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Congestion management based on Power-to-Gas – opportunities and challenges in European electricity markets

Congestion management based on Power-to-Gas – opportunities and challenges in European electricity markets
Congestion management based on Power-to-Gas – opportunities and challenges in European electricity markets

In response to the increasing integration of renewable energy and the resultant challenges of grid congestion, this paper explores the techno-economic potential of Power-to-Gas technology in congestion management. As the grid struggles to accommodate fluctuating renewable energy infeeds, Power-to-Gas emerges as a promising solution by converting surplus electricity into synthetic natural gas, thereby leveraging the existing gas infrastructure for energy storage and enhancing grid flexibility. This study, through a comprehensive literature review and a two-stage model analysis, evaluates Power-to-Gas's role in mitigating grid congestion, optimising energy dispatch, and supporting the transition towards a more sustainable and resilient energy system. Our findings underscore Power-to-Gas's capacity to reduce redispatch volumes by 3.4% and associated costs by 1.7%, while simultaneously facilitating a higher penetration of renewable sources into the energy mix. By integrating economic dispatch and ex-post redispatch processes within our model, we demonstrate how Power-to-Gas can serve as a critical tool for system operators in managing grid congestion effectively, thus addressing the urgent need for innovative solutions in the face of increasing renewable energy integration. This research contributes to the ongoing discourse on energy system flexibility, offering insights into Power-to-Gas's potential to enhance the reliability and sustainability of the electricity supply.

congestion management, power-to-gas, renewable energy, sector-coupling
2165-4077
Predel, Johannes
88b34144-97cf-4d8d-92f6-8912a43042bd
Xiong, Bobby
d60f347d-145d-4a01-add2-a00e434b848b
del Granado, Pedro Crespo
3fff80f6-c9a2-4655-89ee-49c99ea42675
Egging-Bratseth, Ruud
e5d3b7a9-9ee6-4cf1-932a-319ac8297991
Zhang, Hongyu
ac1b2192-da88-4074-bd67-696146f2d6c0
Predel, Johannes
88b34144-97cf-4d8d-92f6-8912a43042bd
Xiong, Bobby
d60f347d-145d-4a01-add2-a00e434b848b
del Granado, Pedro Crespo
3fff80f6-c9a2-4655-89ee-49c99ea42675
Egging-Bratseth, Ruud
e5d3b7a9-9ee6-4cf1-932a-319ac8297991
Zhang, Hongyu
ac1b2192-da88-4074-bd67-696146f2d6c0

Predel, Johannes, Xiong, Bobby, del Granado, Pedro Crespo, Egging-Bratseth, Ruud and Zhang, Hongyu (2024) Congestion management based on Power-to-Gas – opportunities and challenges in European electricity markets. In 20th International Conference on the European Energy Market, EEM 2024 - Proceedings. (doi:10.1109/EEM60825.2024.10608977).

Record type: Conference or Workshop Item (Paper)

Abstract

In response to the increasing integration of renewable energy and the resultant challenges of grid congestion, this paper explores the techno-economic potential of Power-to-Gas technology in congestion management. As the grid struggles to accommodate fluctuating renewable energy infeeds, Power-to-Gas emerges as a promising solution by converting surplus electricity into synthetic natural gas, thereby leveraging the existing gas infrastructure for energy storage and enhancing grid flexibility. This study, through a comprehensive literature review and a two-stage model analysis, evaluates Power-to-Gas's role in mitigating grid congestion, optimising energy dispatch, and supporting the transition towards a more sustainable and resilient energy system. Our findings underscore Power-to-Gas's capacity to reduce redispatch volumes by 3.4% and associated costs by 1.7%, while simultaneously facilitating a higher penetration of renewable sources into the energy mix. By integrating economic dispatch and ex-post redispatch processes within our model, we demonstrate how Power-to-Gas can serve as a critical tool for system operators in managing grid congestion effectively, thus addressing the urgent need for innovative solutions in the face of increasing renewable energy integration. This research contributes to the ongoing discourse on energy system flexibility, offering insights into Power-to-Gas's potential to enhance the reliability and sustainability of the electricity supply.

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More information

Published date: 10 June 2024
Additional Information: Publisher Copyright: © 2024 IEEE.
Keywords: congestion management, power-to-gas, renewable energy, sector-coupling

Identifiers

Local EPrints ID: 496833
URI: http://eprints.soton.ac.uk/id/eprint/496833
DOI: doi:10.1109/EEM60825.2024.10608977
ISSN: 2165-4077
PURE UUID: 8dd7bfe8-6f94-4fd4-913a-dc2266242e72
ORCID for Hongyu Zhang: ORCID iD orcid.org/0000-0002-1956-4389

Catalogue record

Date deposited: 08 Jan 2025 07:55
Last modified: 16 Jan 2025 03:19

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Contributors

Author: Johannes Predel
Author: Bobby Xiong
Author: Pedro Crespo del Granado
Author: Ruud Egging-Bratseth
Author: Hongyu Zhang ORCID iD

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