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Stackable and submergible microbial fuel cell modules for wastewater treatment
Authors:Minsoo Kim  Jaehwan Cha  Jaecheul Yu  Changwon Kim
Affiliation:1.Department of Environmental Engineering,Pusan National University,Busan,South Korea;2.Hanhwa E&C,Daejeon,South Korea;3.Department of Energy and Environmental Engineering,Silla University,Busan,South Korea
Abstract:The stackable and submergible microbial fuel cell (SS-MFC) system was fabricated consisting of three MFC modules (#1, #2 and #3) that were immersed in an anaerobic tank as a 30 L anode compartment. Each module consisted of the anion exchange membrane–membrane electrode assembly (A-MEA) and cation exchange membrane-MEA (C-MEA). Two MEAs shared a cathode compartment in the module and the three modules shared a anode compartment The SS-MFC system was operated with two phase. After batch feeding (phase I), the system was operated under continuous mode (phase II) with different organic concentrations (from 50 to 1000 mg/L) and different hydraulic retention times (HRT; from 3.4 to 7.2 h). The SS-MFC system successfully produced a stable voltage. A-MEA generated a lower power density than the C-MEA because of the former’s high activation and resistance loss. C-MEA showed a higher average maximum power density (3.16 W/m3) than A-MEA (2.82 W/m3) at 70 mL/min (HRT of 7.2 h). The current density increased as the organic concentration was increased from 70 to 1000 mg/L in a manner consistent with Monod kinetics. When the HRT was increased from 3.4 to 7.2 h, the power densities of the C-MEAs increased from 34.3–40.9 to 40.7–45.7 mW/m2, but those of the A-MEAs decreased from 25.3–48.0 to 27.7–40.9 mW/m2. Although power generation was affected by HRT, organic concentrations, and separator types, the proposed SS-MFC modules can be applied to existing wastewater treatment plants.
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