熱力學(xué)（第6版影印版 國外大學(xué)優(yōu)秀教材）

PREFACE
　1 BASIC CONCEPTS AND DEFINITIONS
　 1-1 The Nature of Thermodynamics
　　1-2 Dimensions and Units
　　1-3 System, Property, and State
　　1-4 Density, Specific Volume, and Specific Gravity
　　1-5 Pressure
　　1-6 The Zeroth Law and Temperature
　　1-7 Problem-Solving Techniques
　　1-8 Summary
　　　Problems
　2　THE FIRST LAW OF THERMODYNAMICS
　　2-1 Concepts of Work and Energy
　　2-2 The First Law of Thermodynamics
　　2-3 A Conservation of Energy Principle for Closed Systems
　　2-4 The Nature of the Energy E
　　2-5 Heat Transfer
　　2-6 Expansion and Compression Work
　　2-7 Elastic Spring Work
　　2-8 Other Quasiequilibrium Work Interactions
　　2-9 Summary
　　　Problems
　3　PROPERTIES OF A PURE, SIMPLE COMPRESSIBLE　SUBSTANCE
　　3-1 The State Postulate and Simple Systems
　　3-2 The PvT Surface
　　3-3 The Pressure-Temperature Diagram
　　3-4 The Pressure-Specific Volume Diagram
　　3-5 The Temperature-Specific Volume Diagram
　　3-6 Tables of Properties of Pure Substances
　　3-7 Tabular Data and Closed-System Energy Analysis
　　3-8 The Specific Heats
　　3-9 Summary
　　3-10 Appendix: Fundamentals of Partial Derivatives
　　　Problems
　4　THE IDEAL GAS, CORRESPONDING STATES, AND　INCOMPRESSIBLE MODELS
　　4-1 Ideal-Gas Equation of State
　 4-2 Internal Energy, Enthalpy, and Specific-Heat Relations for
Ideal Gases
　 4-3 Specific Heats of Ideal Gases
　 4-4 Energy Analysis of Closed Ideal-Gas Systems
　 4-5 The Compressibility Factor and the Corresponding States Principle 　
　 4-6 Property Relations for Incompressible Substances
　 4-7 Summary
　　 Problems
　6 CONTROL-VOLUME ENERGY ANALYSIS
　 5-1 Introduction
　 5-2 Conservation of Mass Principle for a Control Volume
　 5-3 Conservation of Energy Principle for a Control Volume
　 5-4 Steady-State Control-Volume Energy Equations
　 5-5 Comments on Problem-Solving Techniques
　 5-6 Engineering Applications Involving Steady-State Control Volumes　
　 5-7 Introduction to Thermodynamic Cycles
　 5-8 Transient (Unsteady) Flow Analysis
　 5-9 Summary
　　 Problems
　6 THE SECOND LAW AND ENTROPY
　 6-1 Introduction
　 6-2 Heat Engines, Refrigerators, and Heat Pumps
　 6-3 Second-Law Statements
　 6-4 Reversible and Irreversible Processes
　 6-5 The Second Law and Entropy--Classical Presentation
　　　6-5-1 Analytical Forms of the Kelvin-Planck Statement
　 　6-5-2 General Second-Law Limitations for Heat Engines
　 　6-5-3 The Thermodynamic Temperature Scale
　 　6-5-4 Performance Standards for Reversible Heat Engines
　 　6-5-5 The Clausius Inequality
　 　6-5-6 The Entropy Function
　 　6-5-7 Entropy Generation and the Closed-System Entropy Balance
　6-6 The Second Law and Entropy--Alternate Presentation
　 　6-6-1 The Second-Law Postulate
　 　6-6-2 An Entropy Balance for a Closed System
　 　6-6-3 The Thermodynamic Temperature Scale and the Carnot Efficiency
　7　EVALUATION OF ENTROPY CHANGE AND THE CONTROL-VOLUME ENTROPY BALANCE
8 SOME CONSEPUENCES OF THE SECOND LAW
9 AVAILABILITY(EXERGY)AND IRREVERSIBILITY
10 NONREACTIVE IDEAL-GAS MIXTURES
11 PVT BEHAVIOR OF REAL GASES AND REAL-GAS
12 GENERALIZED THERMODYNAMIC RELATIONSHIPS
13 CHEMICAL REACTIONS
14 CHEMICAL EPUILIBRIUM
15 REFRIGERATION SYSTEMS
A-1　SUPPLEMENTARY TABLES AND FIGURES(SI UNITS)
A-2 SUPPLEMENTARY TABLES AND FIGURES(USCS UNITS)
A-3 INTRODUCTION TO EES