This book refers to the various biomass valorisation in various fields like bio-fuel; biodiesel; hydrogen production; energy application, environmental pollution using recent clean technologies. Clean energy technology refers to any process, product or service that reduces negative environmental impacts through significant energy efficiency improvements, sustainable use of resources or environmental protection activities. It covers all aspects of new and renewable clean energy production technology. The concept of eco-efficiency involves both ecological and economic aspects of sustainable…mehr
This book refers to the various biomass valorisation in various fields like bio-fuel; biodiesel; hydrogen production; energy application, environmental pollution using recent clean technologies. Clean energy technology refers to any process, product or service that reduces negative environmental impacts through significant energy efficiency improvements, sustainable use of resources or environmental protection activities. It covers all aspects of new and renewable clean energy production technology. The concept of eco-efficiency involves both ecological and economic aspects of sustainable agriculture. This book is of interest to teachers, researchers, scientists, capacity builders and policymakers. Also the book serves as additional reading material for undergraduate and graduate students of agriculture, forestry, ecology, soil science, and environmental sciences.
Dr. Dan Bahadur Pal is currently working as an Assistant Professor in the Department of Chemical Engineering at Birla Institute of Technology Mesra, Ranchi, Jharkhand. He has received his M. Tech and Ph.D. in the field of Chemical Engineering from Indian Institute of Technology (BHU) Varanasi, Uttar Pradesh, India. Before that, he has completed his B. Tech in Chemical Engineering from UPTU, Lucknow. Dr. Pal's research interest is nano-technology, catalysis, energy and environment and waste Treatment with a special focus in developing process and materials by using waste as raw materials. He also prefers to work on bio-waste processing and value addition. Dr. Pal published more than 55 publications in reputed journals and books along with 20 book chapters and 4 book editing.
Inhaltsangabe
Chapter 1. Biomass Energy Utilization, Conversion Technologies.- Chapter 2. Biohydrogen Production Using Microbial Electrolysis Cell.- Chapter 3. Biohydrogen Production Using Microbial Electrolysis Cell.- Chapter 4. Microbial Waste Biomass as A Resource of Renewable Energy.- Chapter 5. Vanadium Redox Flow Batteries for Large Scale Energy Storage.- Chapter 6. Biomass Fast Pyrolysis Simulation: A Thermodynamic Equilibrium Approach.- Chapter 7. Potential of waste cooking oil for emphasizing on biodiesel: Put waste to Green Energy.- Chapter 8. Low Cost Biomass Adsorbents for Arsenic Removal from Wastewater.- Chapter 9. Biodiesel Production from Algal Biomass.- Chapter 10. Valorisation of Agricultural and Food Waste Biomass for Production of Bioenergy.- Chapter 11. Biomass Conversion: Production of oxygenated fuel additives.- Chapter 12. Application of microbial based adsorbent for removal of heavy metal from aqueous solution.
Chapter 1. Biomass Energy Utilization, Conversion Technologies.- Chapter 2. Biohydrogen Production Using Microbial Electrolysis Cell.- Chapter 3. Biohydrogen Production Using Microbial Electrolysis Cell.- Chapter 4. Microbial Waste Biomass as A Resource of Renewable Energy.- Chapter 5. Vanadium Redox Flow Batteries for Large Scale Energy Storage.- Chapter 6. Biomass Fast Pyrolysis Simulation: A Thermodynamic Equilibrium Approach.- Chapter 7. Potential of waste cooking oil for emphasizing on biodiesel: Put waste to Green Energy.- Chapter 8. Low Cost Biomass Adsorbents for Arsenic Removal from Wastewater.- Chapter 9. Biodiesel Production from Algal Biomass.- Chapter 10. Valorisation of Agricultural and Food Waste Biomass for Production of Bioenergy.- Chapter 11. Biomass Conversion: Production of oxygenated fuel additives.- Chapter 12. Application of microbial based adsorbent for removal of heavy metal from aqueous solution.
Chapter 1. Biomass Energy Utilization, Conversion Technologies.- Chapter 2. Biohydrogen Production Using Microbial Electrolysis Cell.- Chapter 3. Biohydrogen Production Using Microbial Electrolysis Cell.- Chapter 4. Microbial Waste Biomass as A Resource of Renewable Energy.- Chapter 5. Vanadium Redox Flow Batteries for Large Scale Energy Storage.- Chapter 6. Biomass Fast Pyrolysis Simulation: A Thermodynamic Equilibrium Approach.- Chapter 7. Potential of waste cooking oil for emphasizing on biodiesel: Put waste to Green Energy.- Chapter 8. Low Cost Biomass Adsorbents for Arsenic Removal from Wastewater.- Chapter 9. Biodiesel Production from Algal Biomass.- Chapter 10. Valorisation of Agricultural and Food Waste Biomass for Production of Bioenergy.- Chapter 11. Biomass Conversion: Production of oxygenated fuel additives.- Chapter 12. Application of microbial based adsorbent for removal of heavy metal from aqueous solution.
Chapter 1. Biomass Energy Utilization, Conversion Technologies.- Chapter 2. Biohydrogen Production Using Microbial Electrolysis Cell.- Chapter 3. Biohydrogen Production Using Microbial Electrolysis Cell.- Chapter 4. Microbial Waste Biomass as A Resource of Renewable Energy.- Chapter 5. Vanadium Redox Flow Batteries for Large Scale Energy Storage.- Chapter 6. Biomass Fast Pyrolysis Simulation: A Thermodynamic Equilibrium Approach.- Chapter 7. Potential of waste cooking oil for emphasizing on biodiesel: Put waste to Green Energy.- Chapter 8. Low Cost Biomass Adsorbents for Arsenic Removal from Wastewater.- Chapter 9. Biodiesel Production from Algal Biomass.- Chapter 10. Valorisation of Agricultural and Food Waste Biomass for Production of Bioenergy.- Chapter 11. Biomass Conversion: Production of oxygenated fuel additives.- Chapter 12. Application of microbial based adsorbent for removal of heavy metal from aqueous solution.
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