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This article is cited in 2 scientific papers (total in 2 papers)
International Conference on Environmental Mathematical Modeling and Numerical Analysis (Rostov-on-Don)
Mathematical modeling and simulation for fluid flow in porous media
R. Ewing Texas A&M University
Abstract:
Mathematical models have been widely used to understand, predict, or optimize many
complex physical processes. In particular, simulation of environmental effects of air
polution is extensive. Here we address the need for using similar models to understand
the fate and transport of groundwater contaminants and to design in situ remediation
strategies. Three basic problem areas must be addressed in the modeling and simulation
of the flow of groundwater contamination. One must first obtain an effective model to
describe the complex fluid/fluid and fluid/rock interactions that control the transport of
contaminants in groundwater. This includes the problems of determining and modeling
the various multiphase or chemically reactive aspects of the problems which govern
the flow of fluids, obtaining accurate reservoir descriptions at various length scales,
and modeling the effects of this heterogeneity in the reservoir simulators. Next, one
must develop accurate discretization techniques that retain the important physical
properties of the continuous models without introducing spurious phenomena related
to the discretization errors. Finally, one should develop efficient numerical solution
algorithms that utilize the potential of the emerging computing architectures. We will
discuss recent advances in each of these three areas.
Citation:
R. Ewing, “Mathematical modeling and simulation for fluid flow in porous media”, Matem. Mod., 13:2 (2001), 117–127
Linking options:
https://www.mathnet.ru/eng/mm685 https://www.mathnet.ru/eng/mm/v13/i2/p117
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