Integration of Thermoelectric Technology in Hybrid Solar Energy Systems

Integration of Thermoelectric Technology in Hybrid Solar Energy Systems brings together the latest developments and highlights emerging trends in the application of thermoelectrics in hybrid solar energy systems, supported by practical guidance and case studies. The book begins by introducing the key concepts of thermoelectrics and hybrid renewable energy systems, with discussion of hybrid system types, methods of hybridization, design, optimization, and performance, as well as detailed coverage of thermoelectrics for cooling and power generation in terms of fundamental physics, underlying equations, modelling and simulation, and analytical, numerical, and hybrid approaches. This is followed by further in-depth chapters focusing on specific application areas, including solar thermoelectric (TE) power generation, hybrid solar PV-TE power generation, hybrid solar thermal-TE heating systems, TE-embedded solar distillations, hybrid solar-TE cooling systems, and solar-TE applications for indoor thermal comfort. A final chapter explores the economics and environmental considerations in the integration of thermoelectric systems in solar energy systems, covering methodologies for applying cost-benefit analyses and life-cycle assessments, and potential environmental benefits. This is a helpful resource to all those looking to stay up-to-date with the latest research developments, to deepen their understanding of the field, or to leverage the latest research findings to inform decision-making and innovation, including researchers, advanced students, faculty, engineers, R&D, scientists, industry professionals, and policy makers.