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Performance of microbial fuel cell operating with clay-manihot starch composite proton exchange membrane using RSM

Livinus A. Obasi, Okechukwu D. Onukwuli, Chukwunonso Chukwuzuloke Okoye

2021Current Research in Green and Sustainable Chemistry20 citationsDOIOpen Access PDF

Abstract

This study optimized the performance of a microbial fuel cell (MFC) operating with raw clay sample (RCS)–manihot starch composite functioning as proton exchange membrane for electric power generation and bio-treatment of wastewater using central composite design (CCD) technique of the response surface methodology (RSM). The clay sample was heated at different temperatures ranging from 100 ​°C to 900 ​°C. The responses, power density and biochemical oxygen demand (BOD) removal efficiency were functions of four critical quantitative variables: pH, proton exchange membrane (PEM) preparation temperature (PPT), anolyte concentration and relative mass of clay in the PEM manihot-clay composite. A 24 CCD was employed to model and predict the process parameters. Sanitary wastewater of maximum cell density 4.25 ​× ​104/100 ​mL sustained the cell. Optimal responses of 82.4 ​mW/m2 power density and 72.3% BOD removal efficiency were recorded at clay PPT (RCS – 300 ​°C), 80 v/v wastewater to 10% glucose solution anolyte concentration, pH of 6.5 and clay component of PEM of mass 70 ​g optimum conditions. The study therefore suggests that RSM is an effective tool for evaluating and optimizing the Rsc-manihot composite PEM-MFC device for clean energy recovery and wastewater treatment, thereby providing the necessary leeway to overcoming the challenge of MFC scalability and greater performance.

Topics & Concepts

Central composite designResponse surface methodologyMicrobial fuel cellProton exchange membrane fuel cellWastewaterComposite numberMaterials scienceManihotPulp and paper industryChemical oxygen demandChemistryChemical engineeringMembraneEnvironmental engineeringComposite materialChromatographyEnvironmental scienceElectrodePhysical chemistryBiochemistryAnodeEngineeringFood scienceMicrobial Fuel Cells and BioremediationMembrane-based Ion Separation TechniquesElectrochemical sensors and biosensors
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