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Microbial electrolysis cell technolo...

Yaqoob, Asim Ali.

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Microbial electrolysis cell technology = fundamental to sustainable applications /

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Microbial electrolysis cell technology/ edited by Asim Ali Yaqoob, Akil Ahmad.
其他題名:	fundamental to sustainable applications /
其他作者:	Yaqoob, Asim Ali.
出版者:	Singapore :Springer Nature Singapore : : 2024.,
面頁冊數:	x, 308 p. :ill. (some col.), digital ;24 cm.
內容註:	Basic electrochemical concept of Microbial electrolysis cell -- Principal, mechanism, and basic thermodynamics of microbial electrolysis cell -- Material for microbial electrolysis cell: Design to reactor configuration -- Impact of electrode material on microbial electrolysis cell performance -- Effect of substrate on the efficiency of microbial electrolysis cells -- Electrochemical and theoretical concept of the microbial electrolysis cell -- Microbiology study of microbial electrolysis cell: A essential subject of the technique -- Microbial electrolysis cell integration with other bioelectrochemical fuel cells for sustainable applications -- Effect of design and other parameters of a microbial electrolysis cell for industrial wastewater treatment -- Recent advances in microbial electrolysis cells for high production of hydrogen generation -- Role of Microbial electrolysis cell in the production of methane -- Prospective application of microbial electrolysis cells for energy generation coupled with domestic wastewater treatment -- Role of microbial electrolysis cells in the nutrient recovery process -- Applications of microbial electrolysis cells in anaerobic digestion -- Microbial electrolysis cells for the treatment of dye effluent coupled with the generation of hydrogen -- Microbial electrolysis cell for heavy metal removal from wastewater -- A critical discussion on microbial electrolysis cells and microbial fuel cells (MFCs) -- Engineering challenges of the microbial electrolysis cell for stable performance.
Contained By:	Springer Nature eBook
標題:	Electrolytic cells. -
電子資源:	https://doi.org/10.1007/978-981-97-3356-9
ISBN:	9789819733569

Microbial electrolysis cell technology = fundamental to sustainable applications /
Microbial electrolysis cell technologyfundamental to sustainable applications /[electronic resource] :edited by Asim Ali Yaqoob, Akil Ahmad. - Singapore :Springer Nature Singapore :2024. - x, 308 p. :ill. (some col.), digital ;24 cm. - Sustainable materials and technology,2731-0434. - Sustainable materials and technology..

Basic electrochemical concept of Microbial electrolysis cell -- Principal, mechanism, and basic thermodynamics of microbial electrolysis cell -- Material for microbial electrolysis cell: Design to reactor configuration -- Impact of electrode material on microbial electrolysis cell performance -- Effect of substrate on the efficiency of microbial electrolysis cells -- Electrochemical and theoretical concept of the microbial electrolysis cell -- Microbiology study of microbial electrolysis cell: A essential subject of the technique -- Microbial electrolysis cell integration with other bioelectrochemical fuel cells for sustainable applications -- Effect of design and other parameters of a microbial electrolysis cell for industrial wastewater treatment -- Recent advances in microbial electrolysis cells for high production of hydrogen generation -- Role of Microbial electrolysis cell in the production of methane -- Prospective application of microbial electrolysis cells for energy generation coupled with domestic wastewater treatment -- Role of microbial electrolysis cells in the nutrient recovery process -- Applications of microbial electrolysis cells in anaerobic digestion -- Microbial electrolysis cells for the treatment of dye effluent coupled with the generation of hydrogen -- Microbial electrolysis cell for heavy metal removal from wastewater -- A critical discussion on microbial electrolysis cells and microbial fuel cells (MFCs) -- Engineering challenges of the microbial electrolysis cell for stable performance.

This book covers the different aspects of microbial electrolysis cell (MEC) technology and its applications in wastewater treatment such as nutrient recovery and heavy metals removal. The MEC technique is related to the technique the microbial fuel cells (MFC);, while the MFC uses the microbial decomposition of organic molecules to generate an electric current, MEC partly reverses the process by using an electric current to generate hydrogen or methane from organic material. If a sustainable energy source is used to generate the electric current, the generated hydrogen or methane can be used in an internal combustion engine or PEM fuel cell to generate energy. The chapters in this book describe the basic principles and working mechanism of the MEC, its effectiveness depending on the kind of microorganisms present, type of electrode materials, use of catalysis, and lastly its potential industrial applications for environmental remediation. This book benefits students, young researchers, academicians, and industrial scientists who are working in the field of environmental pollutants and their safe removal using new technologies.

ISBN: 9789819733569

Standard No.: 10.1007/978-981-97-3356-9doiSubjects--Topical Terms:

1638031
Electrolytic cells.

LC Class. No.: QD568

Dewey Class. No.: 541.37

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520 $a This book covers the different aspects of microbial electrolysis cell (MEC) technology and its applications in wastewater treatment such as nutrient recovery and heavy metals removal. The MEC technique is related to the technique the microbial fuel cells (MFC);, while the MFC uses the microbial decomposition of organic molecules to generate an electric current, MEC partly reverses the process by using an electric current to generate hydrogen or methane from organic material. If a sustainable energy source is used to generate the electric current, the generated hydrogen or methane can be used in an internal combustion engine or PEM fuel cell to generate energy. The chapters in this book describe the basic principles and working mechanism of the MEC, its effectiveness depending on the kind of microorganisms present, type of electrode materials, use of catalysis, and lastly its potential industrial applications for environmental remediation. This book benefits students, young researchers, academicians, and industrial scientists who are working in the field of environmental pollutants and their safe removal using new technologies.
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