Applications isothermal transport and coupled transfers
著者
書誌事項
Applications isothermal transport and coupled transfers
(Civil engineering and geomechanics series, Equilibrium and transfer in porous media ; 3)
ISTE , Wiley, 2014
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注記
Bibliography: p. [305]-308
内容説明・目次
内容説明
Equilibrium and Transfer in Porous Media 3 A porous medium is composed of a solid matrix and its geometrical complement: the pore space. This pore space 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 their previous scientific culture, or who may have encountered them when dealing with a technological problem.
While avoiding the details of the more mathematical and abstract developments of the theories of macroscopization, the author gives as accurate and rigorous an idea as possible of the methods used to establish the major laws of macroscopic behavior in porous media. He also illustrates the constitutive laws and equations by demonstrating some of their classical applications. The priority is to put the constitutive laws in concrete circumstances without going into technical detail.
This third volume in the three-volume series focuses on the applications of isothermal transport and coupled transfers in porous media.
目次
Nomenclature vii
Chapter 1 Isothermal Transport in Porous Media: Applications 1
1.1. Capillary transport 2
1.1.1. Isothermal transport without gravity 2
1.1.2. Capillary gravitational infiltration 7
1.2. Quasi-isothermal drying and sorption 17
1.2.1. Drying (and sorption) under isobaric atmosphere 17
1.2.2. Drying in pure vapor 28
1.3. Experimental identification and estimation of transport coefficients 34
1.3.1 Classification of experimental processes 34
1.3.2 Hydraulic conductivity and permeability 36
1.3.3. Hydric diffusivity 45
1.3.4. Transport of a volatile liquid: identification of the role of each of the phases 48
1.3.5. Diffusion and hydrodynamic dispersion coefficients 53
1.3.6. Pore structure and transport properties 60
1.4. Appendices and exercises 72
1.4.1. Diffusion and diffusion-convection equations 72
1.4.2. Gravity infiltration 81
1.4.3. Phase change and thermal transfer 86
1.4.4. Drying: quantitative evaluations 89
1.4.5. Drying under ambient atmosphere: exercises 101
1.4.6. Measurement of permeability to gas 112
1.4.7 Response to small stresses: using the linear diffusion equation 118
1.4.8. Transport coefficients: orders of magnitude 127
Chapter 2 Coupled Transfers in Porous Media: Applications 133
2.1. Transport of a volatile interstitial liquid coupled with thermal transfer 134
2.1.1. Macroscopization and transfer laws 134
2.1.2. Balances and constitutive equations 147
2.1.3. Applications 158
2.1.4. Measuring transfer coefficients 170
2.2 Coupled thermal transfer and transport during the freezing of interstitial fluid 177
2.2.1. Constitutive equations 177
2.2.2. Applications 186
2.3. Transport of a volatile liquid coupled with the diffusion of a component in solution 197
2.3.1. Constitutive equations: coupling mechanisms 197
2.3.2. A few elementary processes 201
2.4. Appendices and exercises 213
2.4.1. Laws of gaseous diffusion and apparent conductivity 213
2.4.2. Apparent thermal conductivity: the lighting of the EMT and its limits 216
2.4.3. More about the constitutive equations 224
2.4.4. Linearized equations and applications 228
2.4.5 Measuring conductivity: steady-state methods 235
2.4.6. Measuring conductivity: transient methods 248
2.4.7. Linear equations: other applications 259
2.4.8. Capillary heat pipe 275
2.4.9 Freezing in porous media 284
Glossary 299
Bibliography 305
Index 309
Summary of other Volumes in the Series 311
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