EUROGIA + a EUREKA initiative for Low-Carbon Energy Technologies

Transcription

1 EUROGIA + a EUREKA initiative for Low-Carbon Energy Technologies Page 1

2 Introduction to EUROGIA+, the cluster for low carbon energy technologies, and its contribution to smart grids development CONFERENCE ON SMART GRIDS Tallinn, 20 th April 2011 Gabriel Marquette EUROGIA+ President Page 2

3 Agenda Energy Outlook: energy demand, climate change & smart grids Smart Grids: technology roadmap EUREKA & EUROGIA+ : a tool for smart grid development Page 3

4 Agenda Energy Outlook: energy demand, climate change & smart grids Smart Grids: technology roadmap EUREKA & EUROGIA+ : a tool for smart grid development Page 4

5 Mtoe World primary energy demand WEO 2008 Reference Scenario Other renewables Hydro Nuclear Biomass Gas Coal Oil World energy demand expands by 45% between now and 2030 an average rate of increase of 1.6% per year (coal > 1/3rd of the overall rise) Source: WEO2008 Page 5

6 Gigatonnes Energy-related CO 2 emissions in the Reference Scenario absolutely unsustainable International marine bunkers and aviation Non-OECD - gas Non-OECD - oil Non-OECD - coal OECD - gas OECD - oil OECD - coal 97% of the projected increase in emissions comes from non-oecd countries. Such growth means a long-term concentration of GHG in the atmosphere of over 750 ppm of CO2. A global temperature increase of around 6 degrees Source: WEO2008 Page 6

7 CO 2 emissions (Gt CO 2 /yr) Mitigation Solutions: Technology Wedges Baseline Emissions 62 Gt CCS industry and transformation 9% CCS power generation 10% Nuclear 6% Renewables 21% WEO ppm case BLUE Map Emissions 14 Gt ETP2008 BLUE Map scenario Power generation efficiency & fuel switching 7% End-use fuel switching 11% End use electricity efficiency 12% End use fuel efficiency 24% Contribution of Technology Options Source: ETP2008 Page 7

8 Towards the 3rd industrial revolution? EU goal: 20% renewable in the energy mix 20% increase energy efficiency 20% reduction of global warming emissions in 2020 (compared with 1990s level) The 3 pillars of the 3 rd industry revolution: Renewables economics Energy efficiency storage & consumption Intelligent energy networks smart grids Page 8

9 The European Perspective Page 9

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16 Agenda Energy Outlook: energy demand, climate change & smart grid Smart Grids: technology roadmap EUREKA & EUROGIA+ : a tool for smart grid development Page 16

17 Definition: Smart Grids A smart grid is an electricity network that uses digital and other advanced technologies to monitor and manage the transport of electricity from all generation sources to meet the varying electricity demands of end-users Rationale: Smart grid technologies offer ways to develop a cleaner energy supply that is more energy efficient, more affordable and more sustainable, in addition to face numerous challenges (ageing infrastructure, continued growth in demand, GHG emission, variable renewable energy sources and electric vehicles) Source: IEA Technology Roadmap/Smart Grids 2010 Page 17

18 Smart Grids can link electricity system stakeholder objectives Source: IEA Technology Roadmap/Smart Grids 2010 Page 18

19 Smarter electricity systems Source: IEA Technology Roadmap/Smart Grids 2010 Page 19

20 Electricity system needs for today and the future (1/3) Source: IEA Technology Roadmap/Smart Grids 2010 Page 20

21 Electricity system needs for today and the future (2/3) Source: IEA Technology Roadmap/Smart Grids 2010 Page 21

22 Electricity system needs for today and the future (3/3) Source: IEA Technology Roadmap/Smart Grids 2010 Page 22

23 Smarter grid deployment Smart grid technology areas Page 23 Source: IEA Technology Roadmap/Smart Grids 2010

24 Conclusion - Key findings Source: IEA Technology Roadmap/Smart Grids 2010 Page 24

25 Agenda Energy Outlook: energy demand, climate change & smart grid Smart Grids: technology roadmap EUREKA & EUROGIA+ : a tool for smart grid development Page 25

26 What is EUREKA EUREKA is a pan-european network for market-oriented, industrial R&D A decentralized intergovernmental initiative started in 1985 Financial support from individual participating countries programs The internationally-recognized EUREKA label adds value and competitive edge to R&D projects Among its various programs are the Clusters programs, with each Cluster covering a particular industry sector e.g. IT, Energy Standard project: 1-5 million Euro budget for 3 year d For more info, visit EUREKA s website: Page 26

27 Timeline of project development EUREKA Role in Product Development Chain Concept Feasibility Product Process or Service Fundamental research Applied research Technological Development Commercial Exploitation EC Framework Program Industrial Innovation EUREKA Programs/Clusters Page 27

28 What is EUROGIA+ The EUREKA cluster dedicated to energy technologies Includes the full energy mix Renewable energies and decarbonization of fossil fuels Received a 5-year mandate to run its R&D program Project proposals evaluation, selection and label EUROGIA+ promotes and facilitates partnerships between industrials and researchers across EUREKA member countries The ultimate goal is to help develop low-carbon energy technologies that are environmentally friendly while providing an affordable energy supply that satisfies the growing energy demand. Page 28

29 EUROGIA+ Key Missions Attract and foster best-in-class projects Build up a network across 40 EUREKA countries and facilitate partner search Provide guidance to project proposers/partners Promote projects to Public Authorities and facilitate access to national financial support Monitor project implementation to ensure technological and commercial success Provide SMEs access to global markets and larger enterprises the flexibility of SME research and development Benefit from knowledge exchange with full control of Intellectual Property Rights Page 29

30 E+PAC Public Authorities Network NPC/HLG-ESE; Other Clusters Advisory Group Energy Producers & CEOs Executive Committee President, VP, General Mgr Secretary General, Treasurer Technical Committee Industries & Research Institutes BOARD Industries Office Operations Support Relations with Public Authorities Programme Compliance Projects Labelling BOARD Chairman (President) TC Chairman (VP) Operations Manager (GM) Communication (Sec. Gen.) Projects Evaluation Recommendations to the Board Programme evaluation (yearly) Management of Association Internal & External Communication Partners database management Page 30

31 EUROGIA+ Members of Governance Board Members Technical Committee Members Page 31

32 17 supporting countries (2011) EUROGIA+ Public Support Austria Belgium Croatia Denmark Estonia France Germany Hungary Iceland Ireland Israel Monaco Norway Poland Slovenia Spain Turkey Page 32

33 EUROGIA+ : Mission Mitigate the energy consumption growth by providing cleaner and safer technologies and processes to produce energy from all available resources in the energy mix, from fossil to renewable energy sources. Energy-related CO 2 emissions in the Reference Scenario Mitigation Solutions: Technology Wedges Meeting our by 2020 goals Page 33

34 Energy mix & Value chains Source Fossil Biomass Wind, Hydro, Solar (PV & Concentrated) Thermal Solar & Geothermal Conversion Energy Vector: Combustible Electricity Heat Storage Transport /Distrib. Use Transport Industry Residential Page 34

35 Technology R&D Needs Power generation Building and Appliances Industry Transport Page 35 Source: ETP2008

36 EUROGIA+ Technology domains EUROGIA+ fosters partnerships between competencies covering a large spectrum of disciplines Critical Energy Technologies Geothermal Solar Wind Power Biomass (2 nd Generation) Hydro Power Oil & Gas Enabling Technologies* Tools fabrication & Installation Carbon Capture & Storage (CCS) Information & Communication Technologies (ICT) Materials Energy Efficiency Education and training *The list is not exhaustive but to be developed Page 36

37 EUROGIA+ key figures 18 Board Members: 12 LE, 6 SME, 8 countries 17 Supporting Countries 5 Calls 40 International Experts 20 Countries involved 170 Partners 60 POs 23 FPPs 18 Projects Labeled Budget: POs = 210 M ; labeled = 77 M Page 37

38 EUROGIA+ network Page 38

39 EUROGIA+ & Smart Grids Sol-Ion: Renewable Energy System, including energy storage system with Lithium-ion battery, for residential and small commercial application Smart Campus: Smart grid technologies demonstrators linked to electromobility in support of cities sustainable development Estonian Projects: Welcome! Page 39

40 Sol-Ion overview Renewable Energy System, including energy storage system with Lithium-ion battery, for residential and small commercial application. Total cost 9,197 K Duration 42 mths EUROGIA Label Sep Consortium Industry R&D Institutes Start Mar Saft, Tenesol Conergy, E-ON INES ISEA, ISET, ZSW 1 st Systems Oct End Sep Page 40

41 Sol-ion,a successful development Page 41

42 Sol-Ion - project outline DC current AC Current Characteristics PV Panels Electricity Storage Unit (ESU) Li-Ionbattery Internal users Energy Management System (EMS) Energy Conversion (EC) External users Grid PV panels: 2 à 5 kwp Li-Ion Battery : 5 to 15 kwh 170 V to 650 V 20 yrs lifetime System functionalities Multidirectional flow Self-consumption of produced electricity Grid support Backup Page 42

43 SMARTCAMPUS Enabling technologies for enhancing the energy mix value chain: smart grid technologies demonstrators linked to electro-mobility in support of cities sustainable development Background: New renewable energy sources crucial to develop low carbon energy - are intermittent & suffer from being scattered and hardly storable Likewise new controllable energy needs are emerging such as typically electro-mobility Energy efficiency requires balancing of production and consumption at all levels of Grid infrastructures Purpose Deploy a real life local mix of renewable energy in a campus Maximise local energy delivery for the charging of a fleet of electric vehicles Develop new technologies and ICT tools Page 43

44 SMARTCAMPUS Change in Urban Environment paradigms Deregulation & Real-time Pricing Difficulty to expand Grid Infrastructures Smart Energy Positive Infrastructures Consumers turning to Prosumers Virtual Power Plant / Microgrid An Eco campus with renewable generation, flexible demand & electro mobility total capacity above 20MW interconnected with global energy wholesale markets Increased energy density during peaks Integrated Mobility Services New IT expectations to co optimise energy & transportation infrastructure usage Page 44

45 SMARTCAMPUS: Project Outputs Developing a local Smart Microgrid where production, distribution, storage, flexible consumption are coordinated through real-time while incorporating end user dynamic response Development of a monitoring, control & optimisation software connecting different kind of Distributed Energy Resources Integration with new e-car sharing service integrating new e-car usages (mobility) and user behaviors in to Microgrid management Building & deploying a real life demonstrator on a campus: Deployment & testing of technologies, Extract social acceptance factors by studying end-users behaviors Developing new Smart grid business opportunities by working on new services business models across energy & e-mobility business boundaries taking into account legal obstacles, risks, barriers, etc. Page 45

46 SMARTCAMPUS: Project Outlook Mobility 7 partners 6 countries Budget = 13.2 M - Duration = 36 months Page 46

47 EUROGIA+ Added Value To the project proposers: International Collaboration Large market access Top quality projects resulting from international peer review Eurogia+ label is key to access local funding. To meet societal needs: To satisfy growing energy demand. Contribution to objectives Employment and job creations in Eureka countries Clean and safe technologies to be deployed worldwide Page 47

48 The way forward EUROGIA+ White Book revision: Energy Production Energy Efficiency Energy Management EUROGIA+ website revamping: Going live in May EUROGIA+ Advisory Committee invitation: Energy Producers Board Members Executives Estonian participation: Projects, Partners, Funding, Board members Page 48

49 Present Calls for Proposals DEADLINES Call 06 Project Outline Submission: February 9 th 2011 Hearings: February 22 nd 2011 Full Project Proposal Submission: May 10 th 2011 Labeling date: May 25 th 2011 Call 07 Next Deadline Sept. 14 th 2011 > Website: > Smart Gridscontact@eurogia.com Conference Page 49

50 tänan väga! Page 50

51 Back-up Slides Page 51

52 The EUROGIA+ Label EUROGIA+ scheme s benefits: Project enrichment due to dynamic transnational peer review Improved project quality due to evaluation by both research institutes and industrials Potential for larger market access due to awareness of projects at international level Label is proof of quality to access national funding Label makes project more attractive e.g. to public authorities and venture capitalists Page 52

53 Winning Project s Equation Industrial Innovation + Consortium Structure + Commercial Exploitation + National Priorities & Practices Proven concepts Market oriented Balanced Organisations types Competences Consortium Agreement Commercial prospects Public financial support s Rules & Availability ROI for funding countries Page 53

54 Process 2-step process: Project Outline (PO): Short Document addressing basic evaluation criteria Hearing & Evaluation by the Technical Committee Full Project Proposal (FPP): Complete Proposal s description Evaluation by the Technical Committee Close Cooperation E+PAC / EUROGIA+ Board At PO level: communication to E+PAC of accepted POs for advice on eligibility for financial support At FPP level: financial support s agreement & practical details Page 54

55 Time frame Page 55

56 Summary Industrial Innovation (Product/Process/Service), Bottom-up approach, Close-to-Market R&D Projects Innovation Balanced Consortium Market IP & Exploitation Rights National Financial Support E+PAC : Industry Public Authorities Continuous communication Page 56