Preliminary studies on immobilized cells-based microbial fuel cell system on its power generation performance

Microbial fuel cell (MFC) is considered an alternative energy production technology that uses the degradation ability of microbes toward organic matters. The resultant products are electrons that will be transferred to the electrode and flows to cathode of the MFC through an external circuit to prod...

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Main Authors: Mesran, Mohd. Hadi, Mamat, Syafikah, Pang, Yee Rui, Hong, Tan Yi, Z., Muneera, Md. Ghazali, Nazlee Faisal, Ali, Md. Abbas, Nik Mahmood, Nik Azmi
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Published: Asian Economic and Social Society 2014
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Online Access:http://eprints.utm.my/id/eprint/59889/
https://archive.aessweb.com/index.php/5003/article/view/3655
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Institution: Universiti Teknologi Malaysia
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spelling my.utm.598892022-02-20T07:02:50Z http://eprints.utm.my/id/eprint/59889/ Preliminary studies on immobilized cells-based microbial fuel cell system on its power generation performance Mesran, Mohd. Hadi Mamat, Syafikah Pang, Yee Rui Hong, Tan Yi Z., Muneera Md. Ghazali, Nazlee Faisal Ali, Md. Abbas Nik Mahmood, Nik Azmi TP Chemical technology Microbial fuel cell (MFC) is considered an alternative energy production technology that uses the degradation ability of microbes toward organic matters. The resultant products are electrons that will be transferred to the electrode and flows to cathode of the MFC through an external circuit to produce current. The flow of electrons and protons can be channeled to an external circuit to produce electricity. Although the MFC has many advantages, the power density produced is still low. This happens due to high internal resistance cause by electrolyte, the MFC design and the microbes itself. In order to overcome the restriction cause by internal barrier, the present research has focused on developing bio-based anode using microbial cells immobilized in alginate and activated carbon mixture (GAC). In addition, the power production performance was analyzed via single chamber MFC (SCMFC). Through scanning electron microscopic (SEM) observation, the microbes have been successfully embedded into the matrix of alginate. Furthermore, using the GAC, maximum open circuit voltage produced was 403 mV which was higher than a control experiment without the usage of GAC, which achieved 217 mV only after 200 hours operation. In addition, the maximum power densities achieved by the MFC were 0.184mW/m3 for immobilized system and 0.0054mW/m3 for non-immobilized system respectively. Asian Economic and Social Society 2014 Article PeerReviewed Mesran, Mohd. Hadi and Mamat, Syafikah and Pang, Yee Rui and Hong, Tan Yi and Z., Muneera and Md. Ghazali, Nazlee Faisal and Ali, Md. Abbas and Nik Mahmood, Nik Azmi (2014) Preliminary studies on immobilized cells-based microbial fuel cell system on its power generation performance. Journal of Asian Scientific Research, 4 (8). pp. 428-435. ISSN 2226-5724 https://archive.aessweb.com/index.php/5003/article/view/3655
institution Universiti Teknologi Malaysia
building UTM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Malaysia
content_source UTM Institutional Repository
url_provider http://eprints.utm.my/
topic TP Chemical technology
spellingShingle TP Chemical technology
Mesran, Mohd. Hadi
Mamat, Syafikah
Pang, Yee Rui
Hong, Tan Yi
Z., Muneera
Md. Ghazali, Nazlee Faisal
Ali, Md. Abbas
Nik Mahmood, Nik Azmi
Preliminary studies on immobilized cells-based microbial fuel cell system on its power generation performance
description Microbial fuel cell (MFC) is considered an alternative energy production technology that uses the degradation ability of microbes toward organic matters. The resultant products are electrons that will be transferred to the electrode and flows to cathode of the MFC through an external circuit to produce current. The flow of electrons and protons can be channeled to an external circuit to produce electricity. Although the MFC has many advantages, the power density produced is still low. This happens due to high internal resistance cause by electrolyte, the MFC design and the microbes itself. In order to overcome the restriction cause by internal barrier, the present research has focused on developing bio-based anode using microbial cells immobilized in alginate and activated carbon mixture (GAC). In addition, the power production performance was analyzed via single chamber MFC (SCMFC). Through scanning electron microscopic (SEM) observation, the microbes have been successfully embedded into the matrix of alginate. Furthermore, using the GAC, maximum open circuit voltage produced was 403 mV which was higher than a control experiment without the usage of GAC, which achieved 217 mV only after 200 hours operation. In addition, the maximum power densities achieved by the MFC were 0.184mW/m3 for immobilized system and 0.0054mW/m3 for non-immobilized system respectively.
format Article
author Mesran, Mohd. Hadi
Mamat, Syafikah
Pang, Yee Rui
Hong, Tan Yi
Z., Muneera
Md. Ghazali, Nazlee Faisal
Ali, Md. Abbas
Nik Mahmood, Nik Azmi
author_facet Mesran, Mohd. Hadi
Mamat, Syafikah
Pang, Yee Rui
Hong, Tan Yi
Z., Muneera
Md. Ghazali, Nazlee Faisal
Ali, Md. Abbas
Nik Mahmood, Nik Azmi
author_sort Mesran, Mohd. Hadi
title Preliminary studies on immobilized cells-based microbial fuel cell system on its power generation performance
title_short Preliminary studies on immobilized cells-based microbial fuel cell system on its power generation performance
title_full Preliminary studies on immobilized cells-based microbial fuel cell system on its power generation performance
title_fullStr Preliminary studies on immobilized cells-based microbial fuel cell system on its power generation performance
title_full_unstemmed Preliminary studies on immobilized cells-based microbial fuel cell system on its power generation performance
title_sort preliminary studies on immobilized cells-based microbial fuel cell system on its power generation performance
publisher Asian Economic and Social Society
publishDate 2014
url http://eprints.utm.my/id/eprint/59889/
https://archive.aessweb.com/index.php/5003/article/view/3655
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