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ENERGY MATERIALS INDUSTRIAL RESEARCH INITIATIVE
Bridging the Innovation Gap
EMIRI – General Presentation – October 2015
Industry-Driven Initiative on Advanced Materials & Nano for Low Carbon Energy
EMIRI – Energy Materials Industrial Research InitiativeDr Fabrice Stassin - Managing [email protected]
ENERGY MATERIALS INDUSTRIAL RESEARCH INITIATIVE
Bridging the Innovation Gap
EMIRI – General Presentation – October 2015
EMIRI works for the future of Advanced Materials for low carbon energy (LCE) in Europe
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*
* Founding / current members
ENERGY MATERIALS INDUSTRIAL RESEARCH INITIATIVE
Bridging the Innovation Gap
EMIRI – General Presentation – October 2015 3
Power sector will have to contribute more than othersto reduce CO2 emissions, mostly through renewables
ENERGY MATERIALS INDUSTRIAL RESEARCH INITIATIVE
Bridging the Innovation Gap
EMIRI – General Presentation – October 2015
Advanced Materials are a Key Enabling Technology to accelerate transformation of EU energy system
Cost of low carbon energy technologies must keep coming down to ensure their adoption & deployment across EU
This is made possible by reduction in cost, increase in performance, and extension of lifetime of the Advanced Materials enabling these low carbon energy technologies
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Example for battery cells
ENERGY MATERIALS INDUSTRIAL RESEARCH INITIATIVE
Bridging the Innovation Gap
EMIRI – General Presentation – October 2015
EU must establish Industrial Leadership in Advanced Materials for low carbon energy because ...
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Capacity for production of low carbon energy is already developing outside EU
Manufacturing of devices, components, Advanced Materials is moving to end-markets
(leading to emergence of new champions often at expense of historical players)
Innovation centers are also following the trend with some delay
This creates future dependency risks on imported low carbon energy technologies
ENERGY MATERIALS INDUSTRIAL RESEARCH INITIATIVE
Bridging the Innovation Gap
EMIRI – General Presentation – October 2015
Europe-based Industry of Advanced Materials for low carbon energy represents more jobs than anyrenewable energy value chain in Europe *
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* IRENA 2015 (International Renewable Energy Association)
Europe-based Industry of Advanced
Materials for low carbon energy estimated
at over 100.000 direct jobs (500.000 direct
& indirect jobs)
Jobs in Advanced Materials for low carbon
energy represent around 50% of total EU-
based jobs in renewable energy when
comparing on the direct & indirect jobs
basis
This is in line with the historical strengths
and long presence of our Industry in Europe
Leadership needs to be preserved
Jobs in Europe (direct & indirect)
ENERGY MATERIALS INDUSTRIAL RESEARCH INITIATIVE
Bridging the Innovation Gap
EMIRI – General Presentation – October 2015
Innovation is key to Industrial Leadership of EU in Advanced Materials for low carbon energy
EMIRI supports the development in EU of policies crucially needed for the market pull & the technology push (innovation) of the low carbon energy technologies
EMIRI calls for an Innovation Pillar bridging the gap between research and market
The Innovation Pillar will reduce innovation risks and accelerate innovation to reach faster and better the market
The Innovation Pillar should be based on strong public private interactions and engage actors along the value chain
The Innovation Pillar will be developed in frame of an Industry-Driven Initiative (IDI) in collaboration with the European Commission and in line with future SET Plan Governance
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ENERGY MATERIALS INDUSTRIAL RESEARCH INITIATIVE
Bridging the Innovation Gap
EMIRI – General Presentation – October 2015 8
Achieving the specific R&I objectives of the IDI will contribute to …
1. Getting the right Advanced Materials faster to the market by addressing the three typical innovation risks (execution, adoption and co-innovation risks)
2. Accelerating the development & deployment of low carbon energy technologies enabled by Advanced Materials (contributing to tackle Energy Union Challenges)
3. Enabling more competitive and longer value chains to drive competitiveness of the EU Industrial Sector of Advanced Materials for Energy and restore Industrial Leadership of EU (contributing to tackle EU Manufacturing Challenges of 20% of EU GDP from manufacturing by 2020)
4. Securing R&D and capital investments of the Industry in EU
5. Safeguarding & creating quality jobs in EU for operators, researchers, engineers
Conservative estimate of Europe-based industry of Advanced Materials for low carbon energy and its potential for policy-driven growth
ENERGY MATERIALS INDUSTRIAL RESEARCH INITIATIVE
Bridging the Innovation Gap
EMIRI – General Presentation – October 2015
Challenge 1
Advanced Materials for Energy Efficiency
Key Component 1 Key Component 2 Key Component 3 Key Component 4
Advanced Materials to increase the energy performance of buildings
Advanced Materials to make renewable electricity technologies
competitive
Advanced Materials to enable energy system integration
(energy storage, grids)
Advanced Materials enabling the decarbonisation of power sector
Advanced Materials for a "competitive, efficient, secure, sustainable & flexible energy system"
Challenge 2
Advanced Materials as "key enablers" tackling EU Energy Challenges
The Innovation Pillar builds on orientations strongly & widely supported by Industry & Research
Max of 20 Innovation Topics are part of the Innovation Pillar (TRL 4 – 7)
Innovation Topics are in line with industrial capabilities & needs, while supporting KPIs
outlined in SET Plan Integrated Roadmap
Industry & Research organizations are ready to commit to the Innovation Pillar and leverage
EU public funding to create meaningful impact
Budget (600 Meuro) spread over 4 Key Components (20% KC1, 30% KC2, 35% KC3, 15% KC4)
Impact in line with technology cycle & market cycle of Advanced Materials
(60% of impact expected by 2025)
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ENERGY MATERIALS INDUSTRIAL RESEARCH INITIATIVE
Bridging the Innovation Gap
EMIRI – General Presentation – October 2015 10
IDI contributes to most of 10 actions outlined in the Integrated SET Plan Comm. to accelerate thetransformation of EU Energy System
Action # Title
1 Sustain technological leadership by developing highly performant renewable technologies and their integration in the EU's energy system VERY HIGH
2 Reduce the cost of key technologies VERY HIGH
3 Create technologies and services for smart homes that provide smart solutions to energy consumers LOW
4 Increase the resilience, security and smartness of the energy system LOW
5 Develop new materials and technologies for, and the market uptake of, energy efficiency solutions for buildings VERY HIGH
6 Continue efforts to make EU industry less energy intensive and more competitive LOW
7 Become competitive in the global battery sector to drive e-mobility forward MEDIUM
8 Strengthen market uptake of renewable fuels needed for sustainable transport solutions LOW
9 Step up research and innovation activities on the application of carbon capture and storage (CCS) and the commercial viability of carbon capture and use (CCU) HIGH
10 Maintaining a high level of safety of nuclear reactors and associated fuel cycles during operation and decommissioning, while improving their efficiency NONE
Level of contribution of IDI to support action
ENERGY MATERIALS INDUSTRIAL RESEARCH INITIATIVE
Bridging the Innovation Gap
EMIRI – General Presentation – October 2015
Less is more ... Industry calls for prioritization and focusto reach critical mass and ensure innovation success
Advanced Materials for lower cost, high safety, long cycle life & environmentally friendly electrochemical batteries (Li-ion batteries)
Advanced Materials for lower cost, high safety, long cycle life & environmentally friendly electrochemical batteries (next generation electrochemical batteries)Advanced Materials for lower cost storage of energy in the form of hydrogen or other chemicals (power to gas, power to liquid technologies)
Advanced Materials to facilitate the integration of storage technologies in the grid
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Example of energy system integration
ENERGY MATERIALS INDUSTRIAL RESEARCH INITIATIVE
Bridging the Innovation Gap
EMIRI – General Presentation – October 2015
Advanced Materials for innovative multilayers for durable solar energy harvesting
Advanced materials and innovative designs for high efficiency solar energy harvesting
Advanced Materials and associated processes for low cost manufacturing of solar energy harvesting systems
Advanced Materials & new deposition processes for building-integrated photovoltaics (BIPV)
Example of solar energy
Less is more ... Industry calls for prioritization and focusto reach critical mass and ensure innovation success
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ENERGY MATERIALS INDUSTRIAL RESEARCH INITIATIVE
Bridging the Innovation Gap
EMIRI – General Presentation – October 2015
Priorities of Innovation Pillar drive the implementationof key elements of SET Plan Integrated Roadmap
Technology-related actions identified for Energy System Integration in SET Plan Integrated Roadmap
Challenge from SET Plan Integration
Roadmap
Contribution of Innovation Pillar on Adv. Materials
#1 Enhanced storage materials
Storage (heat & cold, electricity, power to gas or
other energy vectors
Strong
#2 New technologies for next generation central and de-central storage technologies of any scale Strong
#3Improved second generation technologies for next generation central and de-central storage technologies of any scale
Strong
#4 Storage system interfaces Low
#5 Storage system integration and benefit assessment via simulation of system embedding None
#6 Central and de-central storage technology demonstration of any scale Medium
#7 Storage system integration demonstration Low
#8 Storage manufacturing processes Medium
#9 Storage recycling Medium
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Example of energy system integration
ENERGY MATERIALS INDUSTRIAL RESEARCH INITIATIVE
Bridging the Innovation Gap
EMIRI – General Presentation – October 2015
Technology-related actions identified for Photovoltaics in SET Plan Integrated Roadmap
Contribution of Innovation Pillar on Advanced Materials
#1 Novel PV technologies for low cost and/or high efficiencies Strong
#2 Enhanced PV conversion efficiencies and lifetimes Strong
#3 Cost reduction through lower materials consumption and use of low-cost materials Strong
#4 Reduction of LCOE by enhanced PV system energy yield and lifetime Strong
#5 Pilot production lines Strong
#6 Demonstration of new PV solutions Strong
#7 Making PV mainstream source of power Low
#8 Industrial RTD for demonstration of higher performance ratios Low
#9 Long-term reliability of PV modules and systems Strong
#10 Building-integrated Photovoltaics Strong
Priorities of Innovation Pillar drive the implementationof key elements of SET Plan Integrated Roadmap
Example of solar energy
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ENERGY MATERIALS INDUSTRIAL RESEARCH INITIATIVE
Bridging the Innovation Gap
EMIRI – General Presentation – October 2015 15
Identify clear priorities for industrial growth & jobs in EU-based sector of Advanced Materials for low carbon energy technologies
And develop a strong presence in Europe of innovation ecosystems and manufacturing value chains
By innovating with Advanced Materials fit to serve the demanding & growing market of low carbon energy technologies
To sum upThe Industry-Driven Initiative will ...
Proposal ready for consultation within EMIRI And within DG R&I / DG ENERGY Positive feedback until now from Cabinet, DG, key
MS Industrial presence & commitment very appreciated Ongoing presentation of IDI to SET Plan key contact
points, key MEPs, … Final version to be provided before December 2015
ENERGY MATERIALS INDUSTRIAL RESEARCH INITIATIVE
Bridging the Innovation Gap
EMIRI – General Presentation – October 2015
EMIRI mentioned in WP 2016-2017 NMBP and identified as the relevant stakeholder
Section on Advanced Materials and Nano for Energy Applications in WP 2016-2017 NMBP
Interface between NMBP and LCE WPs and reference to materials in LCE
Estimation of 200 Meuro available in 2016-2017 for Advanced Materials for Energy
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Work programme NMBP – LCE 2016-2017 (1/3)
ENERGY MATERIALS INDUSTRIAL RESEARCH INITIATIVE
Bridging the Innovation Gap
EMIRI – General Presentation – October 2015
Work programme NMBP – LCE 2016-2017 (2/3)
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NMBP 2016-2017 CALLS 2016(Meuro)
2017(Meuro)
Technology WG
# 1 EEB-01-2016: Highly efficient insulation materials with improved properties 12 - EE
# 2 EEB-06-2017: Highly efficient hybrid storage solutions for power and heat in residential buildings and district areas, balancing the supply and demand conditions - 14 EE
# 3 EEB-07-2017: Integration of energy harvesting at building and district level - 14 EE
# 4 NMBP-01-2016: Novel hybrid materials for heterogeneous catalysis 16 - CCS-CCU
# 5 NMBP-02-2016: Advanced Materials for Power Electronics based on wide bandgap semiconductor devices technology 16 - PV, WIND, ES
# 6 NMBP-03-2016: Innovative and sustainable materials solutions for the substitution of critical raw materials in the electric power system 16 - EE, PV, WIND,
ES# 7 NMBP-06-2017: Improved material durability in buildings and infrastructures, including
offshore - 13 EE, WIND
# 8 NMBP-17-2016: Advanced materials solutions and architectures for high efficiency solar energy harvesting 16 - PV
# 9 NMBP-18-2016: Advanced materials enabling the integration of storage technologies in the electricity grid 16 - ES
# 10 NMBP-19-2017: Cost-effective materials for “power-to-chemical” technologies - 16 ES
# 11 NMBP-20-2017: High-performance materials for optimizing carbon dioxide capture - 16 CCS-CCU
ESTIMATED TOTAL FOR ADVANCED MATERIALS IN NMBP 91 72 163
Recommend participants to have with them a print-out of the WP 2016-2017 NMBP & LCE
ENERGY MATERIALS INDUSTRIAL RESEARCH INITIATIVE
Bridging the Innovation Gap
EMIRI – General Presentation – October 2015
Work programme NMBP – LCE 2016-2017 (3/3)
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LCE 2016-2017 CALLS Technology WG
# 1 LCE-01-2016-2017: Next generation innovative technologies enabling smart grids, storage and energy system integration with increasing share of renewables: distribution network 20 10% 2 18 10% 1,8
# 2 LCE-02-2016: Demonstration of smart grid, storage and system integration technologies with increasing share of renewables: distribution system 73 10% 7,3 10% 0
# 3 LCE-06-2017: New knowledge and technologies 15% 0 20 15% 3 CCU
# 4 LCE-07-2016-2017: Developing the next generation technologies of renewable electricity and heating/cooling 61 15% 9,15 66 15% 9,9 PV, CSP, solar
heating and # 5 LCE-09-2016: Increasing the competitiveness of the EU PV manufacturing industry 25 15% 3,75 15% 0 PV
# 6 LCE-10-2017: Reducing the cost of PV electricity 15% 0 15 15% 2,25 PV
# 7 LCE-25-2016: Utilisation of captured CO2 as feedstock for the process industry 10 10% 1 10% 0 CCU
# 8 LCE-29-2017: CCS in industry, including Bio-CCS 15% 0 5 15% 0,75 CCS
ESTIMATED TOTAL FOR LCE 313
ESTIMATED TOTAL FOR ADVANCED MATERIALS IN LCE 41
189 124
23 18
2016(Meuro)
2017(Meuro)
2016 & 2017 (Meuro)
ESTIMATED TOTAL FOR ADVANCED MATERIALS IN NMBP 163
ESTIMATED TOTAL FOR ADVANCED MATERIALS IN LCE 41
ESTIMATED TOTAL FOR ADVANCED MATERIALS 204
2016(Meuro)
2017(Meuro)
114 89
91 72
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ENERGY MATERIALS INDUSTRIAL RESEARCH INITIATIVE
Bridging the Innovation Gap
EMIRI – General Presentation – October 2015
EMIRI as key stakeholder representing Advanced Materials in Integrated SET Plan Governance
Integrated SET Plan Communication released in time for SET Plan Conference of Luxemburg Presidency (late September)
10 actions recommended to accelerate the energy system transformation
No details on R&I approaches to follow and priorities (too early)
Should be followed in 2016 by a Communication on Global Leadership of EU in SET Plan technologies
New SET Plan Governance with EMIRI proposed as key stakeholder to represent Advanced Materials
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ENERGY MATERIALS INDUSTRIAL RESEARCH INITIATIVE
Bridging the Innovation Gap
EMIRI – General Presentation – October 2015
EMIRI as key stakeholder in future DG R&I Cluster on Advanced Materials for Energy
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Cluster initiative entitled “Materials and Nanotechnologies for Energy Applications” set up by EU DG R&I – NMBP Team
Aims of the clusters are to:- Bring together all EC funded projects in a particular topic- Identify common objectives and synergies across projects- Develop technology roadmaps - Propose priorities for future European Commission initiatives / calls- Encourage pre-proposal networking- Establish longer term working groups on research goals and research gaps
Kick-off workshop on 24th November at EU offices - F. Stassin to give the presentation entitled “Materials for Energy Generation and Storage” (IDI will be detailed in there)
EMIRI to play a leading role in the Cluster – Let’s wait and see !
ENERGY MATERIALS INDUSTRIAL RESEARCH INITIATIVE
Bridging the Innovation Gap
EMIRI – General Presentation – October 2015
7th European Innovation Summit (December 7th) at EP (Energy Union – Remaining challenges)
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ENERGY MATERIALS INDUSTRIAL RESEARCH INITIATIVE
Bridging the Innovation Gap
EMIRI – General Presentation – October 2015
More on EMIRI at www.emiri.euOr by reaching out to me at [email protected]
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