency 21 topics
Low Carbon Technologies
22 topics
Smart Cities and Communities
6 topics
EASME
(EACI)
INEA
(TEN-T EA)
Estructura programa de ENERGIA
18 (04/07/2014)
• Convocatoria de Eficiencia Energética • Edificios y Consumidores - PPP EeB • Calor y Frío • Industria y Productos - PPP SPIRE • Financiar la Eficiencia Energética
• Ciudades y Comunidades Inteligentes – EIP SCC
• 'Light-house projects‘ • Medidas de apoyo para fomentar el despliegue de las
soluciones para Ciudades y Comunidades estimulando la demanda del mercado.
Energía segura, limpia y eficiente - Estructura
19 (04/07/2014)
• Competitive low-carbon energy (LCE)
– Incluye TODAS las Renovables (Electricidad & Calor y Frio), Bioenergía, Redes, Almacenamiento y CCS, como áreas importantes.
– También incluye los aspectos de FET, Aspectos Socioeconómicos
– Enfoque Bottom-up tecnológico radical y asociado a indicadores
Energía segura, limpia y eficiente - Estructura
20 (04/07/2014)
CALLs 2014 (M€) 2015 (M€) Total
Energy Efficiency 97,5 98,15 195,65
Smart Cities and Communities 92,32 108,18 200,50
Competitive Low-Carbon Energy 359,4 372,33 731,73 SMEs and Fast Track to Innovation 33,95 37,26 71,21
Part b-Other actions 75 61 136
Total 658,17 676,92 1335,09
Energía segura, limpia y eficiente - Budget WP 2014-2015 (22,5%)
Índice
1. Introducción. Aspectos generales de Horizonte 2020: Estructura
y Presupuesto
2. Condiciones y proceso de participación
3. Reto Social 3: Energía limpia, segura y eficiente. WP 2014-2015
4. Convocatorias Sept 2014
22 (04/07/2014)
Competitive Low Carbon Technologies
Renewable electricity and heating & cooling
Modernising the European Electricity grid
Providing the energy system with flexibility through enhanced energy storage tech.
Sustainable biofuels and alternative fuels for the European transport fuel mix
Enabling the sustainable use of fossil fuels in the transition to a low-carbon economy
Supporting the development of a ERA in the field of energy
Social, environmental and economic aspects of the energy system AND Cross-cutting issues
LCE-2
LCE-3
LCE-11
LCE-12
LCE-15 y 17
LCE-20
LCE-19
23 (04/07/2014)
RIA IA CSA
First application
AREA TRL TYPE
LCE 1 New knowledge and technologies 2 > 3-4 RIA
Renewable electricity and heating/cooling
TRL TYPE
LCE 2 Developing the next generation technologies of renewable electricity and heating/cooling
3-4 > 4-5 RIA
LCE 3 Demonstration of renewable electricity and heating/cooling
5-6 > 6-7 IA
LCE 4 Market uptake of existing and emerging renewable electricity, heating and cooling technologies
7-9 CSA
24 (04/07/2014)
Specific challenges:
2014 2015
Photovoltaics Developing next generation high performance PV cells and modules
Developing very low cost PV cells and modules
CSP Making CSP plants more cost competitive
Improve the environmental profile of the CSP technology
Wind Energy Develop control strategies and innovative substructure concepts
Substantially reduce the cost of wind energy
Ocean Energy Develop emerging designs and components
Ensure efficiency and effective long term cost reduction and high levels of reliability and survivability
Hydro Power Boosting peak power through sustainable hydropower
Increasing flexibility of hydropower
Deep Geothermal Energy
New drilling technologies and concepts for geothermal energy
Development of new technologies and concepts for geothermal energy.
Renewable H&C: i. Solar Cooling systems: ii. Improving efficiency of biomass
CHP systems while widening the feedstock base.
i. Solar heating for industrial processes. ii. Improving efficiency of low emission biomass CHP systems while widening the feedstock base
LC2-2014/15: Developing the next generation technologies of Renewable Electricity and Heating & Cooling
25 (04/07/2014)
Specific challenges:
2014 2015
Photovoltaics Accelerating the developmen of the EU Inorganic Thin-film industry.
PV integrated in the built environment
CSP Improving the flexibility and predictability of CSP generation
Wind Energy Demonstration and testing of new nacelle and rotor prototypes
Demonstrating innovative substructure and floating concepts
Ocean Energy Demonstration of ocean energy technologies
Demonstration of ocean energy technologies
Deep geothermal energy
Testing of enhanced geothermal systems in different geological environments
Renewable H&C/ Geothermal energy
Shallow geothermal energy: Improved vertical borehole drilling technologies to enhance safety and reduce costs.
Demonstration of solar technologies for residential and non residential buildings
LC3-2014/15: Demonstration of Renewable electricity and Heating & Cooling technologies
26 (04/07/2014)
Sustainable biofuels and alternative fuels for transport
TRL TYPE
LCE 11 Developing next generation technologies for biofuels and sustainable alternative fuels
3-4 > 4-5 RIA
LCE 12 Demonstrating advanced biofuel technologies 5-6 > 6-7 IA
LCE 14 Market uptake of existing and emerging sustainable bioenergy
7-9 CSA
Call LCE - Topics
RIA IA CSA
First application
27 (04/07/2014)
LCE-11 – 2015 – Developing next generation technologies for biofuels and sustainable alternative fuels (Two stage evaluation)
Europe has limited biomass and land resources to cope with
an increased demand for fuels and other uses. Thus, in the
long-term perspective, new technologies of sustainable
biofuels and alternative fuels need to be developed that
radically improve the state-of-art.
The challenges are
• Improving conversion efficiency and/or enlargement of the
biomass feedstock basis.
• Developing alternative fuels through use of new and
sustainable resources from non-biomass non-fossil sources
28 (04/07/2014)
LCE-12 – 2014 & 2015 - D9emonstrating advanced biofuel technologies (One stage)
New and advanced biofuels using sustainable
feedstock need to reach the market
The challenges are
• Proving that advanced biofuels and bioenergy carriers
technologies, are technically viable, environmentally and
socially sustainable, and potentially cost-competitive at
commercial scale.
• Developing logistic systems for a sound, safe and sustainable
feedstock supply.
29 (04/07/2014)
Enabling the descarbonisation of the use of fossil fuels
TRL TYPE
LCE 15 Enabling decarbonisation of the fossil fuel-based power sector and energy intensive industry through CCS
4-5 > 6 RIA
LCE 16 Understanding, preventing and mitigating the potential environmental impacts and risks of shale gas exploration and extraction
RIA
LCE 17 Highly flexible and efficient fossil fuel power plants 3 > 4-6 RIA
RIA IA CSA
First application
30 (04/07/2014)
LCE-15 – 2015 – Enabling decarbonisation of the fossil fuel-based power sector and energy intensive industry through CCS (Two stage evaluation)
The application of CCS to industrial sectors
other than power (e.g. steel, cement, lime,
chemical industry, refining) is expected to deliver
half of the global emissions reduction from CCS
by 2050
The challenges are
• Geological storage
• Application of CCS to industrial sectors other than power,
including bio-CCS
31 (04/07/2014)
LCE-17 – 2015 – Highly flexible and efficient fossil fuel power plants (Two stage evaluation)
With this growing share of renewable power,
fossil fuel power plants will have to increasingly
shift their role from providing base-load power to
providing fluctuating back-up power
The challenge is
Operational flexibility for fossil fuel power (and
CHP) plants
32 (04/07/2014)
AREA TRL TYPE
Supporting the development of a European Research Area in the field of Energy
LCE 18 Supporting Joint Actions on demonstration and validation of innovative energy solutions
5-6 > 6-7 ERA-NET
LCE 19 Supporting coordination of national R&D activities 3 > 5 CSA
AREA TYPE
Social, environmental and economic aspects of the energy system
LCE 20 The human factor in the energy system RIA, CSA
LCE 21 Modelling and analysing the energy system, its transformation and impacts
RIA
Cross-cutting issues
LCE 22 Fostering the network of National Contact Points CSA
33 (04/07/2014)
LCE-20 – 2014 - The human factor in the energy system
Availability of skilled workforce.
The challenges are
Foster European cooperation in this area by building
European networks, both in the university based
education sector and in the vocational education and
training sector, establishing close links to business and
research.
34 (04/07/2014)
Topics* Short-hand Description 2014 2015
LCE1 New knoweldge & technologies 20
LCE2, LCE11 RES/Fuels – Research 60 59
LCE3, LCE12 RES/Fuels – Demonstration 73 80
LCE13 Biofuels Brazil 10
LCE4, LCE14 RES/Fuels – Market uptake 20 20
LCE5, LCE6, LCE7 Smart grids 60 71,48
LCE8, LCE9, LCE10 Energy Storage 44,15 26
LCE15, LCE16, LCE17 Fossil Fuels (CCS & other) 33 35
LCE18 ERANET 34,25 57,85
LCE19 Coordination of national
programmes 3 3
LCE20, LCE21 Socio-economic research 10,5 10
LCE22 NCP Network 1,5
Call LCE - Budgets
35 (04/07/2014)
Call LCE - Deadlines
Topics* 2014 2015
LCE1, LCE2, LCE11, LCE15, LCE16 01/04/14 (Stage 1)
23/09/14 (Stage 2)
LCE22 01/04/2014
LCE4, LCE7, LCE8, LCE10, LCE14, LCE18 07/05/2014
LCE2, LCE11, LCE15, LCE17 03/09/14 (Stage 1)
03/03/15* (Stage 2)
LCE3, LCE12, LCE19, LCE20 10/09/2014
LCE3, LCE12, LCE19, LCE21 LCE4, LCE5, LCE6, LCE9, LCE14
03/03/2015*
LCE18 28/04/2015
LCE13 05/05/2015
36 (04/07/2014)
Resultados call 2014 2 Fases
Total GO NO GO %
LCE-16; 15 41 14 27 34%
LCE-1 103 23 80 22%
LCE-2;11 246 67 179 27%
37 (04/07/2014)
38 (04/07/2014)
Muchas Gracias por su atención
María Luisa Revilla ([email protected]) & Guillermo Álvarez ([email protected]) División Programas de la UE
Dirección de Programas Internacionales
www.eshorizonte2020.es
Top Related