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200 00$aMicrobial Fuel Cells 2018$fJung Rae Kim
210   $cMDPI - Multidisciplinary Digital Publishing Institute$d2019
210  1$aBasel, Switzerland :$cMDPI,$d2019.
215   $a1 electronic resource (84 p.)
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330   $aThe rapid growth of global energy consumption and simultaneous waste discharge requires more sustainable energy production and waste disposal/recovery technology. In this respect, microbial fuel cell and bioelectrochemical systems have been highlighted to provide a platform for waste-to-energy and cost-efficient treatment. Microbial fuel cell technology has also contributed to both academia and industry through the development of breakthrough sustainable technologies, enabling cross- and multi-disciplinary approaches in microbiology, biotechnology, electrochemistry, and bioprocess engineering. To further spread these technologies and to help the implementation of microbial fuel cells, this Special Issue, entitled "Microbial Fuel Cells 2018", was proposed for the international journal Energies. This Special Issue mainly covers original research and studies related to the above-mentioned topic, including, but not limited to, bioelectricity generation, microbial electrochemistry, useful resource recovery, system and process design, and the implementation of microbial fuel cells.
606   $aHistory of engineering and technology$2bicssc
610   $abiogenic conversion
610   $apower density
610   $atreatment efficiency
610   $amicrobial fuel cell (MFC)
610   $aflow rate
610   $ahydrogen production
610   $abioelectrochemical system
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610   $adilution rate
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610   $acarbon monoxide
610   $ainhibition
610   $amicrobial fuel cell
610   $aacetosyringone
610   $aanodic volume
610   $amicrobial electrolysis cell
610   $asyringaldehyde
610   $alaccase
610   $amethane
610   $aanode distance
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