Energy Science

AAP Advances in Green Technologies for Sustainable Energy Solutions

Renewable Energy Hybridization
Energy Optimization, Applications, and Sustainable Developments

Editors: Dr. Naveen Sharma
Dr. Nitesh Dutt
Dr. Ankush Hedau
Dr. Ashwani Kumar

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Renewable Energy Hybridization

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Series: AAP Advances in Green Technologies for Sustainable Energy Solutions

Short description about the volume:

Renewable Energy Hybridization: Energy Optimization, Applications, and Sustainable Developments
represents a significant contribution to the field of mechanical engineering, offering comprehensive insights into the optimization, application, and sustainability of hybrid renewable energy systems. This book provides a detailed exploration of sustainable hybrid energy sources, highlighting cutting-edge research in mechanical engineering. It begins by establishing the importance of renewable energy, covering sources such as solar, wind, hydropower, geothermal, and biomass, and examining their integration, benefits, limitations, and weather-related challenges.

Subsequent chapters delve into the advantages of hybrid systems, such as improved efficiency, reliability, flexibility, and reduced fossil fuel dependence. They also explore energy storage technologies, including batteries and pumped hydro storage, and discuss power conversion and management strategies. The book covers hybridization approaches, optimization algorithms like linear programming and genetic algorithms, and case studies on hybrid renewable energy systems (HRES). It addresses the role of microgrids in rural electrification, design considerations for residential and commercial building-integrated HRES, and the benefits of hybrid electric vehicles (HEVs).

The book further explores the role of microgrids in rural electrification, design considerations for building-integrated HRES in residential and commercial settings, and the benefits of hybrid electric vehicles (HEVs). It also addresses challenges related to grid integration, smart grid technologies, and large-scale projects, while emphasizing the impact of HRES on climate change mitigation and socio-economic development. Additionally, the text delves into renewable energy policies, financial mechanisms, and emerging storage technologies like hydrogen storage. The concluding chapters provide insights into artificial intelligence in energy management, the integration of geothermal and solar energy, and the importance of supportive policies and regulatory frameworks for successful HRES implementation.

The primary aim of this book is to explore renewable energy hybridization as a critical strategy for optimal energy production and utilization. It covers technical aspects of combining diverse renewable energy sources, focusing on maximizing efficiency, reliability, and cost-effectiveness. Key topics include energy optimization principles, energy conversion methods, potential limitations, and optimization techniques for sizing and configuring HRES for various applications.



Coverage

To create a comprehensive and authoritative volume, we invite scholars and researchers to contribute original research and perspectives to this book project. While the following topics will be a primary focus, we encourage submissions that explore a broader range of subjects within the field.

Section 1: Renewable Energy Hybridization
• Introduction to Renewable Energy Hybridization
• Benefits of Renewable Energy Hybridization

Section 2: Hybridization Technologies and System Design
• System Design Considerations for Renewable Energy Hybridization
• Design Optimization Techniques for Hybrid Renewable Energy Systems (HRES)

Section 3: Applications of Hybrid Renewable Energy Systems
• Microgrids for Remote Communities
• Stand-alone Power Systems for Buildings
• Hybrid Electric Vehicles (HEVs)
• Large-Scale Utility Grid Integration with Renewable Energy

Section 4: Sustainability and Economic Considerations
• Contribution of Renewable Energy Hybridization to Sustainable Development
• Policy and Economic Frameworks for Supporting HRES Adoption
• Carbon Capture Technologies: Pre-combustion, Post-combustion, Oxy-fuel Combustion
• Applications of Carbon Capture Technologies: Power Plants, Industrial Facilities, Bioenergy Facilities

Section 5: Emerging Technologies and Future Trends
• Advanced Energy Storage Solutions for HRES
• Solar-Wind & Geothermal Integrated Green Hydrogen Production
• Optimizing Green Hydrogen Production for Cost and Performance
• Hydrogen Application in Automotive/ Building and Water Treatment Industry
• Artificial Intelligence (AI) for HRES Optimization and Management
• Geothermal-Solar Hybrid Power Plant for Building Applications
• Policy Frameworks and Regulatory Support for Hybrid Renewable Energy Projects
• Conclusion and Future Outlook: Challenges, opportunities, and policy implications

Important Dates:
Initial Proposal / Abstract Submission (400 – 600 words)
Deadline: October 25th, 2024
Notification of Acceptance: October 30th, 2024
Full Chapter (4,000 – 7,000 words) Submission Due: On or before December 28th, 2024


Submission procedure:
We invite researchers and practitioners to contribute original chapters to this book. Prospective authors are encouraged to submit a one-page chapter proposal or abstract outlining the proposed chapter content, objectives, and methodology by October 25, 2024. Please include the chapter title and author details within the proposal. Authors will be notified regarding the acceptance of their proposals by October 30, 2024. Accepted authors will be required to submit completed chapters of 15 to 20 pages by December 28, 2024. All submitted chapters will undergo a rigorous peer-review process.


To submit your proposal or full-length chapter, please send a Word document attachment to editors:
Dr. Naveen Sharma naveen.sharma@nsut.ac.in
Dr. Nitesh Dutt drniteshdutt@gmail.com
Dr. Ankush Hedau ankush.hedau@gmail.com and
Dr. Ashwani Kumar drashwanikumardte@gmail.com

Authors must refer to the following link for detailed guidelines for chapter preparation:

http://www.appleacademicpress.com/publishwithus

Note: Authors submitting manuscripts to this book do not incur any publication fees. To ensure the originality and quality of the content, all submissions must be previously unpublished and not under consideration for publication in any other venue.


About the Authors / Editors:
Editors: Dr. Naveen Sharma
Assistant Professor, Department of Mechanical Engineering, Netaji Subhas University of Technology, New Delhi, India


Dr. Nitesh Dutt
Associate Professor and Head, COER University, Roorkee, Uttarakhand, India


Dr. Ankush Hedau
Project Fellow, Department of Energy Science and Engineering, Indian Institute of Technology Delhi, New Delhi, India


Dr. Ashwani Kumar
Senior Lecturer Mechanical Engineering, Technical Education Department Uttar Pradesh Kanpur (under Government of Uttar Pradesh), India





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