Fundamentals of Engineering ThermodynamicsThe revision of this market-leading text offers more to students and to faculty. Responding to market requests, significant new pedagogy has been added to make the text an easier study tool. In addition, more qualitative material has been included to help students understand chapter content at a conceptual level. A new art program gives more realism to engineering devices and systems. To help faculty and students, a new technology package has been developed that includes a website (Thermodynamics Design Online), an Instructor's CD-ROM, and IT V2.0. |
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Contents
INTRODUCTORY CONCEPTS | 1 |
VAPOR POWER SYSTEMS 372 | 8 |
ENERGY AND THE FIRST LAW 2 | 35 |
Copyright | |
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adiabatic Air enters air-standard Btu/lb closed system coefficient of performance compression compressor condenser constant control volume determine developed energy balance energy by heat energy rate balance energy transfer enters an insulated enthalpy entropy production equation evaluated Example exergy destruction expansion feedwater heater Figure ft/s h₁ h₂ heat exchanger heat pump heat transfer ideal gas model initially intensive properties internally reversible process irreversibilities kg/s kinetic and potential kJ/kg lbf/in lbf/in.² m³/kg mass flow rate nozzle operating at steady P₁ piston polytropic process potential energy effects power cycle power input pressure rate of entropy rate of exergy ratio Refrigerant 134a refrigeration cycle reservoir saturated liquid saturated vapor Schematic and Given second law specific enthalpy specific entropy specific heat specific volume steam surroundings T-s diagram T₁ T₂ Table tank temperature thermal efficiency thermodynamic V₁ values valve vapor-compression refrigeration velocity volumetric flow rate