FP7 - September 2005 Slide No. 1

Towards the Seventh Framework Programme

2007-2013

European CommissionResearch DG

COM(2005)119 final, 6 April 2005Specific Programmes’ Proposal, adopted 21 September 2005

Building Europe Knowledge

FP7 - September 2005 Slide No. 2

Lisbon strategy

Research

Growth and Jobs

Education Innovation

S&T contributes to the Lisbon objectives: economic growth, employment creation, environmental protection, social challenges: fight poverty, improve human health and quality of life (GSM, remote working, safe roads, etc.)

FP7 - September 2005 Slide No. 3

What’s new ?Main new elements compared to FP6:

Basic research (~ EUR 1,5 billion/year) Many novelties under Research

Capacities Annual budget doubled (from EUR 5

billion to 10 billion) Logistical and administrative tasks

transferred to external structures Simplification of procedures

FP7 - September 2005 Slide No. 4

Why increase the FP7 budget?

Tackle under-investment by exerting leverage on national and private investment– Increase EU spending on R&D : 1.97% of GDP vs 2.59% (US)– Help leverage business R&D (EU wide projects, solutions and

market)– Brings EU public R&D spending to 0.96% of GDP (close to 1%

target) – Encourage Member States

Tackle fragmentation of research effort in the EU and enhance its efficiency and effectiveness– Achieve critical mass, share knowledge and facilities– Better dissemination across the EU– More excellence through EU wide competition– Less fragmentation through stronger coordination

FP7 - September 2005 Slide No. 5

Why increase the FP7 budget?

Widen the scope of the FP– Launch essential new initiatives– Reinforce existing successful actions

Help to meet new S&T challenges– Rising costs of research mean that higher funding is needed to

produce same impacts – New research fields are emerging (hydrogen economy etc)

Reinvigorate the Lisbon strategy– Objective: to become the most dynamic knowledge-based economy– Supports the integration and attractiveness of the ERA– Contributes to increased competitiveness– Contributes to sustainable development

FP7 - September 2005 Slide No. 6

Specific Programmes (21 September 2005)

Cooperation – Collaborative researchCooperation – Collaborative research

People – Human PotentialPeople – Human Potential

JRC (nuclear)JRC (nuclear)

Ideas – Frontier ResearchIdeas – Frontier Research

Capacities – Research CapacityCapacities – Research Capacity

JRC (non-nuclear)JRC (non-nuclear)

EuratomEuratom

+

FP7 2007 - 2013

FP7 - September 2005 Slide No. 7

9 Thematic Priorities1. Health

2. Food, agriculture and biotechnology

3. Information and communication technologies

4. Nanosciences, nanotechnologies, materials and new production technologies

5. Energy

6. Environment (including climate change)

7. Transport (including aeronautics)

8. Socio-economic sciences and the humanities

9. Security and space

+ Euratom: Fusion energy research, nuclear fission and radiation protection

Cooperation – Collaborative researchCooperation – Collaborative research

FP7 - September 2005 Slide No. 8

5. Energy5. Energy

KEY CHALLENGES Global energy demand predicted to increase by 60% over the next 30 years EU energy dependency could rise from 50% to

70% by 2030; damaging volatility of oil prices and geopolitical instability Over 90% of EU CO2 emissions, causing climate change, are attributable to energy Global energy investments of €12 trillion required up to 2030 – huge market potential, but EU under severe threat from global competitors

KEY CHALLENGES Global energy demand predicted to increase by 60% over the next 30 years EU energy dependency could rise from 50% to

70% by 2030; damaging volatility of oil prices and geopolitical instability Over 90% of EU CO2 emissions, causing climate change, are attributable to energy Global energy investments of €12 trillion required up to 2030 – huge market potential, but EU under severe threat from global competitors

FP7 - September 2005 Slide No. 9

5. Energy 5. Energy

OBJECTIVETransforming the current fossil-fuel based energy system into a more sustainable one

based on a diverse portfolio of energy sources and carriers combined with enhanced energy efficiency, to address the pressing challenges

of security of supply and climate change, whilst increasing the competitiveness of

Europe’s energy industries.

OBJECTIVETransforming the current fossil-fuel based energy system into a more sustainable one

based on a diverse portfolio of energy sources and carriers combined with enhanced energy efficiency, to address the pressing challenges

of security of supply and climate change, whilst increasing the competitiveness of

Europe’s energy industries.

FP7 - September 2005 Slide No. 10

5. Energy 5. Energy

Hydrogen and fuel cellsHydrogen and fuel cells

Renewable electricity generationRenewable electricity generation

Renewable fuel productionRenewable fuel production

CO2 capture and storage technologies for zero

emission power generation

CO2 capture and storage technologies for zero

emission power generation

Smart energy networksSmart energy networks

Energy savings and energy efficiency

Energy savings and energy efficiency

Knowledge for energy policy makingKnowledge for energy policy making

Clean coal technologiesClean coal technologies

Renewables for heating and cooling

Renewables for heating and cooling

FP7 - September 2005 Slide No. 11

Collaborative research(Collaborative projects; Networks of Excellence; Coordination/support actions)

Collaborative research(Collaborative projects; Networks of Excellence; Coordination/support actions)

Joint Technology InitiativesMay Take the Form of Joint Undertakings – Article 171 of the Treaty

Joint Technology InitiativesMay Take the Form of Joint Undertakings – Article 171 of the Treaty

Coordination of non-Community research programmes(ERA-NET; ERA-NET+; Article 169)

Coordination of non-Community research programmes(ERA-NET; ERA-NET+; Article 169)

International CooperationInternational Cooperation

Cooperation – Collaborative researchCooperation – Collaborative research

Under each theme there will be sufficient flexibility to addressboth Emerging needs and Unforeseen policy needs

Dissemination of knowledge and transfer of results will be supported in all thematic areas

Support will be implemented across all themes through:

FP7 - September 2005 Slide No. 12

Joint Technology Initiatives

Global Monitoring for Environment

and Security

Global Monitoring for Environment

and Security

Hydrogen and Fuel Cells for a Sustainable Energy

Future

Hydrogen and Fuel Cells for a Sustainable Energy

Future

Towards new Nanoelectronics

Approaches

Towards new Nanoelectronics

Approaches

Embedded systemsEmbedded systems

Aeronautics and Air Transport

Aeronautics and Air Transport

Innovative Medicines for the Citizens

of Europe

Innovative Medicines for the Citizens

of Europe

Other possible themes to be identified later…

FP7 - September 2005 Slide No. 13

Ideas – Frontier ResearchIdeas – Frontier Research

Enhance dynamism, creativity and excellence of European research

Supporting “investigator-driven” research projects across all fields

Projects can be carried out by individual teams in competition at the European level

FP7 - September 2005 Slide No. 14

Initial training of researchersMarie Curie Networks

Initial training of researchersMarie Curie Networks

Life-long training and career developmentIndividual Fellowships

Co-financing of regional/national/international programmes

Life-long training and career developmentIndividual Fellowships

Co-financing of regional/national/international programmes

Industry-academia pathways and partnershipsIndustry-Academia Scheme

Industry-academia pathways and partnershipsIndustry-Academia Scheme

International dimensionOutgoing International Fellowships; Incoming International Fellowships

International Cooperation Scheme; Reintegration grants

International dimensionOutgoing International Fellowships; Incoming International Fellowships

International Cooperation Scheme; Reintegration grants

Specific actionsExcellence awards

Specific actionsExcellence awards

People – Human PotentialPeople – Human Potential

FP7 - September 2005 Slide No. 15

Capacities – Research CapacityCapacities – Research Capacity

Research Infrastructures

Research for the benefit of SMEsResearch for the benefit of SMEs

Regions of KnowledgeRegions of Knowledge

Research PotentialResearch Potential

Science in SocietyScience in Society

Activities of International CooperationActivities of International Cooperation

FP7 - September 2005 Slide No. 16

FP7 Timetable6 April 2005 Commission’s proposal

21 September 2005 Specific programmes’ proposal

December 2005 ? First reading at EP

January 2006 ? Common position at Council

March 2006 ? Second reading and approval at EP

June 2006 ? Adoption

November 2006 ? First calls for proposals

December 2006 ? Launch Conference

FP7 - September 2005 Slide No. 17

Information

EU research: http://europa.eu.int/comm/research

EU energy research: rtd-energy@cec.eu.int

Specific programme FP7proposals:http://www.cordis.lu/fp7 http://europa.eu.int/comm/research/future/index_en.cfm

Six Framework Programme: http://europa.eu.int/comm/research/fp6/index_en.html

Information on research programmes and projects: http://www.cordis.lu

Call information and documentation: http://fp6.cordis.lu/fp6/calls.cfm

FP7 - September 2005 Slide No. 18

Thank you for your attention

Thank you for your attention

Rue du Champ de Mars 21(CDMA 05/190) B-1050 Brussels

Tel.: +32.2.299.20.63Fax: +32.2.296.42.88

E-mail: manuel.sanchez-jimenez@cec.eu.int

Manuel Sánchez Jiménez European Commission

Directorate General for ResearchDirectorate J: Energy

Manuel Sánchez Jiménez European Commission

Directorate General for ResearchDirectorate J: Energy

FP7 - September 2005 Slide No. 19

5. Energy 5. Energy

Hydrogen and fuel cellsIntegrated action to provide a strong technological foundation for competitive EU fuel cell and hydrogen industries, for stationary,

portable and transport applications. The Hydrogen and Fuel Cells European Technology Platform helps this activity by proposing an

integrated research and deployment strategy

Possible Joint Technology Initiative

Hydrogen and fuel cellsIntegrated action to provide a strong technological foundation for competitive EU fuel cell and hydrogen industries, for stationary,

portable and transport applications. The Hydrogen and Fuel Cells European Technology Platform helps this activity by proposing an

integrated research and deployment strategy

Possible Joint Technology Initiative

Smart energy networksTo increase the efficiency, safety and reliability of the European

electricity and gas systems and networks e.g. by transforming the current electricity grids into an interactive (customers/operators)

service network and to remove obstacles to the large-scale deployment and effective integration of distributed and renewable

energy sources

Smart energy networksTo increase the efficiency, safety and reliability of the European

electricity and gas systems and networks e.g. by transforming the current electricity grids into an interactive (customers/operators)

service network and to remove obstacles to the large-scale deployment and effective integration of distributed and renewable

energy sources

FP7 - September 2005 Slide No. 20

5. Energy 5. Energy

Renewable electricity generationTechnologies to increase overall conversion efficiency, driving down the cost of electricity production from indigenous renewable energy

sources, and the development and the demonstration of technologies suited to different regional conditions

Renewable electricity generationTechnologies to increase overall conversion efficiency, driving down the cost of electricity production from indigenous renewable energy

sources, and the development and the demonstration of technologies suited to different regional conditions

Renewable fuel productionIntegrated conversion technologies: to develop and drive down the

unit cost of solid, liquid and gaseous (including hydrogen) fuels produced from renewable energy sources, aiming at the cost-

effective production and use of carbon-neutral fuels, in particular liquid biofuels for transport

Renewable fuel productionIntegrated conversion technologies: to develop and drive down the

unit cost of solid, liquid and gaseous (including hydrogen) fuels produced from renewable energy sources, aiming at the cost-

effective production and use of carbon-neutral fuels, in particular liquid biofuels for transport

Renewables for heating and coolingTechnologies to increase efficiencies and drive down the costs of

heating and cooling from renewable energy sources, ensuring their use in different regional conditions

Renewables for heating and coolingTechnologies to increase efficiencies and drive down the costs of

heating and cooling from renewable energy sources, ensuring their use in different regional conditions

FP7 - September 2005 Slide No. 21

5. Energy 5. Energy

CO2 capture and storage technologies for zero emission power generation

To drastically reduce the environmental impact of fossil fuel use aiming at highly efficient power generation plants with near zero

emissions, based on CO2 capture and storage technologies

CO2 capture and storage technologies for zero emission power generation

To drastically reduce the environmental impact of fossil fuel use aiming at highly efficient power generation plants with near zero

emissions, based on CO2 capture and storage technologies

Clean coal technologiesTo substantially improve plant efficiency, reliability and cost through

development and demonstration of clean coal conversion technologies

Clean coal technologiesTo substantially improve plant efficiency, reliability and cost through

development and demonstration of clean coal conversion technologies

FP7 - September 2005 Slide No. 22

5. Energy 5. Energy

Energy savings and energy efficiencyNew concepts and technologies to improve energy efficiency and

savings for buildings, services and industry. This includes the integration of strategies and technologies for energy efficiency, the

use of new and renewable energy technologies and energy demand management

Energy savings and energy efficiencyNew concepts and technologies to improve energy efficiency and

savings for buildings, services and industry. This includes the integration of strategies and technologies for energy efficiency, the

use of new and renewable energy technologies and energy demand management

Knowledge for energy policy makingDevelopment of tools, methods and models to assess the main

economic and social issues related to energy technologies and to provide quantifiable targets and scenarios for medium and long term

horizons

Knowledge for energy policy makingDevelopment of tools, methods and models to assess the main

economic and social issues related to energy technologies and to provide quantifiable targets and scenarios for medium and long term

horizons

FP7 - September 2005 Slide No. 23

Ideas – Frontier ResearchIdeas – Frontier Research

Commission

ERC – European Research Council

* Created by Commission decision * * Under the responsibility of the Commission

Preparation of work programme Set up of peer review: pool of reviewers,

nomination of review panels, evaluation guidelines

Oversight of the evaluation procedure Annual scientific report

Information and support to applicants Reception / eligibility of proposals Organisation and execution of evaluation Selection decision Scientific and financial follow-up of

contracts Annual implementation report

Approval of work programme, as defined by the Scientific Council

Instruction to implement work programme

Approval of annual implementation report

Information to programme committee

Scientific Council*

Externalised tasks**