Analysis of Engineering Cycles |
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Contents
engines | 4 |
SIMPLE STEAM PLANT | 15 |
SIMPLE CLOSEDCIRCUIT GASTURBINE PLANT | 29 |
Copyright | |
21 other sections not shown
Other editions - View all
Analysis of Engineering Cycles: Thermodynamics and Fluid Mechanics Series R. W. Haywood Limited preview - 2013 |
Common terms and phrases
ammonia available energy bled steam boiler Calculate calorific value Carnot Carnot cycle Chapter coefficient of performance combustion compression compressor control surface cooling dual-pressure due to irreversibility engine enthalpy entropy creation environment equation exergy exhaust expressed feed heating feed pump feed water fluid fuel gas-turbine plant gases given gross work output heat exchanger heat rejection heat transfer heaters ideal cycle increase indicator diagram input per unit intercooling isentropic efficiency Joule cycle kJ/kg kW h/litre Linde process liquefaction liquid maximum mean temperature MJ/kg open-circuit operating optimum overall efficiency performance parameter power plant pressure ratio Problem quantity Rankine cycle rational efficiency reactor refrigerating plant regenerative heat exchanger reheating result reversible process rjCY saturation temperature specified steady-flow steam conditions steam cycle superheat superheated temperature of heat temperature-entropy diagram thermal efficiency thermodynamic throttle throttling process turbine inlet turbine work output unit mass vapour Wnet