SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Trondheim (1350) Oslo (350) Employees:1.700 Turnover:243 mill. USD (2001) 6 research divisions: Health research ICT Marine Materials and chemistry Oil and Energy Technology and Society Dr. Bjorn H. Bakken Energy Systems SINTEF Energy Research Trondheim, Norway The Foundation for Scientific and Industrial Research at the Norwegian Institute of Technology

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Scandinavia – an ideal region for analysis? Limited geographical scope Norway, Sweden, Finland and Denmark Limited connections to neighbouring countries Transparency (data availability) All major energy resources/technologies present Hydro, nuclear, coal, oil, gas, biomass, wind, … Hydro dominated supply (stochastic resource availablity) Electricity dependent demand (reduced flexibility)

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Total energy consumption in Norway Natural and other gasses Oil products District heating Electricity Wood and waste Coal and coke TWh/year Electricity +2.6% p.a.

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Electricity Generation in Nordel 2002 (TWh) DENMARK SWEDEN FINLAND NORWAY Conv. thermal Nuclear Hydro Wind

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 NOU 1998:11 Electricity demand scenarios 2002 ® ® ®

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Scandinavia – an ideal region for analysis? Limited geographical scope Norway, Sweden, Finland and Denmark Limited connections to neighbouring countries Transparency (data availability) All major energy resources/technologies present Hydro, nuclear, coal, oil, gas, biomass, wind, … Hydro dominated supply (stochastic resource availablity) Electricity dependent demand Open markets and competition Common liberalized power market (NordPool) Emerging European gas market Emerging “green certificate” markets New renewables have to compete in current markets

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Range of wind power cost Nordel Elspot prices Weekly average (USD/MWh) USD/MWh

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Windpower in Norway In operation 2003: 100 MW (0.3 TWh/year) Concession granted: 565 MW (1.7 TWh/year) Applied & Notified: MW (7.7 TWh/year) Total: 3300 MW (10 TWh) Official target: 1000 MW (3 TWh) by 2010

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Scandinavia – an ideal region for analysis Limited geographical scope Norway, Sweden, Finland and Denmark Limited connections to neighbouring countries Transparency (data availability) All major energy resources/technologies present Hydro, nuclear, coal, oil, gas, biomass, wind, … Hydro dominated supply (stochastic resource availablity) Electricity dependent demand Open markets and competition Common liberalized power market (NordPool) Emerging European gas market Emerging “green certificate” markets New renewables have to compete in current markets Challenging region for experimenting with new planning models and methodologies!

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Transition to Sustainable Energy Services in Northern Europe (TRANSES) A joint research program between - Norwegian University of Science and Technology (NTNU) - The SINTEF Group - Massachussets Institute of Technology - Chalmers University of Technology

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Annual increase in generation and consumption TWh/year Average increase in generation Average increase in consumption

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Generation capacity vs. consumption Average generation 2002 (119 TWh/year)

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Objectives Enable governments, industries and communities to meet their future energy service needs in a cost-effective and sustainable manner in a liberalized energy market environment Outline and evaluate likely technology portfolios, deployment paths and policy options to meet future energy service needs in a cost-effective and sustainable manner in a liberalized energy market environment Create an international arena for dissemination of results, dialogue and exchange of ideas in order to gain a swifter transition to sustainable energy services Provide a toolbox of computational tools, methods and databases for analysis and decision support under uncertainty PhD education and long-term scientific cooperation between the institutions involved

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Sponsors Project idea created by Norsk Hydro, The Industry’s Innovation Fund at NTNU and Dept. of Energy and Process Engineering, NTNU Current annual budget: NOK 3,000,000 Total budget ( ): NOK 30,000,000 Current sponsors: Norsk Hydro Norske Shell Statoil Statkraft (Norw. State Power Company) Statnett (Norw. Grid Company) Statsbygg (Directorate of Public Construction and Property) Enova (State agency for energy efficiency and renewable energy)...

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Scientific partners Dept. of Energy and Process Engineering, NTNU Dept. of Electrical Power Engineering, NTNU Dept. of Architectural Design, History and Technology, NTNU SINTEF Energy Research The Laboratory For Energy and the Environment (LFEE) at MIT Dept. of Energy Technology, Chalmers SINTEF Materials and chemistry Institute for Energy Technology (IFE) BI (Norwegian School of Management) (?) Industrial Ecology Programme (IndEcol), NTNU (?) Chalmers MIT NTNU

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 PhD Studies A number of coordinated PhD studies and possibly PostDoc postitions will be initiated at the different participating institutions. Suggested themes are: Efficient energy use / Building technology (NTNU + MIT) The end users role and behaviour (NTNU + MIT) Hydrogen as future energy carrier (NTNU + IFE) MCDM / Decision support under uncertainty (NTNU + MIT) Emissions trading and green certificates (NTNU + Chalmers) CO2 capture technology (NTNU + Chalmers) Life Cycle Assessment (NTNU + MIT)

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Analytical framework Supply scenarios (capacities, locations, technologies etc.) Supply scenarios (capacities, locations, technologies etc.) Demand scenarios (sectors, carriers, services etc.) Demand scenarios (sectors, carriers, services etc.) Assumptions (attributes, strategies, uncertainties etc.) Assumptions (attributes, strategies, uncertainties etc.) Presentation of results (trade-off plots etc.) Presentation of results (trade-off plots etc.) Stakeholder interaction ”Typical” scenario study TRANSES dialog process Energy system simulator(s) Energy system simulator(s) MCDM (extraction of results, trade-off analysis) MCDM (extraction of results, trade-off analysis) Economy/ Investm. Economy/ Investm. ”Analytical engine” Data input (resources, technologies, costs, efficiencies, demand etc.) Data input (resources, technologies, costs, efficiencies, demand etc.) Policy framework (emission control, taxes, incentives, etc.) Policy framework (emission control, taxes, incentives, etc.)

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Energy products of Norway 2001

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Demand uncertainties Driving forces for growth in electricity demand Substitution of oil to electricity Increased comfort (kWh/m 2 ) Increased activities (m 2 and NOK) Domestic changes (m 2 per capita) Uncertainties in demand Development of district heating Development of natural gas Development of hydrogen etc.

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Residential electricity consumption in Norway (%) Space heating41 Hot water24 Lighting11 Cooling8 Cooking4 Washing3 Drying2 Other equipment7

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Peak demand records Available generation capacity in winter (23 – 24.5 GW)

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Exisiting demand scenarios SINTEF 1996 Energy +1% p.a. Peak power +1.2% p.a. NOU 1998:11 ‘Green Brainpower’ +0.8% p.a. ‘Climate Road’ % p.a. ‘Steady Course’ +1.3% p.a. ‘Long Journey Up’ +1.5% p.a. Nordel area: +8% from 2000 to 2010

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Supply options (1) Hydro power Politically and environmentally controversial International electricity exchange European markets? Emissions trading and certificate markets? Conventional gas power Politically and environmentally controversial Gas power with CO 2 removal High investments and reduced efficiency Direct use of gas Expensive infrastructure Environmentally controversial

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Supply options (2) Wind power High potential, but not without problems District heating with renewable energy sources Expensive infrastructure Biomass and waste Currently only heat generation Waste is paid fuel! Hydrogen Promising technology Expensive Not an energy source!!

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Demand side options (1) Local energy studies Demand forecasts Resource mapping Supply and infrastructure Local generation Utilize electricity and heat Heat pumps Alternative for heating, but increases dependence on electricity Passive (thermal) solar systems End-user flexibility / Demand side bidding

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Demand side options (2) Power intensive industries TWh Selling power “back” to the market Increased efficiency (kWh/NOK) Transport sector Main source of CO 2 in Norway Building locations New building codes and techniques Less effect than expected Slow turnover of buildings

SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 2004 Climate issues Global, regional (Europe) and national level Kyoto protocol GHG emissions related to 1990 level Joint international implementation possible EU directives Pre-Kyoto GHG permit trading system limited to large thermal power plants National directives and incentives Pre-Kyoto GHG permit trading system under development Swedish green certificate market established May 2003 Possible development to common Nordic market