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材料手册 8 气体 液体 英文版 FrancoisCardarelli 著 2014年版
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资料介绍
Springer手册精选原版系列 材料手册 8 气体 液体 英文版
作者: FrancoisCardarelli 著
出版时间:2014年版
丛编项: Springer手册精选原版系列
内容简介
《材料手册8:气体、液体(英文版)》系Springer手册精选原版系列。《材料手册8:气体、液体(英文版)》主要包括Gases、Properties of Gases、Pressure、The Boyle—Mariotte Law、Charles and Gay—Lussac's Law、The Avogadro—Ampere Law、Normal and Standard Conditions、Equation of State ofldeal Gases、Dalton's Law of Partial Pressure等内容。
目录
19Gases
19.1 Properties of Gases
19.1.1 Pressure
19.1.2 The Boyle—Mariotte Law
19.1.3 Charles and Gay—Lussac's Law
19.1.4 The Avogadro—Ampere Law
19.1.5 Normal and Standard Conditions
19.1.6 Equation of State ofldeal Gases
19.1.7 Dalton's Law of Partial Pressure
19.1.8 Equations ofState ofRealGases
19.1.8.1 Van der Waals Equation of State
19.1.8.2 Virial Equation of State
19.1.9 Density and Specific Gravity of Gases
19.1.10 Barometric Equation
19.1.11 Isobaric Coefficient ofCubic Expansion
19.1.12 Compressibility Factor
19.1.13 Isotherms of Real Gases and Critical Constants
19.1.14 Critical Parameters
19.1.15 The Principle of Corresponding States
19.1.16 Microscopic Properties of Gas Molecules
19.1.17 Molar and Specific Heat Capacities
19.1.18 Dynamic and Kinematic Viscosities
19.1.19 Solubility ofGasesin Liquids
19.1.20 Gas Permeability ofPolymers
19.1.21 Dielectric Properties of Gases, Permittivity and Breakdown Voltage
19.1.22 Psychrometry and Hygromet
19.1.23 Vapor Pressure
19.1.23.1 Absolute Humidity or Humidity Ratio
19.1.23.2 Mass Fraction ofWater Vapor or Specific Humidity
19.1.23.3 Relative Humidity
19.1.23.4 Humid Heat
19.1.23.5 Humid or Specific Volume
19.1.23.6 Dry—Bulb Temperature
19.1.23.7 Wet—Bulb Temperature
19.1.23.8 Wet—Bulb Depression
19.1.23.9 Dew Point Temperature
19.1.23.10 Specific Enthalpy
19.1.23.11 Latent Heat of Fusion
19.1.23.12 Latent Heat of Vaporizatio
19.1.23.13 Refractivity of Moist Air
19.1.23.14 Psychrometric Charts
19.1.23.15 Psychrometric Equations
19.1.24 Flammability of Gases and Vapo
19.1.24.1 Flammability Limits
19.1.24.2 Explosive Limits
19.1.24.3 Autoignition Temperature
19.1.24.4 IgnitionEnergy
19.1.24.5 Maximum Explosion Pressure
19.1.24.6 Maximum Rate ofPressure Rise
19.1.24.7 High and Low Heating Values
19.1.25 Toxicity of Gases and Threshold Limit Averages
19.2 Physico—Chemical Properties of Major Gases
19.3 Monograplues on Major Industrial Gases
19.3.1 Air
19.3.2 Nitrogen
19.3.3 Oxygen
19.3.4 Hydrogen
19.3.5 Methane
19.3.6 Carbon Monoxide
19.3.7 Carbon Dioxide
19.3.8 Helium and Noble Gases
19.3.8.1 Neon
19.3.8.2 Argom
19.3.8.3 Krypton
19.3.8.4 Xenon
19.3.8.5 Radon
19.4 Halocarbons
19.5 Hydrates of Gases and Clathrates
19.6 Materials for Drying and Purifying Gases
19.6.1 Drying Agents and Dessicants
19.6.2 Molecular Sieves
19.6.3 Getters and Scavengers
19.7 Producers and Manufacturers of Major Industrial Gases
19.8 Further Reading
20 Liquids
20.1 Propertie sof Liquids
20.1.1 Density and Speafic Gravity
20.1.2 Hydrometer Scales
20.1.3 Dynamic and Kinematic Viscosit
20.1.3.1 Shear Stress
20.1.3.2 Shear Rate
20.1.3.3 Absolute or Dynamic Viscosity
20.1.3.4 Kinematic Viscosity
20.1.3.5 Temperature Dependence of the Dynamic Viscosity
20.1.4 Classification of Fluids
20.1.5 The Hagen—Poiseuille Equation and Pressure Losses
20.1.5.1 Pressure Drop
20.1.5.2 Friction Losses
20.1.6 Sedimentation and Free settling
20.1.7 Vapor Pressure
20.1.8 Surface Tension, Wetting and Capillarity
20.1.8.1 Surface Tension
20.1.8.2 Temperature Dependence and Order of Magnitude of Surface Tension
20.1.8.3 Parachor and Walden's Rule
20.1.8.4 Wetting
20.1.8.5 Contact Angle
20.1.8.6 Young's Equation
20.1.8.7 Work of Cohesion, Work of Adhesion and Spreading Coefficient
20.1.8.8 Two Liquids and a Solid
20.1.8.9 Antonoffs Rule
20.1.8.10 Capillarity and the Young—Laplace Equation
20.1.8.11 Jurin's Law
20.1.8.12 Measurements of Surface Tension
20.1.9 Colligative Properties of Nonvolatile Solutes
20.1.9.1 Raoult's Law for Boiling Point Elevation
20.1.9.2 Raoult's Law and Freezing Point Depression
20.1.9.3 Van't Hoff Law for Osmotic Pressure
20.1.10 Flammability of Liquids
20.2 Properties of Most Common Liquids
20.3 Monographies on Liquids
20.3.1 Properties ofWater and Heavy Water
20.3.2 Properties of Liquid Acids and Bases
20.3.3 Properties of Heavy Liquids (Heavy Media)
20.3.3.1 Dense Halogenated Organic Solvents
20.3.3.2 Dense Aqueous Solutions oflnorganic Salts
20.3.3.3 Low Temperature of Molten Inorganic Salts
20.3.3.4 Dense Emulsions and Suspensions
20.3.3.5 Paramagnetic Liquid Oxygen
20.4 Properties of Liquid Metals
20.5 Properties of Molten Salts
20.6 Properties of Heat Transfer Fluids
20.7 Colloidal and Dispersed Systems
20.8 Further Reading
Index
作者: FrancoisCardarelli 著
出版时间:2014年版
丛编项: Springer手册精选原版系列
内容简介
《材料手册8:气体、液体(英文版)》系Springer手册精选原版系列。《材料手册8:气体、液体(英文版)》主要包括Gases、Properties of Gases、Pressure、The Boyle—Mariotte Law、Charles and Gay—Lussac's Law、The Avogadro—Ampere Law、Normal and Standard Conditions、Equation of State ofldeal Gases、Dalton's Law of Partial Pressure等内容。
目录
19Gases
19.1 Properties of Gases
19.1.1 Pressure
19.1.2 The Boyle—Mariotte Law
19.1.3 Charles and Gay—Lussac's Law
19.1.4 The Avogadro—Ampere Law
19.1.5 Normal and Standard Conditions
19.1.6 Equation of State ofldeal Gases
19.1.7 Dalton's Law of Partial Pressure
19.1.8 Equations ofState ofRealGases
19.1.8.1 Van der Waals Equation of State
19.1.8.2 Virial Equation of State
19.1.9 Density and Specific Gravity of Gases
19.1.10 Barometric Equation
19.1.11 Isobaric Coefficient ofCubic Expansion
19.1.12 Compressibility Factor
19.1.13 Isotherms of Real Gases and Critical Constants
19.1.14 Critical Parameters
19.1.15 The Principle of Corresponding States
19.1.16 Microscopic Properties of Gas Molecules
19.1.17 Molar and Specific Heat Capacities
19.1.18 Dynamic and Kinematic Viscosities
19.1.19 Solubility ofGasesin Liquids
19.1.20 Gas Permeability ofPolymers
19.1.21 Dielectric Properties of Gases, Permittivity and Breakdown Voltage
19.1.22 Psychrometry and Hygromet
19.1.23 Vapor Pressure
19.1.23.1 Absolute Humidity or Humidity Ratio
19.1.23.2 Mass Fraction ofWater Vapor or Specific Humidity
19.1.23.3 Relative Humidity
19.1.23.4 Humid Heat
19.1.23.5 Humid or Specific Volume
19.1.23.6 Dry—Bulb Temperature
19.1.23.7 Wet—Bulb Temperature
19.1.23.8 Wet—Bulb Depression
19.1.23.9 Dew Point Temperature
19.1.23.10 Specific Enthalpy
19.1.23.11 Latent Heat of Fusion
19.1.23.12 Latent Heat of Vaporizatio
19.1.23.13 Refractivity of Moist Air
19.1.23.14 Psychrometric Charts
19.1.23.15 Psychrometric Equations
19.1.24 Flammability of Gases and Vapo
19.1.24.1 Flammability Limits
19.1.24.2 Explosive Limits
19.1.24.3 Autoignition Temperature
19.1.24.4 IgnitionEnergy
19.1.24.5 Maximum Explosion Pressure
19.1.24.6 Maximum Rate ofPressure Rise
19.1.24.7 High and Low Heating Values
19.1.25 Toxicity of Gases and Threshold Limit Averages
19.2 Physico—Chemical Properties of Major Gases
19.3 Monograplues on Major Industrial Gases
19.3.1 Air
19.3.2 Nitrogen
19.3.3 Oxygen
19.3.4 Hydrogen
19.3.5 Methane
19.3.6 Carbon Monoxide
19.3.7 Carbon Dioxide
19.3.8 Helium and Noble Gases
19.3.8.1 Neon
19.3.8.2 Argom
19.3.8.3 Krypton
19.3.8.4 Xenon
19.3.8.5 Radon
19.4 Halocarbons
19.5 Hydrates of Gases and Clathrates
19.6 Materials for Drying and Purifying Gases
19.6.1 Drying Agents and Dessicants
19.6.2 Molecular Sieves
19.6.3 Getters and Scavengers
19.7 Producers and Manufacturers of Major Industrial Gases
19.8 Further Reading
20 Liquids
20.1 Propertie sof Liquids
20.1.1 Density and Speafic Gravity
20.1.2 Hydrometer Scales
20.1.3 Dynamic and Kinematic Viscosit
20.1.3.1 Shear Stress
20.1.3.2 Shear Rate
20.1.3.3 Absolute or Dynamic Viscosity
20.1.3.4 Kinematic Viscosity
20.1.3.5 Temperature Dependence of the Dynamic Viscosity
20.1.4 Classification of Fluids
20.1.5 The Hagen—Poiseuille Equation and Pressure Losses
20.1.5.1 Pressure Drop
20.1.5.2 Friction Losses
20.1.6 Sedimentation and Free settling
20.1.7 Vapor Pressure
20.1.8 Surface Tension, Wetting and Capillarity
20.1.8.1 Surface Tension
20.1.8.2 Temperature Dependence and Order of Magnitude of Surface Tension
20.1.8.3 Parachor and Walden's Rule
20.1.8.4 Wetting
20.1.8.5 Contact Angle
20.1.8.6 Young's Equation
20.1.8.7 Work of Cohesion, Work of Adhesion and Spreading Coefficient
20.1.8.8 Two Liquids and a Solid
20.1.8.9 Antonoffs Rule
20.1.8.10 Capillarity and the Young—Laplace Equation
20.1.8.11 Jurin's Law
20.1.8.12 Measurements of Surface Tension
20.1.9 Colligative Properties of Nonvolatile Solutes
20.1.9.1 Raoult's Law for Boiling Point Elevation
20.1.9.2 Raoult's Law and Freezing Point Depression
20.1.9.3 Van't Hoff Law for Osmotic Pressure
20.1.10 Flammability of Liquids
20.2 Properties of Most Common Liquids
20.3 Monographies on Liquids
20.3.1 Properties ofWater and Heavy Water
20.3.2 Properties of Liquid Acids and Bases
20.3.3 Properties of Heavy Liquids (Heavy Media)
20.3.3.1 Dense Halogenated Organic Solvents
20.3.3.2 Dense Aqueous Solutions oflnorganic Salts
20.3.3.3 Low Temperature of Molten Inorganic Salts
20.3.3.4 Dense Emulsions and Suspensions
20.3.3.5 Paramagnetic Liquid Oxygen
20.4 Properties of Liquid Metals
20.5 Properties of Molten Salts
20.6 Properties of Heat Transfer Fluids
20.7 Colloidal and Dispersed Systems
20.8 Further Reading
Index