Power generation and contaminant removal in single chamber microbial fuel cells (SCMFCs) treating human urine

Ieropoulos, I.; Greenman, J.; Ieropoulos, Ioannis; Santoro, C.; Greenman, John; Cristiani, P.; Vadas, T.; Mackay, A.; Li, B.

doi:10.1016/j.ijhydene.2013.02.070

Power generation and contaminant removal in single chamber microbial fuel cells (SCMFCs) treating human urine

Ieropoulos, I.; Greenman, J.; Ieropoulos, Ioannis; Santoro, C.; Greenman, John; Cristiani, P.; Vadas, T.; Mackay, A.; Li, B.

Authors

I. Ieropoulos

J. Greenman

Yannis Ieropoulos Ioannis2.Ieropoulos@uwe.ac.uk
Professor in Bioenergy & Director of B-B

C. Santoro

John Greenman john.greenman@uwe.ac.uk

P. Cristiani

T. Vadas

A. Mackay

B. Li

Abstract

The potential of single chamber microbial fuel cells (SCMFC) to treat raw, fresh human urine was investigated. The power generation (55 μW) of the SCMFCs with platinum (Pt)-based cathode was higher than those with Pt-free cathodes (23 μW) at the beginning of the tests, but this difference decreased over time. Up to 75% of the chemical oxygen demand (COD) in urine was reduced after a 4-day treatment. During this time, the ammonium concentration increased significantly to 5 gNH4+-N/L in SCMFCs due to urea hydrolysis, while sulfate concentration decreased and transformed into H 2S due to sulfate reduction reactions. Calcium and magnesium concentrations dropped due to precipitation at high pH, and phosphorous decreased 20-50% due to the formation of struvite that was found on the cathode surface and on the bottom of the anodic chamber. The advantages of power generation, COD removal, and nutrient recovery make SCMFCs treating human urine a cost-effective biotechnology. Copyright © 2013, Hydrogen Energy Publications, LLC. Published by Elsevier Ltd. All rights reserved.

Presentation Conference Type	Conference Paper (published)
Publication Date	Aug 30, 2013
Journal	International Journal of Hydrogen Energy
Print ISSN	0360-3199
Publisher	Elsevier
Peer Reviewed	Peer Reviewed
Volume	38
Issue	26
Pages	11543-11551
DOI	https://doi.org/10.1016/j.ijhydene.2013.02.070
Keywords	human urine, microbial fuel cell (MFCs), chemical oxygen demand (COD), ammonium ions, struvite, precipitation
Public URL	https://uwe-repository.worktribe.com/output/928857
Publisher URL	http://dx.doi.org/10.1016/j.ijhydene.2013.02.070

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Authors

Abstract

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