Sivasakthivel Thangavel – författare

The text comprehensively highlights the latest methodologies, models, techniques, and applications along with a description of modeling, optimization, and experimental works in the energy sector. It further explains key concepts such as finite element analysis tools, hybrid energy systems, mechanical components design, and optimization, solar coupled systems, and vertical heat exchanger.This book• Discusses the role and integration of solar, geothermal, and hydrogen‑based thermal energy storage (TES) technologies in different sectors for space heating and cooling applications.• Covers mechanical modeling and optimization of hybrid energy storage systems for performance improvement and focuses on hydrogen production, storage, and safety measures.• Explores the integration of IoT and global energy interaction technologies, highlighting their potential benefits in driving the transition toward a sustainable and resilient global energy system.• Explains different aspects of clean technologies such as batteries, fuel cells, ground energy storage, solar thermal system, and the role of green hydrogen in decarbonizing sectors like transportation and energy.• Showcases a clear idea of sustainable development using renewable energy, focusing on policymaking, challenges in transition from conventional to renewable energy, and future directions in energy sector.It is primarily written for senior undergraduates and graduate students, and academic researchers in the fields of mechanical engineering, production engineering, industrial engineering, and environmental engineering.

The text comprehensively highlights the latest methodologies, models, techniques, and applications along with a description of modeling, optimization, and experimental works in the energy sector. It further explains key concepts such as finite element analysis tools, hybrid energy systems, mechanical components design, and optimization, solar coupled systems, and vertical heat exchanger.This book• Discusses the role and integration of solar, geothermal, and hydrogen‑based thermal energy storage (TES) technologies in different sectors for space heating and cooling applications.• Covers mechanical modeling and optimization of hybrid energy storage systems for performance improvement and focuses on hydrogen production, storage, and safety measures.• Explores the integration of IoT and global energy interaction technologies, highlighting their potential benefits in driving the transition toward a sustainable and resilient global energy system.• Explains different aspects of clean technologies such as batteries, fuel cells, ground energy storage, solar thermal system, and the role of green hydrogen in decarbonizing sectors like transportation and energy.• Showcases a clear idea of sustainable development using renewable energy, focusing on policymaking, challenges in transition from conventional to renewable energy, and future directions in energy sector.It is primarily written for senior undergraduates and graduate students, and academic researchers in the fields of mechanical engineering, production engineering, industrial engineering, and environmental engineering.

The text comprehensively explains different pathways for hydrogen production, storage and transportation technologies, safety issues, and various applications in different industries. It further covers hydrogen storage methods, such as physical storage, chemical storage, and biological storage. The book also explains different transportation methods, like pipeline transportation, compressed gas transportation, and liquid hydrogen transportation.This book:Discusses solar-integrated hydrogen production for transportation fuels and power-to-gas systems with solar-generated hydrogen.Covers the optimization process for green hydrogen production and focuses on analyzing how factors such as renewable energy prices impact the cost of green hydrogen production.Explores green hydrogen revolution, proton exchange membrane (PEM) fuel cells, solid-state storage of hydrogen energy, electrolysis-based hydrogen production, and exergy analysis of turbocharged engine.Explains hazards associated with hydrogen transportation, managing hydrogen leaks and explosions, and regulatory frameworks for safe hydrogen transportation. Illustrates applications of hydrogen use in diverse industries, such as automotive, agriculture, aerospace, and water treatment. It is primarily written for senior undergraduates, graduate students, and academic researchers in the fields of energy engineering, industrial engineering, mechanical engineering, environmental engineering, and aerospace engineering.

Heat Exchanger Technologies for Sustainable Renewable Energy Systems serves as a comprehensive resource on the cutting-edge advancements and applications of heat exchanger technologies in the realm of renewable energy. This book delves into the fundamental principles, design methodologies, and operational strategies for optimizing heat exchange processes in various sustainable energy systems.Covering a wide range of topics, the book explores innovative heat exchanger designs, materials, and configurations that enhance thermal performance and efficiency. It examines the integration of heat exchangers in solar thermal systems, geothermal applications, and biomass energy systems, providing insights into their role in promoting energy conservation and sustainability.The content encompasses both theoretical frameworks and practical applications, featuring case studies that illustrate successful implementations of heat exchanger technologies in real-world scenarios. Readers will gain a thorough understanding of performance evaluation metrics, modeling techniques, and experimental methodologies used to assess heat exchanger efficiency.Key features of the book:Discusses the principles of heat transfer and fluid dynamics relevant to heat exchangers.Investigates emerging materials and design innovations for enhanced thermal performance.Explores the application of heat exchangers in various renewable energy systems, including solar, geothermal, and biomass.Provides in-depth analysis of modeling techniques and performance evaluation criteria.Highlights recent developments in heat exchanger technologies and their impact on sustainability.Targeted at researchers, engineers, and students in the fields of renewable energy, mechanical engineering, and environmental science, this book is an essential guide for anyone seeking to advance their understanding of heat exchanger technologies and their vital role in sustainable energy systems.