Energy Technologies and Innovation
Integrated Roadmap

Norela Constantinescu
European Commission, DG Energy
Maghrenov proj...
Key principles

Research and innovation challenges to support EU energy
system post 2020
•  Looking at the whole energy
sy...
Key development
INTEGRATION

• 
• 

Energy efficiency - end use consumption
Solutions for a competitive & sustainable
ener...
Implementation I

•  Strengthening the link
with energy policy

Member
States

•  Making better use of
existing financial
...
Key conclusions

Implementing Actions
•  Integrated Roadmap
•  Action Plan
•  Robust reporting system
•  A new coordinatio...
Integrated Roadmap
Key Building Bloks
Blocks

VISION

STRUCTURAL CHANGES to meet
the Vision
CHALLENGES seeking for
solutio...
Structure

III. Cities, Communities &
Market Uptake

Energy

V. Monitoring &
Review

II. Competitive, Efficient,
Secure, S...
Three dimensions of
Integration:
• Energy system dimension
– Integrated European
Energy System
• Technology lifecycle and
...
Integration: innovation chain –lifecycle technology
development –eg wind I
Technology Readiness Level (TRL)
Not ready

Rea...
Integration: innovation chain –lifecycle technology
development –eg wind II
Market Readiness Level
Size of market uptake
M...
Integration: innovation chain –lifecycle technology
development –eg wind III
Manufacturing Readiness Level
Manufacturer	
 ...
Integration: innovation chain –lifecycle technology
development –eg wind IV
National and international supply-chain
player...
Getting all the pieces together

Thank you for your attention

Energy
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Norela Constantinescu, European Commission: Maghrenov kickoff, barcelona Day 1

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Energy Technologies and Innovation - Integrated Roadmap

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Norela Constantinescu, European Commission: Maghrenov kickoff, barcelona Day 1

  1. 1. Energy Technologies and Innovation Integrated Roadmap Norela Constantinescu European Commission, DG Energy Maghrenov project 16 December 2013 Energy
  2. 2. Key principles Research and innovation challenges to support EU energy system post 2020 •  Looking at the whole energy system •  Bridging research and innovation with energy policy •  Making better use of existing and increased financial resources •  Keep options open •  Connect endogenous resources •  Adding value at the EU level Energy
  3. 3. Key development INTEGRATION •  •  Energy efficiency - end use consumption Solutions for a competitive & sustainable energy system •  •  •  •  •  •  Market Flexibility and security Continuity of electricity supply and rationalise demand for infrastructure Active consumer participation Portfolio of cost effective and sustainable energy solutions Interfaces with other sectors Fostering innovation in real environments •  •  Market uptake measures Smart cities and communities Demonstration Research Energy
  4. 4. Implementation I •  Strengthening the link with energy policy Member States •  Making better use of existing financial resources EU Finance Private Energy
  5. 5. Key conclusions Implementing Actions •  Integrated Roadmap •  Action Plan •  Robust reporting system •  A new coordination structure under the SET plan SG on energy efficiency •  New competences: e.g. nontechnological barriers •  External Dimension – international cooperation Energy
  6. 6. Integrated Roadmap Key Building Bloks Blocks VISION STRUCTURAL CHANGES to meet the Vision CHALLENGES seeking for solutions to the required Changes RESEARCH & INNOVATION ACTIONS as solutions for the Challenges Energy ü ü ü 6
  7. 7. Structure III. Cities, Communities & Market Uptake Energy V. Monitoring & Review II. Competitive, Efficient, Secure, Sustainable & Flexible Energy System IV. Synergies, Roles & Tasks of Actors I. Energy Efficiency 7
  8. 8. Three dimensions of Integration: • Energy system dimension – Integrated European Energy System • Technology lifecycle and product/service supply chain development dimension –integration along innovation chain • European , regional, local dimension – level of actions Energy
  9. 9. Integration: innovation chain –lifecycle technology development –eg wind I Technology Readiness Level (TRL) Not ready Ready Evidence: new (Dec 2013) UK support levels show this difference: GBP/MWh 2014/15 2015/16 2016/17 Onshore wind Tidal stream 2017/18 2018/19 95 95 95 90 90 305 305 305 305 305 9 Energy
  10. 10. Integration: innovation chain –lifecycle technology development –eg wind II Market Readiness Level Size of market uptake Manufacturers •  2500 Diversification: products, services and business portfolio •  1500 Offshore Supply chain: owned/outsourced Strategic alliances: contract agreements 50 500 13 5,4 5,0 101 278 EU 0 1940 Onshore 1000 Public •  •  •  550 2000 250 components, materials •  2012  and  projected  cumultative  installed  capacity  (GW) Global 2012 399 134 EU 118 33 11 Global 2015 1215 665 272 232 182 EU 228 Global 2020 EU Global 2030 EU Global 2050 Social acceptance Spatial planning Minimising environmental impacts 10 Energy
  11. 11. Integration: innovation chain –lifecycle technology development –eg wind III Manufacturing Readiness Level Manufacturer   GE Energy   Gamesa   Sinovel   Goldwind/Vensys   REpower   XEMC-Darwind   Areva Multibrid   Sinovel   Goldwind/Vensys   United Power   Siemens   Alstom Wind   REpower   Enercon   Vestas   •  •  •  Model   4.1-113   G136-4.5   SL5000   GW5000   5M   XD115   M5000   SL6000   GW6000   UP6000   SWT-6.0-154   Haliade 150   6M   E126-7.5   V164-8.0   MW   4.1   4.5   5.0   5.0   5.0   5.0   5.0   6.0   6.0   6.0   6.0   6.0   6.15   7.5   8.0   Technology   Status   LS-PMG   Prototype installed in H1, 2012   MS-PMG   Prototype installed in 2011   HS-DFIG   Commercially available   LS-PMG   Prototype installed in 2010   HS-DFIG   Commercially available   LS-PMG   Commercially available   MS-PMG   Commercially available   HS-SCIG   Prototype installed in 2011   LS-PMG   Prototype expected for late 2012   HS-DFIG   Prototype installed in Nov. 2011   LS-PMG   Prototype installed in 2012   LS-PMG   Prototype installed in 2012   HS-DFIG   Commercially available   LS-EMG   Commercially available   MS-PMG   Prototype expected for 2014   Design of turbines: 4 - 8 MW introduced by many manufacturers Larger turbines : 10 -12 MW in the drawing board Industry strategies to reduce costs: delocalisation, regional structures , subsidiaries 11 Energy
  12. 12. Integration: innovation chain –lifecycle technology development –eg wind IV National and international supply-chain players in offshore wind 12 Energy
  13. 13. Getting all the pieces together Thank you for your attention Energy

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