1 (13/01/2014)

Horizon 2020: OPORTUNIDADES DE FINANCIACIÓN EUROPEA DE I+D+i 2014-2020

Secure, clean and efficient energy: Competitive Low Carbon Energy

Smart Cities & Communities

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SC3 Energía – Call Competitive Low-carbon Energy (LCE)

SC3 Energía – Call Smart Cities and Communities (SCC) . EIP-SCC

SC3 Energía – Tendencias

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SC3 Energía – Call Competitive Low-carbon Energy (LCE)

SC3 Energía – Call Smart Cities and Communities (SCC) . EIP-SCC

SC3 Energía – Tendencias

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• Programa de Trabajo Bienal (2014, 2015) • Horizonte 2020 Energía = VII PM Energía + CIP IEE

+ TIC Energía + BEI RSFF Energía • Basado en Retos – Soluciones a Problemas • Aproximación transversal: inputs y colaboración

de otras “partes” de Horizonte 2020 • 4 Convocatorias:

• Energy Efficiency • Competitive Low-Carbon Energy • Smart Cities and Communities • SMEs and Fast Track to Innovation for Energy

Energía segura, limpia y eficiente - WP

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Legal base Strategic Programme Horizon Groups

Horizon 2020 Specific

Programme

Focus areas •Health/care •Food security •Oceans •Smart cities •Low-carbon Energy •Energy efficiency •Mobility •Waste •Water •Socio-economics •Disaster resilience •Digital security

• Health • Food/Agriculture • Energy • Transport • Climate/Materials • Inclusive societies • Security • FET • Infrastructures • SMEs • Enabling /

industrial technologies

Work program

Other areas

Proceso WP Horizonte 2020

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• 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

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• 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 y el desarrollo de ERA en Energía

– Enfoque Bottom-up tecnológico radical y asociado a indicadores

– Para cada «Área» se sigue una diferenciación por tipo de actividad: TRL 3-5 - I+D TRL 6-8 Demo 8-9 Market Uptake o Plantas FOAK.

Energía segura, limpia y eficiente - Estructura

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Technology Readiness Levels (TRL)

TRL 0: Idea. Unproven concept, no testing has been performed.

TRL 1: Basic research. Principles postulated and observed but no experimental proof available.

TRL 2: Technology formulation. Concept and application have been formulated.

TRL 3: Applied research. First laboratory tests completed; proof of concept.

TRL 4: Small scale prototype built in a laboratory environment ("ugly" prototype).

TRL 5: Large scale prototype tested in intended environment.

TRL 6: Prototype system tested in intended environment close to expected performance.

TRL 7: Demonstration system operating in operational environment at pre-commercial scale.

TRL 8: First of a kind commercial system. Manufacturing issues solved.

TRL 9: Full commercial application, technology available for consumers.

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Ejemplo Energía: • New knowledge and technologies (TRL 2 to TRL 3-4)

• Developing the next generation technologies of renewable

electricity and heating/cooling (TRL 3-4 to TRL 4-5)

• Demonstration of renewable electricity and heating/cooling technologies (TRL 5-6 to TRL 6-7)

• First-of-a-kind, commercial-scale industrial demonstration

(TRL 8)

• Market uptake

9 Research &

Innovation

Energía segura, limpia y eficiente - TRLs

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AREA TRL TYPE

LCE 1 New knowledge and technologies 2 > 3-4 RIA

Renewable electricity and heating/cooling

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

Call LCE - Topics

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Características principales:

– Mejora de la eficiencia de las tecnologías y disminución de costes.

– Eficiencia del recurso – impacto medioambiental

– Link con MRL (Manufacturing Readiness Level)- Cadenas de producción y suministro de tecnologías renovables más competitivos

– Gestionabilidad de las renovables con la RED – Mejor integración en el sistema energético.

Renewable electricity and heating/ Cooling

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Challenge

•To bring more efficient and cost-competitive energy conversion technologies out of the lab

Impact •To provide impetus to new technology pathways •To provide better scientific evidence to frame new strategic choices

Grant Requested: 2 to 4 million Euros

Deadline: 01/04/2014 (stage 1)

23/09/2014 (stage 2)

LCE-01 – 2014- New knowledge and technologies (Two stage evaluation)

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LCE-02 – 2014 – Developing the next generation technologies of renewable electricity and heating/cooling (Two stage evaluation)

• PV: Developing next generation high performance PV cells and modules • CSP: Making CSP plants more cost competitive • Wind: Develop control strategies and innovative substructure concepts • Ocean:Develop emerging designs and components • Hydropower:Boosting peak power through sustainable hydropower • Deep Geothermal: Development of new drilling technologies and concepts for geothermal energy • Renewable Heating & Cooling: - Solar cooling systems

- Improving efficiency of biomass CHP systems while widening the feedstock base

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LCE-02 – 2015 – Developing the next generation technologies of renewable electricity and heating/cooling (Two stage evaluation)

• PV: Developing very low-cost PV cells and modules • CSP: Improving the environmental profile of the CSP technology • Wind: Substantially reduce the costs of wind energy • Ocean:Ensure efficiency and effective long term cost reduction and high levels of reliability and survivability • Hydropower:Increasing flexibility of hydropower • Deep Geothermal: Development of new technologies and concepts for geothermal energy • Renewable Heating & Cooling: - Solar heating for industrial processes - Improving efficiency of low emission biomass CHP systems while widening the feedstock base [focus on boilers]

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LCE-03 – 2014 – Demonstration of renewable

electricity and heating/cooling

• PV: Accelerating the development of the EU Inorganic Thin-Film (TF) industry • CSP: Improving the flexibility and predictability of CSP generation • Wind: Demonstrating and testing of new nacelle and rotor prototypes • Ocean:Demonstration of ocean energy technologies • Renewable Heating & Cooling: - Shallow geothermal energy: Improved vertical borehole drilling technologies to enhance safety and reduce costs

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LCE-03 – 2015 – Demonstration of renewable

electricity and heating/cooling

• PV: PV integrated in the built environment • Wind: Demonstrating innovative substructure and floating concepts • Ocean:Demonstration of ocean energy technologies • Deep Geothermal: Testing of enhanced geothermal systems in different geological environments • Renewable Heating & Cooling: - Demonstration of solar technologies for residential and non-residential buildings

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LCE-04 – 2014 & 2015 - Market uptake of existing and

emerging renewable electricity, heating and cooling technologies

Ensuring the level of growth needed to deliver the EU targets for renewable energy, and creating the appropriate business environment for EU industrial leadership The challenges are • Ensuring sustained public acceptance • Ensuring speedy and user friendly permitting procedures • Implementing renewable energy policies, codes and legislations … in a coordinated manner using best practice • Capacity building and contributing to the further development of renewable energy policy, legislation and regulation • Capacity building and facilitating the deployment of improved business models and innovative financing schemes for mobilising investments

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AREA TRL TYPE

Modernising the European electricity grid

LCE 5 Innovation and technologies for the deployment of meshed offshore grids

6-7 > 8 IA

LCE 6 Transmission grid and wholesale market IA, RIA

LCE 7 Distribution grid and retail market IA, CSA

Energy storage technologies

LCE 8 Local/small scale storage 5 > 6 IA

LCE 9 Large scale storage 5 > 6-7 IA

LCE 10 Next generation technologies for energy storage 2 > 5 RIA

Call LCE - Topics

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Meshed off-shore grids linking several off- shore wind parks with on-shore grids in different countries and with other available generation resources are urgently required to provide additional flexibility, efficiency, security and market access to off-shore wind resources.

LCE-05 – 2015- Innovation and technologies for the deployment of meshed offshore grids

LCE-06 – 2015- Transmission grid and wholesale market The integration of renewable energy and emergence of new services and uses of electricity will require major upgrades and reinforcements of the pan-European power system.

• 3 priorities for Innovation Actions • Particular priority elements for Research & Innovation

Actions

Modernising the European electricity grid

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LCE-07 – 2014- Distribution grid and retail market Smart grids and smart metering require the support from an ICT infrastructure with stringent requirements on e.g. availability and low latency. 1. IA: Development of ICT tools and services for smart grids (3 to 4 projects of about 2.5 to 3 M€)

2. IA: Demonstrate innovative demand response in the real grid. (3 to 4 projects of about 9 to 12 M€)

3. IA: Cheap smart meters (< 100 €). (3 to 5 projects of about 2.5 to 3 M€)

4. CSA: Support from an appropriate ICT infrastructure. (1 project: about 1 M€) Budget for 2 = 38 M€; for 1 + 3 + 4 = 22 M€

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Need to progress energy storage and reduce the barriers associated with new storage concepts integrated into the distribution grid and at building/house level. Including interaction between the electricity grid and other energy uses such as the district heating/cooling network, CHP, micro-generation, local renewables and to include the most advanced ICT for optimising the whole system. Innovations actions- deadline: 5/7/2014 8-12M€ por proyecto TRL from 5-6 to higher

LCE-08 – 2014- Local/small scale storage

Energy storage technologies

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• Need for large scale energy storage to balance the production and consumption of high quantities of electricity and during longer time periods. Demonstration activities in this topic will aim to progress large scale energy storage and reduce the barriers associated with new storage concepts.

• Important market uptake challenge is to reduce the barriers (technological, economic, regulatory, environmental, social and other acceptance, etc.) associated with the deployment of existing or new storage concepts.

Innovation actions- deadline: 3/3/2015 20-25 M€ por proyecto. 2 proyectos a financiar

LCE-09 – 2015- Large scale storage

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• Need to develop new or improved storage technologies with higher performance, availability, durability, performance, safety and lower costs.

• Energy storage has to progress in the innovation chain so that the barriers associated with new storage concepts are reduced. This would include adaptation of new materials and developments for improved safety.

Research and Innovation Action. Deadline: 7/5/2014 From TRL 2 to 5. 6-9M.€ por proyecto

* cover storage technologies of all sizes relevant to energy

applications and all types of locations.

LCE-10 – 2014- Next generation technologies for energy storage

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AREA TRL TYPE

Sustainable biofuels and alternative fuels for transport

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 13 Partnering with Brazil on advanced biofuels 4-6 > 5-7

IA

LCE 14 Market uptake of existing and emerging sustainable bioenergy

7-9 CSA

Call LCE - Topics

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LCE-11 – 2014 & 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

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LCE-12 – 2014 & 2015 - Demonstrating advanced biofuel technologies

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.

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LCE-13 – 2015 – Partnering with Brazil on advanced biofuels

Fostering the development of advanced biofuels and accelerate their commercialisation both in Brazil and in Europe The challenges are • Exploiting synergies between Brazil and Europe in terms of scientific expertise, industrial capacity and resources. • Proving that the integration of advanced biofuels technologies into existing sugarcane ethanol plants is technically feasible, cost competitive and environmentally and socio-economically sustainable at commercial scale. Joint work should build upon the Brazilian sugarcane ethanol model, and benefit from the Brazilian and European experience in biofuels. • Developing or improving logistic systems for a sound and sustainable feedstock supply

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LCE-14 – 2014 & 2015 - Market uptake of existing and emerging sustainable bioenergy

Sustainable bioenergy technologies (both existing and emerging) need to further penetrate the market. The challenges are • Encouraging the EU farmers and foresters to produce also energy and energy intermediaries • Setting up or strengthening sustainable local bioenergy supply chains • Development of methodologies for the traceability of biomass feedstocks • …

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AREA TRL TYPE

Enabling the decarbonisation of the use of fossil fuels

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

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

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LCE-15 – 2014 & 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

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LCE-16 – 2014 – Understanding, preventing and mitigating the potential environmental impacts and risks of shale gas exploration and extraction (Two stage evaluation)

The challenges are Addressing the associated environmental concerns, in particular through a better understanding and monitoring of the fracturing process and its environmental effects (including in the long term), treatment and recycling of flow-back and produced water, and mitigation of induced seismicity and emissions to air (including greenhouse gases).

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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

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LCE-18 – 2014 & 2015 - Supporting Joint Actions on demonstration and validation of innovative energy solutions (ERA-NET)

The challenges are Coordinating the research efforts of the participating Member States, Associated States and Regions in the areas and challenges targeted in this 'Competitive low-carbon energy' call or in the ‘Smart Cities and Communities’ call and to implement a joint transnational call for proposals

LCE-19 – 2014 - Supporting coordination of national R&D activities (CSA)

The challenges are

Achieving greater impact from scarce public and private resources

through synchronisation of funding processes by fostering cross-border

cooperation among partners supported by national projects and

programmes.

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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

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LCE-20 – 2014 - The human factor in the energy system

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.

LCE-21 – 2015 - Modelling and analysing the energy system, its transformation and impacts

The challenges are To provide model based decision support tools for the different actors in the energy system in order to facilitate handling the complex system

LCE-22 – 2014 - Fostering the network of National Contact Points

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Call LCE - Deadlines

Topics* 2014 2015

LCE1, LCE2, LCE11, LCE15, LCE16 01/04/201

4 (Stage 1)

23/09/2014 (Stage 2)

LCE22 01/04/2014

LCE4, LCE7, LCE8, LCE10, LCE14, LCE18 07/05/2014

LCE1, LCE2, LCE11, LCE15, LCE17 03/09/2014

(Stage 1) 03/03/2015

(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

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Topics* Short-hand Description 2014 2015

LCE1 New knoweldge & technologies 20

LCE2, LCE11 RES/Fuels – Research 60 59

LCE3, LCE12, LCE13 RES/Fuels – Demonstration 73 80

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

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SC3 Energía – Call Competitive Low-carbon Energy (LCE)

SC3 Energía – Call Smart Cities and Communities (SCC) . EIP-SCC

SC3 Energía – Tendencias

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Research &

Innovation

Summary Call SCC 2014 -2015

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TOPIC DEADLINE

SCC 1 – 2014/2015: Smart Cities and Communities solutions

integrating energy, transport, ICT sectors through lighthouse (large

scale demonstration - first of the kind) projects

07/05/2014 03/03/2015

SCC 2 – 2014: Developing a framework for common, transparent

data collection and performance measurement to allow

comparability and replication between solutions and best-practice

identification

07/05/2014

SCC 3 – 2015: Development of system standards for smart cities

and communities solutions 03/03/2015

SCC 4 – 2014: Establishing networks of public procurers in local

administrations on smart city solutions 07/05/2014

SCC 5 – 2015: Smart solutions for creating better cities and

communities – assistance for a prize competition 03/03/2015

Summary Call SCC 2014 -2015

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TOPIC 2014 2015

SCC 1 – 2014/2015: Smart Cities and Communities solutions integrating

energy, transport, ICT sectors through lighthouse (large scale

demonstration - first of the kind) projects

90,32 M€ 101,18 M€

SCC 2 – 2014: Developing a framework for common, transparent data

collection and performance measurement to allow comparability and

replication between solutions and best-practice identification

1 M€

SCC 3 – 2015: Development of system standards for smart cities and

communities solutions 1 M€

SCC 4 – 2014: Establishing networks of public procurers in local

administrations on smart city solutions 1 M€

SCC 5 – 2015: Smart solutions for creating better cities and communities

– assistance for a prize competition 1 M€

Summary Call SCC 2014 -2015

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Research &

Innovation

Summary Call SCC 2014 -2015

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SCC1-2014/2015:Smart cities and Communities solutions integrating energy, transport, ICT sectors through lighthouse (large scale demonstration-first of the kind ) projets

Address the following main areas:

1. INDUSTRY + CITY/CONSUMER organizations, from at least 2-3 cities and communities.

2. 2-3 follower cities – contribute to the process through the replication of solutions at the end of the project. The replication plans are compulsory and are part of the evaluation.

3. The cities must improve their energy performance or the share of use of renewables and H&C

4. Activities shall be part of ambitious urban planning. 5. Demonstrate attractive business plans based on already existing city planning. 6. To ensure the required funding from other sources, preferably privates ones, and

public. 7. Interoperability of solutions, open and consistent data, common data collection

Nearly Zero or low energy

districts

Integrated infrastructures

Sustainable urban mobility

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Alignment of

financing Public

procurement

Education,

training Labelling

New

business

models

Standardisation

EIP Smart Cities

Smart Cities

Industrial Initiative

Technology focus

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EIP Smart Cities

On 10 July 2012, the European Commission launched the Smart Cities and

Communities European Innovation Partnership

http://ec.europa.eu/energy/technology/initiatives/smart_cities_en.htm

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FACILITATING SCALING UP & MULTIPLYING

BRIDGING GAPS

& SPEEDING

UP INNOVATION

PROCESS

IMPROVING FRAMEWORK CONDITIONS

JOINING UP RESOURCES

& EXPERTISE

Education,

training New

business

models

Labelling

What the EIP IS NOT:

• a new funding instrument

• a new R&D programme

Public procurement

Sta

nd

ard

isatio

n a

nd

re

plic

atio

n

But.. What is an EIP?

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EIP Smart Cities

Transport, Energy and ICT

services and value chains are now

converging.

industry tests

technology in a given

city/community

Need to be

validated under

real conditions of a

city.

EU funding will be concentrated

on a limited number of

demonstration projects with high

impact.

Industry-led consortia

operating in the three

sectors: energy, ICT

and transport.

Market-oriented and can

be replicated in different

cities.

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EIP Smart Cities

• Under the next MFF "Smart Cities & Communities" will become an

important part of Horizon 2020.

• Starting from 2014, a High Level Group will formulate a technological

agenda with the most important aspects/issues to be addressed.

• Based on this agenda, the European Commission will make calls for

proposals. Industry-consortia can apply, submitting their project ideas.

• Integrate aspects:

• Smart buildings and neighborhood projects.

• Smart supply and demand service projects.

• Urban mobility projects.

• Smart and sustainable digital infrastructures.

http://ec.europa.eu/eip/smartcities/files/sip_final_en.pdf

http://ec.europa.eu/eip/smartcities/links/index_en.htm

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SC3 Energía – Call Competitive Low-carbon Energy (LCE)

SC3 Energía – Call Smart Cities and Communities (SCC) . EIP-SCC

SC3 Energía – Tendencias

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Comentarios:

• Actividades en continuidad con VII PM (Incremento €)

• Clara relevancia del SET Plan:

• EIIs podrían convertirse en PPPs

• EERA podría pasar a articulo 185

• Paneles de SET Plan (SG, Sherpa, EII Team) definen estrategia.

• Integración de CIP-IEE centrado en comportamientos, percepción pública y

solventar barreras no tecnológicas para despliegue de mercado.

• Importancia de proyectos demostración y despliegue comercial

• Se incluye en este reto las aplicaciones TIC para energía (7 PM ICT, parte

del reto 6) así como los pilotos y demostradores correspondientes (CIP-

ICT).

Objetivo: hacer la transición hacia un sistema energético fiable, sostenible y competitivo, en un contexto de creciente escasez de recursos, aumento de las necesidades de energía y cambio climático

Energía segura, limpia y eficiente

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A POLICY FOR ENERGY

European Energy Programme for Recovery

Energy Security and Solidarity Action Plan

An Energy Policy for Europe

Green Paper: A European strategy for sustainable,

competitive and secure energy

Factors contributing to the development of energy

policy

“Green” vehicles: a European strategy

Reducing greenhouse gases by 2020

ICTs to facilitate the transition to an energy-efficient, low-

carbon economy

Strategy on climate change: the way ahead for 2020 and

beyond

Strategy for sustainable development

Integrating the environment into Community energy policy

European Energy and Transport Forum

Information regarding investment projects

MARKET-BASED INSTRUMENTS

Market-based instruments for the environment

Greenhouse gas emission allowance trading scheme

Community framework for the taxation of energy

products and electricity

RESEARCH AND INNOVATION

SET-Plan for the development of low carbon

technologies

Sustainable power generation from fossil fuels

Demonstration of the capture and storage of CO

Strategic Energy Technology Plan (SET Plan)

Towards a European Strategic Energy Technology

Plan

FINANCIAL INSTRUMENTS

Competitiveness and Innovation Framework

Programme (CIP) (2007-2013)

Seventh Framework Programme (2007 to 2013)

Policies

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SET Plan & VII PM

The SET-Plan is thus the technology pillar of the EU Energy and Climate policy. It sets out a long-term energy research, demonstration and innovation agenda for Europe, including concrete strategic milestones to be achieved in the coming years.

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SET Plan & SCC

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Communication from the Commission: “Energy Technologies and Innovation” Published on 2nd May 2013

54

http://ec.europa.eu/energy/technology/strategy/strategy_en.htm

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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

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Personas de Contacto:

Luisa Revilla (NCP CDTI): luisa.revilla@cdti.es Virginia Vivanco (NCP IDAE): vvivanco@idae.es

Cristina Quintana (NCP CIEMAT): cristina.quintana@ciemat.es

MUCHAS GRACIAS

Mª Luisa Revilla

CDTI Reto Energía – Horizonte 2020

Luisa.revilla@cdti.es