CO2 in H Calls : - NMPB Calls - LCE Calls. Pierre Fiasse NCP Wallonie NCP NMPB Transport & Aero 28/09/2015

Transcription

1 CO2 in H Calls : - NMPB Calls - LCE Calls Pierre Fiasse NCP Wallonie NCP NMPB Transport & Aero 28/09/2015 1

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3 Find your NCP : NCP Network - Support NCP-Wallonie : - 14 years experience - FP6 - FP7: 200 Companies / Research Centers / Universities FP7 : 613 funded projects 50% with NCP-W pport/national_contact_points.html Inm Sign Post Identifying partners Build (and execute) project - 3 -

4 Advanced materials and nanotechnologies RIA NMBP 19 :Cost-effective materials power-to-chemical technologies Chemical storage of energy : electrical energy production of chemicals : Methanol, ethanol, methane and syngas, or production and storage of H2 3-5 Energy storage can supply more flexibility and balancing to the grid, providing a back up to intermittent renewable energy Proposals should focus on the development of advanced materials, materials solutions or new chemistries, to up-scale the chemical storage. 3 5 Targeted technologies : CO2-H2O co-electrolysis, H2 storage materials, efficient low cost photochemical water splitting reactors, new catalysts, separation/ purification, In line with specific SET-Plan roadmap indicators Co-electrolysis : increase durability sustainable non-toxic and non-critical raw materials Increase the penetration rate of distributed and/or intermittent renewable energy sources. Alleviation of geographical constraints LCE production with increased efficiencies at a reduced cost; 4

5 RIA Advanced materials and nanotechnologies NMBP 19 :Cost-effective materials power-to-chemical technologies Chemical storage of energy : electrical energy production of chemicals : Methanol, ethanol, methane and syngas, or production and storage of H2 Energy storage can supply more flexibility and balancing to the grid, providing a back up to intermittent renewable energy Proposals should focus on the development of advanced materials, materials solutions or new chemistries, to up-scale the chemical storage. Targeted technologies : CO2-H2O co-electrolysis, H2 storage materials, efficient low cost photochemical water splitting reactors, new catalysts, separation/ purification, In line with specific SET-Plan roadmap indicators Co-electrolysis : increase durability sustainable non-toxic and non-critical raw materials Increase the penetration rate of distributed and/or intermittent renewable energy sources. Alleviation of geographical constraints LCE production with increased efficiencies at a reduced cost; Deadline : Pre-proposals : 27 oct 2016 Full-proposals : 4 May

6 IA Advanced materials and nanotechnologies NMBP 20 : High-permance materials optimizing CO2 capture the next generation CO2 capture technologies (pre-combustion or post-combustion capture, oxygen combustion),, progress has been made recently on promising new material solutions : nanostructured hybrid materials, membranes, solid and liquid-based adsorbents,... should prove their added value wrt the state-of-the-art technologies topic focus : viability wrt manufacturability, yield, stability, long working-life and easy regeneration validate their cost and permance competitiveness reach readiness level demonstration In line with specific SET-Plan roadmap indicators integrate the high-permance materials in existing and next generation demonstrators; increased competitiveness of CCS, in particular by reducing the cost of CO2 capture and the sustainability of the final products; Complementary topic : LCE

7 IA Advanced materials and nanotechnologies NMBP 20 : High-permance materials optimizing CO2 capture the next generation CO2 capture technologies (pre-combustion or post-combustion capture, oxygen combustion),, progress has been made recently on promising new material solutions : nanostructured hybrid materials, membranes, solid and liquid-based adsorbents,... should prove their added value wrt the state-of-the-art technologies topic focus : Pre-proposals : 27 oct 2016 viability wrt manufacturability, yield, stability, long working-life and easy regeneration validate their cost and Full-proposals permance competitiveness : 4 May 2017 reach readiness level demonstration Deadline : In line with specific SET-Plan roadmap indicators integrate the high-permance materials in existing and next generation demonstrators; increased competitiveness of CCS, in particular by reducing the cost of CO2 capture and the sustainability of the final products; Complementary topic : LCE

8 Advanced materials and nanotechnologies RIA LCE : International Cooperation with South Korea on new generation high-efficiency capture processes development of high-potential novel technologies or processes post- and/or precombustion CO2 capture e.g. : - systems based on solids or liquids or a combination, e.g. Dry Sorption Process, Membrane, Wet sorption process Focus : Basic research / new paths Proof of concept - prototype testing under industrially relevant conditions Out of scope : demonstration at large scale or a combination of CCS technologies proven at pre-demonstration pilot scale - compared to existing technologies : significant reduction of the energy penalty of the whole capture process power plants or other energy-intensive industries, considerable decrease of the fuel-dependent cost of capture; substantial reduction of the capital cost and of the operational and maintenance (O&M) costs 8

9 RIA Advanced materials and nanotechnologies LCE : International Cooperation with South Korea on new generation high-efficiency capture processes development of high-potential novel technologies or processes post- and/or precombustion CO2 capture Deadline e.g. : : - systems based on Full-proposals solids or liquids : or 16 a combination, Feb 2016 e.g. Dry Sorption Process, Membrane, Wet sorption process Focus : Topic budget: 17 M Basic research / new paths Proof of concept - prototype testing under industrially relevant conditions Collaboration with South Korea projects : Out of scope : demonstration at large scale or a combination of CCS technologies proven at pre-demonstration pilot required scale / based on mutual benefit and reciprocity. - compared to existing technologies : EU project s budget to allocate exchange of info/ researchers significant reduction of the energy penalty of the whole capture process power plants or other energy-intensive industries, considerable decrease of the fuel-dependent cost of capture; substantial reduction of the capital cost and of the operational and maintenance (O&M) costs

10 Advanced materials and nanotechnologies RIA LCE : Utilisation of captured CO2 as feedstock the process industry Develop innovative processes to produce high-volume added value products from CO2 (such as chemicals and/or fuels) 6-10 Demonstrate the technical and economic feasibility in an industrially relevant environment through demonstration of a system prototype Consider the energy balance and the type of energy required CO2 transmations, the CO2 abatement potential (in terms of time-scale and volume) and process sensitivity to flexible (intermittent) operation 5 6/7 Demonstration, in the relevant environment and scale, of the technical and economic feasibility / high-volume added-value products Reduction of the emissions of greenhouse gases on full LCA basis. Significant decrease of the cost of CCU vs. CCS. Improved energy and resource intensity with respect to conventional manufacturing of the same product. quantified / justified 10

11 RIA Advanced materials and nanotechnologies LCE : Utilisation of captured CO2 as feedstock the process industry Develop innovative processes to produce high-volume added value products from CO2 (such as chemicals and/or fuels) Demonstrate the technical and economic feasibility in an industrially relevant environment through demonstration of a system prototype Consider the energy balance and the type of energy required CO2 transmations, the CO2 abatement potential (in terms of time-scale and volume) and process sensitivity to flexible (intermittent) operation Full-proposals : 16 Feb 2016 Deadline : Demonstration, in the relevant environment and scale, of the technical and economic feasibility / high-volume added-value products Reduction of the emissions of greenhouse gases on full LCA basis. Significant decrease of the cost of CCU vs. CCS. Improved energy and resource intensity with respect to conventional manufacturing of the same product. Topic budget: 10 M quantified / justified /7 11

12 Advanced materials and nanotechnologies RIA BIOTEC : Microbial platms CO2-reuse processes in the low-carbon economy Develop the full potential of CO2 reuse technologies based on (synthetic) microbial platms Proposals should cover one or more of the following issues: Microbes with an improved ability to convert CO2 as a feedstock into chemicals and plastics. Discovery of new, more active and robust enzymes improved bio-catalysis. Design of new synthetic microbial systems to produce useful enzymes. Improved microbes with resistance to impurities, by-products and target products. Exploring the potential application sectors of the products and technologies to be developed. Explore the public perception and acceptance of the technology Development and validation of at least two microbial cell factories; Development of concepts solving challenges expected by an industrial-scale implementation; Contribution to the reduction in CO2 emissions in the medium to long term; Supporting the EU in becoming a global leader in CO2 re-use technologies

13 Advanced materials and nanotechnologies RIA BIOTEC : Microbial platms CO2-reuse processes in the low-carbon economy Develop the full potential of CO2 reuse technologies based on (synthetic) microbial platms Proposals should cover one or more of the following issues: Microbes with an improved ability to convert CO2 as a feedstock into chemicals and plastics. Discovery of new, more active and robust enzymes improved bio-catalysis. Design of new synthetic microbial systems to produce useful enzymes. Improved microbes with resistance to impurities, by-products and target products. Exploring the potential application sectors of the products and technologies to be developed. Explore the public perception and acceptance of the technology Deadline : Pre-proposals : 27 oct 2016 Full-proposals : 4 May 2017 Development and validation of at least two microbial cell factories; Development of concepts solving challenges expected by an industrial-scale implementation; Contribution to the reduction in CO2 emissions in the medium to long term; Supporting the EU in becoming a global leader in CO2 re-use technologies

14 Info aft-work-programmes Calls official publication: Mid-October

15 Thank your attention Merci de votre attention Pierre Fiasse NMP, Transport & Aero NCP