【MeL】Engineering and chemical thermodynamics 2nd ed
Koretsky, Milo D. 著
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目次
CHAPTER 1 Measured Thermodynamic Properties and Other Basic Concepts 1 Learning Objectives 1 1.1 Thermodynamics 2 1.2 Preliminary Concepts—The Language of Thermo 3 1.3 Measured Thermodynamic Properties 7 1.4 Equilibrium 15 1.6 The PvT Surface and Its Projections for Pure Substances 20 1.7 Thermodynamic Property Tables 26 1.8 Summary 30 1.9 Problems 31 Conceptual Problems 31 Numerical Problems 34 CHAPTER 2 The First Law of Thermodynamics 36 Learning Objectives 36 2.1 The First Law of Thermodynamics 37 2.2 Construction of Hypothetical Paths 46 2.3 Reversible and Irreversible Processes 48 2.4 The First Law of Thermodynamics for Closed Systems 55 2.5 The First Law of Thermodynamics for Open Systems 60 2.6 Thermochemical Data For U and H 67 2.7 Reversible Processes in Closed Systems 92 2.8 Open–System Energy Balances on Process Equipment 95 2.9 Thermodynamic Cycles and the Carnot Cycle 102 2.10 Summary 108 2.11 Problems 110 Conceptual Problems 110 Numerical Problems 113 CHAPTER 3 Entropy and the Second Law Of Thermodynamics 127 Learning Objectives 127 3.1 Directionality of Processes/Spontaneity 128 3.2 Reversible and Irreversible Processes (Revisited) and their Relationship to Directionality 129 3.3 Entropy, the Thermodynamic Property 131 3.4 The Second Law of Thermodynamics 140 3.5 Other Common Statements of the Second Law of Thermodynamics 142 3.6 The Second Law of Thermodynamics for Closed and Open Systems 143 3.7 Calculation of Ds for an Ideal Gas 151 3.8 The Mechanical Energy Balance and the Bernoulli Equation 160 3.9 Vapor–Compression Power and Refrigeration Cycles 164 3.10 Exergy (Availability) Analysis 172 3.11 Molecular View of Entropy 182 3.12 Summary 190 3.13 Problems 191 Conceptual Problems 191 Numerical Problems 195 CHAPTER 4 Equations of State and Intermolecular Forces 209 Learning Objectives 209 4.1 Introduction 210 4.2 Intermolecular Forces 211 4.3 Equations of State 232 4.4 Generalized Compressibility Charts 246 4.5 Determination of Parameters for Mixtures 249 4.6 Summary 254 4.7 Problems 255 Conceptual Problems 255 Numerical Problems 257 CHAPTER 5 The Thermodynamic Web 265 Learning Objectives 265 5.1 Types of Thermodynamic Properties 265 5.2 Thermodynamic Property Relationships 267 5.3 Calculation of Fundamental and Derived Properties Using Equations of State and Other Measured Quantities 276 5.4 Departure Functions 290 5.5 Joule–Thomson Expansion and Liquefaction 298 5.6 Summary 304 5.7 Problems 305 Conceptual Problems 305 Numerical Problems 307 CHAPTER 6 Phase Equilibria I: Problem Formulation 315 Learning Objectives 315 6.1 Introduction 315 6.2 Pure Species Phase Equilibrium 318 6.3 Thermodynamics of Mixtures 334 6.4 Multicomponent Phase Equilibria 367 6.5 Summary 372 6.6 Problems 373 Conceptual Problems 373 Numerical Problems 377 CHAPTER 7 Phase Equilibria II: Fugacity 391 Learning Objectives 391 7.1 Introduction 391 7.2 The Fugacity 392 7.3 Fugacity in the Vapor Phase 396 7.4 Fugacity in the Liquid Phase 414 7.5 Fugacity in the Solid Phase 449 7.6 Summary 450 7.7 Problems 452 Conceptual Problems 452 Numerical Problems 454 CHAPTER 8 Phase Equilibria III: Applications 466 Learning Objectives 466 8.1 Vapor–Liquid Equilibrium (VLE) 467 8.2 Liquid 1a2—Liquid 1b2 Equilibrium: LLE 511 8.3 Vapor–Liquid 1a2— Liquid 1b2 Equilibrium: VLLE 519 8.4 Solid–Liquid and Solid–Solid Equilibrium: SLE and SSE 523 8.5 Colligative Properties 531 8.6 Summary 538 8.7 Problems 540 Conceptual Problems 540 Numerical Problems 544 CHAPTER 9 Chemical Reaction Equilibria 562 Learning Objectives 562 9.1 Thermodynamics and Kinetics 563 9.2 Chemical Reaction and Gibbs Energy 565 9.3 Equilibrium for a Single Reaction 568 9.4 Calculation of K from Thermochemical Data 572 9.5 Relationship Between the Equilibrium Constant and the Concentrations of Reacting Species 579 9.6 Equilibrium in Electrochemical Systems 589 9.7 Multiple Reactions 599 9.8 Reaction Equilibria of Point Defects in Crystalline Solids 612 9.9 Summary 624 9.10 Problems 626 Conceptual Problems 626 Numerical Problems 628 APPENDIX A Physical Property Data 639 APPENDIX B Steam Tables 647 APPENDIX C Lee–Kesler Generalized Correlation Tables 660 APPENDIX D Unit Systems 676 APPENDIX E ThermoSolver Software 680 APPENDIX F References 685 Index 687