| Literature DB >> 27863051 |
Michelle N Young1, Mikaela J Links1, Sudeep C Popat1,2, Bruce E Rittmann1, César I Torres1.
Abstract
A microbial peroxide producing cell (MPPC) for H2 O2 production at the cathode was systematically optimized with minimal energy input. First, the stability of H2 O2 was evaluated using different catholytes, membranes, and catalyst materials. On the basis of these results, a flat-plate MPPC fed continuously using 200 mm NaCl catholyte at a 4 h hydraulic retention time was designed and operated, producing H2 O2 for 18 days. H2 O2 concentration of 3.1 g L-1 H2 O2 with 1.1 Wh g-1 H2 O2 power input was achieved in the MPPC. The high H2 O2 concentration was a result of the optimum materials selected. The small energy input was largely the result of the 0.5 cm distance between the anode and cathode, which reduced ionic transport losses. However, >50 % of operational overpotentials were due to the 4.5-5 pH unit difference between the anode and cathode chambers. The results demonstrate that a MPPC can continuously produce H2 O2 at high concentration by selecting compatible materials and appropriate operating conditions.Entities:
Keywords: anode-respiring bacteria; cathodes; electrochemistry; hydrogen peroxide; microbial electrochemical cells
Mesh:
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Year: 2016 PMID: 27863051 DOI: 10.1002/cssc.201601182
Source DB: PubMed Journal: ChemSusChem ISSN: 1864-5631 Impact factor: 8.928