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Electricity and catholyte production from ceramic MFCs treating urine

Electricity and catholyte production from ceramic MFCs treating urine
Electricity and catholyte production from ceramic MFCs treating urine
The use of ceramics as low cost membrane materials for Microbial Fuel Cells (MFCs) has gained increasing interest, due to improved performance levels in terms of power and catholyte production. The catholyte production in ceramic MFCs can be attributed to a combination of water or hydrogen peroxide formation from the oxygen reduction reaction in the cathode, water diffusion and electroosmotic drag through the ion exchange membrane. This study aims to evaluate, for the first time, the effect of ceramic wall/membrane thickness, in terms of power, as well as catholyte production from MFCs using urine as a feedstock. Cylindrical MFCs were assembled with fine fire clay of different thicknesses (2.5, 5 and 10 mm) as structural and membrane materials. The power generated increased when the membrane thickness decreased, reaching 2.1 ± 0.19 mW per single MFC (2.5 mm), which was 50% higher than that from the MFCs with the thickest membrane (10 mm). The amount of catholyte collected also decreased with the wall thickness, whereas the pH increased. Evidence shows that the catholyte composition varies with the wall thickness of the ceramic membrane. The possibility of producing different quality of catholyte from urine opens a new field of study in water reuse and resource recovery for practical implementation.
Microbial Fuel Cell (MFC), Ceramic membrane, Catholyte production, Electroosmotic drag, Urine
0360-3199
1791-1799
Jimenez, Irene Merino
6b2bdcae-9b50-4167-99f1-133793b2ce7c
Greenman, John
eb3d9b82-7cac-4442-9301-f34884ae4a16
Ieropoulos, Ioannis
6c580270-3e08-430a-9f49-7fbe869daf13
Jimenez, Irene Merino
6b2bdcae-9b50-4167-99f1-133793b2ce7c
Greenman, John
eb3d9b82-7cac-4442-9301-f34884ae4a16
Ieropoulos, Ioannis
6c580270-3e08-430a-9f49-7fbe869daf13

Jimenez, Irene Merino, Greenman, John and Ieropoulos, Ioannis (2017) Electricity and catholyte production from ceramic MFCs treating urine. International Journal of Hydrogen Energy, 42 (3), 1791-1799. (doi:10.1016/j.ijhydene.2016.09.163).

Record type: Article

Abstract

The use of ceramics as low cost membrane materials for Microbial Fuel Cells (MFCs) has gained increasing interest, due to improved performance levels in terms of power and catholyte production. The catholyte production in ceramic MFCs can be attributed to a combination of water or hydrogen peroxide formation from the oxygen reduction reaction in the cathode, water diffusion and electroosmotic drag through the ion exchange membrane. This study aims to evaluate, for the first time, the effect of ceramic wall/membrane thickness, in terms of power, as well as catholyte production from MFCs using urine as a feedstock. Cylindrical MFCs were assembled with fine fire clay of different thicknesses (2.5, 5 and 10 mm) as structural and membrane materials. The power generated increased when the membrane thickness decreased, reaching 2.1 ± 0.19 mW per single MFC (2.5 mm), which was 50% higher than that from the MFCs with the thickest membrane (10 mm). The amount of catholyte collected also decreased with the wall thickness, whereas the pH increased. Evidence shows that the catholyte composition varies with the wall thickness of the ceramic membrane. The possibility of producing different quality of catholyte from urine opens a new field of study in water reuse and resource recovery for practical implementation.

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Published date: 19 January 2017
Keywords: Microbial Fuel Cell (MFC), Ceramic membrane, Catholyte production, Electroosmotic drag, Urine

Identifiers

Local EPrints ID: 454047
URI: http://eprints.soton.ac.uk/id/eprint/454047
DOI: doi:10.1016/j.ijhydene.2016.09.163
ISSN: 0360-3199
PURE UUID: c12b0a47-c442-48c7-be6e-4aa1af259442
ORCID for Ioannis Ieropoulos: ORCID iD orcid.org/0000-0002-9641-5504

Catalogue record

Date deposited: 27 Jan 2022 19:19
Last modified: 17 Mar 2024 04:10

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Contributors

Author: Irene Merino Jimenez
Author: John Greenman
Author: Ioannis Ieropoulos ORCID iD

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