 |
 |
|
|
|
Thermophysical Properties of Pure Fluids and Aqueous Systems at High Temperatures and High Pressures / 2 Isochoric Heat Capacity of Aqueous Systems at High Temperatures and High Pressures, Including Near-Critical and Supercritical Conditions
| 2 Isochoric Heat Capacity of Aqueous Systems at High Temperatures and High Pressures, Including Near-Critical and Supercritical Conditions |
| 2.1 Thermodynamic Background. Definitions, Basic Thermodynamic Relations Connected with Isochoric Heat Capacity |
| 2.1.1 Isochoric Heat Capacity Measurements and Structure of the Fundamental (AVT) and Thermal (PVT) Equations of State |
| 2.1.2 Second Temperature Derivatives d2PS/dT2 and the Vapor-Pressure Equation from Isochoric Heat Capacity Measurements |
| 2.1.3 Two-Phase Isochoric Heat Capacity and Behavior of the Second Temperature Derivatives of Chemical Potential d2 μ K . dT2 |
| 2.1.4 Isochoric Heat Capacity and Derived Thermodynamic Properties at Saturation |
| 2.1.5 Asymptotic and Nonasymptotic Scaling Behavior of the Isochoric Heat Capacity of Pure Fluids near the Critical Point |
| 2.1.6 Asymptotic Scaling Behavior of the Isochoric Heat Capacity of Fluid Mixtures near the Critical Points |
| 2.1.7 Singular Coexistence-Curve Diameter from Isochoric Heat Capacity Measurements |
| 2.1.8 Isochoric Heat Capacity Measurements and Virial Coefficients |
| 2.2 Review of Experimental Methods of Isochoric Heat Capacity Measurements |
| 2.2.1 High-Temperature and High-Pressure Integrating Nearly Constant-Volume Adiabatic Calorimeter for Isochoric Heat Capacity Measurements |
| 2.2.2 Features of Isochoric Heat Capacity Measurements near the Phase Transition Points. Experimental Determination of Phase Transition Curves near the Critical Point. Method of Quasi-Static Thermograms |
| 2.2.3 High-Temperature and High-Pressure Adiabatic Calorimeter for Isochoric Heat Capacity Measurements |
| 2.2.4 High-Temperature Adiabatic Calorimeter for Constant-Volume Heat Capacity Measurements of Liquids and Compressed Gases |
| 2.3 Review of Available Isochoric Heat Capacity Measurements for Pure Fluids: Light and Heavy Water, Hydrocarbons, and Methanol |
| 2.3.1 Isochoric Heat Capacity Measurements for Light Water |
| 2.3.2 Isochoric Heat Capacity Measurements for Heavy Water |
| 2.3.3 Isochoric Heat Capacity Measurements for n-Alkanes, Toluene, and Methanol |
| 2.4 Review of Available Isochoric Heat Capacity Measurements for Aqueous Solutions |
| 2.4.1 Isochoric Heat Capacity Measurements for H2O + D2O Mixtures |
| 2.4.2 Experimental Isochoric Heat Capacity Data for Aqueous Hydrocarbon Mixtures |
| 2.4.3 Isochoric Heat Capacity Measurements for H2O + Alcohol Mixtures |
| 2.4.4 Experimental Isochoric Heat Capacity Data for Aqueous Salt Solutions |
| 2.5 Extrema of Isochoric Heat Capacity of Pure Fluids: Light and Heavy Water and n-Alkanes |
| 2.5.1 Isochoric Heat Capacity Extrema and Equation of State |
| 2.5.2 Isochoric Heat Capacity Extrema and Virial Equation of State |
| 2.5.3 Isochoric Heat Capacity Extrema for Light and Heavy Water |
| 2.5.4 Isochoric Heat Capacity Extrema for n-Alkanes |
| 2.5.5 Comparison of Experimental and Calculated by Fundamental EOS and CREOS Isothermal and Isochoric Maxima-Minima Loci of CV |
| 2.6 Comparisons of the Experimental Isochoric Heat Capacity Data for Light and Heavy Water and Aqueous Salt Solutions with Fundamental and Crossover Equations of State. Deviation Plots and Deviation Statistics |
| 2.6.1 Comparisons of the IAPWS and Crossover EOS for Light and Heavy Water with Experimental Specific Isochoric Heat Capacity Data |
| 2.6.2 Comparisons of the EOS for n-Alkanes with Experimental Specific Isochoric Heat Capacity Data |
| 2.6.3 Comparisons of the Crossover and Classical Pitzer's EOS with Experimental Specific Isochoric Heat Capacity Data for Aqueous Solutions |
|
|
|
Login
Register
Home
Journals
References
A-Z
Index
Author
Index
For
Our Authors
User Area
Shopping Cart
Contact
