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This textbook discusses the development and analysis of polygeneration systems to generate electricity, fresh water, hot air, cold air, and hot water from a source of energy. Topics covered in this book are desalination with no pressure or vacuum components; combined use of refrigerator and heat pump with a vapor compression refrigeration (VCR) cycle; binary fluid polygeneration; compact units; and flexible operation. It covers four polygeneration configurations, viz. binary fluid polygeneration with single-stage HDH, binary fluid polygeneration with double-stage HDH, heat pump polygeneration with single-stage HDH, and heat pump polygeneration with double-stage polygeneration. End-of-chapter problems and solved examples aid in self learning of the students. The textbook is useful for graduate and advanced graduate students studying courses such as polygeneration, sustainable energy, power generation, and alike. This book is also a useful supplementary text for researchers influid dynamics, thermal engineering, and allied fields.
Thermal Cycles of Heat Recovery Power Plants presents information about thermal power plant cycles suitable for waste heat recovery (WHR) in modern power plants. The author covers five thermal power cycles: organic Rankine cycle (ORC), organic flash cycle (OFC), Kalina cycle (KC), steam Rankine cycle (SRC) and steam flash cycle (SFC) with the working fluids of R123, R124, R134a, R245fa, R717 and R407C. The handbook helps the reader to understand the latest power plant technologies suitable for utilizing the waste heat generated by thermal industrial processes. Key Features: - Comprehensive modeling, simulation, analysis and optimization of 5 power cycle types with different working fluids - Clear information about the processes and solutions of thermal power cycles to augment the power generation with improved energy conversion. - Simple, reader friendly presentation - bibliographic references after each chapter for further reading This handbook is suitable for engineering students in degree courses and professionals in training programs who require resources on advanced thermal power plant operation and optimal waste heat recovery processes, respectively. It is also a handy reference for energy conversion efficiency in heat recovery power plants. The book is also of interest to any researchers interested in industrial applications of thermodynamic processes.
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