This book presents a comprehensive exploration of sustainable energy solutions and innovative technologies shaping our transition toward a low-carbon future. The book addresses global renewable resources, fossil fuel reserves, and pollution sources from conventional energy technologies.
This book presents a comprehensive exploration of sustainable energy solutions and innovative technologies shaping our transition toward a low-carbon future. The book addresses global renewable resources, fossil fuel reserves, and pollution sources from conventional energy technologies.
Dr. Surajbhan Sevda is a distinguished researcher in bioenergy and environmental biotechnology. His expertise spans biomass utilization, microbial fuel cells, and sustainable energy production. As an editor, he brings together interdisciplinary perspectives on green technologies. His contributions to bioelectrochemical systems and waste valorization have been widely recognized, making him a key figure in advancing eco-friendly energy solutions.
Inhaltsangabe
Preface. Biomass as Renewable Energy: Current Scenario and Future Trends. Overview of Stoichiometric Ratios, Their Significance and Flue Gas Analysis (O2, CO2, CO, NOx, SOx). Defining Fuel Stoichiometry and its Importance in Combustion. Innovative Waste-to-Energy Conversion Methods. Thermochemical Conversion of Biomass to Energy: The Pyrolysis Pathway. Advancing Thermo-Chemical Energy Storage Systems for Enhanced Efficiency in Concentrated Solar Power Applications. Sources of Pollution from Energy Technology. Overview of Global Renewable Resources. Fossil Fuel Reserves: Estimates and Implications for the Future. Gaseous Fuels: Natural Gas, Propane, Hydrogen, Biogas. Smart Grids and Their Role in Renewable Energy Integration. The Role of Renewable Energy in the Global Energy Transition. Index.
Preface. Biomass as Renewable Energy: Current Scenario and Future Trends. Overview of Stoichiometric Ratios, Their Significance and Flue Gas Analysis (O2, CO2, CO, NOx, SOx). Defining Fuel Stoichiometry and its Importance in Combustion. Innovative Waste-to-Energy Conversion Methods. Thermochemical Conversion of Biomass to Energy: The Pyrolysis Pathway. Advancing Thermo-Chemical Energy Storage Systems for Enhanced Efficiency in Concentrated Solar Power Applications. Sources of Pollution from Energy Technology. Overview of Global Renewable Resources. Fossil Fuel Reserves: Estimates and Implications for the Future. Gaseous Fuels: Natural Gas, Propane, Hydrogen, Biogas. Smart Grids and Their Role in Renewable Energy Integration. The Role of Renewable Energy in the Global Energy Transition. Index.
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