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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Kant Bhatia, Shashi edt Wastewater Based Microbial Biorefinery for Bioenergy Production Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021 1 electronic resource (216 p.) text txt rdacontent computer c rdamedia online resource cr rdacarrier 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. English Environmental science, engineering & technology bicssc effluent anaerobic digestion incineration Co-pyrolysis syngas biodiesel biofuel biogas MEC bio-hydrogen manure digestion cybersecurity cybercrime legislation policy systems thinking water DEA regional difference energy utilization efficiency carbon emission cost database treatment wastewater Web of Science biogas digestion hydrogen sulfide ferric oxide waterworks sludge biofilm lattice Boltzmann method cellular automata individual-based model chitin electricity generation halotolerant microbial fuel cell seafood processing microbial electrolysis cells chronological development wastewater to hydrogen scale-up life-cycle assessment MEC commercialization microalgae wastewater treatment nutrient removal 3-0365-1950-5 3-0365-1951-3 Kant Bhatia, Shashi oth |
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Kant Bhatia, Shashi |
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Kant Bhatia, Shashi |
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Wastewater Based Microbial Biorefinery for Bioenergy Production |
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Wastewater Based Microbial Biorefinery for Bioenergy Production |
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Wastewater Based Microbial Biorefinery for Bioenergy Production |
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Wastewater Based Microbial Biorefinery for Bioenergy Production |
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Wastewater Based Microbial Biorefinery for Bioenergy Production |
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Wastewater Based Microbial Biorefinery for Bioenergy Production |
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Wastewater Based Microbial Biorefinery for Bioenergy Production |
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wastewater based microbial biorefinery for bioenergy production |
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MDPI - Multidisciplinary Digital Publishing Institute |
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2021 |
physical |
1 electronic resource (216 p.) |
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3-0365-1950-5 3-0365-1951-3 |
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Not Illustrated |
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AT kantbhatiashashi wastewaterbasedmicrobialbiorefineryforbioenergyproduction |
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(CKB)5400000000045329 (oapen)https://directory.doabooks.org/handle/20.500.12854/76849 (EXLCZ)995400000000045329 |
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Wastewater Based Microbial Biorefinery for Bioenergy Production |
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