1.pdf (5562 K) 下载次数:81 This book is the third volume of a series: "Advances in Porous Media". Our
objective is to present in-depth review papers that give comprehensive coverage
to the field of transport in porous media. This series treats transport phenomena
in porous media as an interdisciplinary topic. Thus, "Advances in Porous Media"
will continue to promote the extension of principles and applications in one area
to others, cutting across traditional boundaries. The objective of each chapter is
to review the work done on a specific topic including theoretical, numerical as
well as experimental studies. The contributors of this volume, as for previous
ones, come from a variety of backgrounds: civil and environmental engineering,
and earth and environmental sciences. The articles are aimed at all scientists
and engineers in various diversified fields concerned with the fundamentals and
apphcations of processes in porous media.
The first volume published in 1991 included five reviews: 1. Compositional
multiphase flow models by M.Y. Corapcioglu; 2. Water flux in melting snow
covers by P. Marsh; 3. Magnetic and dielectric fluids in porous media by M. Zahn
and R. E. Rosensweig; 4. A dispersed multiphase theory and its apphcation to
filtration by M.S. Willis, I. Tosun, W. Choo, G.G. Chase and F. Desai; 5.
Stochastic differential equations in the theory of solute transport through inhomogeneous
porous media by G. Sposito, D.A. Barry and Z.J. Kabala.
The second volume published in 1994, included six reviews: 1. Transport of
reactive solutes in soils by S.E.A.T.M. van der Zee and W.H. van Riemsdijk; 2.
Propagating and stationary patterns in reaction-transport systems by P. Ortoleva,
P. Foerster and J. Ross; 3. The anion exclusion phenomenon in the porous media
flow by M.Y. Corapcioglu and R. Lingam; 4. Critical concentration models for
porous materials by Q. Chen and A. Nur; 5. Electrokinetic flow processes in
porous media and their apphcations by A.T. Yeung; 6. Modeling flow and contaminant
transport in fractured media by B. Berkowitz.
