Energy & Environment ResearchFraser of Allander Institute
Department of Economics University of Strathclyde
January 2011
Summary of Energy & Environment Research at the Fraser of Allander Institute
We use a number of different analytical approaches to examine the relationships between economic activity and energy and environmental concerns.
We consider issues ranging from the cost and impact of new renewable (including marine) electricity generation technologies, to the system-wide economic, energy and environmental impact of energy efficiency improvements.
SuperGen Marine Energy research
In research funded by the EPSRC through the SuperGen Marine Energy Consortium, we have contributed to our understanding of:
-The relationship between developments in the marine energy industry and wider economic activity in the UK
-The role that marine technologies might play in providing electricity in the future
-The appropriateness of current & proposed policy support mechanisms
Some key areas of research (1)
Macroeconomic impacts on Scottish & UK economy of developments in the marine energy sector
• Impact of export demand for UK tidal devices
• Relationship between marine energy expenditures and regional employment
We use multi-sector modelling approaches to consider the system-wide impacts of developments in the marine energy industry• Input-output and social accounting matrix databases
• Computable general equilibrium modelling
Some key areas of research (2)
We calculate the cost of wave and tidal energy provision
• Levelised costs and impact of ROC banding on “cost competitiveness” of renewables, including marine
• Wider social costs and benefits of marine energy
Portfolio theory applications for wave and tidal energy in UK and Scotland
• We explore the construction of “efficient” portfolios of electricity generation
• And calculate the contribution that marine technologies might play within a broader portfolio of electricity generation (for example in reducing the ‘riskiness’ - in terms of cost variability - of the portfolio)
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Some sample results: macro impacts
We can:
Quantify the macro- and sectoral distribution of impacts from marine energy developments on UK economy
We identify domestic expenditures for given deployment timetables; estimate potential export revenues
Sectoral employment impact of the domestic and international demand stimulus
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Potential export markets for UK-manufactured marine energy devices
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Some sample results: levelised costsWe have shown:
The levelised costs of wave and tidal energies compared to other renewable and non-renewable technologies
How the cost comparisons are affected by “banding” of Renewable Obligations Certificates
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Wave Tidal Onshorewind
Offshorewind
PWRNuclear
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IGCC withCCS
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IGCC Coal CCGT withCCS
Electricity Generation Technology
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DTI - Low ROC price
DTI - High ROC price
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SG - High ROC price
Levelised cost
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Some sample results: portfolio theoryWe can:
Quantify contribution of wave and tidal technologies to reducing overall electricity portfolio cost variability
Demonstrate that as we move from a portfolio mix with 0% tidal share to 10% tidal share we demonstrate that we can achieve a less ‘risky’ (in terms of cost variability) portfolio for a given cost p/kWh (see chart overleaf)
Compare alternative ‘mixes’ of electricity generation types for Scotland to “efficient portfolios”
Some sample results: portfolio theory
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Risk: standard deviation
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Other energy-related work
EPSRC SuperGen wind energy consortium – estimating the impact of developments in the offshore wind industry
EU Biomara – exploring the impact of bio-marine energy
Research on Sustainable Glasgow, funded by Glasgow City Council
Scottish Government – study of the costs of reducing carbon emissions in Scotland
EPSRC multiscale modelling to maximise demand side energy management
Selected Recent PublicationsALLAN, G.J., BRYDEN, I., McGREGOR, P.G., SWALES, J.K., STALLARD, T., TURNER, K., AND WALLACE, R. (2008) “Concurrent and legacy economic and environmental impacts from establishing a marine energy sector in Scotland”, Energy Policy, Vol. 36, p. 2734-2753.
ALLAN, G.J., EROMENKO, I., McGREGOR, P.G. & SWALES, J.K. (2011): “The Regional Electricity Generation Mix in Scotland: A Portfolio Selection Approach Incorporating Marine Technologies”, Energy Policy, Vol. 39, Issue 1, pp.6-22.
ALLAN, G.J., GILMARTIN, M., McGREGOR, P. & SWALES, J.K. (2011): “Levelised Costs of Wave and Tidal Energy: Current Cost Comparison and the Impact of ‘Banded’ Renewables Obligation Certificates”. In press, Energy Policy. Available online 08 October, 2010: DOI 10.1016/J.ENPOL.2010.08.029.
HALL, P., McGREGOR, P., & WILSON, G (2010): “Energy Storage in the UK Electrical Network: Estimation of the Scale and Review of Technology Options”, Energy Policy, Vol.38, Issue 8 (2010), pp.4099-4106
McGREGOR, P.G., ALLAN, G., GILMARTIN, M., SWALES, J.K., AND TURNER, K. (2009): “The macroeconomics of energy efficiency: a theoretical analysis. In: International Handbook on the Economics of Energy. Edward Elgar, United Kingdom. ISBN 978 1 84720 352 6
McGREGOR, P.G., SWALES, J.K. AND TURNER, K. (2008): “The CO2 ‘trade balance’ between Scotland and the rest of the UK: Performing a multi-region environmental input-output analysis with limited data”, Ecological Economics, Vol. 66, Issue 4, July, pp. 662-673.