SINTEF Energiforskning AS Bjorn H. Bakken, 5 October 200 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 email: bjorn.h.bakken@sintef. The Foundation for Scientific The Foundation for Scientific and Industrial Research at the and Industrial Research at the Norwegian Institute of Norwegian Institute of Technology Technology
The Foundation for Scientific and Industrial Research at the Norwegian Institute of Technology. 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. - PowerPoint PPT Presentation
Welcome message from author
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
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. BakkenEnergy SystemsSINTEF Energy ResearchTrondheim, Norway
The Foundation for Scientific and The Foundation for Scientific and Industrial Research at the Norwegian Industrial Research at the Norwegian Institute of TechnologyInstitute of Technology
SINTEF Energiforskning AS
Bjorn H. Bakken, 5 October 2004
Scandinavia – an ideal region for analysis?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 Total energy consumptionconsumption in Norway in Norway1970 - 20011970 - 2001
50
100
150
200
250
1970
1972
1974
1976
1978
1980
1982
1984
1986
1988
1990
1992
1994
1996
1998
2000
Natural and other gassesOil productsDistrict heatingElectricityWood and wasteCoal and coke
TWh/year
Electricity +2.6% p.a.
SINTEF Energiforskning AS
Bjorn H. Bakken, 5 October 2004
Electricity Generation in Nordel 2002 (TWh)Electricity Generation in Nordel 2002 (TWh)
DENMARK
SWEDEN
FINLAND
NORWAY
Conv. thermal
Nuclear
Hydro
Wind
65.6 66.0
11.2
0.6
0.8
129.7
39.8
21.410.6
32.3
4.9
SINTEF Energiforskning AS
Bjorn H. Bakken, 5 October 2004
NOU 1998:11NOU 1998:11 Electricity demand scenariosElectricity demand scenarios
0
20
40
60
80
100
120
140
160
180
200
1995 2005 2015 2025 2035
TW
h/y
ea
r
Green BP
Heavy C-1
Heavy C-2
Steady
Journey Up
2002
2003
2007
SINTEF Energiforskning AS
Bjorn H. Bakken, 5 October 2004
Scandinavia – an ideal region for analysis?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
Nordel Elspot prices 1995 - 2004 Nordel Elspot prices 1995 - 2004 Weekly average (USD/MWh)Weekly average (USD/MWh)
US
D/M
Wh
100
50
25
75
125
SINTEF Energiforskning AS
Bjorn H. Bakken, 5 October 2004
Windpower in NorwayWindpower in Norway
In operation 2003:100 MW (0.3 TWh/year)
Concession granted:565 MW (1.7 TWh/year)
Applied & Notified: 590 + 2000 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 analysisScandinavia – 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 Transition to Sustainable Energy Services in Northern Europe Services in Northern Europe (TRANSES) (TRANSES)
A joint research program between- Norwegian University of Science and Technology (NTNU)- The SINTEF Group - Massachussets Institute of Technology - Chalmers University of Technology
2004 - 2008
SINTEF Energiforskning AS
Bjorn H. Bakken, 5 October 2004
SINTEF Energiforskning AS
Bjorn H. Bakken, 5 October 2004
Annual increase in generation and consumption Annual increase in generation and consumption 1960 - 20001960 - 2000
1990-20001980-19901970-19801960-1970
3.5
3.0
2.5
2.0
1.5
1.0
0.5
0
TWh/year
Average increase in generationAverage increase in generation
Average increase in consumptionAverage increase in consumption
SINTEF Energiforskning AS
Bjorn H. Bakken, 5 October 2004
Generation capacity vs. consumptionGeneration capacity vs. consumption1976 - 20011976 - 2001
0
20
40
60
80
100
120
140
1976 1981 1986 1991 1996 2001
TW
h/ye
ar
Consumption
Average generation 2002 (119 TWh/year)
SINTEF Energiforskning AS
Bjorn H. Bakken, 5 October 2004
ObjectivesObjectives
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
SponsorsSponsors
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 (2004-08): 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 partnersScientific 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 (?)
ChalmersMITNTNU
SINTEF Energiforskning AS
Bjorn H. Bakken, 5 October 2004
PhD StudiesPhD 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 frameworkAnalytical 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.)
Presentationof results
(trade-off plots etc.)
Presentationof results
(trade-off plots etc.)Stakeholder interaction
Stakeholder interaction
”Typical” scenario study
TRANSES dialog process
Energy system
simulator(s)
Energy system
simulator(s)
MCDM(extractionof results, trade-offanalysis)
MCDM(extractionof results, trade-offanalysis)
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 NorwayEnergy products of Norway20012001
1810
530
118
0
500
1000
1500
2000
2500
3000
Energy products
Ene
rgy
(TW
h) HydropowerGasOil
SINTEF Energiforskning AS
Bjorn H. Bakken, 5 October 2004
Demand uncertaintiesDemand uncertainties
Driving forces for growth in electricity demand Substitution of oil to electricity Increased comfort (kWh/m2) Increased activities (m2 and NOK) Domestic changes (m2 per capita)
Uncertainties in demand Development of district heating Development of natural gas Development of hydrogen etc.