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Iterative Solution Methods for Modeling Multiphase Flow in Porous Media Fully Implicitly

2003; Society for Industrial and Applied Mathematics; Volume: 25; Issue: 3 Linguagem: Inglês

10.1137/s106482750240443x

1095-7197

S. Lacroix, Yuri Vassilevski, John Wheeler, Mary F. Wheeler,

Advanced Mathematical Modeling in Engineering

We discuss several fully implicit techniques for solving the nonlinear algebraic system arising in an expanded mixed finite element or cell-centered finite difference discretization of two- and three-phase porous media flow. Every outer nonlinear Newton iteration requires solution of a nonsymmetric Jacobian linear system. Two major types of preconditioners, supercoarsening multigrid (SCMG) and two-stage, are developed for the GMRES iteration applied to the solution of the Jacobian system. The SCMG reduces the three-dimensional system to two dimensions using a vertical aggregation followed by a two-dimensional multigrid. The two-stage preconditioners are based on decoupling the system into a pressure and concentration equations. Several pressure preconditioners of different types are described. Extensive numerical results are presented using the integrated parallel reservoir simulator (IPARS) and indicate that these methods have low arithmetical complexity per iteration and good convergence rates.