To Investigate the Optimized Conditions of Salt Bridge for Bio- Electricity Generation from Distillery Waste Water Using Microbial Fuel Cell

With the development of industrial revolution environmental pollution greatly affected by various pollutants emitted from industries. A part from this energy requirement also increased due to growing civilization. Ethanol is one of the future fuel that is produced from sugar cane molasses. During di...

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Published in:NUST J. eng. sci. 2016-12, Vol.9 (2)
Main Authors: Abdul Sattar Jatoi, Hidayatullah Mahar, Shaheen Aziz, Mohammad Siddique, Furqan Memon, Akhtar Ali Malik, Sadiq Hussain, Ehsanullah Kakar
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container_title NUST J. eng. sci.
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creator Abdul Sattar Jatoi
Hidayatullah Mahar
Shaheen Aziz
Mohammad Siddique
Furqan Memon
Akhtar Ali Malik
Sadiq Hussain
Ehsanullah Kakar
description With the development of industrial revolution environmental pollution greatly affected by various pollutants emitted from industries. A part from this energy requirement also increased due to growing civilization. Ethanol is one of the future fuel that is produced from sugar cane molasses. During distillation of alcohol waste water also drawn off, this waste water contain many organic matter. Microbial fuel cell (MFC) is one of the major source for treating waste water and generating electricity. This study deals with electricity generation from distillery waste and factor affecting salt bridge used for proton transfer. The maximum voltage and electricity generation was seen at 10% agarose,1 M Kcl, 1 M NaCl, 5 cm length and 1cm diameter of salt bridge about 0.67 mv and  0.0642 mA.
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title To Investigate the Optimized Conditions of Salt Bridge for Bio- Electricity Generation from Distillery Waste Water Using Microbial Fuel Cell
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