Thermal Energy Storage: The Path from Theory to Application offers a comprehensive exploration of the science and practical implementation of thermal energy storage (TES) systems. The book consolidates significant scientific contributions, covering foundational principles such as thermodynamics, heat transfer, and fluid flow, with detailed insights into various TES methods, including sensible, latent, thermochemical, and hybrid systems. Sections emphasize the evolution of TES technologies, their advantages, limitations, and innovative approaches to addressing current energy challenges. Then, the book delves into advanced techniques like predictive modeling, numerical methods, experimental strategies, and cutting-edge tools such as 3-D printing and specialized software.

Sections also highlight the application of TES across diverse sectors, including building management, power generation, decentralized electrification, food supply chains, and data centers, all supported by practical case studies from around the world. It concludes with a discussion of market dynamics, environmental benefits, and emerging trends shaping the future of thermal energy storage, making it an essential resource for both researchers and practitioners.

• Explains the fundamental principles of thermal energy storage, including thermodynamics, heat transfer, and fluid flow, providing a solid foundation for understanding TES technologies
• Analyzes various TES methods—sensible, latent, thermochemical, and hybrid systems—highlighting their principles, advantages, and limitations
• Demonstrates practical approaches to solving TES challenges through predictive modeling, experimental techniques, and innovative tools like 3-D printing and software applications
• Showcases diverse real-world applications across sectors such as building energy management, power generation, food supply chains, and data centers (supported by global case studies)
• Discusses market trends, environmental impacts, and future developments, equipping professionals and researchers with insights to foster sustainable energy solutions