Impact of feedstock dilution on the performance of urine-fed ceramic and membrane-less microbial fuel cell cascades designs
Impact of feedstock dilution on the performance of urine-fed ceramic and membrane-less microbial fuel cell cascades designs
Recent advancements in the microbial fuel cell (MFC) field have led to the deployment of pilot-scale autonomous sanitation systems converting the organic content of urine into electricity to power lights in decentralised areas. Two designs have been deployed successfully, namely ceramic cylinder based MFCs (c-MFC) and membrane-less self-stratifying MFCs (s-MFC), but only one research has tested simultaneously these two designs under similar conditions. To complement this single study, the present work investigated the response of these two designs to the dilution of feedstock. Both designs were assembled as cascades, a configuration close to the conditions of implementation. The tested conditions were 100%, 75%, 50%, 25% urine diluted with tap water. Results have shown that under the 100% condition (neat urine), the s-MFC had a higher energy output (2.29 ± 0.04 kJ d−1) and treatment (4.16 ± 0.15 gCOD.d−1; 1.39 ± 0.15 gNH4.d−1) than the c-MFC. Under the 25% condition, the c-MFC had a higher energy output (0.75 ± 0.04 kJ d−1) but a lower treatment (0.40 ± 0.05 gCOD.d−1; 0.01 ± 0.02 gNH4.d−1) than the s-MFC. Both type of cascade designs could be fed a 75% concentration feedstock for a week without a significant performance decrease. Overall, the c-MFC cascade had higher energy conversion efficiency and the s-MFC had higher power generating performance.
232708
Walter, Xavier Alexis
67c83b61-76af-4e37-aec8-79ebc723b807
You, Jiseon
1442df08-0ea4-4134-b6be-6b773b05f58d
Gajda, Iwona
943dd6bd-524b-4c7b-b794-dec5ee8014b7
Greenman, John
eb3d9b82-7cac-4442-9301-f34884ae4a16
Ieropoulos, Ioannis
6c580270-3e08-430a-9f49-7fbe869daf13
Walter, Xavier Alexis
67c83b61-76af-4e37-aec8-79ebc723b807
You, Jiseon
1442df08-0ea4-4134-b6be-6b773b05f58d
Gajda, Iwona
943dd6bd-524b-4c7b-b794-dec5ee8014b7
Greenman, John
eb3d9b82-7cac-4442-9301-f34884ae4a16
Ieropoulos, Ioannis
6c580270-3e08-430a-9f49-7fbe869daf13
Walter, Xavier Alexis, You, Jiseon, Gajda, Iwona, Greenman, John and Ieropoulos, Ioannis
(2023)
Impact of feedstock dilution on the performance of urine-fed ceramic and membrane-less microbial fuel cell cascades designs.
Journal of Power Sources, 561, .
(doi:10.1016/j.jpowsour.2023.232708).
Abstract
Recent advancements in the microbial fuel cell (MFC) field have led to the deployment of pilot-scale autonomous sanitation systems converting the organic content of urine into electricity to power lights in decentralised areas. Two designs have been deployed successfully, namely ceramic cylinder based MFCs (c-MFC) and membrane-less self-stratifying MFCs (s-MFC), but only one research has tested simultaneously these two designs under similar conditions. To complement this single study, the present work investigated the response of these two designs to the dilution of feedstock. Both designs were assembled as cascades, a configuration close to the conditions of implementation. The tested conditions were 100%, 75%, 50%, 25% urine diluted with tap water. Results have shown that under the 100% condition (neat urine), the s-MFC had a higher energy output (2.29 ± 0.04 kJ d−1) and treatment (4.16 ± 0.15 gCOD.d−1; 1.39 ± 0.15 gNH4.d−1) than the c-MFC. Under the 25% condition, the c-MFC had a higher energy output (0.75 ± 0.04 kJ d−1) but a lower treatment (0.40 ± 0.05 gCOD.d−1; 0.01 ± 0.02 gNH4.d−1) than the s-MFC. Both type of cascade designs could be fed a 75% concentration feedstock for a week without a significant performance decrease. Overall, the c-MFC cascade had higher energy conversion efficiency and the s-MFC had higher power generating performance.
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Accepted/In Press date: 14 January 2023
e-pub ahead of print date: 26 January 2023
Identifiers
Local EPrints ID: 500798
URI: http://eprints.soton.ac.uk/id/eprint/500798
ISSN: 0378-7753
PURE UUID: cfd82a61-fd6b-4574-bf9b-6d9e324623b9
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Date deposited: 13 May 2025 16:52
Last modified: 22 Aug 2025 02:34
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Author:
Xavier Alexis Walter
Author:
Jiseon You
Author:
Iwona Gajda
Author:
John Greenman
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