Fundamentals of Classical ThermodynamicsA bestselling textbook, this edition features a fresh, two-color design, expanded problem sections with over 50% new design applications, updated content areas and new computer aided thermodynamics software included with each copy. |
Contents
THERMODYNAMIC RELATIONS 434 | 6 |
Through A Nozzle 682 14 10 Nozzle And Diffuser Coefficients 684 14 11 Nozzles | 6 |
SOME CONCEPTS AND DEFINITIONS | 16 |
Copyright | |
17 other sections not shown
Common terms and phrases
air-standard ambient ammonia Analysis Assume balloon boiler Btu/lbm Calculate Carnot cycle changes in kinetic coefficient of performance combustion compression compressor condenser Consider constant specific heat constant-pressure control mass control surface control volume cooling cylinder Determine enthalpy entropy equation equilibrium example expansion feedwater heater FIGURE final pressure final temperature Find the final fluid given heat engine heat exchanger heat pump heat transfer ideal gas initial inlet input internal energy irreversibility isentropic efficiency isothermal process kg/s kJ/kg law of thermodynamics lbf/in mixture nitrogen nozzle piston polytropic process potential energy pressure and temperature quasi-equilibrium process Rankine cycle ratio refrigerator reservoir reversible adiabatic process reversible process saturated liquid saturated vapor second law shown in Fig Solution specific heat specific volume SSSF steam tables superheated surroundings T-s diagram thermal efficiency thermodynamic properties turbine unit valve velocity Write a program zero