Thermodynamics: An Engineering ApproachCD-ROM contains: Engineering Equation Solver, limited academic version with homework problems -- Interactive thermodynamics tutorial. |
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Thermodynamics: An Engineering Approach with Version 1.2 Yunus A. Cengel,Michael Boles No preview available - 2001 |
Common terms and phrases
adiabatic Assuming boundary Brayton cycle Btu/lbm Carnot cycle Carnot heat engine CHAPTER closed system combustion chamber compression compressor condenser control volume cooling decreases determine dry air electric enters enthalpy entropy entropy change equation equilibrium exergy exergy destruction exit feedwater heater FIGURE fluid fuel h₁ h₂ H₂O heat engine heat exchanger heat pump heat transfer ideal gas ideal gases inlet input internal energy irreversible isentropic process kg/m³ kg/s kJ/kg kJ/kmol kmol m³/kg Mach number mass flow rate mixture mole N₂ nozzle operating output P₁ P₂ percent phase piston-cylinder device potential energy power plant properties psia Qout Rankine cycle rate of heat ratio Reconsider Problem refrigerant-134a refrigeration cycle relation relative humidity reversible rigid tank saturated liquid second-law shown in Fig specific volume steady-flow steam substance T-s diagram T₁ T₂ Table thermal efficiency THERMODYNAMICS turbine V₁ vapor-compression refrigeration velocity water vapor