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Environmental implications of electricity generation in an integrated long-term planning framework

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  • Turner, Graham M.
  • West, James

Abstract

Long-term, integrated modelling of electricity generation capacity and its operational requirements is important for coherent energy policy because of the multi-decadal lifespan of such plant, and because related fuel requirements, water consumption, and greenhouse gas emissions impact other sectors. This paper describes a physical model of electricity generation designed for long-term simulations, including the reproduction of decades of historical data, and its application to key policy questions. The simulation uses a dynamic, physical input–output model for the basic material and energy industries, embedded in an economy-wide stocks and flows framework (SFF). The historical reproduction, illustrated for the state of Victoria, is based on integrating bottom-up technical data on physical processes as inputs, and validating output against top-down aggregate data. We show that while greenhouse gas emissions would decrease significantly with the aggressive introduction of cleaner generation technology, long-term reductions are difficult to maintain against ongoing growth in consumption. Additionally, our sensitivity analysis identifies the importance of rapid action due to the age structure of operating power stations. We also identify significant imposts of alternative power generation on land and water resources, though a business-as-usual scenario would impose greater losses of water resources.

Suggested Citation

  • Turner, Graham M. & West, James, 2012. "Environmental implications of electricity generation in an integrated long-term planning framework," Energy Policy, Elsevier, vol. 41(C), pages 316-332.
    • Handle: RePEc:eee:enepol:v:41:y:2012:i:c:p:316-332
    DOI: 10.1016/j.enpol.2011.10.053
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    References listed on IDEAS

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    1. Graham Turner & Timothy Baynes & Bertram McInnis, 2010. "A Water Accounting System for Strategic Water Management," Water Resources Management: An International Journal, Published for the European Water Resources Association (EWRA), Springer;European Water Resources Association (EWRA), vol. 24(3), pages 513-545, February.
    2. Rio Carrillo, Anna Mercè & Frei, Christoph, 2009. "Water: A key resource in energy production," Energy Policy, Elsevier, vol. 37(11), pages 4303-4312, November.
    3. Rachmatullah, C. & Aye, Lu & Fuller, R.J., 2007. "Scenario planning for the electricity generation in Indonesia," Energy Policy, Elsevier, vol. 35(4), pages 2352-2359, April.
    4. Fthenakis, Vasilis & Kim, Hyung Chul, 2010. "Life-cycle uses of water in U.S. electricity generation," Renewable and Sustainable Energy Reviews, Elsevier, vol. 14(7), pages 2039-2048, September.
    5. Gagnon, Luc & Belanger, Camille & Uchiyama, Yohji, 2002. "Life-cycle assessment of electricity generation options: The status of research in year 2001," Energy Policy, Elsevier, vol. 30(14), pages 1267-1278, November.
    6. Timothy M Baynes & Graham M Turner & James West, 2009. "Historical Calibration of a Water Account System," Socio-Economics and the Environment in Discussion (SEED) Working Paper Series 2009-04, CSIRO Sustainable Ecosystems.
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