Fundamentals of transport phenomena in porous media :
[Book]
Based on the proceedings of the first International Symposium on the Fundamentals of Transport Phenomena in Porous Media, Technion City, Haifa, Israel, 23-28 February, 1969.
Amsterdam :
Elsevier Science,
2014.
1 online resource (401 pages).
Developments in Soil Science ;
v. 2
Part 5: Problems of permeability, matrix deformability, consolidation, anisotropy and heterogeneity.
Front Cover; Fundamentals of Transport Phenomena in Porous Media; Copyright Page; Contents; Part 1: General theory of transport processes related to fluid flow through porous media; Chapter 1. Thermodynamic analogy of mass transport processes in porous media; Chapter 2. The influence of pore structure on the pressure and temperature dependence of the effective diffusion coefficient; Chapter 3. Stationary heat transport by plane groundwater movement in a thin or a thick layer.
Chapter 19. Some problems connected with the use of classical descriptions of fluid/fluid displacement processesChapter 20. Permiselective properties of porous materials as calculated from diffuse double layer theory; Part 4: Hydrodynamic dispersion in porous media; Chapter 21. The tensor character of the dispersion coefficient in anisotropic porous media; Chapter 22. On the derivation of a convective-dispersion equation by spatial averaging; Chapter 23. Sur le deplacement bidimensionnel des fluids miscibles dans les milieux poreux.
Chapter 4. The significance of the net transfer of viscous stress energy and the local production of kinetic energy in stationary soil water flowChapter 5. On the correlation of electrical conductivity properties of porous systems with viscous flow transport coefficients; Chapter 6. Some aspects of heat and mass transfer in porous media; Part 2: Deterministic and statistical characterization of porous media, and computational methods of analysis; Chapter 7. Study of accessibility of pores in porous media.
Chapter 8. A numerical study of the nonlinear laminar regime of flow in an idealized porous mediumChapter 9. Problems concerning solution of steady and unsteady groundwater flow by statistical methods; Chapter 10. Fundamentals of the continuum approach for calculation of rate-independent deformations of particulate media; Chapter 11. Deterministic and statistical characterization of porous media and computational methods of analysis; Chapter 12. The reciprocity principle in flow through heterogeneous porous media.
Part 3: Theory of coupled processes in porous media, including heat and mass transfer and polyphase flow phenomenaChapter 13. Ètude experimentale de la convection naturelle en milieu poreux; Chapter 14. Growth of a vapour bubble in a porous medium; Chapter 15. Simultaneous flow of immiscible liquids in a fractured medium; Chapter 16. Sur les equations de la magnetohydro-dynamique des milieux poreux; Chapter 17. Transfer properties and friction coefficients for salt and water flow through clays; Chapter 18. On stabilization of fingers in a slightly cracked heterogeneous porous medium.
0
8
8
8
8
Fundamentals of transport phenomena in porous media.
Fundamentals of transport phenomena in porous media : Based on the proceedings of the first International Symposium on the Fundamentals of Transport Phenomena in Porous Media, Technion City, Haifa, Israel, 23-28 February, 1969.