SEL BAHAN BAKAR BERBASIS MIKROBA-TANAMAN (P-MFC) SEBAGAI SUMBER ENERGI LISTRIK; PRINSIP KERJA, VARIASI DESAIN, POTENSI DAN TANTANGAN

SEL BAHAN BAKAR BERBASIS MIKROBA-TANAMAN (P-MFC) SEBAGAI SUMBER ENERGI LISTRIK; PRINSIP KERJA, VARIASI DESAIN, POTENSI DAN TANTANGAN

Plant Microbial Fuel Cell or known as P-MFC, is an emerging technology to produce electricity. P-MFC is projected as a possible solution in developing an alternative source of electricity that is highly available and sustainable. P-MFC is not releasing pollution during the running time because the o...

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Bibliographic Details
Main Authors: Dwi Cahyani, Agus Haryanto, David SS Marpaung, Raizummi Fil’aini
Format: Article
Language:Indonesian
Published: Jurusan Teknik Pertanian Universitas Lampung 2020-06-01
Series:Jurnal Teknik Pertanian Lampung
Subjects:
bioenergy
electricity
fuel cell
p-mfc
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spelling doaj-6a48933c85444b41816527ae431f56f22020-11-25T03:13:11ZindJurusan Teknik Pertanian Universitas LampungJurnal Teknik Pertanian Lampung2302-559X2549-08182020-06-0192112121http://dx.doi.org/10.23960/jtep-l.v9.i2.112-121SEL BAHAN BAKAR BERBASIS MIKROBA-TANAMAN (P-MFC) SEBAGAI SUMBER ENERGI LISTRIK; PRINSIP KERJA, VARIASI DESAIN, POTENSI DAN TANTANGANDwi Cahyani0Agus Haryanto1David SS Marpaung2Raizummi Fil’aini3Institut Teknologi SumateraUniversitas LampungInstitut Teknologi SumateraInstitut Teknologi SumateraPlant Microbial Fuel Cell or known as P-MFC, is an emerging technology to produce electricity. P-MFC is projected as a possible solution in developing an alternative source of electricity that is highly available and sustainable. P-MFC is not releasing pollution during the running time because the only side product of this technology is water (H2O). The national potential of P-MFC was calculated as much as 0,07 TW per year, which equal to 0,026% of national electricity production. The P-MFC designs for research purposes has already been variously created compare to the initial introduction. Besides, the plant type occupied has been diverse as well. This article reviews four main parts of P-MFC technology. Firstly, an explanation of fundamentals processes in P-MFC and its plant. Secondly, about the P-MFC design variations and its power output. Thirdly, about P-MFC power potential in Indonesia and lastly, about the challenge of P-MFC application. bioenergyelectricityfuel cellp-mfc
collection DOAJ
language Indonesian
format Article
sources DOAJ
author Dwi Cahyani
Agus Haryanto
David SS Marpaung
Raizummi Fil’aini
spellingShingle Dwi Cahyani
Agus Haryanto
David SS Marpaung
Raizummi Fil’aini
SEL BAHAN BAKAR BERBASIS MIKROBA-TANAMAN (P-MFC) SEBAGAI SUMBER ENERGI LISTRIK; PRINSIP KERJA, VARIASI DESAIN, POTENSI DAN TANTANGAN
Jurnal Teknik Pertanian Lampung
bioenergy
electricity
fuel cell
p-mfc
author_facet Dwi Cahyani
Agus Haryanto
David SS Marpaung
Raizummi Fil’aini
author_sort Dwi Cahyani
title SEL BAHAN BAKAR BERBASIS MIKROBA-TANAMAN (P-MFC) SEBAGAI SUMBER ENERGI LISTRIK; PRINSIP KERJA, VARIASI DESAIN, POTENSI DAN TANTANGAN
title_short SEL BAHAN BAKAR BERBASIS MIKROBA-TANAMAN (P-MFC) SEBAGAI SUMBER ENERGI LISTRIK; PRINSIP KERJA, VARIASI DESAIN, POTENSI DAN TANTANGAN
title_full SEL BAHAN BAKAR BERBASIS MIKROBA-TANAMAN (P-MFC) SEBAGAI SUMBER ENERGI LISTRIK; PRINSIP KERJA, VARIASI DESAIN, POTENSI DAN TANTANGAN
title_fullStr SEL BAHAN BAKAR BERBASIS MIKROBA-TANAMAN (P-MFC) SEBAGAI SUMBER ENERGI LISTRIK; PRINSIP KERJA, VARIASI DESAIN, POTENSI DAN TANTANGAN
title_full_unstemmed SEL BAHAN BAKAR BERBASIS MIKROBA-TANAMAN (P-MFC) SEBAGAI SUMBER ENERGI LISTRIK; PRINSIP KERJA, VARIASI DESAIN, POTENSI DAN TANTANGAN
title_sort sel bahan bakar berbasis mikroba-tanaman (p-mfc) sebagai sumber energi listrik; prinsip kerja, variasi desain, potensi dan tantangan
publisher Jurusan Teknik Pertanian Universitas Lampung
series Jurnal Teknik Pertanian Lampung
issn 2302-559X
2549-0818
publishDate 2020-06-01
description Plant Microbial Fuel Cell or known as P-MFC, is an emerging technology to produce electricity. P-MFC is projected as a possible solution in developing an alternative source of electricity that is highly available and sustainable. P-MFC is not releasing pollution during the running time because the only side product of this technology is water (H2O). The national potential of P-MFC was calculated as much as 0,07 TW per year, which equal to 0,026% of national electricity production. The P-MFC designs for research purposes has already been variously created compare to the initial introduction. Besides, the plant type occupied has been diverse as well. This article reviews four main parts of P-MFC technology. Firstly, an explanation of fundamentals processes in P-MFC and its plant. Secondly, about the P-MFC design variations and its power output. Thirdly, about P-MFC power potential in Indonesia and lastly, about the challenge of P-MFC application.
topic bioenergy
electricity
fuel cell
p-mfc
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