论文信息 - Use of high performance computing to examine the effectiveness of aquifer remediation

Use of high performance computing to examine the effectiveness of aquifer remediation

Large-scale simulation of fluid flow and chemical migration is being used to study the effectiveness of pump-and-treat restoration of a contaminated, saturated aquifer. A three-element approach focusing on geostatistical representations of heterogeneous aquifers, high-performance computing strategies for simulating flow, migration, and reaction processes in large three-dimensional systems, and highly-resolved simulations of flow and chemical migration in porous formations will be discussed. Results from a preliminary application of this approach to examine pumping behavior at a real, heterogeneous field site will be presented. Future activities will emphasize parallel computations in larger, dynamic, and nonlinear (two-phase) flow problems as well as improved interpretive methods for defining detailed material property distributions.

[1] David E. Dougherty,et al. Hydrologic Applications of the Connection Machine CM‐2 , 1991 .

[2] R. Ababou,et al. Three-dimensional flow in random porous media , 1988 .

[3] P. F. McKereghan,et al. Preliminary simulation of contaminant migration in ground water at the Lawrence Livermore National Laboratory , 1995 .

[4] Dennis McLaughlin,et al. Stochastic modeling of large‐scale flow in heterogeneous unsaturated soils , 1991 .

[5] Wolfgang Kinzelbach,et al. Stochastic modeling of in situ bioremediation in heterogeneous aquifers , 1992 .

[6] R. Ababou,et al. Implementation of the three‐dimensional turning bands random field generator , 1989 .

[7] Lynn W. Gelhar,et al. Stochastic subsurface hydrology from theory to applications , 1986 .

[8] R. Kerry Rowe,et al. Ground water models: scientific and regulatory applications , 1990 .

[9] Steven G. Smith,et al. Modeling groundwater flow on MPPs , 1993, Proceedings of Scalable Parallel Libraries Conference.

[10] Andrew F. B. Tompson,et al. Numerical simulation of solute transport in three-dimensional, randomly heterogeneous porous media , 1990 .

[11] Andrew F. B. Tompson,et al. Numerical simulation of chemical migration in physically and chemically heterogeneous porous media , 1993 .