Wastewater Based Microbial Biorefinery for Bioenergy Production

A rapid growth in various industries and domestic activities is resulting in a huge amount of wastewater. Various types of wastewaters, such as textile, municipal, dairy, pharmaceutical, swine, and aquaculture, etc., are produced regularly by respective industries. These wastewaters are rich in nutr...

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Bibliographic Details
Other Authors: Kant Bhatia, Shashi (Editor)
Format: Electronic Book Chapter
Language:English
Published: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021
Subjects:
Online Access:DOAB: download the publication
DOAB: description of the publication
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245 1 0 |a Wastewater Based Microbial Biorefinery for Bioenergy Production 
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520 |a A rapid growth in various industries and domestic activities is resulting in a huge amount of wastewater. Various types of wastewaters, such as textile, municipal, dairy, pharmaceutical, swine, and aquaculture, etc., are produced regularly by respective industries. These wastewaters are rich in nutrient content and promote eutrophication in the ecosystem and pose a threat to flora and fauna. According to an estimate, eutrophication causes losses of almost 2 billion US dollars annually, affecting real estate and fishing activities. Treatment of wastewater is a costly process and recently wastewater treatment with simultaneous energy production has received more attention. Microorganisms can be used to recover nutrients from wastewater and produce bioenergy (biodiesel, biohydrogen, bioelectricity, methane, etc.). A better understanding of the composition of various types of wastewaters and the development of technologies like anaerobic digestion (AD), microbial fuel cell (MFC), and microbial electrolysis cell (MEC) can help to make wastewater-based biorefinery a reality. To provide an overall overview to students, teachers, and researchers on wastewater to bioenergy technology ten chapters are included in this book. 
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546 |a English 
650 7 |a Environmental science, engineering & technology  |2 bicssc 
653 |a effluent 
653 |a anaerobic digestion 
653 |a incineration 
653 |a Co-pyrolysis 
653 |a syngas 
653 |a biodiesel 
653 |a biofuel 
653 |a biogas 
653 |a MEC 
653 |a bio-hydrogen 
653 |a manure 
653 |a digestion 
653 |a cybersecurity 
653 |a cybercrime 
653 |a legislation 
653 |a policy 
653 |a systems thinking 
653 |a water 
653 |a DEA 
653 |a regional difference 
653 |a energy utilization efficiency 
653 |a carbon emission 
653 |a cost 
653 |a database 
653 |a treatment 
653 |a wastewater 
653 |a Web of Science 
653 |a biogas digestion 
653 |a hydrogen sulfide 
653 |a ferric oxide 
653 |a waterworks sludge 
653 |a biofilm 
653 |a lattice Boltzmann method 
653 |a cellular automata 
653 |a individual-based model 
653 |a chitin 
653 |a electricity generation 
653 |a halotolerant 
653 |a microbial fuel cell 
653 |a seafood processing 
653 |a microbial electrolysis cells 
653 |a chronological development 
653 |a wastewater to hydrogen 
653 |a scale-up 
653 |a life-cycle assessment 
653 |a MEC commercialization 
653 |a microalgae 
653 |a wastewater treatment 
653 |a nutrient removal 
653 |a n/a 
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856 4 0 |a www.oapen.org  |u https://directory.doabooks.org/handle/20.500.12854/76849  |7 0  |z DOAB: description of the publication