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http://ir.futminna.edu.ng:8080/jspui/handle/123456789/7914
Title: | Application of Urine as fuel in a Soil-based membrane-less Single Chamber Microbial Fuel Cell. |
Other Titles: | NONE |
Authors: | SIMEON, M. I. Otache, Martins Yusuf EWEMOJE, T. A RAJI, A. O. |
Keywords: | soil urine microorganism, power fuel cell |
Issue Date: | 2019 |
Publisher: | AgriEngInt: CIGR Journal Open access |
Citation: | Simeon, Meshack Imologie., Otache, Martins Yusuf., Ewemoje, Temidayo Abayomi., and Raji, Abdulganiyu Olayinka. (2019). Application of Urine as fuel in a Soil-based membrane-less Single Chamber Microbial Fuel Cell. AgriEngInt: CIGR Journal Open access. Vol. 21(1), pp: 115-121 |
Abstract: | Microbial fuel cell (MFC) technology is a promising bio-technology that utilizes the microorganism in organic wastes to generate electricity. Although human urine has been identified as a suitable substrate in MFCs, its possible utilization in a soil-based membrane-less single chamber microbial fuel cell (MSCMFC) for constant power generation has, hitherto, not been reported. In this study, a MFC was set up with mud as inoculums in a plastic cylindrical vessel using carbon felt electrodes. It was operated for 19 days (456 hours) without extra substrate. Then, the MFC was treated with human urine (as substrate) four times (Days 19, 24, 32 and 36) each time the MFC output stabilized across external loads. A control MFC ) was made the same way and operated under the same conditions, but without addition of urine. Both MFCs were operated for 40 days. The initial open circuit voltage (OCV) of the MFC treated with urine (MFCcontrol) was 227 mV and that of MFC control urine was 219 mV. Both MFCs produced overlapping OCVs to the point of adding urine. The maximum OCVs of MFC control and MFC urine prior to treatment were 729 mV and 740 mV respectively. The OCV of MFC increased to a maximum value of 755 mV, four days after the initial treatment (day 23). At the final stage (Day 40), OCV of MFC was 474.64 mV; whereas the corresponding value for MFC was 7.31 mV. A micro chip was used to amplify the output of the MFCs to power a light emitting diode. In addition, MFC control was used to power a digital clock/thermometer. This study showed that human urine can be successfully utilized as fuel in a soil-based MSCMFC for the production of electrical energy which can be boosted to power low energy utility devices in farms or homes. |
Description: | NONE |
URI: | http://repository.futminna.edu.ng:8080/jspui/handle/123456789/7914 |
Appears in Collections: | Agric. and Bioresources Engineering |
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File | Description | Size | Format | |
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4808-Article Text-22950-1-10-20190430.pdf | 344.81 kB | Adobe PDF | View/Open |
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