Fundamentals of Engineering Thermodynamics, Volume 2-3Wiley, 1992 - 804 halaman Using a classical viewpoint, this Second Edition offers a comprehensive treatment of engineering thermodynamics in order to provide a sound basis for subsequent courses in heat transfer and fluid mechanics and to prepare students to use thermodynamics in professional practice. New features include more than 1300 end-of-chapter problems ranging from confidence-building exercises to more challenging issues that may involve systems with several components, including numerous problems requiring the use of a computer; over 100 design and open-ended problems which are intended as brief design experiences affording students opportunities to develop their engineering judgment and creativity; the International Temperature Scale and refrigerant material; plus interactive software designed to reinforce important ideas and hone students' problem-solving skills. |
Isi
INTRODUCTORY CONCEPTS AND DEFINITIONS | 1 |
CHAPTER 6 | 25 |
ENERGY AND THE FIRST LAW OF THERMODYNAMICS | 27 |
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Fundamentals of Engineering Thermodynamics Michael J. Moran,Howard N. Shapiro Tampilan cuplikan - 1993 |
Istilah dan frasa umum
adiabatic Air enters analysis availability Btu/lb closed system coefficient of performance combustion component compression compressor condenser constant control volume Determine dry air energy rate balance energy transfer equilibrium evaluated Example expression feedwater heater Figure fluid fuel gases h₁ h₂ heat exchanger heat pump heat transfer humidity ideal gas model initially isentropic kinetic and potential kJ/kg kmol lbf/in.² lbmol liquid water m³/kg mass flow rate moist air mole fractions nozzle operating at steady p-v diagram p₁ polytropic process potential energy effects power cycle pressure properties ratio Refrigerant 12 refrigeration cycle saturated liquid Schematic and Given second law SOLUTION Known specific enthalpy specific entropy specific heat specific internal energy specific volume steam surroundings T₁ T₂ Table tank temperature thermal efficiency thermodynamic turbine unit mass V₁ values valve vapor-compression refrigeration velocity volumetric flow rate water vapor