SPIRE related calls 2017 - axelera.org · value chemicals from CO 2 (and CO) and demonstrate the...
Transcript of SPIRE related calls 2017 - axelera.org · value chemicals from CO 2 (and CO) and demonstrate the...
Policy Research and Innovation
Leadership in Enabling and Industrial Technologies
- SPIRE Brokerage Event Brussels, 15 Juni 2016
SPIRE related calls 2017
Søren Bøwadt
DG Research and Innovation
Policy Research and Innovation
The Policy Context for NMBP
Five of the Priority areas from Juncker's Agenda:
• To boost jobs, growth and investment;
• To realise a connected digital single market;
• To implement a resilient Energy Union with a forward looking climate change policy;
• To develop a deeper and fairer internal market with a strengthened industrial base;
• To make Europe a stronger global actor
Strategic priorities of Commissioner Moedas:
• Open innovation, Open science, Open to the world
Policy Research and Innovation
The WP approach of Horizon 2020
A strong challenge-based approach, allowing applicants considerable freedom to come up with innovative solutions
Simplified list of possible types of action (e.g. research and innovation at 100%; innovation actions at 70%,…)
Strong emphasis on expected impact, less prescriptive
Cross-cutting issues mainstreamed (e.g. social sciences, gender, international co-operation…)
Work programmes with 2-year duration
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Policy Research and Innovation
PPPs in Horizon 2020
Institutionalised PPPs Contractual PPPs
• Innovative Medicines (IMI)
• Clean Sky
• Single European Sky ATM Research (SESAR)
• Fuel Cells and Hydrogen (FCH)
• Electronic Components and Systems (ECSEL - old ARTEMIS + ENIAC)
New:
• Bio-based Industries (BBI)
• Shift2Rail
• Factory of the Future (FoF)
• Energy-efficient Buildings (EeB)
• Green Vehicles (EGVI)
• Future internet (5G)
New:
• Sustainable Process Industry (SPIRE)
• Robotics
• Photonics
• High Performance Computing
• Big Data
* All announced in the Communication on PPPs in H2020 (July 2013)
except Big Data. 4
Policy Research and Innovation
The LEIT part of the WP uses Technology Readiness Levels (or TRL) from 3-4 up to 7-8
Synergies with other EU, national or regional programmes are encouraged: Some topics are particularly suitable for additional funding
e.g. to explore paths to commercial exploitation or to deploy H2020-funded technologies 5
Policy Research and Innovation
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2016 NMBP Single stage calls FOF EEB SPIRE GV
€77,000,000 €49,000,000 €74,000,000 €16,000,000
Evaluated proposals 113 58 63 19
Requested EC Contribution €511,185,310 €246,901,637 €337,385,263 €136,223,651
Average €4,523,764 €4,256,925 €5,355,322 €7,169,666
Below thresholds 89 40 46 14
Above thresholds 24 17 17 5
Main List (nb) 17 11 14 2
Main List (EC Funding) €74,074,040 €49,472,261 €71,470,535 €15,979,498
Sucess rate (€) 14.5% 20.0% 21.2% 11.7%
Policy Research and Innovation
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2016 NMBP Single stage calls
CSA ERANET
€10,700,000 €30,000,000
Evaluated proposals 13 3
Requested EC Contribution €14,614,047 €27,558,694
Average €1,124,157 €9,186,231
Below thresholds 2 0
Above thresholds 11 3
Main List (nb) 9 3
Main List (EC Funding) €10,836,290 €27,558,694
Sucess rate (€) 74.1% 100.0%
Policy Research and Innovation
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2016 NMBP two-stage calls
PILOTS BIOTEC NMBP HEALTH ENERGY
€32,000,000 €32,000,000 €78,080,000 €32,000,000 €32,000,000
Eligible proposals 59 76 104 77 46
Requested EC Contribution €387,199,924 €479,686,561 €563,976,459 €444,030,206 €218,816,918
Average €6,562,711 €6,311,665 €5,422,851 €5,766,626 €4,756,890
Invited to 2nd stage (nb) 15 17 36 16 16
Invited to 2nd stage (€) €101,281,185 €102,263,618 €205,267,358 €97,656,569 €78,355,774
1st stage sucess rate (€) 26.2% 21.3% 36.4% 22.0% 35.8%
2nd stage sucess rate (€) 31.6% 31.3% 38.0% 32.8% 40.8%
Policy Research and Innovation
Projects selected in 2014-15
cPPPs FoF EeB EGVI SPIRE
Funding in M€ 263 138 148 201
Proposals 580 311 99 205
Projects 57 31 17 34
Success rate 10 % 10 % 17 % 14 %
Organisations 703 321 265 432
Policy Research and Innovation
Industry-share and outreach in 2014-15
cPPPs FoF EeB EGVI SPIRE
% of Industry
in the participants 60 56 54 59
% of SMEs
in the participants 36 30 20 26
Total countries in the
selected projects 28 29 21 31
% of Non-members in
the participants (2014) 77 75 67 73
% of Non-members in
the EC funding (2015) 77 70 53 71
Policy Research and Innovation
Contractual Public Private Partnerships in Horizon 2020
EU indicative funding 2014-2020 (M€)
Factories of the Future (FoF) 1150
Energy-efficient Buildings (EeB) 600
European Green Vehicles Initiative (EGVI) 750
Sustainable Process Industry 900
Advanced 5G network infrastructure for the Future Internet (5G)
700
High Performance Computing (HPC) 700
Robotics 700
Big Data 534
Photonics TOTAL:
700 6734
Industry has committed to complement these amounts with private investment in the order of of 3 to 10 times the level of public funding in addition to the in-kind contribution in the cPPP projects under Horizon 2020.
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Policy Research and Innovation
cPPP Contribution to Economy
Factories of the Future (FoF) Manufacturing: 16% of Europe’s GDP, 30 million jobs, twice as many in support activities such as logistics, 80% of the EU’s exports are manufactured
Energy-efficient Buildings (EeB)
Construction sector: 11.5 million direct jobs, 8.8 % of total employment, 7% of EU28 non-financial business economy.
European Green Vehicles Initiative (EGVI)
12 million direct jobs, over € 500 billion/year in turnover
Sustainable Process Industry (SPIRE)
20% of the European manufacturing base, 450,000 companies providing 6.8 million jobs
Advanced 5G network infrastructure for the Future Internet (5G)
40% of the worldwide market of nearly €200 billion in 2012 in terms of network infrastructure supply
High Performance Computing (HPC)
Europe is a world-leader in HPC applications that are key for our society
Robotics Robotics is a key enabling industry for manufacturing
Photonics Europe holds 18% of the global photonics market, € 66 billion share
Big Data Big Data market is growing six times faster than the overall ICT market. The compound annual growth rate (2013-17) expected to reach the overall total of $50 billion.
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Policy Research and Innovation
● no longer linear
● extended life time
● collaborative approach
● cross-sectors
● multi-stakeholders
● innovation in all forms
● design strategies
● new business models
● demand-side measures
● etc…
CIRCULAR ECONOMY
Policy Research and Innovation
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SPIRE 7 – 2017:
Integrated approach to process optimisation for raw material resources efficiency, excluding recovery technologies of waste streams
Goals: •Most efficient use of raw materials resources for high performance and sustainable production, accompanied by the optimisation of the interfaces along the value chain in the factory.
•Technological improvements that enable the reduction of material losses and energy consumption in the entire production environment, increasing the current production rates.
•Identification of key bottlenecks and improvement opportunities to increase yields while maintaining or lowering the energy consumption of the original processes.
TRL 5-7
IA 70%
EUR 6-8 million
Policy Research and Innovation
SPIRE 8 – 2017: CO2 Utilisation to produce added value chemicals
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Proposals should address innovative processes to produce added value chemicals from CO2 (and CO) and demonstrate the technical and economic feasibility in an industrially relevant environment through demonstration of a system prototype.
Goals:
• Demonstrate technical and economic feasibility of novel processes for CO2 and CO conversion to added-value chemicals.
• Reduction of at least 20%, on Life-Cycle-Assessment basis, of the emissions of greenhouse gases and energy/resource intensity with respect to commercial manufacturing of the same product.
• Significant increase of the industrial competiveness deriving from the novel processes
TRL 4-6
RIA 100%
EUR 6-8 million
Policy Research and Innovation
SPIRE 9 – 2017: Pilot lines based on more flexible and down-scaled high performance processing.
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Goals:
• Develop high performance production lines for novel or existing products providing lower capex and opex compared to existing analogues or similar processes
• Concepts should allow the elimination, combination or replacement of one or more process steps/units to increase efficiency and productivity
• Concepts should provide high flexibility (ability to follow demand), short time to market
• Industrially relevant demonstration to validate performance in real environment and potential for integration in existing plants
• Techno economic analysis providing information on the economic viability of the solutions
TRL 5-7
IA 70%
EUR 6-8 million
Policy Research and Innovation
SPIRE 10 – 2017: New electrochemical solutions for industrial processing, which contribute to a reduction of CO2 emissions
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Electrochemical processes have the potential to be highly efficient and thereby create less by-product waste compared to conventional chemical processes.
Goals:
• New electrochemical synthesis and/or electrolysis, which allows the direct creation of products
• Significant improvements in energy and resource efficiency compared to the commercially available analogue
• Easy integration with renewable energy, ease of operation at low temperature and pressure conditions as well as improvement in safety and work environment.
TRL 4-6
RIA 100%
EUR 4-6 million
Policy Research and Innovation
SPIRE 11 – 2017 : Support for the enhancement of the impact of SPIRE PPP projects
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Dissemination, exploitation and transfer of projects results are important activities during project life-time and beyond in order to make sure that projects fully achieve the expected impacts. Clustering of project activities, and their inter-linking with existing technology transfer activities, are effective ways to stimulate the take-up of project results and to exploit synergies.
Goals:
• Speeding up industrial exploitation and take up of results of SPIRE PPP projects and facilitate cross-sectorial technology transfer.
• Stimulation of networks and alliances for further RTD and industrial innovation in the addressed technology and application areas, including the development and practical application of a clustering model.
• Added value beyond the original scope of the SPIRE PPP projects by exploiting synergies and sharing best practice. Increased public presence and awareness of SPIRE PPP activities.
CSA 100%
EUR 250000 - 500000
Policy Research and Innovation
SPIRE 12 – 2017 : Assessment of standardisation needs and ways to overcome regulatory bottlenecks in the process industry
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A clear, consistent and predictable regulatory framework, which avoids unnecessary administrative and financial burden is needed to support actions should cover the needs of the different industrial sectors representing big and small companies within the SPIRE community. Their objective should be to identify and to propose solutions along the value chain, required to reach long term sustainability for Europe in terms of global competitiveness, ecology and employment.
Goals:
• Enabling regulatory authorities to better address the different relevant issues for the different stakeholders in SPIRE.
• Rationalising the process to deliver standardisation mandates to the European Standards Organisations.
• Enabling of industrial symbiosis and better use of industrial resources
• Reducing cost of operation for the process industry
CSA 100%
EUR 500000 - 1000000
Only one proposal funded
Policy Research and Innovation
SPIRE 13 – 2017 : Potential of Industrial Symbiosis in Europe
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The Circular Economy approach is dependent on industrial symbiosis (IS) whereby waste and by-products from one factory are used as an input for other factories. Such inter-plant integration can be crucial to cut energy consumption, avoid waste and create a business case for by-products and gaseous effluents and thereby decouple the use of resources from economic growth. While IS is increasingly considered to be an essential part of economic and environmental policy, the benefits and the dynamics involved needs to be better understood before the concept can be fully implemented.
Goals:
• List of best practices as well as new potential locations together with estimates of needed investments and incentives to unlock the potential.
• Identification of essential technologies and potential regulatory barriers
• Speeding up of cross-sectorial transfer of technologies
• Estimation of potential OPEX cost through implementation
CSA 100%
EUR 500000 - 1000000
Only one proposal funded
Policy Research and Innovation
"Cross-cutting KET pilot activities building on previous research that is ready to be processed towards industrial-scale processes."
PILOTS-3: Pilot Lines for Manufacturing of Nanotextured surfaces with mechanically enhanced properties, IA
PILOTS-4: Pilot lines for 3D printed and/or injection moulded polymeric or ceramic microfluidic MEMS, IA
PILOTS-5: Paper-based electronics, RIA
Calls 2017 - CCA PILOT LINES
”Systemic approaches to sustainably boost economic growth and renew Europe's industrial capacities in a world of finite resources”
Focus Area: Industry 2020 in the Circular Economy
Pilot lines in Nanotechnology and Materials
Policy Research and Innovation
Advanced materials and Nanotechnologies for high added value products & process industries
NMBP-4: Architectured /Advanced material concepts for intelligent bulk material structures, RIA
NMBP-5: Advanced materials and innovative design for improved functionality and aesthetics in high added value consumer goods, IA
NMBP-6: Improved material durability in buildings and infrastructures, including offshore, RIA
NMBP-7: Systems of materials characterisation for model, product and process optimisation, RIA
Calls 2017 NMBP
Policy Research and Innovation
Calls 2017 NMBP
Advanced materials and Nanotechnologies for Energy applications
NMBP-19: Cost-effective materials for “power-to-chemical” technologies , RIA
NMBP-20: High-performance materials for optimizing carbon dioxide capture, IA
Eco-design and new sustainable business models
NMBP-22: Business models and industrial strategies supporting novel supply chains for innovative product-services, RIA
Policy Research and Innovation
Modelling for the development of Nanotechnologies and Advanced Materials
NMBP-25: Next generation system integrating tangible and intangible materials model components to support innovation in industry, IA
Science-based risk assessment and management of Nanotechnologies, Materials and Biotechnologies
NMBP-28: Framework and strategies for nanomaterial characterisation, classification, grouping and read-across for risk analysis, RIA
NMBP-29: Advanced and realistic models and assays for nanomaterial hazard assessment, RIA
Calls 2017 NMBP
Policy Research and Innovation
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Deadlines 2017
Topic identifier
Deadline 2017 Budget (EUR million)
SPIRE 7 – 12 (2017) NMBP PILOTS
19/01/2017 27/10/2016 (1 stage) 04/05/2017 (2 stage)
80.00 186.19 32.00
EE 12 & EE 17 (2017)
19/01/2017
16.00
This presentation is based on the WP Always check legal documents
Policy Research and Innovation
For proposers – Do not forget to consider:
Value Chain Approach
Cross Sectorial / Transferable Technologies
Lifecycle perspectives
Outline Business Plan
Valorisation of results and products
Address Non-technological barriers / bottlenecks
Links to Legislation and Standardisation
No negotiation of proposals Only complete proposals
can be funded
• AND don't forget to Pre-register your proposal and submit
IN TIME
Research and Innovation
More info: Søren Bøwadt
• European Commission
• DG Research and Innovation
• Industrial technologies
• Mail: COV2 04/062, B-1049 Brussels - Belgium
• Visit Address: Covent Garden Place Rogier 16, B-1060 Brussels Belgium
• Phone Direct line: +32 (2) 299 42 03
• Fax: +32 (2) 296 05 50
• E-mail: [email protected]
About Horizon 2020 http://ec.europa.eu/research/horizon2020/