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Bibliographic Details
Main Authors: Prat, Eléa, Broge, Jonas Bodulv, Lusby, Richard M.
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2309.14787
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author Prat, Eléa
Broge, Jonas Bodulv
Lusby, Richard M.
author_facet Prat, Eléa
Broge, Jonas Bodulv
Lusby, Richard M.
contents In the context of energy market clearing, non-merchant assets are assets that do not submit bids but whose operational constraints are included. Integrating energy storage systems as non-merchant assets can maximize social welfare. However, the disconnection between consecutive market clearings poses challenges for market properties, and this is not well studied yet. We contribute to the literature on market clearing with non-merchant storage by proposing a market-clearing procedure that preserves desirable market properties, even under uncertainty. This approach is based on a novel representation of storage systems in which the energy available is discretized to reflect the different prices at which the storage system was charged. These prices are then included as virtual bids, establishing a link between different market clearings. We show that market clearing with such virtual linking bids has the advantage of guaranteeing cost recovery for market participants and can outperform traditional approaches in terms of social welfare.
format Preprint
id arxiv_https___arxiv_org_abs_2309_14787
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Virtual Linking Bids for Market Clearing with Non-Merchant Storage
Prat, Eléa
Broge, Jonas Bodulv
Lusby, Richard M.
Optimization and Control
In the context of energy market clearing, non-merchant assets are assets that do not submit bids but whose operational constraints are included. Integrating energy storage systems as non-merchant assets can maximize social welfare. However, the disconnection between consecutive market clearings poses challenges for market properties, and this is not well studied yet. We contribute to the literature on market clearing with non-merchant storage by proposing a market-clearing procedure that preserves desirable market properties, even under uncertainty. This approach is based on a novel representation of storage systems in which the energy available is discretized to reflect the different prices at which the storage system was charged. These prices are then included as virtual bids, establishing a link between different market clearings. We show that market clearing with such virtual linking bids has the advantage of guaranteeing cost recovery for market participants and can outperform traditional approaches in terms of social welfare.
title Virtual Linking Bids for Market Clearing with Non-Merchant Storage
topic Optimization and Control
url https://arxiv.org/abs/2309.14787