A Strategic Day-ahead bidding strategy and operation for battery energy storage system by reinforcement learning
A Strategic Day-ahead bidding strategy and operation for battery energy storage system by reinforcement learning
The Battery Energy Storage System (BESS) plays an essential role in the smart grid, and the ancillary market offers a high revenue. It is important for BESS owners to maximise their profit by deciding how to balance between the different offers and bidding with the rivals. Therefore, this paper formulates the BESS bidding problem as a Markov Decision Process(MDP) to maximise the total profit from the e Automation Generation Control (AGC) market and the energy market, considering the factors such as charging/discharging losses and the lifetime of the BESS. In the proposed algorithm, function approximation technology is introduced to handle the continuous massive bidding scales and avoid the dimension curse. As a model-free approach, the proposed algorithm can learn from the stochastic and dynamic environment of a power market, so as to help the BESS owners to decide their bidding and operational schedules profitably. Several case studies illustrate the effectiveness and validity of the proposed algorithm.
Battery energy storage system (BESS), Power market bidding, Reinforcement learning
Dong, Yi
355a62d9-5d1a-4c14-a900-9911e8c62453
Dong, Zhen
aba7081a-fba2-470f-a954-29603012f666
Zhao, Tianqiao
f8932503-8fa9-456e-b600-e0b420dcce0f
Ding, Zhengtao
5589b7c6-eadd-4383-885f-bcc2017f71b8
15 April 2021
Dong, Yi
355a62d9-5d1a-4c14-a900-9911e8c62453
Dong, Zhen
aba7081a-fba2-470f-a954-29603012f666
Zhao, Tianqiao
f8932503-8fa9-456e-b600-e0b420dcce0f
Ding, Zhengtao
5589b7c6-eadd-4383-885f-bcc2017f71b8
Dong, Yi, Dong, Zhen, Zhao, Tianqiao and Ding, Zhengtao
(2021)
A Strategic Day-ahead bidding strategy and operation for battery energy storage system by reinforcement learning.
Electric Power Systems Research, 196, [107229].
(doi:10.1016/j.epsr.2021.107229).
Abstract
The Battery Energy Storage System (BESS) plays an essential role in the smart grid, and the ancillary market offers a high revenue. It is important for BESS owners to maximise their profit by deciding how to balance between the different offers and bidding with the rivals. Therefore, this paper formulates the BESS bidding problem as a Markov Decision Process(MDP) to maximise the total profit from the e Automation Generation Control (AGC) market and the energy market, considering the factors such as charging/discharging losses and the lifetime of the BESS. In the proposed algorithm, function approximation technology is introduced to handle the continuous massive bidding scales and avoid the dimension curse. As a model-free approach, the proposed algorithm can learn from the stochastic and dynamic environment of a power market, so as to help the BESS owners to decide their bidding and operational schedules profitably. Several case studies illustrate the effectiveness and validity of the proposed algorithm.
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Published date: 15 April 2021
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Publisher Copyright:
© 2021
Keywords:
Battery energy storage system (BESS), Power market bidding, Reinforcement learning
Identifiers
Local EPrints ID: 484094
URI: http://eprints.soton.ac.uk/id/eprint/484094
ISSN: 0378-7796
PURE UUID: bedb2802-88a8-49f0-ba61-8efc069139c2
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Date deposited: 09 Nov 2023 18:19
Last modified: 18 Mar 2024 04:17
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Contributors
Author:
Yi Dong
Author:
Zhen Dong
Author:
Tianqiao Zhao
Author:
Zhengtao Ding
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