Electricity and fertilizer production using microbial fuel cell stacks for hydroponics
Electricity and fertilizer production using microbial fuel cell stacks for hydroponics
Sewage management and sanitation are global concerns, especially in urban areas due to lack of treatment infrastructure. Here, we stacked 40 ceramic microbial fuel cells in two plastic trays (MFC tray-1 and MFC tray-2) to produce both electricity and liquid fertiliser directly from raw sewage. MFC tray-1 and MFC tray-2 produced ca. power of up to 21.78 mW and 18.89 mW, respectively, with synthetic urine. Maximum power output values were 19.1 mW (63.82 mA) and 14.9 (56.38 mA) for sewage-fed MFC Tray-1 and MFC Tray-2, respectively. Therefore, each ceramic MFC unit in both trays achieved a power of up to 1.02 mW and 0.85 mW with synthetic urine and raw sewage, respectively. The rate of catholyte (fertiliser) production in each MFC tray was 1.2 L of catholyte/48 h from 2.5 L of sewage. The catholyte from sewage-fed MFCs has been observed to have antimicrobial properties, and it is composed of NO3-, PO4-2, and K+ at concentrations of 25±1 [mg/kg], 9±3 [mg/kg], and 95±14 [mg/kg], respectively. Ceramic-microbial fuel cell stacks therefore efficiently harness electricity and produce liquid fertiliser from sewage, offering seamless integration with hydroponics to grow vegetables in a self-powered, hygienic, and sustainable manner.
Ieropoulos, Yannis
6c580270-3e08-430a-9f49-7fbe869daf13
Nath, Dibyojyoty
49f9c27b-09ac-45da-b4e0-f5cabeb61c9a
22 November 2024
Ieropoulos, Yannis
6c580270-3e08-430a-9f49-7fbe869daf13
Nath, Dibyojyoty
49f9c27b-09ac-45da-b4e0-f5cabeb61c9a
Ieropoulos, Yannis and Nath, Dibyojyoty
(2024)
Electricity and fertilizer production using microbial fuel cell stacks for hydroponics.
SSRN Electronic Journal.
(doi:10.2139/ssrn.5030302).
Abstract
Sewage management and sanitation are global concerns, especially in urban areas due to lack of treatment infrastructure. Here, we stacked 40 ceramic microbial fuel cells in two plastic trays (MFC tray-1 and MFC tray-2) to produce both electricity and liquid fertiliser directly from raw sewage. MFC tray-1 and MFC tray-2 produced ca. power of up to 21.78 mW and 18.89 mW, respectively, with synthetic urine. Maximum power output values were 19.1 mW (63.82 mA) and 14.9 (56.38 mA) for sewage-fed MFC Tray-1 and MFC Tray-2, respectively. Therefore, each ceramic MFC unit in both trays achieved a power of up to 1.02 mW and 0.85 mW with synthetic urine and raw sewage, respectively. The rate of catholyte (fertiliser) production in each MFC tray was 1.2 L of catholyte/48 h from 2.5 L of sewage. The catholyte from sewage-fed MFCs has been observed to have antimicrobial properties, and it is composed of NO3-, PO4-2, and K+ at concentrations of 25±1 [mg/kg], 9±3 [mg/kg], and 95±14 [mg/kg], respectively. Ceramic-microbial fuel cell stacks therefore efficiently harness electricity and produce liquid fertiliser from sewage, offering seamless integration with hydroponics to grow vegetables in a self-powered, hygienic, and sustainable manner.
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ssrn-5030302
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Published date: 22 November 2024
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Local EPrints ID: 500810
URI: http://eprints.soton.ac.uk/id/eprint/500810
PURE UUID: f45777e0-5d33-4155-b9bb-d168ba4f2b73
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Date deposited: 13 May 2025 17:14
Last modified: 22 Aug 2025 02:34
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Dibyojyoty Nath
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