Inhaltsangabe
Clean Energy and Resources Recovery: Biomass Waste Based Biorefineries, Volume One presents the technological options for energy and resources recovery from all types of organic wastes. The book addresses municipal and industrial sludges, municipal solid waste, agro-residue, animal wastes, industrial waste, forestry residue, and algal biomass, and provides a global overview of biomass waste production, waste handling issues and related GHG emissions and climate change, legislative waste management guidelines, biomass composition, and conventional methods for biomass waste treatment. For each biomass waste, chapters cover energy and bio-based products recovery, pre-treatment methods, process microbiology, community dynamics, co-digestion, reactor design and configuration, and techno-economic evaluation.
Case studies on upscaling technology and pilot and industry scale implementation are included, alongside step-by-step calculations that integrate practical field data and regulatory requirements into the environmental design process. Finally, future trends and developments in advanced biotechnological concepts for biomass waste processing and management are also discussed.
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Über die Autorinnen und Autoren
Dr. Vinay Kumar Tyagi is a Scientist D in the Environmental Hydrology Division of the National Institute of Hydrology, Roorkee, India. His research interests include energy-efficient wastewater treatment systems, sludge and solid waste management, and health related water microbiology. Dr. Tyagi has over 100 international publications, with more than 8,000 citations, as well as co-editing or co-authoring 8 full books and 42 book chapters. He was listed in the Top 2% of Scientists worldwide (Stanford University / Elsevier). Dr. Tyagi is Management Committee Member of the International Water Association (IWA) Sludge Management Specialist Group (represent South Asia Division), and Anaerobic Digestion Specialist Group. He is an editorial board member for several international journals and a lead editor of several special issues. Dr. Tyagi has extensive international research experience and collaboration in Norway, Japan, Singapore, Spain, and Taiwan in the domains of wastewater treatment, sludge pre-treatment, and biomass to bioenergy recovery.
Dr. Kaoutar Aboudi is a substitute lecturer in the Department of Chemical Engineering and Food Technology at the University of Cádiz (Spain), where she is a senior researcher in the Applied Bioprocess Engineering research group. Her central research areas include biomass to bioenergy and value-added product recovery through anaerobic digestion and fermentation processes. She has been working on technologies related to biohythane production for 15 years. Dr. Aboudi has co-edited 2 full books and has co-authored 12 book chapters and 20 peer-reviewed papers published in recognized journals. She has participated in over 19 international conferences worldwide and has been a member of several research projects related to biomass valorization. She previously completed postdoctoral research at the IMDEA-Energy Institute in Madrid (Spain) and international internships at Delft University of Technology (the Netherlands) and the New University of Lisbon (Portugal). She has successfully supervised BSc degree students in Chemical Engineering and Biotechnology.
Von der hinteren Coverseite
Clean Energy and Resource Recovery from Biomass Wastes, Volume 1 presents the technological options, both conventional and advanced, for energy and resources recovery from all types of organic wastes. The book addresses municipal and industrial sludges, municipal solid waste, agro-residue, animal wastes, industrial waste, forestry residue, and algal biomass, and provides a global overview of biomass waste production, waste handling issues and related GHG emissions and climate change, legislative waste management guidelines, biomass composition, and conventional methods for biomass waste treatment. For each biomass waste the chapters will cover energy and bio-based products recovery, pre-treatment methods, process microbiology, community dynamics, co-digestion, reactor design and configuration, and techno-economic evaluation. Case studies on upscaling technology and pilot and industry scale implementation are included, alongside step-by-step calculations that integrate practical field data and regulatory requirements into the environmental design process. Finally, future trends and developments in advanced biotechnological concepts for biomass waste processing and management are discussed.
Clean Energy and Resource Recovery from Biomass Wastes, Volume 1 provides an ideal reference for graduate students and researchers interested in bioenergy and renewable energy, and environmental engineers and industry practitioners involved in waste management and resource recovery.
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Clean Energy and Resource Recovery: Biomass Waste Based Biorefineries: Vol 1
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