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On the Design of an Insurance Mechanism for Reliability Differentiation in Electricity Markets

Author

Listed:
  • Farhad Billimoria
  • Filiberto Fele
  • Iacopo Savelli
  • Thomas Morstyn
  • Malcolm McCulloch

Abstract

Securing an adequate supply of dispatchable resources is critical for keeping a power system reliable under high penetrations of variable generation. Traditional resource adequacy mechanisms are poorly suited to exploiting the growing flexibility and heterogeneity of load enabled by advancements in distributed resource and control technology. To address these challenges this paper develops a resource adequacy mechanism for the electricity sector utilising insurance risk management frameworks that is adapted to a future with variable generation and flexible demand. The proposed design introduces a central insurance scheme with prudential requirements that align diverse consumer reliability preferences with the financial objectives of an insurer-of-last-resort. We illustrate the benefits of the scheme in (i) differentiating load by usage to enable better management of the system during times of extreme scarcity, (ii) incentivising incremental investment in generation infrastructure that is aligned with consumer reliability preferences and (iii) improving overall reliability outcomes for consumers.

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  • Farhad Billimoria & Filiberto Fele & Iacopo Savelli & Thomas Morstyn & Malcolm McCulloch, 2021. "On the Design of an Insurance Mechanism for Reliability Differentiation in Electricity Markets," Papers 2106.14351, arXiv.org.
    • Handle: RePEc:arx:papers:2106.14351
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    References listed on IDEAS

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    Cited by:

    1. Dongwei Zhao & Hao Wang & Jianwei Huang & Xiaojun Lin, 2022. "Insurance Contract for High Renewable Energy Integration," Papers 2209.10363, arXiv.org.

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