The Efficiency of Industrial Processes: Exergy Analysis and OptimizationV. M. Brodyansky, M. V. Sorin, P. Le Goff Elsevier, 1994 - 487 páginas Hardbound. The subject of this book is the exergy analysis of the efficiency of processes involving energy and matter transformations. Efficiency is one of the most important criteria used in evaluating the performance of all types of processing plants; in particular those of the energy and chemical industries. The beauty of the exergetic approach to thermodynamic analysis is that it permits a universally applicable definition of efficiency and is free of contradictions in its treatment of numerous and diverse systems. The book provides the reader with the quantitative methods and calculations of efficiency considered to be applicable to different systems and their components. Methods, procedures and instructions for using the efficiency analysis in optimizing the performance of thermal, chemical and other industrial plants are also given. Numerous examples are used in the book to aid the reader in understanding the concepts of efficiency, exergy and thei |
Términos y frases comunes
absorption absorption heat pump according to equation adiabatic ammonia boiler calculated chemical exergy chemical potential CO₂ coefficient of performance compression compressor condenser constant consumed cooling corresponding cost decrease defined diagram E₁ E₂ effect electrical elements energy transformation engineering systems enthalpy entropy environment equal estimated example exergetic exergy analysis exergy balance exergy component exergy consumption exergy efficiency exergy flow exergy losses external fluid fuel function h₁ heat exchanger heat flow heat flux heat pump heat transfer increase input and output irreversible isobar isothermal mechanical exergy method mixture necessary obtained operating optimal optimum P₁ P₂ parameters possible pressure primary exergy production ratio reference substances refrigerating relationship result separation shown in Figure solution specific stage stream substream T₁ T₂ Table temperature thermal exergy thermodynamic analysis thermodynamic efficiency thermoeconomic thermomechanical exergy throttling transformed exergy transit exergy turbine vapor variant vortex tube