CHF242.00
Download est disponible immédiatement
Hydrothermal Properties of Materials: Experimental Data on
Aqueous Phase Equilibria and Solution Properties at Elevated
Temperatures and Pressures is designed for any scientists and
engineer who deals with hydrothermal investigations and
technologies.
The book is organized into eight chapters, each dealing with a
key physical property of behavior of solutions, so that a reader
can obtain information on: hydrothermal experimental methods;
available experimental data and the main features of properties
behavior in a wide range of temperatures and pressures; and
possible ways of experimental data processing for obtaining the
derivative properties.
Auteur
Vladimir Valyashko is Head of Laboratory of Solution Chemistry, Kurnakov Institute of General and Inorganic Chemistry, Russian Academy of Sciences, Moscow.
He is a member of IAPWS Working Group "Physical Chemistry of Aqueous Solutions".
Résumé
Hydrothermal Properties of Materials: Experimental Data on Aqueous Phase Equilibria and Solution Properties at Elevated Temperatures and Pressures is designed for any scientists and engineer who deals with hydrothermal investigations and technologies.
The book is organized into eight chapters, each dealing with a key physical property of behavior of solutions, so that a reader can obtain information on: hydrothermal experimental methods; available experimental data and the main features of properties behavior in a wide range of temperatures and pressures; and possible ways of experimental data processing for obtaining the derivative properties.
Contenu
Chapter 1: Phase Equilibria in Binary and Ternary Hydrothermal Systems (V.M.Valyashko).
Introduction.
Experimental methods for studying hydrothermal phase equilbria.
2.1. Methods of visual observation.
2.2. Methods of sampling.
2.3 Methods of quenching.
2.4 Inderect methods.
3.1. Main types of fluid phase behavior.
3.2. Classification of complete phase diagrams .
3.3. Graphical representation and experimental examples of binary phase diagrams.
4.1. Graphical representation of ternary phase diagrams.
4.2. Derivation and classification of ternary phase diagrams.
Chapter 2: pVTx Properties of hydrothermal systems (Horacio R. Corti and Ilmutdin M. Abdulagatov).
Basic principles and definitions.
Experimental methods.
2.1 Constant volume piezometers (CVP).
2.2 Variable volume piezometers (VVP).
2.3 Hydrostatic weighing technique (HWT).
2.4 Vibrating tube densimeter (VTD).
2.5 Synthetic fluid inclusion technique .
3.1 Excess volume.
3.2 Models for the standard partial molar volume .
4.1 Laboratory activities .
4.2 Summary Table.
Chapter 3: High temperature potentiometry (Donald A. Palmer and Serguei N. Lvov).
Introduction.
Experimental methods.
Data treatment.
Acknowledgments.
References.
Chapter 4: Electrical Conductivity in Hydrothermal Binary and Ternary Systems (Horacio R.Corti).
Introduction.
Basic principles and definitions.
Experimental methods.
Static high temperature and pressure conductivity cells.
Flow-through conductivity cell.
Measurement procedure.
Data treatment.
Dissociated electrolytes.
Associated electrolytes.
Getting information from electrical conductivity data.
General trends.
Specific conductivity as a function of temperature, concentration and density.
The limiting molar conductivity.
Concentration dependence of the molar conductivity and association constants.
Molar conductivity as a function of temperature and density.
Conductivity in ternary systems.
References.
Chapter 5: Thermal Conductivity (Ilmutdin M. Abdulagatov and Marc J. Assael).
5.1. Introduction.
5.2. Experimental Techniques.
5.3. Available Experimental Data.
5.4. Discussion of Experimental Data.
References.
Figure Captions.
Chapter 6: Viscosity (Ilmutdin M. Abdulagatov and Marc J. Assael).
6.1.Introduction.
6.2.Experimental Techniques.
6.3. Available Experimental Data.
6.4. Discussion of Experimental Data.
References.
Figure Captions.