Equilibrium and transfer in porous media 1 : equilibrium states / Jean-Francois Daïan.

Format:

Book

Author/Creator:

Daïan, Jean-François, author.

Series:

Civil engineering and geomechanics series.

Civil Engineering and Geomechanics Series

Language:

English

Subjects (All):

Porous materials--Transport properties.

Porous materials.

Physical Description:

1 online resource (230 p.)

Edition:

1st ed.

Place of Publication:

London, [England] ; Hoboken, New Jersey : ISTE : Wiley, 2014.

Language Note:

English

Summary:

A porous medium is composed of a solid matrix and its geometrical complement: the pore space. This porespace can be occupied by one or more fluids. The understanding of transport phenomena in porous media is a challenging intellectual task. This book provides a detailed analysis of the aspects required for the understanding of many experimental techniques in the field of porous media transport phenomena. It is aimed at students or engineers who may not be looking specifically to become theoreticians in porous media, but wish to integrate knowledge of porous media with t

Contents:

Cover; Title Page; Contents; Foreword; Nomenclature; Introduction; Chapter 1. Fluids in Equilibrium in the Pore Space: Capillary Behavior; 1.1. The pore space and its representation; 1.1.1. Complexity of the pore space; 1.1.2. Description of the microstructure; 1.1.3. Porometric distribution: representation through cylindrical pores; 1.2. Capillary pressureGL and interfacial mechanical equilibrium: Laplace's law; 1.2.1. Two-phase occupation of the pore space; 1.2.2. Capillarity: wetting and interfacial tension; 1.2.3. Laplace's law: capillary pressure; 1.2.4. Saturation: retention curves

1.2.5. Fluids and cohesion of granular media1.3. Liquid-vapor thermodynamic equilibrium: Kelvin's law; 1.3.1. The capillary couple of volatile liquid-inert gas; 1.3.2. Partial pressure of vapor: Kelvin's law; 1.3.3. Sorption isotherms: the capillary domain and the adsorption domain; 1.3.4. State variables and "contingent variables"; Chapter 2. Interfaces, Equilibrium of Solutions and Freezing in Porous Media: Thermodynamic Aspects; 2.1. Interfaces and adsorption; 2.1.1. Interfacial films; 2.1.2. Capillary interface; 2.1.3. Wetting and adsorption films

2.1.4. Intersection of the interfaces and wetting angles2.1.5. Thermodynamics of interface and adsorption; 2.2. Solutions in porous media: capillary potential and osmotic potential; 2.2.1. Mechanical and thermodynamic equilibrium of solutions; 2.2.2. Osmotic barriers; 2.3. Freezing of the interstitial liquid; 2.3.1. Mechanical and thermodynamic equilibrium; 2.3.2. The freezing process: thermoporometry; 2.4. Appendix: thermodynamic points of reference; 2.4.1. Pressure in fluids; 2.4.2. Principles of thermodynamics and state functions; 2.4.3. Diphasic equilibrium of a pure body

2.4.4. Thermodynamics of mixtures2.4.5. Expression of state functions; Chapter 3. Capillary Behavior and Porometry: Experimental Investigation; 3.1. Retention curves; 3.1.1. Retention curves and morphology of the pore space; 3.1.2. Displacements of immiscible liquids; 3.1.3. The liquid-gas couple; 3.1.4. The van Genuchten Form; 3.1.5. Orders of magnitude; 3.1.6. The case of deformable materials; 3.2. Metrology of capillarity; 3.2.1. Measurement of capillary pressure: tensiometer; 3.2.2. Measuring saturation; 3.2.3. Choice and treatment of the samples

3.3. Experimental determination and interpretation of retention curves3.3.1. Open air drainage and imbibition; 3.3.2. (Richards) pressure plate; 3.3.3. Mercury porometry; 3.3.4. Pore space and interstitial fluids imaging; 3.4. Appendices and exercises; 3.4.1. Hydrostatics and retention curves; 3.4.2. Retention curves of a material with rough porometry; 3.4.3. Dripping and centrifugation; 3.4.4. Porometric distributions and in situ hydrostatic equilibrium; 3.4.5. Capillary barrier; 3.4.6. The fate of the entrained air during imbibition; 3.4.7. Nucleation during drainage

3.4.8. Basic principles of percolation theory

Notes:

Description based upon print version of record.

Includes bibliographical references and index.

Description based on print version record.

ISBN:

9781118908938

1118908937

9781118908884

1118908880

9781118908730

1118908732

OCLC:

881415496