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Main Authors: Guo, Ye, Gao, Chenge, Chen, Cong
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2409.04128
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author Guo, Ye
Gao, Chenge
Chen, Cong
author_facet Guo, Ye
Gao, Chenge
Chen, Cong
contents In the global pursuit of carbon neutrality, the role of batteries is indispensable. They provide pivotal flexibilities to counter uncertainties from renewables, preferably by participating in electricity markets. Unlike thermal generators, however, the dominant type of cost for batteries is opportunity cost, which is more vague and challenging to represent through bids in stipulated formats. This article shows the opposite yet surprising results: The demand-supply function of an ideal battery, considering its opportunity cost, is a staircase function with no more than five segments, which is a perfect match with existing rules in many real electricity markets. The demand-supply function shifts horizontally with price forecasts and vertically with the initial SOC. These results can be generalized to imperfect batteries and numerous battery-like resources, including battery clusters, air-conditioners, and electric vehicle charging stations, although the number of segments may vary. These results pave the way for batteries to participate in electricity markets.
format Preprint
id arxiv_https___arxiv_org_abs_2409_04128
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Capturing Opportunity Costs of Batteries with a Staircase Supply-Demand Function
Guo, Ye
Gao, Chenge
Chen, Cong
Systems and Control
In the global pursuit of carbon neutrality, the role of batteries is indispensable. They provide pivotal flexibilities to counter uncertainties from renewables, preferably by participating in electricity markets. Unlike thermal generators, however, the dominant type of cost for batteries is opportunity cost, which is more vague and challenging to represent through bids in stipulated formats. This article shows the opposite yet surprising results: The demand-supply function of an ideal battery, considering its opportunity cost, is a staircase function with no more than five segments, which is a perfect match with existing rules in many real electricity markets. The demand-supply function shifts horizontally with price forecasts and vertically with the initial SOC. These results can be generalized to imperfect batteries and numerous battery-like resources, including battery clusters, air-conditioners, and electric vehicle charging stations, although the number of segments may vary. These results pave the way for batteries to participate in electricity markets.
title Capturing Opportunity Costs of Batteries with a Staircase Supply-Demand Function
topic Systems and Control
url https://arxiv.org/abs/2409.04128