Analysis of Engineering Cycles e-bog
473,39 DKK
(inkl. moms 591,74 DKK)
Analysis of Engineering Cycles, Third Edition, deals principally with an analysis of the overall performance, under design conditions, of work-producing power plants and work-absorbing refrigerating and gas-liquefaction plants, most of which are either cyclic or closely related thereto. The book is organized into two parts, dealing first with simple power and refrigerating plants and then movi...
E-bog
473,39 DKK
Forlag
Pergamon
Udgivet
22 oktober 2013
Længde
348 sider
Genrer
Engineering: general
Sprog
English
Format
pdf
Beskyttelse
LCP
ISBN
9781483140513
Analysis of Engineering Cycles, Third Edition, deals principally with an analysis of the overall performance, under design conditions, of work-producing power plants and work-absorbing refrigerating and gas-liquefaction plants, most of which are either cyclic or closely related thereto. The book is organized into two parts, dealing first with simple power and refrigerating plants and then moving on to more complex plants. The principal modifications in this Third Edition arise from the updating and expansion of material on nuclear plants and on combined and binary plants. In view of increased importance and topicality, new material has been added to chapters on gas-turbine plant for compressed air energy storage systems and on steam-turbine plant for the combined supply of power and process steam, including plant for district heating. The use of gas-turbine plant in association with district-heating schemes is also discussed, in which the treatment of high-temperature and fast-breeder gas-cooled nuclear reactors has been extended. The material on combined gas-turbine/steam-turbine plant has also been expanded and updated, together with that on combined steam plant with magnetohydrodynamic and thermionic topping, respectively. This book meets the immediate requirements of the mechanical engineering student in his undergraduate course, and of other engineering students taking courses in thermodynamics and fluid mechanics.