Description |
1 online resource (1 volume (various pagings)) : illustrations |
Series |
McGraw Hill professional |
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McGraw Hill professional.
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Contents |
Chapter 1 Estimation of Physical Properties 1 -- 1-2 Estimation of Properties 3 -- 1-3 Types of Estimation 3 -- 1-4 Organization of the Book 6 -- Chapter 2 Pure Component Constants 1 -- 2-2 Vapor-Liquid Critical Properties 2 -- 2-3 Acentric Factor 23 -- 2-4 Boiling and Freezing Points 26 -- 2-5 Discussion of Estimation Methods for Pure Component Constants 33 -- 2-6 Dipole Moments 34 -- 2-7 Availability of Data and Computer Software 35 -- Chapter 3 Thermodynamic Properties of Ideal Gases 1 -- 3-2 Estimation Methods 5 -- 3-3 Method of Joback 6 -- 3-4 Method of Constantinou and Gani (CG) 8 -- 3-5 Method of Benson [1968; 1969] 14 -- 3-6 Discussion and Recommendations 46 -- 3-7 Heat of Combustion 47 -- Chapter 4 Pressure-Volume-Temperature Relationships of Pure Gases and Liquids 1 -- 4-2 Introduction to Volumetric Properties 1 -- 4-3 Corresponding States Principle 5 -- 4-4 Equations of State 8 -- 4-5 Virial Equation of State 11 -- 4-6 Analytical Equations of State 17 -- 4-7 Nonanalytic Equations of State 25 -- 4-8 Discussion of Equations of State 31 -- 4-9 PVT Properties of Liquids -- General Considerations 32 -- 4-10 Estimation of the Liquid Molar Volume at the Normal Boiling Point 33 -- 4-11 Saturated Liquid Densities as a Function of Temperature 35 -- 4-12 Compressed Liquid Densities 43 -- Chapter 5 Pressure-Volume-Temperature Relationships of Mixtures 1 -- 5-2 Mixture Properties -- General Discussion 2 -- 5-3 Corresponding States Principle (CSP): The Pseudocritical Method 5 -- 5-4 Virial Equations of State for Mixtures 8 -- 5-5 Analytical Equations of State for Mixtures 12 -- 5-6 Nonanalytic Equations of State for Mixtures 18 -- 5-7 Discussion of Mixture Equations of State 22 -- 5-8 Densities of Liquid Mixtures at Their Bubble Point 23 -- 5-9 Densities of Compressed Liquid Mixtures 26 -- Chapter 6 Thermodynamic Properties of Pure Components and Mixtures 1 -- 6-2 Fundamental Thermodynamic Relationships for Pure Components 1 -- 6-3 Departure Functions for Thermodynamic Properties 4 -- 6-4 Evaluation of Departure Functions for Equations of State 6 -- 6-5 Heat Capacities of Real Gases 16 -- 6-6 Heat Capacities of Liquids 17 -- 6-7 Partial Properties and Fugacities of Components in Mixtures 26 -- 6-8 True Critical Points of Mixtures 30 -- Chapter 7 Vapor Pressures and Enthalpies of Vaporization of Pure Fluids 1 -- 7-2 Theory 1 -- 7-3 Correlation and Extrapolation of Vapor-Pressure Data 3 -- 7-4 Ambrose-Walton Corresponding-States Method 7 -- 7-5 Riedel Corresponding-States Method 9 -- 7-6 Discussion and Recommendations for Vapor-Pressure Estimation and Correlation 11 -- 7-7 Enthalpy of Vaporization of Pure Compounds 13 -- 7-8 Estimation of [Delta]H[subscript v] from Vapor-Pressure Equations 14 -- 7-9 Estimation of [Delta]H[subscript v] from the Law of Corresponding States 16 -- 7-10 [Delta]H[subscript v] at the Normal Boiling Point 19 -- 7-11 Variation of [Delta]H[subscript v] with Temperature 23 -- 7-12 Discussion and Recommendations for Enthalpy of Vaporization 24 -- 7-13 Enthalpy of Fusion 25 -- 7-14 Enthalpy of Sublimation; Vapor Pressures of Solids 28 -- Chapter 8 Fluid Phase Equilibria in Multicomponent Systems 1 -- 8-2 Thermodynamics of Vapor-Liquid Equilibria 9 -- 8-3 Fugacity of a Pure Liquid 11 -- 8-4 Simplifications in the Vapor-Liquid Equilibrium Relation 12 -- 8-5 Activity Coefficients; Gibbs-Duham Equation and Excess Gibbs Energy 12 -- 8-6 Calculation of Low-Pressure Binary Vapor-Liquid Equilibria with Activity Coefficients 19 -- 8-7 Effect of Temperature on Low-Pressure Vapor-Liquid Equilibria 22 -- 8-8 Binary Vapor-Liquid Equilibria: Low-Pressure Examples 23 -- 8-9 Multicomponent Vapor-Liquid Equilibria at Low Pressure 32 -- 8-10 Determination of Activity Coefficients 42 -- 8-11 Phase Equilibrium withy Henry's Law 111 -- 8-12 Vapor-Liquid Equilibria with Equations of State 120 -- 8-13 Solubilities of Solids in High-Pressure Gases 158 -- 8-14 Liquid-Liquid Equilibria 159 -- 8-15 Phase Equilibria in Polymer Solutions 177 -- 8-16 Solubilities of Solids in Liquids 180 -- 8-17 Aqueous Solutions of Electrolytes 191 -- Chapter 9 Viscosity 1 -- 9-2 Definitions of Units of Viscosity 1 -- 9-3 Theory of Gas Transport Properties 2 -- 9-4 Estimation of Low-Pressure Gas Viscosity 4 -- 9-5 Viscosities of Gas Mixtures at Low Pressures 15 -- 9-6 Effect of Pressure on the Viscosity of Pure Gases 29 -- 9-7 Viscosity of Gas Mixtures at High Pressures 47 -- 9-8 Liquid Viscosity 51 -- 9-9 Effect of High Pressure on Liquid Viscosity 55 -- 9-10 Effect of Temperature on Liquid Viscosity 56 -- 9-11 Estimation of Low-Temperature Liquid Viscosity 59 -- 9-12 Estimation of Liquid Viscosity at High Temperatures 75 -- 9-13 Liquid Mixture Viscosity 77 -- Chapter 10 Thermal Conductivity 1 -- 10-2 Theory of Thermal Conductivity 1 -- 10-3 Thermal Conductivities of Polyatomic Gases 2 -- 10-4 Effect of Temperature on the Low-Pressure Thermal Conductivities of Gases 18 -- 10-5 Effect of Pressure on the Thermal Conductivities of Gases 18 -- 10-6 Thermal Conductivities of Low-Pressure Gas Mixtures 29 -- 10-7 Thermal Conductivities of Gas Mixtures at High Pressures 35 -- 10-8 Thermal Conductivities of Liquids 42 -- 10-9 Estimation of the Thermal Conductivities of Pure Liquids 44 -- 10-10 Effect of Temperature on the Thermal Conductivities of Liquids 51 -- 10-11 Effect of Pressure on the Thermal Conductivities of Liquids 52 -- 10-12 Thermal Conductivities of Liquid Mixtures 56 -- Chapter 11 Diffusion Coefficients 1 -- 11-2 Basic Concepts and Definitions 1 -- 11-3 Diffusion Coefficients for Binary Gas Systems at Low Pressures: Prediction from Theory 5 -- 11-4 Diffusion Coefficients for Binary Gas Systems at Low Pressures: Empirical Correlations 9 -- 11-5 Effect of Pressure on the Binary Diffusion Coefficients of Gases 12 -- 11-6 Effect of Temperature on Diffusion in Gases 19 -- 11-7 Diffusion in Multicomponent Gas Mixtures 19 -- 11-8 Diffusion in Liquids: Theory 20 -- 11-9 Estimation of Binary Liquid Diffusion Coefficients at Infinite Dilution 21 -- 11-10 Concentration Dependence of Binary Liquid Diffusion Coefficients 33 -- 11-11 Effects of Temperature and Pressure on Diffusion in Liquids 38 -- 11-12 Diffusion in Multicomponent Liquid Mixtures 41 -- 11-13 Diffusion in Electrolyte Solutions 43 -- Chapter 12 Surface Tension 1 -- 12-3 Estimation of Pure-Liquid Surface Tension 2 -- 12-4 Variation of Pure-Liquid Surface Tension with Temperature 11 -- 12-5 Surface Tensions of Mixtures 12 -- Appendix A Property Data Bank 1 -- Appendix B Lennard-Jones Potentials as Determined from Viscosity Data 1 -- Appendix C Group Contributions for Multiproperty Methods 1 |
Summary |
"Reap the time-saving, mistake-avoiding benefits enjoyed by thousands of chemical and process design engineers, research scientists, and educators. Properties of Gases and Liquids, Fifth Edition, is an all-inclusive, critical survey of the most reliable estimating methods in use today -now completely rewritten and reorganized by Bruce Poling, John Prausnitz, and John O'Connell to reflect every late-breaking development. You get on-the-spot information for estimating both physical and thermodynamic properties in the absence of experimental data with this property data bank of 600+ compound constants. Bridge the gap between theory and practice with this trusted, irreplaceable, and expert-authored expert guide - the only book that includes a critical analysis of existing methods as well as hands-on practical recommendations. Areas covered include pure component constants; thermodynamic properties of ideal gases, pure components and mixtures; pressure-volume-temperature relationships; vapor pressures and enthalpies of vaporization of pure fluids; fluid phase equilibria in multicomponent systems; viscosity; thermal conductivity; diffusion coefficients; and surface tension." |
Bibliography |
Includes bibliographical references and index |
Notes |
Master and use copy. Digital master created according to Benchmark for Faithful Digital Reproductions of Monographs and Serials, Version 1. Digital Library Federation, December 2002. http://purl.oclc.org/DLF/benchrepro0212 MiAaHDL |
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English |
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Print version record |
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digitized 2010 HathiTrust Digital Library committed to preserve pda MiAaHDL |
Subject |
Gases.
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Liquids.
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Gas.
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Gases
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gas (material)
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liquid.
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TECHNOLOGY & ENGINEERING -- Chemical & Biochemical.
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SCIENCE -- Chemistry -- Industrial & Technical.
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Gas
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Gases
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Liquids
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Thermodynamica.
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Gassen.
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Vloeistoffen.
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Gaz.
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Liquides.
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Matière -- Propriétés.
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Fluides.
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Genre/Form |
Internet resources
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Form |
Electronic book
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Author |
Prausnitz, J. M
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O'Connell, John P. (John Paul)
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ISBN |
9781591244790 |
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159124479X |
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9780071499996 |
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0071499997 |
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9780071455589 |
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0071455582 |
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1280913177 |
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9781280913174 |
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9786610913176 |
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661091317X |
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