S. Eslami , M. Bahrami , M. Zandi , J. Fakhar , R. Gavagsaz-Ghoachani , Y. Noorollahi , M. Phattanasak , B. Nahid-Mobarakeh
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引用次数: 3
Abstract
The high cost and recycling issues of common separators as the main components of Microbial fuel cells (MFCs) have slowed down the development of MFCs recently. In this paper, a polypropylene membrane is proposed as an inexpensive membrane that can be recycled with lower environmental impacts. An experiment is performed in a dual-chamber microbial fuel cell to investigate and compare the proposed membrane effectiveness to Nafion117. The dual-chamber MFC was used because of its ease of use. A mixture of microbes and glucose was fed to the cell during the experiment. The internal resistance and coulombic efficiency are calculated by measuring the circuit voltage, power density, and open-circuit voltage to monitor the performance. The maximum output voltage of 500 mV was attained at a resistance of 380 kΩ. Furthermore, the maximum output power density was 0.7 mW.m−2, which occurred for 3.3 mA.m−2.
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