This book covers latest information on organic and inorganic waste management, and how the waste can be utilized as an energy source. An increasing world population and climate change rate hint that environmental health needs a sustainable waste recycling system worldwide. Management of wastes material plays a substantial role in the environment and climate regulation. Chapters contain modern tools and techniques for managing inorganic, biomedical, municipality, and food waste. The title covers the role of contemporary microbiology and biotechnological tools in waste management and how these…mehr
This book covers latest information on organic and inorganic waste management, and how the waste can be utilized as an energy source. An increasing world population and climate change rate hint that environmental health needs a sustainable waste recycling system worldwide. Management of wastes material plays a substantial role in the environment and climate regulation. Chapters contain modern tools and techniques for managing inorganic, biomedical, municipality, and food waste. The title covers the role of contemporary microbiology and biotechnological tools in waste management and how these microbial agents can enhance waste degradation and bioenergy production. The book covers interesting topics such as bio-ethanol production from agro-waste, microbial fuel cells, biogas production from animal waste, nanotechnology in waste recycling, etc. The primary audiences are researchers, scientists, students, and policymakers interlinked with waste management and applied microbial sectors.
Dr Brijendra Kumar Kashyap is an assistant professor at the Department of Biotechnology Engineering, Institute of Engineering and Technology, Bundelkhand University (IET, BU), Jhansi, India, and a member of the ongoing project TEQIP-III. His graduation and post-graduation are from Banaras Hindu University (BHU), Varanasi, and PhD (pursuing) from Bundelkhand University, India. He had received numerous prestigious awards, including the Young Scientist Award of Society of Bioinformatics and Biological Sciences (SBBS), India, JRF(NET)-CSIR, SRF-CSIR, SRF-ICAR, IIT-Fellowship, ARS(NET)-ICAR, GATE, DBT-Fellowship, etc. He had delivered numerous oral and poster presentations at various national and international conferences and had published more than 20 papers in peer-reviewed journals. He is having more than 15 years of teaching and research experience. Manoj Kumar Solanki (PhD) is currently working as a scientist in the University of Silesia in Katowice, Poland, under the Police National Agency for Academic Exchange Program. He obtained his Master's in Microbiology from Barkatullah University in 2006 and a PhD in Microbiology from Rani Durgawati University, India, in 2013. He has awarded a visiting scientist fellowship from the Guangxi Academy of Agriculture Sciences, China, in 2013-2015, and also awarded as visiting scientist from the Volcani Center, Agricultural Research Organization, Israel 2016-2020. He has been engaged in various research activities on plants-microbes interaction, soil microbiology, plant disease management, and enzymology, and published many books, chapters, and various research papers in many international journals. He has a great interest in agriculturally important microorganisms (such as bacteria, actinomycetes, fungi, and yeast), especially in the utilization of microorganisms in soil and crop health management and other allied areas.
Inhaltsangabe
Chapter 1 Emerging Frontiers of Microbes in Liquid Waste Management.- Chapter 2 Municipal wastewater treatment by microalgae with simultaneous resource recovery: A biorefinery approach.- Chapter 3 An economic and sustainable method of bio-ethanol production from Agro-waste: A waste to energy approach.- Chapter 4 Sewage and wastewater management to combat different mosquito vector species.- Chapter 5 Keratinase role in management of poultry Waste.- Chapter 6 Biomedical Waste: Impact on Environment and its Management in Health Care Facilities.- chpater 7 Microbial intervention in waste remediation for Bio-energy production.- Chapter 8 Role of Microorganisms in Biogas Production From Animal Waste and Slurries.- Chapter 9 Bioelectricity generation from organic waste using microbial fuel cell.- Chapter 10 Bioremediation: Remedy for Emerging Environmental Pollutants.- Chapter 11 Rhizoremediation: A Plant Microbe Based Probiotic Science.- Chapter 12 Microbial fermentation system for the production of biopolymers and bioenergy from various organic wastes and by-products.- Chapter 13 Nanotechnology: Opportunity and Challenges in Waste Management.- Chapter 14 'Omics' approaches for structural and functional insights of 'Waste to Energy' Microbiome.
Chapter 1 Emerging Frontiers of Microbes in Liquid Waste Management.- Chapter 2 Municipal wastewater treatment by microalgae with simultaneous resource recovery: A biorefinery approach.- Chapter 3 An economic and sustainable method of bio-ethanol production from Agro-waste: A waste to energy approach.- Chapter 4 Sewage and wastewater management to combat different mosquito vector species.- Chapter 5 Keratinase role in management of poultry Waste.- Chapter 6 Biomedical Waste: Impact on Environment and its Management in Health Care Facilities.- chpater 7 Microbial intervention in waste remediation for Bio-energy production.- Chapter 8 Role of Microorganisms in Biogas Production From Animal Waste and Slurries.- Chapter 9 Bioelectricity generation from organic waste using microbial fuel cell.- Chapter 10 Bioremediation: Remedy for Emerging Environmental Pollutants.- Chapter 11 Rhizoremediation: A Plant Microbe Based Probiotic Science.- Chapter 12 Microbial fermentation system for the production of biopolymers and bioenergy from various organic wastes and by-products.- Chapter 13 Nanotechnology: Opportunity and Challenges in Waste Management.- Chapter 14 ‘Omics’ approaches for structural and functional insights of ‘Waste to Energy’ Microbiome.
Chapter 1 Emerging Frontiers of Microbes in Liquid Waste Management.- Chapter 2 Municipal wastewater treatment by microalgae with simultaneous resource recovery: A biorefinery approach.- Chapter 3 An economic and sustainable method of bio-ethanol production from Agro-waste: A waste to energy approach.- Chapter 4 Sewage and wastewater management to combat different mosquito vector species.- Chapter 5 Keratinase role in management of poultry Waste.- Chapter 6 Biomedical Waste: Impact on Environment and its Management in Health Care Facilities.- chpater 7 Microbial intervention in waste remediation for Bio-energy production.- Chapter 8 Role of Microorganisms in Biogas Production From Animal Waste and Slurries.- Chapter 9 Bioelectricity generation from organic waste using microbial fuel cell.- Chapter 10 Bioremediation: Remedy for Emerging Environmental Pollutants.- Chapter 11 Rhizoremediation: A Plant Microbe Based Probiotic Science.- Chapter 12 Microbial fermentation system for the production of biopolymers and bioenergy from various organic wastes and by-products.- Chapter 13 Nanotechnology: Opportunity and Challenges in Waste Management.- Chapter 14 'Omics' approaches for structural and functional insights of 'Waste to Energy' Microbiome.
Chapter 1 Emerging Frontiers of Microbes in Liquid Waste Management.- Chapter 2 Municipal wastewater treatment by microalgae with simultaneous resource recovery: A biorefinery approach.- Chapter 3 An economic and sustainable method of bio-ethanol production from Agro-waste: A waste to energy approach.- Chapter 4 Sewage and wastewater management to combat different mosquito vector species.- Chapter 5 Keratinase role in management of poultry Waste.- Chapter 6 Biomedical Waste: Impact on Environment and its Management in Health Care Facilities.- chpater 7 Microbial intervention in waste remediation for Bio-energy production.- Chapter 8 Role of Microorganisms in Biogas Production From Animal Waste and Slurries.- Chapter 9 Bioelectricity generation from organic waste using microbial fuel cell.- Chapter 10 Bioremediation: Remedy for Emerging Environmental Pollutants.- Chapter 11 Rhizoremediation: A Plant Microbe Based Probiotic Science.- Chapter 12 Microbial fermentation system for the production of biopolymers and bioenergy from various organic wastes and by-products.- Chapter 13 Nanotechnology: Opportunity and Challenges in Waste Management.- Chapter 14 ‘Omics’ approaches for structural and functional insights of ‘Waste to Energy’ Microbiome.
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