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Optimizing multi-variables of microbial fuel cell for electricity generation with an integrated modeling and experimental approach

Fang Fang, Guo-Long Zang, Min Sun and Han-Qing Yu

Applied Energy, 2013, vol. 110, issue C, 98-103

Abstract: Microbial fuel cell (MFC) is a device that transforms chemical energy in wastewater into electricity, and its performance is influenced by multi-variables. Mathematic modeling approach could be a useful alternative to design and optimize such a complex system for power generation and wastewater treatment. Here we develop a novel integrated modeling approach with uniform design (UD), a machine learning approach of relevance vector machine (RVM) and a global searching algorithm of accelerating genetic algorithm (AGA) to optimize the operation of multi-variable MFCs after they are constructed. With the integrated UD–RVM–AGA approach, a maximum Coulombic efficiency of 73.0% and power density of 1097mW/m3 of MFC are estimated under the optimal conditions of ionic concentration of 102mM, initial pH of 7.75, medium nitrogen concentration of 48.4mg/L, and temperature of 30.6°C. The Coulombic efficiency and power density in the verification experiments, 70.9% and 1156mW/m3, are close to those calculated by the modeling approach. The results demonstrate that the integrated UD–RVM–AGA approach is effective and reliable to optimize the complex MFC and improve its performance.

Keywords: Accelerating genetic algorithm (AGA); Microbial fuel cell (MFC); Optimization; Relevance vector machine (RVM); Uniform design (UD) (search for similar items in EconPapers)
Date: 2013
References: View references in EconPapers View complete reference list from CitEc
Citations: View citations in EconPapers (4)

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DOI: 10.1016/j.apenergy.2013.04.017

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