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Equilibrium and transfer in porous media 1 : equilibrium states / / Jean-Francois Daïan
Equilibrium and transfer in porous media 1 : equilibrium states / / Jean-Francois Daïan
Autore Daïan Jean-François
Pubbl/distr/stampa London, [England] ; ; Hoboken, New Jersey : , : ISTE : , : Wiley, , 2014
Descrizione fisica 1 online resource (230 p.)
Disciplina 620.116
Collana Civil Engineering and Geomechanics Series
Soggetto topico Porous materials - Transport properties
ISBN 1-118-90893-7
1-118-90888-0
1-118-90873-2
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto 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
Record Nr. UNINA-9910132205203321
Daïan Jean-François  
London, [England] ; ; Hoboken, New Jersey : , : ISTE : , : Wiley, , 2014
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Equilibrium and transfer in porous media 1 : equilibrium states / / Jean-Francois Daïan
Equilibrium and transfer in porous media 1 : equilibrium states / / Jean-Francois Daïan
Autore Daïan Jean-François
Pubbl/distr/stampa London, [England] ; ; Hoboken, New Jersey : , : ISTE : , : Wiley, , 2014
Descrizione fisica 1 online resource (230 p.)
Disciplina 620.116
Collana Civil Engineering and Geomechanics Series
Soggetto topico Porous materials - Transport properties
ISBN 1-118-90893-7
1-118-90888-0
1-118-90873-2
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto 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
Record Nr. UNINA-9910810327803321
Daïan Jean-François  
London, [England] ; ; Hoboken, New Jersey : , : ISTE : , : Wiley, , 2014
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Equilibrium and transfer in porous media 2 : transfer laws / / Jean-François Daïan
Equilibrium and transfer in porous media 2 : transfer laws / / Jean-François Daïan
Autore Daïan Jean-François
Edizione [1st ed.]
Pubbl/distr/stampa London ; ; Hoboken, New Jersey : , : ISTE : , : Wiley, , 2014
Descrizione fisica 1 online resource (230 p.)
Disciplina 620.116
Collana Civil Engineering and Geomechanics Series
Soggetto topico Porous materials
Porous materials - Fluid dynamics
Porous materials - Permeability
Transport theory - Porous material
ISBN 1-118-93126-2
1-118-93125-4
1-118-93127-0
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Title Page; Contents; Nomenclature; Chapter 1. Transport and Transfer: from Homogeneous Phases to Porous Media; 1.1. Transfer phenomena: complementary approaches; 1.1.1. Transfer processes and couplings; 1.1.2. Continuums and molecular aspect; 1.2. Usual formulations for homogeneous phases; 1.2.1. FLOW of a viscous fluid; 1.2.2. Isothermal diffusion; 1.2.3. Thermal conduction. Fourier's law; 1.3. Transfers in porous media, macroscopization; 1.3.1. General approach of macroscopization; 1.3.2. Fundamental concepts of macroscopization; 1.3.3. Conditions of validity of macroscopization
1.3.4. Obtaining the macroscopic transfer laws1.4. Porous media: elementary balances and transfer laws; 1.4.1. Rules of play; 1.4.2. Filtration of a fluid saturating the pore space: Darcy's law; 1.4.3. Isothermal molecular diffusion in the gaseous or liquid phase saturating the pore space; 1.4.4. Thermal conduction in a composite medium; 1.5. Appendices; 1.5.1. Mechanics and thermodynamics of homogeneous phases: the continuum approach; 1.5.2. Thermodynamic balances. Overview of the thermodynamics of irreversible processes (TIP); 1.5.3. Transfers in porous media: the TIP approach
1.5.4. Three examples of macroscopization by spatial averaging1.5.5. Inertial flows: the Dupuit-Forchheimer law; 1.5.6. Transfer of dissolved matter. Hydrodynamic dispersion; 1.5.7. Composites and mixing laws; 1.5.8. Transfers and percolation theory; 1.5.9. Viscous stress. Poiseuille's law; 1.5.10. A look at non-equilibrium transfers; Chapter 2. Isothermal Transport in the Pore Space; 2.1. Laws of transport in the pore space occupied by one or two phases: additional points; 2.1.1. Diffusion and filtration in porous media occupied by two immiscible fluids
2.1.2. Porometric distribution and transport in the gaseous phase Knudsen and Klinkenberg effects2.1.3. Transport with phase-change isothermal transport of a volatile liquid; 2.2. A classification of Isothermal transport processes constitutive equations boundary conditions; 2.2.1. General definitions vocabulary; 2.2.2. Filtration under an isobaric atmosphere of a capillary liquid, which may be volatile; 2.2.3. Filtration of a volatile liquid and of its pure vapor; 2.2.4. Linearized constitutive equations; 2.2.5. Transport of a gas or a non-condensible gaseous component
2.2.6. Transport in porous media of matter dissolved in the liquid phase2.2.7. Other isothermal transport processes; 2.3. Appendices and exercises; 2.3.1. Two-phase filtration macroscopization; 2.3.2. Transport in the gaseous phase and kinetic theory of gases; 2.3.3. Isothermal transport of a volatile liquid: proportion of each of the PHASEs; 2.3.4. Isothermal transport of a volatile liquid: illumination of the effective medium theory (EMT); 2.3.5. Illumination of the self-consistent theory (SCT); 2.3.6. Percolation theory, conductivity, permeability; Glossary; Bibliography; Index
Summary of other Volumes in the Series
Record Nr. UNINA-9910132210603321
Daïan Jean-François  
London ; ; Hoboken, New Jersey : , : ISTE : , : Wiley, , 2014
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Equilibrium and transfer in porous media 2 : transfer laws / / Jean-François Daïan
Equilibrium and transfer in porous media 2 : transfer laws / / Jean-François Daïan
Autore Daïan Jean-François
Edizione [1st ed.]
Pubbl/distr/stampa London ; ; Hoboken, New Jersey : , : ISTE : , : Wiley, , 2014
Descrizione fisica 1 online resource (230 p.)
Disciplina 620.116
Collana Civil Engineering and Geomechanics Series
Soggetto topico Porous materials
Porous materials - Fluid dynamics
Porous materials - Permeability
Transport theory - Porous material
ISBN 1-118-93126-2
1-118-93125-4
1-118-93127-0
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Title Page; Contents; Nomenclature; Chapter 1. Transport and Transfer: from Homogeneous Phases to Porous Media; 1.1. Transfer phenomena: complementary approaches; 1.1.1. Transfer processes and couplings; 1.1.2. Continuums and molecular aspect; 1.2. Usual formulations for homogeneous phases; 1.2.1. FLOW of a viscous fluid; 1.2.2. Isothermal diffusion; 1.2.3. Thermal conduction. Fourier's law; 1.3. Transfers in porous media, macroscopization; 1.3.1. General approach of macroscopization; 1.3.2. Fundamental concepts of macroscopization; 1.3.3. Conditions of validity of macroscopization
1.3.4. Obtaining the macroscopic transfer laws1.4. Porous media: elementary balances and transfer laws; 1.4.1. Rules of play; 1.4.2. Filtration of a fluid saturating the pore space: Darcy's law; 1.4.3. Isothermal molecular diffusion in the gaseous or liquid phase saturating the pore space; 1.4.4. Thermal conduction in a composite medium; 1.5. Appendices; 1.5.1. Mechanics and thermodynamics of homogeneous phases: the continuum approach; 1.5.2. Thermodynamic balances. Overview of the thermodynamics of irreversible processes (TIP); 1.5.3. Transfers in porous media: the TIP approach
1.5.4. Three examples of macroscopization by spatial averaging1.5.5. Inertial flows: the Dupuit-Forchheimer law; 1.5.6. Transfer of dissolved matter. Hydrodynamic dispersion; 1.5.7. Composites and mixing laws; 1.5.8. Transfers and percolation theory; 1.5.9. Viscous stress. Poiseuille's law; 1.5.10. A look at non-equilibrium transfers; Chapter 2. Isothermal Transport in the Pore Space; 2.1. Laws of transport in the pore space occupied by one or two phases: additional points; 2.1.1. Diffusion and filtration in porous media occupied by two immiscible fluids
2.1.2. Porometric distribution and transport in the gaseous phase Knudsen and Klinkenberg effects2.1.3. Transport with phase-change isothermal transport of a volatile liquid; 2.2. A classification of Isothermal transport processes constitutive equations boundary conditions; 2.2.1. General definitions vocabulary; 2.2.2. Filtration under an isobaric atmosphere of a capillary liquid, which may be volatile; 2.2.3. Filtration of a volatile liquid and of its pure vapor; 2.2.4. Linearized constitutive equations; 2.2.5. Transport of a gas or a non-condensible gaseous component
2.2.6. Transport in porous media of matter dissolved in the liquid phase2.2.7. Other isothermal transport processes; 2.3. Appendices and exercises; 2.3.1. Two-phase filtration macroscopization; 2.3.2. Transport in the gaseous phase and kinetic theory of gases; 2.3.3. Isothermal transport of a volatile liquid: proportion of each of the PHASEs; 2.3.4. Isothermal transport of a volatile liquid: illumination of the effective medium theory (EMT); 2.3.5. Illumination of the self-consistent theory (SCT); 2.3.6. Percolation theory, conductivity, permeability; Glossary; Bibliography; Index
Summary of other Volumes in the Series
Record Nr. UNINA-9910828203803321
Daïan Jean-François  
London ; ; Hoboken, New Jersey : , : ISTE : , : Wiley, , 2014
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Equilibrium and transfer in porous media 3 : applications, isothermal transport and coupled transfers / / Jean-François Daïan
Equilibrium and transfer in porous media 3 : applications, isothermal transport and coupled transfers / / Jean-François Daïan
Autore Daïan Jean-François
Pubbl/distr/stampa London ; ; Hoboken, New Jersey : , : ISTE : , : Wiley, , 2014
Descrizione fisica 1 online resource (332 p.)
Disciplina 547.28
Collana Civil Engineering and Geomechanics Series
Soggetto topico Polymerization
Porous materials
Solids - Surfaces
Thermodynamics
ISBN 1-118-93129-7
1-118-93128-9
1-118-93130-0
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Title Page; Contents; Nomenclature; Chapter 1. Isothermal Transport in Porous Media: Applications; 1.1. Capillary transport; 1.1.1. Isothermal transport without gravity; 1.1.2. Capillary gravitational infiltration; 1.2. Quasi-isothermal drying and sorption; 1.2.1. Drying (and sorption) under isobaric atmosphere; 1.2.2. Drying in pure vapor; 1.3. Experimental identification and estimation of transport coefficients; 1.3.1. Classification of experimental processes; 1.3.2. Hydraulic conductivity and permeability; 1.3.3. Hydric diffusivity
1.3.4. Transport of a volatile liquid: identification of the role of each of the phases1.3.5. Diffusion and hydrodynamic dispersion coefficients; 1.3.6. Pore structure and transport properties; 1.4. Appendices and exercises; 1.4.1. Diffusion and diffusion-convection equations; 1.4.2. Gravity infiltration; 1.4.3. Phase change and thermal transfer; 1.4.4. Drying: quantitative evaluations; 1.4.5. Drying under ambient atmosphere: exercises; 1.4.6. Measurement of permeability to gas; 1.4.7. Response to small stresses: using the linear diffusion equation
1.4.8. Transport coefficients: orders of magnitudeChapter 2. Coupled Transfers in Porous Media: Applications; 2.1. Transport of a volatile interstitial liquid coupled with thermal transfer; 2.1.1. Macroscopization and transfer laws; 2.1.2. Balances and constitutive equations; 2.1.3. Applications; 2.1.4. Measuring transfer coefficients; 2.2. Coupled thermal transfer and transport during the freezing of interstitial fluid; 2.2.1. Constitutive equations; 2.2.2. Applications; 2.3. Transport of a volatile liquid coupled with the diffusion of a component in solution
2.3.1. Constitutive equations: coupling mechanisms2.3.2. A few elementary processes; 2.4. Appendices and exercises; 2.4.1. Laws of gaseous diffusion and apparent conductivity; 2.4.2. Apparent thermal conductivity: the lighting of the EMT and its limits; 2.4.3. More about the constitutive equations; 2.4.4. Linearized equations and applications; 2.4.5. Measuring conductivity: steady-state methods; 2.4.6. Measuring conductivity: transient methods; 2.4.7. Linear equations: other applications; 2.4.8. Capillary heat pipe; 2.4.9. Freezing in porous media; Glossary; Bibliography; Index
Summary of other Volumes in the Series
Record Nr. UNINA-9910132210403321
Daïan Jean-François  
London ; ; Hoboken, New Jersey : , : ISTE : , : Wiley, , 2014
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Equilibrium and transfer in porous media 3 : applications, isothermal transport and coupled transfers / / Jean-François Daïan
Equilibrium and transfer in porous media 3 : applications, isothermal transport and coupled transfers / / Jean-François Daïan
Autore Daïan Jean-François
Pubbl/distr/stampa London ; ; Hoboken, New Jersey : , : ISTE : , : Wiley, , 2014
Descrizione fisica 1 online resource (332 p.)
Disciplina 547.28
Collana Civil Engineering and Geomechanics Series
Soggetto topico Polymerization
Porous materials
Solids - Surfaces
Thermodynamics
ISBN 1-118-93129-7
1-118-93128-9
1-118-93130-0
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Title Page; Contents; Nomenclature; Chapter 1. Isothermal Transport in Porous Media: Applications; 1.1. Capillary transport; 1.1.1. Isothermal transport without gravity; 1.1.2. Capillary gravitational infiltration; 1.2. Quasi-isothermal drying and sorption; 1.2.1. Drying (and sorption) under isobaric atmosphere; 1.2.2. Drying in pure vapor; 1.3. Experimental identification and estimation of transport coefficients; 1.3.1. Classification of experimental processes; 1.3.2. Hydraulic conductivity and permeability; 1.3.3. Hydric diffusivity
1.3.4. Transport of a volatile liquid: identification of the role of each of the phases1.3.5. Diffusion and hydrodynamic dispersion coefficients; 1.3.6. Pore structure and transport properties; 1.4. Appendices and exercises; 1.4.1. Diffusion and diffusion-convection equations; 1.4.2. Gravity infiltration; 1.4.3. Phase change and thermal transfer; 1.4.4. Drying: quantitative evaluations; 1.4.5. Drying under ambient atmosphere: exercises; 1.4.6. Measurement of permeability to gas; 1.4.7. Response to small stresses: using the linear diffusion equation
1.4.8. Transport coefficients: orders of magnitudeChapter 2. Coupled Transfers in Porous Media: Applications; 2.1. Transport of a volatile interstitial liquid coupled with thermal transfer; 2.1.1. Macroscopization and transfer laws; 2.1.2. Balances and constitutive equations; 2.1.3. Applications; 2.1.4. Measuring transfer coefficients; 2.2. Coupled thermal transfer and transport during the freezing of interstitial fluid; 2.2.1. Constitutive equations; 2.2.2. Applications; 2.3. Transport of a volatile liquid coupled with the diffusion of a component in solution
2.3.1. Constitutive equations: coupling mechanisms2.3.2. A few elementary processes; 2.4. Appendices and exercises; 2.4.1. Laws of gaseous diffusion and apparent conductivity; 2.4.2. Apparent thermal conductivity: the lighting of the EMT and its limits; 2.4.3. More about the constitutive equations; 2.4.4. Linearized equations and applications; 2.4.5. Measuring conductivity: steady-state methods; 2.4.6. Measuring conductivity: transient methods; 2.4.7. Linear equations: other applications; 2.4.8. Capillary heat pipe; 2.4.9. Freezing in porous media; Glossary; Bibliography; Index
Summary of other Volumes in the Series
Record Nr. UNINA-9910818483203321
Daïan Jean-François  
London ; ; Hoboken, New Jersey : , : ISTE : , : Wiley, , 2014
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui