Macroscale Models of Flow Through Highly Heterogeneous Porous Media
20%
off

Macroscale Models of Flow Through Highly Heterogeneous Porous Media

By (author) 

Free delivery worldwide

Available. Dispatched from the UK in 4 business days
When will my order arrive?

Description

The The book book was was planned planned in in such such a a manner manner that that two two basic basic goals goals would would be be reached. reached. On On the the one one hand, hand, the the goal goal was was to to show show some some new new results results in in the the field field of of modeling modeling transport transport through through highly highly heterogeneous heterogeneous media, media, based based on on the the homogenization homogenization theory. theory. Multiple Multiple new new mathematical mathematical models models of of transport transport are are presented presented herein, herein, studying studying their their properties, properties, developing developing methods methods to to compute compute effective effective parameters parameters of of the the averaged averaged media, media, simulation simulation of of cell cell problems, problems, using using new new models models to to simulate simulate some some practical practical problems. problems. High High heterogeneity heterogeneity being being subjected subjected to to the the homogenization homogenization procedure, procedure, generates generates non-local non-local phenomena phenomena and and then then gives gives a a possibility possibility to to develop develop a a new, new, non-local non-local (or (or "dynamic"), "dynamic"), theory theory of of transport transport in in porous porous media. media.
show more

Product details

  • Hardback | 366 pages
  • 165.1 x 238.8 x 25.4mm | 793.8g
  • Dordrecht, Netherlands
  • English
  • 2000 ed.
  • XXII, 366 p.
  • 0792361768
  • 9780792361763
  • 1,876,779

Table of contents

Preface. 1. One Phase Darcy's Flow in Double Porosity Media. 2. Chemical or Heat Convection-Diffusion Transport Through Highly Heterogeneous Porous Media. 3. Dispersion Tensor in Anisotropic Network Media. Stream Configuration Method. 4. Two-Phase Flow in Double Porosity Media. 5. Two-Phase Flow in Pseudo-Cavity Media. Index.
show more