High-Temperature Phase Change Materials for Thermal Energy Storage 1st Edition

Capture the cutting edge of thermal energy innovation with High-Temperature Phase Change Materials for Thermal Energy Storage, 1st Edition by S. Harikrishnan, Hafiz Muhammad Ali, and A D Dhass. This authoritative guide distills science and engineering into practical strategies for designing robust, high-temperature PCM systems for industrial and utility-scale applications.

Dive into clear explanations of material selection, thermophysical characterization, containment and corrosion challenges, and performance modeling. The book balances rigorous data with real-world case studies—covering concentrated solar power (CSP), waste-heat recovery, industrial process heat, and advanced thermal management—making complex concepts accessible to researchers, engineers, and energy planners.

Learn how latent heat storage using high-temperature PCMs can raise system efficiency, reduce operational costs, and enable reliable thermal dispatch in solar thermal plants and heavy industries. Detailed comparisons of salts, metals, and innovative eutectics, plus guidance on thermal cycling, encapsulation, and system integration, equip professionals to specify materials that withstand extreme environments.

Written for a global audience—from R&D teams in Europe and North America to energy projects in Asia and India—this book is both a reference and a roadmap for implementation. Its practical focus ensures immediate applicability to design, simulation, and procurement decisions.

Ideal for academics, consultants, and project developers seeking a comprehensive, up-to-date resource on high-temperature phase change materials and thermal energy storage solutions. Secure your copy today to accelerate your next thermal energy project and stay ahead in the transition to sustainable, heat-based energy storage.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.