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Algae Based Bioelectrochemical Systems for Carbon Sequestration, Carbon Storage, Bioremediation and Bioproduct Generation (Bioelectrochemical Systems: The way forward) - Softcover
Inhaltsangabe
Algae Based Bioelectrochemical Systems for Carbon Sequestration, Carbon Storage, Bioremediation and Bioproduct Generation explores the integration of carbon capture, storage and sequestration technologies with bioelectrochemical fuels cells (BEFC), showing how conventional technologies can be renovated to aid in the reduction in GHG emissions and simultaneously optimize BEFC performance. The book focuses on the integration of algal biogas upgradation with electrochemical systems, providing a guide to the renovation of conventional technologies to combine energy production and carbon sequestration. Chapters discuss the latest advancements in carbon sequestration biocatalyst and microbial platforms and integrations for rapid carbon biotransformations. In addition, the book highlights the potential of algae and chemolithotrophs as candidates for carbon delivery, biocatalyst orientation and architecture for optimal BEFC performance.
- Addresses the modification of carbon materials in the strengthening and application of bioelectrochemical fuel cells
- Highlights the application of bioelectrochemical systems in carbon sequestration and utilization
- Discusses the frontiers of carbon storage biocatalysts such as algae and chemlithotrophs
- Includes content supported by analytical tools and detailed schematics and process diagrams that outline the integration of carbon sequestration with bioelectrochemical systems
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Über die Autorinnen und Autoren
Durga Madhab Mahapatra is an Assistant Professor (Selection Grade) at the Department of Chemical Engineering, Energy Cluster, School of Advanced Engineering, University of Petroleum and Energy Studies (UPES), Dehradun, India. Before joining UPES, he was with the Department of Biological and Ecological Engineering (BEE), School of Engineering (SoE), Oregon State University (OSU), Corvallis, OR, USA from 2016 onwards as a Postdoctoral Fellow, Teaching staff, and Affiliate. He completed his Doctoral studies in Bioprocess Engineering, from the Indian Institute of Science (IISc), Bangalore in 2015 from the Faculty of Engineering with a Gold Medal. His major areas of interest are Sustainable Bioprocess Development, Bioenergy and Bioresources, Wastewater Metagenomics, Wastewater Treatment and Waste Biorefinery, and Nano-biotechnological Applications in Agricultural, and Environmental Research.
Lakhveer Singh is an Associate Professor at the Department of Chemistry, Sardar Patel University, Mandi, Himachal Pradesh-175001, India. Earlier, he worked as an Associate Professor at SRM University-AP and University Malaysia Pahang, Malaysia and as post-doctoral researcher at Oregon State University, Corvallis, USA. His major areas of research expertise are Energy Production, Bioelectrochemical Systems, Wastewater Treatment, and Nanomaterial Synthesis for Sustainable Applications. He is enlisted in the world top 2% scientists list released in 2021 by Stanford University in the field of energy and environment.
Smita Kumar is faculty in the Department of Environmental Studies, Central University of Haryana, Mahendragarh, Haryana, India. She is skilled in environmental issues, particularly water and wastewater treatment and bioenergy generation. Her Ph.D. focused on bioelectrochemical stabilization of landfill leachate using Microbial Fuel Cell Technology. She did her post-doctoral research from Centre for Rural Development and Technology, Indian Institute of Technology Delhi. Her research interests include Water and Wastewater Treatment; Environmental Pollution Assessment and Abatement; Environmental Biotechnology; Bio-energy Production; Landfill Leachate Treatment; and Bioremediation. She is enlisted in the world’s top 2% scientists list as released in 2021 by Stanford University in the field of environment.
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Algae Based Bioelectrochemical Systems for Carbon Sequestration, Carbon Storage, Bioremediation and Bioproduct Generation explores the integration of carbon capture, storage, and sequestration technologies with bioelectrochemical fuels cells (BEFC), showing how conventional technologies can be renovated to aid in the reduction in GHG emissions and simultaneously optimize BEFC performance. It focuses on the integration of algal biogas upgradation with electrochemical systems, providing a guide to the renovation of conventional technologies to combine energy production and carbon sequestration. Chapters discuss the latest advancements in carbon sequestration biocatalyst and microbial platforms and integrations for rapid carbon biotransformations. The book highlights the potential of algae and chemolithotrophs as candidates for carbon delivery, biocatalyst orientation and architecture for optimal BEFC performance.Algae Based Bioelectrochemical Systems for Carbon Sequestration, Carbon Storage, Bioremediation and Bioproduct Generation offers readers a valuable introduction to the use of algae and bio-based fuel cells to solve some of the major energy and environmental challenges facing the world, and will be a useful reference for graduates and researchers involved in the application of bioelectrochemical systems, as well as those working more broadly in bioenergy, electrochemistry, biology, environmental engineering, and multidisciplinary research across those areas.
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Algae Based Bioelectrochemical Systems for Carbon Sequestration, Carbon Storage, Bioremediation and Bioproduct Generation (Bioelectrochemical Systems: The way forward)
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Algae Based Bioelectrochemical Systems for Carbon Sequestration, Carbon Storage, Bioremediation and Bioproduct Generation (Bioelectrochemical Systems: The way forward)
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Algae Based Bioelectrochemical Systems for Carbon Sequestration, Carbon Storage, Bioremediation and Bioproduct Generation
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Algae Based Bioelectrochemical Systems for Carbon Sequestration, Carbon Storage, Bioremediation and Bioproduct Generation
Verlag:
Elsevier Science & Technology Dez 2023, 2023
ISBN 10: 0323910238
ISBN 13: 9780323910231
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Taschenbuch. Zustand: Neu. Neuware - Algae Based Bioelectrochemical Systems for Carbon Sequestration, Carbon Storage, Bioremediation and Bioproduct Generation explores the integration of carbon capture, storage and sequestration technologies with bioelectrochemical fuels cells (BEFC), showing how conventional technologies can be renovated to aid in the reduction in GHG emissions and simultaneously optimize BEFC performance. The book focuses on the integration of algal biogas upgradation with electrochemical systems, providing a guide to the renovation of conventional technologies to combine energy production and carbon sequestration. Chapters discuss the latest advancements in carbon sequestration biocatalyst and microbial platforms and integrations for rapid carbon biotransformations. In addition, the book highlights the potential of algae and chemolithotrophs as candidates for carbon delivery, biocatalyst orientation and architecture for optimal BEFC performance. Artikel-Nr. 9780323910231
Anzahl: 2 verfügbar