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Evaluation of hydrolysis and fermentation rates in microbial fuel cells

Evaluation of hydrolysis and fermentation rates in microbial fuel cells
Evaluation of hydrolysis and fermentation rates in microbial fuel cells

This study determined the influence of substrate degradation on power generation in microbial fuel cells (MFCs) and microbial community selection on the anode. Air cathode MFCs were fed synthetic medium containing different substrates (acetate, glucose and starch) using primary clarifier sewage as source of electroactive bacteria. The complexity of the substrate affected the MFC performance both for power generation and COD removal. Power output decreased with an increase in substrate complexity from 99±2 mW m -2 for acetate to 4±2 mW m-2 for starch. The organic matter removal and coulombic efficiency (CE) of MFCs with acetate and glucose (82% of COD removal and 26% CE) were greater than MFCs using starch (60% of COD removal and 19% of CE). The combined hydrolysis-fermentation rate obtained (0.0024 h-1) was considerably lower than the fermentation rate (0.018 h-1), indicating that hydrolysis of complex compounds limits current output over fermentation. Statistical analysis of microbial community fingerprints, developed on the anode, showed that microbial communities were enriched according to the type of substrate used. Microbial communities producing high power outputs (fed acetate) clustered separately from bacterial communities producing low power outputs (fed complex compounds).

Fermentation, Hydrolysis, Microbial fuel cell, Organic substrates
0175-7598
789-798
Velasquez-Orta, Sharon B.
7baf1a85-537b-42f6-a401-d9e6540121a2
Yu, Eileen
28e47863-4b50-4821-b80b-71fb5a2edef2
Katuri, Krishna P.
4f66fa7f-e633-4cdc-996a-c779bfec17c3
Head, Ian M.
45e5ea84-bd86-4ffd-a6e3-64b23dc711d2
Curtis, Tom P.
2b8446bd-db3b-4120-ad21-d1be43f58865
Scott, Keith
38909157-296d-4fe7-a245-1b98e1fee913
Velasquez-Orta, Sharon B.
7baf1a85-537b-42f6-a401-d9e6540121a2
Yu, Eileen
28e47863-4b50-4821-b80b-71fb5a2edef2
Katuri, Krishna P.
4f66fa7f-e633-4cdc-996a-c779bfec17c3
Head, Ian M.
45e5ea84-bd86-4ffd-a6e3-64b23dc711d2
Curtis, Tom P.
2b8446bd-db3b-4120-ad21-d1be43f58865
Scott, Keith
38909157-296d-4fe7-a245-1b98e1fee913

Velasquez-Orta, Sharon B., Yu, Eileen, Katuri, Krishna P., Head, Ian M., Curtis, Tom P. and Scott, Keith (2011) Evaluation of hydrolysis and fermentation rates in microbial fuel cells. Applied Microbiology and Biotechnology, 90 (2), 789-798. (doi:10.1007/s00253-011-3126-5).

Record type: Article

Abstract

This study determined the influence of substrate degradation on power generation in microbial fuel cells (MFCs) and microbial community selection on the anode. Air cathode MFCs were fed synthetic medium containing different substrates (acetate, glucose and starch) using primary clarifier sewage as source of electroactive bacteria. The complexity of the substrate affected the MFC performance both for power generation and COD removal. Power output decreased with an increase in substrate complexity from 99±2 mW m -2 for acetate to 4±2 mW m-2 for starch. The organic matter removal and coulombic efficiency (CE) of MFCs with acetate and glucose (82% of COD removal and 26% CE) were greater than MFCs using starch (60% of COD removal and 19% of CE). The combined hydrolysis-fermentation rate obtained (0.0024 h-1) was considerably lower than the fermentation rate (0.018 h-1), indicating that hydrolysis of complex compounds limits current output over fermentation. Statistical analysis of microbial community fingerprints, developed on the anode, showed that microbial communities were enriched according to the type of substrate used. Microbial communities producing high power outputs (fed acetate) clustered separately from bacterial communities producing low power outputs (fed complex compounds).

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More information

Published date: April 2011
Keywords: Fermentation, Hydrolysis, Microbial fuel cell, Organic substrates
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Identifiers

Local EPrints ID: 498543
URI: http://eprints.soton.ac.uk/id/eprint/498543
DOI: doi:10.1007/s00253-011-3126-5
ISSN: 0175-7598
PURE UUID: eeb9110f-d531-4c8d-862f-bd4c357c9238
ORCID for Eileen Yu: ORCID iD orcid.org/0000-0002-6872-975X

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Date deposited: 20 Feb 2025 18:13
Last modified: 21 Feb 2025 03:16

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Contributors

Author: Sharon B. Velasquez-Orta
Author: Eileen Yu ORCID iD
Author: Krishna P. Katuri
Author: Ian M. Head
Author: Tom P. Curtis
Author: Keith Scott

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