About the Book
This book offers a comprehensive exploration of renewable energy systems, elucidating the fundamental principles underpinning technologies such as solar photovoltaics, wind turbines, and biomass conversion.
Features:
Discusses the role of computational fluid dynamics simulations in bioenergy production, and for thermal solar collectors.
Covers geothermal power plant design and performance optimization, and solar-assisted heat pump technologies for building applications.
Highlights the role of smart technologies such as artificial intelligence in sustainable energy technologies.
Presents case studies on renewable energy sources, power demand, policies, and solar thermal desalination technologies.
Explains valorization of biomass to fuel briquettes and environmental life cycle analysis of renewable energy.
The text is primarily written for senior undergraduates, graduate students, and academic researchers in the fields of environmental engineering, renewable energy, clean technologies, mechanical engineering, electrical engineering, chemical engineering, and civil engineering.
Table of Contents:
Chapter 1. Hydrogen Generation, Storage, Transportation and Utilization: Future Prospects
Chapter 2. Renewable Energy Sources, Power Demand, Policies: An Indian Perspective
Chapter 3. Hydrogen as a Clean Energy Solution: Pathways from Source to Application
Chapter 4. A Case Study of Renewable Energy Sources, Power Demand, Energy Distribution and Policies in Indian Prospective
Chapter 5. An In-Depth Case Study on Renewable Energy Sources, Power Demand Trends, and Policy Frameworks: The Indian Perspective
Chapter 6. Dielectric Energy Storage and Energy Harvesting using Lead-Free Piezoelectric Materials for Sustainable Energy Solutions
Chapter 7. Advanced Substrate Treatment Methods and Additives for Enhancing Efficiency in Biogas Plants
Chapter 8. Environmental Life Cycle Analysis of Renewable Energy
Chapter 9. Smart Integrated Biorefineries for Sustainable Development
Chapter 10. Computational Fluid Dynamics studies on Microfluidic Fuel Cells: Insights and Future Directions
Chapter 11. Investigating the process flowsheet for converting cellulose into hexane: A simulation approach
Chapter 12. Sustainable Materials for Photovoltaic Systems
Chapter 13. Carbon-based Nanomaterials Utilization in Biofuel Cells
Chapter 14. Biohydrogen Production Through Food Waste Materials: Utilization and Future Prospectives
About the Author :
Dan Bahadur Pal is currently working as Associate Professor, Department of Chemical Engineering, Harcourt Butler Technical University, Kanpur, Uttar Pradesh, India. He received his M.Tech. in 2011 and Ph.D. in 2017 in the field of Chemical Engineering from the Indian Institute of Technology (BHU) Varanasi, Uttar Pradesh, India. Before that, he completed his B.Tech. in Chemical Engineering from UPTU, Lucknow, in 2006. Dr. Pal completed a doctoral degree in the field of nanotechnology and catalysis. These nanofibers have very promising potential to provide benefits to nanotechnologies, energy, environment, catalysts, sensors, etc. While pursuing research, he has published 105 publications in internationally refereed journals and 12 books and has contributed to 53 book chapters. From all the publications, he got 4,218 citations with a 29 h- index and 63i- 10 indexes. Dr. Pal’s research interests include nanotechnology, catalysis, energy and environment, and waste management, with a special focus on developing processes and materials by using waste as raw materials. He also prefers to work on bio- waste processing and value addition. He is the top 2% scientist in the field of Energy by Standford University list for the year 2024 & 2025.
Ashish Kapoor is currently working as Professor in the Department of Chemical Engineering at Harcourt Butler Technical University, Kanpur, Uttar Pradesh, India. He earned his B.Tech. and M.Tech. (dual degree program) in Chemical Engineering from the Indian Institute of Technology (IIT) Madras, Tamil Nadu, India, in 2004. He received his Ph.D. from the University of Illinois Urbana- Champaign (UIUC), Illinois, USA, in 2011. Before assuming his current position, Dr. Kapoor worked as a Product Engineer at Lam Research Corporation, California, USA, and as a faculty member in the Department of Chemical Engineering at SRM Institute of Science and Technology, Kattankulathur, Tamil Nadu, India. With over 12 years of experience in industry and academia, he has authored more than 75 peer- reviewed international publications and has an h- index of 18. His research interests include microfluidics, lab- on- a- chip technologies, environmental remediation, biomass valorization, and modelling and simulation.
