EU Advanced Manufacturing Funding through Horizon 2020 -Key Enabling Technologies Dr Liam Brown Horizon 2020 National Delegate Enterprise Ireland
We work with clients in 5 core areas: Innovation Building leadership and management capability Entrepreneurship Exports and Market Intelligence Competitiveness
Enterprise Ireland: R&D Supports
What are we looking for More innovation: Industry and Research: to create growth and jobs Strategic investments in key technologies Leverage European investment in Research and Innovation Enabling Skills Professional Engineers
Why its important Access to significant non-exchequer external funding Access to specific external expertise Identification of new IP opportunities Access to new commercial markets Fellowship training programmes for mobility and diversity goals Benefits of involvement in large projects
From FP7 to Horizon 2020 FP7 phasing out Horizon 2020: Commission proposal of 30/11/2011, inter-institutional decision process ongoing Framework Programme for research and innovation How best to prepare and promote industrial deployment of key enabling technologies Involving industry through European Technology Platforms and PPPs - institutional and contractual
Horizon 2020 Total budget: ~79 Billion * Excellent science Industrial leadership Societal challenges Budget: 24.4 B * Budget: 17 B * Budget: 30 B * European Research Council Future and EmergingTechnologies Marie Curie actions Research infrastructures EIT, JRC, Euratom ~ 7B Leadership in enabling and industrial technologies Access to risk finance Innovation in SMEs Widening Participation, Society ~ 1.3B * To be finalised by EP and Council- Oct/Nov 2013 Health, demographic change and wellbeing Food security, sustainable agriculture, marine and maritime research & the bioeconomy Secure, clean and efficient energy Smart, green and integrated transport Climate action, resource efficiency and raw materials Inclusive, innovative and secure societies
Research and innovation in the policy context EU2020 Strategy Innovation Union Industrial policy Digital Agenda Resource efficient Europe European energy and climate policy and goals European Strategy on Key Enabling Technologies Policy on raw materials & the European Innovation Partnership on Raw Materials European Innovation Partnership on Smart Cities Task Force on advanced manufacturing
Horizon 2020: challenge oriented Grand societal challenges o Climate action, resource efficiency and raw materials o Secure, clean and efficient energy o Smart, green and integrated transport; o Food security, sustainable agriculture, marine and maritime research, and the bioeconomy Leadership in industrial and enabling technologies
Europe fails in translating its knowledge base into goods and products- Case Study: PV Cell production First Solar 12% % PV cell production share in 2009 % 27% Photonics Patent Share Europe 13% 29% Japan China/Taiwan 42% Europe = 80 % 15% of global market Others 42% Asia 18% 2% Source: Photon International Mars 2010, European Competitiveness Report 2010, European Competitiveness in Key Enabling Technologies (TNO/ZEW) «JP Morgan, PV News, Oliver Wyman Analysis
Case Study: Li-ion battery production % Li-ion battery cell production share in 2008 % Advanced Material Patent Share USA 1% 30% Europe 0% 31% Asia 87% 35% 12% 4% Others Source: European Competitiveness Report 2010, European Competitiveness in Key Enabling Technologies (TNO/ZEW), CGGC, Lithium-ion Batteries for Electric Vehicles : THE U.S. VALUE CHAIN, October 2010
Leadership in Enabling and Industrial Technologies A common approach to enabling and industrial technologies: o ICT, including micro and nano-electronic, photonics o Nanotechnologies o Advanced Materials o Advanced Manufacturing and Processing o Biotechnology o Space Innovation: Emphasis on technology development, industrial-scale pilots and demonstrators, prototyping and product validation Specific support for "multi-kets" / "cross-kets" Strong focus on leveraging private sector investment Important role of PPPs to implement KET related activities under preparation
Industrial deployment of Key Enabling Technologies (KETs) What are KETs? Six strategic technologies Driving competitiveness and growth opportunities Contributions to solving societal challenges Knowledge- and Capitalintensive Cut across many sectors Nanotechnologies Advanced Materials Micro- and nanoelectronics Photonics Biotechnology Advanced Manufacturing EC Communications (2009)512 & (2012)341 KET High-level Group
Address the whole innovation chain An impact oriented approach Support activities with technology readiness levels spanning from the low end to highest levels preceding mass production Dedicated support will be provided for industrial-scale pilot lines and demonstrator projects Integration of commercialization readiness activities Contractual PPPs as an important vehicle for industrial participation SMEs
Promote the "enabling" nature of KETs High potential of KETs to create most advanced products In H2020: Support of cross-cutting KET R&D activities to promote high potential of combination and integration of different KETs Strong focus on the contribution of KETs to societal challenges, including the provision of clean water, waste treatment for recycling purposes, maintenance of buildings, low-carbon manufacturing etc
Case example: the electric car
KETs in Horizon 2020 throughout the innovation chain Future and Emerging Technologies (FET): address grand science and technology challenges which require a research effort for a period of up to 10 years. Societal challenges and "focus areas": concentration of effort and resources, in order to maximise impacts. Strongly underpinned by innovation potential of KETs. LEIT: boosting the industrial deployment of enabling technologies
Promote involvement of industry To enhance synergies between research and industry Strategic research and innovation agendas defined by industry and business, together with the research community With a strong focus on leveraging private sector investment SME targeted activities, such as integrated approach for SMEs and SME Instrument PPPs used for the implementation of KETs in areas such as the factories of the future, energy-efficient buildings, the sustainability of the process industries and clean vehicles
Public Private Partnerships(PPPs) Special characteristics Areas of special industrial and societal relevance, common objectives, added value, no alternative mechanism better Industry has a leading role in defining research priorities Pre-defined budget ensures continuity and commitment Focused on enabling industrial technologies Increased use of SME-friendly instruments and demonstration H2020: Roadmap under preparation with large stakeholder involvement and public consultation
Public Private Partnerships(PPPs) in FP7 Joint Technology Initiatives Contractual PPPs Innovative Medicines Initiative (IMI) Clean Sky Single European Sky ATM Research (SESAR) Fuel Cells and Hydrogen (FCH) Factory of the Future (FoF) Energy Efficient Buildings (EeB) Green Cars (GC) Future internet (FI-PPP) Embedded Computing Systems (ARTEMIS) Nanoelectronics (ENIAC)
H2020: Potential PPPs identified in the Specific Programme Continuation/consolidation of existing JTIs/JUs Continuation of existing contractual PPPs: Factories of the Future, Energy-efficient Buildings, Green Vehicles, Future Internet Under preparation: JTI: bio-based industry (BRIDGE) cppps: Sustainable Process industry (SPIRE), Photonics, Robotics
Importance of KETs to Ireland 1,030 IDA Portfolio Companies: 515 from the US IRELAND has industry leaders in all KETs: Micro & Nano Electronics, Nanotechnology, Photonics, Advanced Materials, Biotechnology & Advanced Manufacturing. Potential multi-kets exemplar 152,000 / 260,000 Impact 122 billion
Importance of KETs to Ireland continued Worldwide recognition of importance of KETs Developed economies and manufacturing Big ideas not the preserve of big companies Collaboration needed between: SME and MNC Business and Academia Public and Private Sector Government creates policy, Industry creates Jobs and Growth
Some FP7 success stories Intel Successful participation in in over 30 FP7 projects taking in excess of 10M funding and recruited/assigned 15 engineers Technology Development Driving factory efficiencies Cellix, Dublin A micro fluidics company are partners in the Namdiatream project, TCD led with more than 20 partners and an overall budget of 12m. Other Irish partners also include Radisens Diagnostics and UCD. The Irish intake exceeds 4m. Namdiatream deals with the development of a nano-tool for the treatment and diagnostics of diseases including cancer.
Some FP7 success stories Vysera Biomedical, Galway Partners along with NUIG in Pulmostent focused on the development & evaluation of a Viable Stent Device for the Treatment of BronchoTracheal Cancer. Vysera has developed and patented a unique biomaterial with applications in gastroenterology and urology. Crospon, Galway 2010 Factories of the Future Call (FoF): Project IMPRESS: Flexible Compression Injection Moulding Platform for Multi-Scale Surface Structure. Three plastic demonstrators with advanced micro-nano features has helped develop their technology. Recently also funded in the 2013 FoF call with CRANN (TCD) spin out ADAMA Innovations Shannon Microcoil, Limerick Have partnered in multiple Framework projects. The technologies that they have developed and their involvement in projects has facilitated their business to respond to the construction downturn. They have changed from 80% construction/20% medical to 80% medical/20% construction They originally got involved in a consortium because Boston Scientific were a partner and are now a customer!
Some FP7 success stories Enerit, Galway FP7 ICT research project CASCADE provides showcasing application for company s software for energy efficiency in two major European airports CIP ICT innovation project VERYSchool provides showcasing application for company s software for energy efficiency in a wide range of European schools Intune Networks, Dublin FP7 ICT Future Internet research projects ENVIROFI (Environment), FINSENY(Smart Energy),MAINS (Metro Networks) provide a wide range of applications and showcasing for company s advanced optoelectronic communication technologies Steripack Medical, Clara, Offaly Research for the Benefit of SMEs project: Synthafleece - creation of a new, synthetic medical fleece that is capable of the sustained release of antibiotics and bone proteins
What do we need? World Class Research and Development Commercialisation though Collaboration Engineering Skillsets Where Innovation means Business
Further information FP7 Research Themes and Call information: ec.europa.eu/research/participants/portal Information on the Research PPPs: ec.europa.eu/research/industrial_technologies/ liam.brown@enterprise-ireland.com