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Improved vanadium flow battery performance through a pulsating electrolyte flow regime

Improved vanadium flow battery performance through a pulsating electrolyte flow regime
Improved vanadium flow battery performance through a pulsating electrolyte flow regime
The interest in flow batteries as energy storage devices is growing due to the rising share of intermittent renewable energy sources. In this work, the performance of a vanadium flow battery is improved, without altering the electrochemical cell, by applying a pulsating flow. This novel flow battery flow regime aims to enhance performance by improving its mass transfer properties. Both the pulse volume and frequency have an influence on the battery performance, and lead to a 38.7 % increase in accessible discharge capacity compared to the conventional steady flow regime at values of 0.40 cm3 and 2.4 Hz in this cell, respectively. Furthermore, at these parameter settings a reduction of the mass transfer resistance by 71.4 % is achieved at 0.2 cm3/min∙cm2. These results show that a pulsating flow can be beneficial in certain conditions, opening new possibilities for boosting performance in flow batteries.
2566-6223
Wolf, Renée De
fc42e4b7-85c2-4df8-82be-33eb3868f1a0
Rossen, Alana
38967037-84d6-48ac-a44c-80e79dd954c3
Rop, Michiel De
fcb0b95f-7e76-497f-925d-4121056d50ba
Arenas, Luis F
6e7e3d10-2aab-4fc3-a6d4-63a6614d0403
Breugelmans, Tom
f2506208-1ffe-41a6-bb45-a86b1d4f9d2d
Hereijgers, Jonas
30f0d757-dbcb-4a69-8c73-716688046b66
Wolf, Renée De
fc42e4b7-85c2-4df8-82be-33eb3868f1a0
Rossen, Alana
38967037-84d6-48ac-a44c-80e79dd954c3
Rop, Michiel De
fcb0b95f-7e76-497f-925d-4121056d50ba
Arenas, Luis F
6e7e3d10-2aab-4fc3-a6d4-63a6614d0403
Breugelmans, Tom
f2506208-1ffe-41a6-bb45-a86b1d4f9d2d
Hereijgers, Jonas
30f0d757-dbcb-4a69-8c73-716688046b66

Wolf, Renée De, Rossen, Alana, Rop, Michiel De, Arenas, Luis F, Breugelmans, Tom and Hereijgers, Jonas (2023) Improved vanadium flow battery performance through a pulsating electrolyte flow regime. Batteries and Supercaps, 7 (2), [e202300382]. (doi:10.1002/batt.202300382).

Record type: Article

Abstract

The interest in flow batteries as energy storage devices is growing due to the rising share of intermittent renewable energy sources. In this work, the performance of a vanadium flow battery is improved, without altering the electrochemical cell, by applying a pulsating flow. This novel flow battery flow regime aims to enhance performance by improving its mass transfer properties. Both the pulse volume and frequency have an influence on the battery performance, and lead to a 38.7 % increase in accessible discharge capacity compared to the conventional steady flow regime at values of 0.40 cm3 and 2.4 Hz in this cell, respectively. Furthermore, at these parameter settings a reduction of the mass transfer resistance by 71.4 % is achieved at 0.2 cm3/min∙cm2. These results show that a pulsating flow can be beneficial in certain conditions, opening new possibilities for boosting performance in flow batteries.

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More information

Published date: 20 November 2023

Identifiers

Local EPrints ID: 501976
URI: http://eprints.soton.ac.uk/id/eprint/501976
DOI: doi:10.1002/batt.202300382
ISSN: 2566-6223
PURE UUID: 3989adb8-10a1-4672-9050-c9c179f61249
ORCID for Luis F Arenas: ORCID iD orcid.org/0000-0002-9579-5082

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Date deposited: 12 Jun 2025 17:16
Last modified: 13 Jun 2025 01:55

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Contributors

Author: Renée De Wolf
Author: Alana Rossen
Author: Michiel De Rop
Author: Luis F Arenas ORCID iD
Author: Tom Breugelmans
Author: Jonas Hereijgers

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