Pee power urinal - microbial fuel cell technology field trials in the context of sanitation
Pee power urinal - microbial fuel cell technology field trials in the context of sanitation
This paper reports on the pee power urinal field trials, which are using microbial fuel cells for internal lighting. The first trial was conducted on Frenchay Campus (UWE, Bristol) from February–May 2015 and demonstrated the feasibility of modular MFCs for lighting, with University staff and students as the users; the next phase of this trial is ongoing. The second trial was carried out during the Glastonbury Music Festival at Worthy Farm, Pilton in June 2015, and demonstrated the capability of the MFCs to reliably generate power for internal lighting, from a large festival audience (∼1000 users per day). The power output recorded for individual MFCs is 1–2 mW, and the power output of one 36-MFC-module, was commensurate of this level of power. Similarly, the real-time electrical output of both the pee power urinals was proportional to the number of MFCs used, subject to temperature and flow rate: the campus urinal consisted of 288 MFCs, generating 75 mW (mean), 160 mW (max) with 400 mW when the lights were connected directly (no supercapacitors); the Glastonbury urinal consisted of 432 MFCs, generating 300 mW (mean), 400 mW (max) with 800 mW when the lights were connected directly (no supercapacitors). The COD removal was >95% for the campus urinal and on average 30% for the Glastonbury urinal. The variance in both power and urine treatment was due to environmental conditions such as temperature and number of users. This is the first time that urinal field trials have demonstrated the feasibility of MFCs for both electricity generation and direct urine treatment. In the context of sanitation and public health, an independent power source utilising waste is essential in terms of both developing and developed world.
336-343
Ieropoulos, Ioannis Andrea
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Stinchcombe, Andrew
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Gajda, Iwona
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Forbes, Samuel
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Merino-Jimenez, Irene
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Pasternak, Grzegorz
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Sanchez-Herranz, Daniel
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Greenman, John
eb3d9b82-7cac-4442-9301-f34884ae4a16
2016
Ieropoulos, Ioannis Andrea
6c580270-3e08-430a-9f49-7fbe869daf13
Stinchcombe, Andrew
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Gajda, Iwona
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Forbes, Samuel
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Merino-Jimenez, Irene
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Pasternak, Grzegorz
fd3857b4-1e43-4fa7-aab8-0162c02b2c1b
Sanchez-Herranz, Daniel
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Greenman, John
eb3d9b82-7cac-4442-9301-f34884ae4a16
Ieropoulos, Ioannis Andrea, Stinchcombe, Andrew, Gajda, Iwona, Forbes, Samuel, Merino-Jimenez, Irene, Pasternak, Grzegorz, Sanchez-Herranz, Daniel and Greenman, John
(2016)
Pee power urinal - microbial fuel cell technology field trials in the context of sanitation.
Environmental Science: Water Research and Technology, 2 (2), .
(doi:10.1039/c5ew00270b).
Abstract
This paper reports on the pee power urinal field trials, which are using microbial fuel cells for internal lighting. The first trial was conducted on Frenchay Campus (UWE, Bristol) from February–May 2015 and demonstrated the feasibility of modular MFCs for lighting, with University staff and students as the users; the next phase of this trial is ongoing. The second trial was carried out during the Glastonbury Music Festival at Worthy Farm, Pilton in June 2015, and demonstrated the capability of the MFCs to reliably generate power for internal lighting, from a large festival audience (∼1000 users per day). The power output recorded for individual MFCs is 1–2 mW, and the power output of one 36-MFC-module, was commensurate of this level of power. Similarly, the real-time electrical output of both the pee power urinals was proportional to the number of MFCs used, subject to temperature and flow rate: the campus urinal consisted of 288 MFCs, generating 75 mW (mean), 160 mW (max) with 400 mW when the lights were connected directly (no supercapacitors); the Glastonbury urinal consisted of 432 MFCs, generating 300 mW (mean), 400 mW (max) with 800 mW when the lights were connected directly (no supercapacitors). The COD removal was >95% for the campus urinal and on average 30% for the Glastonbury urinal. The variance in both power and urine treatment was due to environmental conditions such as temperature and number of users. This is the first time that urinal field trials have demonstrated the feasibility of MFCs for both electricity generation and direct urine treatment. In the context of sanitation and public health, an independent power source utilising waste is essential in terms of both developing and developed world.
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Published date: 2016
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Local EPrints ID: 454063
URI: http://eprints.soton.ac.uk/id/eprint/454063
ISSN: 2053-1400
PURE UUID: e399b76c-5ca8-4b2e-a91c-01800785897d
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Date deposited: 27 Jan 2022 19:24
Last modified: 17 Mar 2024 04:10
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Author:
Andrew Stinchcombe
Author:
Iwona Gajda
Author:
Samuel Forbes
Author:
Irene Merino-Jimenez
Author:
Grzegorz Pasternak
Author:
Daniel Sanchez-Herranz
Author:
John Greenman
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