Open AccessEffects of Methyl-blue Addition in Sewage Substrate on the Performance of Microbial Fuel Cell
Author(s) -
Joseph Kidehu,
John Geophrey
Publication year - 2018
Publication title -
tanzania journal of engineering and technology
Language(s) - English
Resource type - Journals
eISSN - 1821-536X
pISSN - 2619-8789
DOI - 10.52339/tjet.v37i2.491
Subject(s) - cell voltage , microbial fuel cell , current density , chemistry , sewage , methyl blue , voltage , substrate (aquarium) , power density , current (fluid) , environmental engineering , nuclear chemistry , chemical engineering , environmental science , catalysis , organic chemistry , power (physics) , electrical engineering , electrode , anode , ecology , physics , quantum mechanics , photocatalysis , biology , engineering
Experimental study was undertaken to evaluate performance of microbial fuel cell. Without addition of methyl blue, the cell generated 1.265 V, 0.403 mA and 56.12 mW/m2 after three hours of operation. With 300 µM methyl blue in sewage anolyte, 6.7% increase in voltage, 20.5% increase in current and 28.6% increase in power density was observed. By using ash- water catholyte, addition of methyl blue in anolyte led to increase of 9.0% in voltage, 38.5% in current and 50.9% for power density. Between three and twenty four hours of continuous operation of the cell with phosphate buffer catholyte, the average voltage was 1.305 V and the average current was 0.321 mA before addition of methyl blue. Methyl blue addition led to 5.1% increase in voltage and 55.2% increase in current. For the case of ash-water catholyte with methyl blue in anolyte, led to 6.2% increase in voltage and 59.1% increase in current.
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