Collaboration opportunities in H ENERGY, NMBP & SECURE SOCIETIES calls

Transcription

1 Collaboration opportunities in H ENERGY, NMBP & SECURE SOCIETIES calls Dr. Inga Žutautaitė Lithuanian Energy Institute, Kaunas, Lithuania Successful R&I in Europe th European Networking Event: 5 6 November 2015

2 Energy infrastructure in H2020 SECURE SOCIETIES calls CIP : Prevention, detection, response and mitigation of the combination of physical and cyber threats to the critical infrastructure (CI) of Europe For ENERGY infrastructure IMPORTANT: Call 1 15/03/ /08/2016 Call2 01/03/ /08/2017 Only 1 project focused on Energy infrastructure will be funded 1 project budget up to 8 millions EUR power plants, renewable energy resources, electricity distribution systems,. SECURE SOCIETIES Secure societies Protecting freedom and security of Europe and its citizens

3 Methodology & tools for the CI modelling and simulation (M): Both national & cross border Energy infrastructure + other CI. Availability and reliability of CI elements; Dependencies and interdependencies (physical, functional, geographical, systems and logical) of CI systems and other CI, Etc. (S): CI under various disturbances leaded by all types hazards. Disturbances leaded by both physical, socio & geopolitical and cyber threats by probabilities of occurrence; Duration and consequences of disturbances; Cascading effects; Risk propagation between CI systems; Etc.

4 Methodology & tools for the CI assessment <results establishing current state of CI> Criticality analysis; Vulnerability analysis; Resilience, safety, security assessment; Impact on Energy security; Identification needful missing tools/technologies/devices for the prevention, detection, response and mitigation of physical, socio & geopolitical and cyber threats to CI; + Building simulation scenarios Quantitative and qualitative assessment of the impact of different Energy system development scenarios (e.g. new power link interconnectors, etc.).

5 Deliverables & expected impacts Modelling, simulation & assessment results as a basis for: Development tools / technologies / devices for the prevention, detection, response and mitigation of physical & cyber threats to CI. Emergency plans, Risk management plans, Risk prevention plans, Safety management plans, Safety optimization, Mitigation strategy. Decision makers: the developing of sustainable energy projects with regard to energy demands of consumers and optimal use of energy resources.

6 Project consortium Coordinator (seeking) experience in interna onal project management Partners (seeking) LEI (LT), VMU (LT), GMU(PL), some talks with R&D organizations in Finland and France... terrorism factor cyber security Technology providers (seeking) technology / devices / of TRL 7 (system prototype demonstration in operational environment) SME are strongly welcome End users (seeking) Decision makers Operators REN (PT), Kauno energija (LT) expressed interest in project results

7 Our experience in H2020 projects on Critical Infrastructure and Energy Security topics H2020 projects: Baltic Region Initiative for Long Lasting InnovAtive Nuclear Technologies (BRILLIANT) (LCE ), ; LEI leader. Role of technologies in an energy economy model based analysis of policy measures and transformation pathway to a sustainable energy system (REEEM) (NFRP ), ; KTH (SE) leader, LEI partner. Submitted (August 27, 2015) proposal Resilient Infrastructure Europe (RIE) in H2020 call Disaster resilience: safeguarding and securing society, including adapting to climate change DRS : Critical Infrastructure Protection topic 3: Critical Infrastructure resilience indicator analysis and development of methods for assessing resilience ; LEI partner. Other national and international projects on risk & reliability analysis of energy systems, energy security analysis.

8 LEI interest and R&D experience for H2020 Secure, Clean and Efficient Energy calls Energy Efficiency Heating and cooling: EE 01, EE 02, EE 05. Engaging consumers towards sustainable energy: EE 06, EE 07, EE 10, EE 11. EE 08, EE 23 (In collaboration with Vytautas Magnus University). Low Carbon Energy Towards an integrated EU energy system: LCE 01, LCE 02, LCE 03, LCE 04. Renewable energy technologies: LCE 06, LCE 07, LCE 08, LCE 22. Social, economic and human aspects of energy system: LCE 31 (In collaboration with Vytautas Magnus University). Nanotechnologies, Advanced Materials, Advanced Manufacturing and Processing, and Biotechnology Energy efficient buildings EEB 01 Nanotechnologies, advanced materials, biotechnology and production NMBP 06, NMBP 28. Secure societies Protecting freedom and security of Europe and its citizens Critical infrastructure protection CIP 01 (for energy infrastructure)

9 LEI know how contributions to several H2020 ENERGY calls Systems reliability & risk analysis, lifetime evaluation Energy security Sustainable energy (with regard to energy demands of consumers and optimal use of energy resources) Development and modification of medium scale biomass furnaces for efficient combustion of low grade biofuels with high moisture and ash content. Solutions for automatic control of boilers; experimental investigation and CFD modelling of particles motion and heat transfer at the combustion of solid fuel on the moving grate. Analysis of heating & cooling networks and systems smart heat grids development, prediction, optimization, simulation/modelling. City district system renovation plans increasing its efficiency, reducing greenhouse. Condensing economizers Energy Efficiency Engaging consumers towards sustainable energy EE 06 Low Carbon Energy Renewable energy technologies LCE 07, LCE 08 Energy Efficiency Heating & cooling EE 01, EE 02, EE 05 LEI profile for the ENERGY calls (+ LCE 06, LCE 22, EE 17, ):

10 LEI know how contributions to several H2020 NMBP calls Safety assessment of component containing stationary cracks or cracks growing due to fatigue and/or to Inter Granular Stress Corrosion Cracking (IGSCC). Assessment of acceptable and critical crack sizes according to R6 method, ASME requirements. Modelling of material properties (strain stress curve) using Finite Element method. Modelling of fracture mechanic characteristic (stress intensity factor, J integral) using Finite Element method. Modelling of durability of material Investigation of multifunctional materials and composites/nanocomposites with new structural properties, building materials testing and analysis. Development and characterization of new insulation materials Nanotechnologies, advanced materials, biotechnology and production NMBP 06, NMBP 28 Energy efficient buildings EEB 01 NMBP Nanotechnologies, Advanced Materials, Biotechnology and Advanced Manufacturing and Processing

11 Consortium of LEI & Vytautas Magnus University contributions of know how Consumer behaviour and decision making under bounded rationality. Inclusion of consumers and SMEs into green energy consumption. Socio economic research on consumer s behaviour related to energy efficiency EE Innovative business models in contemporary business and innovation ecosystems (incl. energy and green BM). Development of financial models in business and industrial systems. Smart development of social and industrial ecosystems, complexity approach to ecosystem development. Introducing changes in economic behaviour of actors through nudging and incentive schemes. Innovative financing schemes EE Social Sciences and Humanities Support for the Energy Union LCE

12 LEI (121 research staff) in international projects Number of projects H FP7 24 FP6 14 FP5 11 Intelligent Energy Europe 31 IAEA 9 COST 15 Number of projects Eureka 4 Leonardo da Vinci 1 INTERREG III 3 Baltic Sea Region programme 3 South Baltic Cross border Co operation 1 Programme Nordic Energy Research Programme 2 Lithuanian Energy Institute Breslaujos str. 3, LT 44403, Kaunas Lithuania Dr. Inga Žutautaitė inga.zutautaite@lei.lt