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Battery Operations in Electricity Markets: Strategic Behavior and Distortions

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Listed:
  • Jerry Anunrojwong
  • Santiago R. Balseiro
  • Omar Besbes
  • Bolun Xu

Abstract

Electric power systems are undergoing a major transformation as they integrate intermittent renewable energy sources, and batteries to smooth out variations in renewable energy production. As privately-owned batteries grow from their role as marginal "price-takers" to significant players in the market, a natural question arises: How do batteries operate in electricity markets, and how does the strategic behavior of decentralized batteries distort decisions compared to centralized batteries? We propose an analytically tractable model that captures salient features of the highly complex electricity market. We derive in closed form the resulting battery behavior and generation cost in three operating regimes: (i) no battery, (ii) centralized battery, and (ii) decentralized profit-maximizing battery. We establish that a decentralized battery distorts its discharge decisions in three ways. First, there is quantity withholding, i.e., discharging less than centrally optimal. Second, there is a shift in participation from day-ahead to real-time, i.e., postponing some of its discharge from day-ahead to real-time. Third, there is reduction in real-time responsiveness, or discharging less in response to smoothing real-time demand than centrally optimal. We quantify each of the three forms of distortions in terms of market fundamentals. To illustrate our results, we calibrate our model to Los Angeles and Houston and show that the loss from incentive misalignment could be consequential.

Suggested Citation

  • Jerry Anunrojwong & Santiago R. Balseiro & Omar Besbes & Bolun Xu, 2024. "Battery Operations in Electricity Markets: Strategic Behavior and Distortions," Papers 2406.18685, arXiv.org.
    • Handle: RePEc:arx:papers:2406.18685
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    References listed on IDEAS

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