This book addresses the burgeoning need for innovative and sustainable approaches to energy generation. It aims to bridge the gap between theoretical advancements and practical applications in renewable energy by leveraging hybrid engineering techniques. Of interest to environmental physicists, engineers, and environmental scientists.
Hybridisation of Renewable Energy addresses the burgeoning need for innovative and sustainable approaches to energy generation.
As the global community faces the dual crises of climate change and finite fossil fuel resources, transitioning to renewable energy sources has never been more urgent. This book aims to bridge the gap between theoretical advancements and practical applications in renewable energy by leveraging hybrid engineering techniques. Topics covered include solar hybrid systems and energy storage; hybrid systems for smart grids; hybrid thermochemical renewable energy conversion; hybrid biochemical renewable energy conversion; and energy storage. Case studies are supplied throughout, and other important factors such as economic impact are also briefly discussed.
This book will be of interest to environmental physicists, engineers, and environmental scientists.
Key Features:
- Explores multiple hybrid renewable energy approaches, providing a holistic view of the hybridisation landscape.
- Includes case studies covering practical applications.
- Addresses the crucial economic factors associated with hybrid renewable energy systems.
1. Introduction
2. Hybrid Renewable Generation Systems
3. Technological
Framework of Hybrid Engineering
4. Hybridisation of Renewable Energy Process
5. Solar Hybrid and Energy Storage Systems
6. Hybrid Systems for Smart Grids
7. Hybrid Thermochemical Renewable Energy Conversion
8. Hybrid Biochemical
Renewable Energy Conversion
9. Hybrid Energy Storage and Innovative Storage
Technologies
10. Future of Electric Vehicles in Solar Hybrid Systems
11.
Environmental and Economic Considerations
12. Synergistic Coupling of
Renewable Energy Processes
13. Examples of Hybrid System Layouts and Design
Guidelines
14. Future Trends and Innovations
Subhasis Roy is working as a faculty member at the Department of Chemical Engineering, University of Calcutta, India.
Asit Baran Biswas is working as a faculty member at the Department of Chemical Engineering, University of Calcutta, India.
