Thermomechanics of Solar Receivers

Thermomechanics of Solar Receivers: Structural Materials, Components, and Systems brings together the latest knowledge in this advanced field, covering theoretical concepts, design methods, and applications, and offering potential routes to improved concentrated solar power (CSP) performance. The book begins by introducing solar receivers, their basic thermodynamics, and the characteristics of structural materials, before in-depth chapters examine key theoretical concepts, including stress and strain in structural materials, thermal buckling of materials and components, elastic structural deflection of components, thermal shock creep, fatigue, and structural failure. The second part of the book focuses on design methods, covering thermomechanical simulation, thermomechanical optimization, and structural design of solar receivers. A final section explores testing, cutting-edge applications, and challenges and opportunities in the advancement of solar receivers. This is a valuable resource for all those with an interest in solar receivers, concentrated solar power, and solar energy, including researchers, advanced students, faculty, scientists, engineers, R&D, and other industry professionals.