Improvement of microbial fuel cell performance using novel kaolin earthenware membrane coated with a polybenzimidazole layer

Authors
Daud, Siti MariamAbu Bakar, Mimi HaniWan Daud, Wan RamliKim, Byung HongMd Jahim, JamaliahMuchtar, AndanastutiSomalu, Mahendra RoaLee, Pak HoeAbdul, Peer Mohamed
Issue Date
2021-12
Publisher
WILEY
Citation
ENERGY SCIENCE & ENGINEERING, v.9, no.12, pp.2342 - 2353
Abstract
A proton exchange membrane (PEM) is one of the most critical and expensive components in a dual-chamber microbial fuel cell (MFC) that separates the anode and cathode chambers. The novel macroporous kaolin earthenware coated with polybenzimidazole (NKE-PBI) fabricated in this study could become an alternative to PEM membranes. Briefly, PBI powder was dissolved in dimethylacetamide. Thereafter, NKE was fabricated at different porosities (10%, 20%, and 30%) using different starch powder volumes, which acted as pore-forming agents. The NKE-PBI with 30 vol% starch powder content produced the highest power output of 2450 +/- 25 mW m(-2) (10.50 A m(-2)) and internal resistance of 71 +/- 19 omega under batch mode operation. The MFC-PEM reactor generated the lowest power output at the highest internal resistance of up to 1300 +/- 15 mW m(-2) (3.7 A m(-2)) and 313 +/- 16 omega, respectively. In this study, the nonselective porous NKE coated with PBI membranes improved proton conduction activity and displayed comparable power performance with that of Nafion 117 in a dual-chambered MFC. Therefore, a porous earthenware membrane coated with a proton conductor could become a potential separator in a scaled-up MFC system for commercialization.
Keywords
PROTON-EXCHANGE MEMBRANE; ENHANCED POWER PRODUCTION; ELECTRICITY-GENERATION; CERAMIC MEMBRANES; CATION-EXCHANGE; TRANSPORT; SEPARATORS; EFFICIENT; ELECTRODE; OXIDE; microbial fuel cell technology; novel kaolin earthenware; polybenzimidazole; proton conductor; proton exchange membrane
ISSN
2050-0505
URI
https://pubs.kist.re.kr/handle/201004/115984
DOI
10.1002/ese3.988
Appears in Collections:
KIST Article > 2021
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