The Thermodynamics of Fluids |
Contents
FUNDAMENTALS OF thermoDYNAMICS | 1 |
GASEOUS PROCESSES 83 | 5 |
THE FIRST LAW Of thermoDYNAMICS | 17 |
Copyright | |
13 other sections not shown
Common terms and phrases
boiler Btu/lb degF C₁ calculate carbon Carnot cycle CO₂ coefficient of performance compression ratio compressor condenser constant pressure constant volume cylinder diagram engine enthalpy enthalpy drop entropy equal expansion FIGURE flow process flue fluid frictional ft lbf ft/s ft³ ft³/lb fuel gases h₁ h₂ heat at constant heat exchanger heat flow heat rejected heat supplied Hence high pressure horsepower ideal increase inlet intercooler internal energy internally reversible irreversible isentropic efficiency isothermal lbf/in² liquid loge low pressure mass flow mass flow rate mixture mole molecular weight moving blades non-flow nozzle operation output oxygen P₂ perfect gas piston polytropic pound pressure and temperature quantity Question Rankine cycle reaction refrigerant saturated Solution specific heats specific volume stage steam stroke superheated swept volume system boundary T₁ T₂ thermal efficiency thermodynamic throttling turbine U₁ U₂ universal gas equation V₁ valve velocity vessel volumetric efficiency wet vapour whilst