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Nuclear Energy and Renewables : System Effects in Low-carbon Electricity Systems

Author

Listed:
  • Jan Horst Keppler

    (LEDa - Laboratoire d'Economie de Dauphine - IRD - Institut de Recherche pour le Développement - Université Paris Dauphine-PSL - PSL - Université Paris Sciences et Lettres - CNRS - Centre National de la Recherche Scientifique)

  • Marco Cometto

Abstract

This report addresses the increasingly important interactions of variable renewables and dispatchable energy technologies, such as nuclear power, in terms of their effects on electricity systems. These effects add costs to the production of electricity, which are not usually transparent. The report recommends that decision-makers should take into account such system costs and internalise them according to a "generator pays" principle, which is currently not the case. Analysing data from six OECD/NEA countries, the study finds that including the system costs of variable renewables at the level of the electricity grid increases the total costs of electricity supply by up to one-third, depending on technology, country and penetration levels. In addition, it concludes that, unless the current market subsidies for renewables are altered, dispatchable technologies will increasingly not be replaced as they reach their end of life and consequently security of supply will suffer. This implies that significant changes in management and cost allocation will be needed to generate the flexibility required for an economically viable coexistence of nuclear energy and renewables in increasingly decarbonised electricity systems.

Suggested Citation

  • Jan Horst Keppler & Marco Cometto, 2012. "Nuclear Energy and Renewables : System Effects in Low-carbon Electricity Systems," Post-Print hal-04573622, HAL.
    • Handle: RePEc:hal:journl:hal-04573622
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    Cited by:

    1. Cany, Camille & Mansilla, Christine & da Costa, Pascal & Mathonnière, Gilles & Duquesnoy, Thierry & Baschwitz, Anne, 2016. "Nuclear and intermittent renewables: Two compatible supply options? The case of the French power mix," Energy Policy, Elsevier, vol. 95(C), pages 135-146.
    2. repec:dau:papers:123456789/13147 is not listed on IDEAS
    3. Jenkins, J.D. & Zhou, Z. & Ponciroli, R. & Vilim, R.B. & Ganda, F. & de Sisternes, F. & Botterud, A., 2018. "The benefits of nuclear flexibility in power system operations with renewable energy," Applied Energy, Elsevier, vol. 222(C), pages 872-884.
    4. Hermans, Mathias & Bruninx, Kenneth & Delarue, Erik, 2020. "Impact of generator start-up lead times on short-term scheduling with high shares of renewables," Applied Energy, Elsevier, vol. 268(C).
    5. Hermans, Mathias & Bruninx, Kenneth & Van den Bergh, Kenneth & Poncelet, Kris & Delarue, Erik, 2021. "On the temporal granularity of joint energy-reserve markets in a high-RES system," Applied Energy, Elsevier, vol. 297(C).
    6. Yu, Hyun Jin Julie, 2018. "A prospective economic assessment of residential PV self-consumption with batteries and its systemic effects: The French case in 2030," Energy Policy, Elsevier, vol. 113(C), pages 673-687.
    7. Cany, C. & Mansilla, C. & Mathonnière, G. & da Costa, P., 2018. "Nuclear power supply: Going against the misconceptions. Evidence of nuclear flexibility from the French experience," Energy, Elsevier, vol. 151(C), pages 289-296.
    8. Yu, Hyun Jin Julie, 2021. "System contributions of residential battery systems: New perspectives on PV self-consumption," Energy Economics, Elsevier, vol. 96(C).
    9. Sascha Samadi, 2017. "The Social Costs of Electricity Generation—Categorising Different Types of Costs and Evaluating Their Respective Relevance," Energies, MDPI, vol. 10(3), pages 1-37, March.
    10. Cany, C. & Mansilla, C. & Mathonnière, G. & da Costa, P., 2018. "Nuclear contribution to the penetration of variable renewable energy sources in a French decarbonised power mix," Energy, Elsevier, vol. 150(C), pages 544-555.
    11. Li, Jianglong & Ho, Mun Sing & Xie, Chunping & Stern, Nicholas, 2022. "China's flexibility challenge in achieving carbon neutrality by 2060," Renewable and Sustainable Energy Reviews, Elsevier, vol. 158(C).
    12. Huang, Bin & Xing, Ke & Pullen, Stephen & Liao, Lida & Huang, Kan, 2020. "Ecological–economic assessment of renewable energy deployment in sustainable built environment," Renewable Energy, Elsevier, vol. 161(C), pages 1328-1340.
    13. Gacitua, L. & Gallegos, P. & Henriquez-Auba, R. & Lorca, Á. & Negrete-Pincetic, M. & Olivares, D. & Valenzuela, A. & Wenzel, G., 2018. "A comprehensive review on expansion planning: Models and tools for energy policy analysis," Renewable and Sustainable Energy Reviews, Elsevier, vol. 98(C), pages 346-360.
    14. Dominique Finon & Fabien Roques, 2013. "European Electricity Market Reforms: The "Visible Hand" of Public Coordination," Economics of Energy & Environmental Policy, International Association for Energy Economics, vol. 0(Number 2).
    15. Hassan, Qusay, 2021. "Evaluation and optimization of off-grid and on-grid photovoltaic power system for typical household electrification," Renewable Energy, Elsevier, vol. 164(C), pages 375-390.

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