A block preconditioner for two‐phase flow in porous media by mixed hybrid finite elements

Nardean, Stefano; Ferronato, Massimiliano; Abushaikha, Ahmad

doi:10.1002/cmm4.1207

Cited by 5 publications

(1 citation statement)

References 63 publications

(73 reference statements)

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“…Recently, different methods based on a Schur Complement Reduction have been presented 36,37 . In Reference 38, the authors consider an original block preconditioner which exploits the block structure of the Jacobian matrix while coping with the nonsymmetric nature of the individual blocks. Same authors propose in Reference 39 a novel preconditioning technique (EDFA) based on the approximation of the decoupling factors of the system matrix by using appropriate restriction operators for the sake of the Schur complement computation.…”

Section: Introductionmentioning

confidence: 99%

Modified Picard with multigrid method for two‐phase flow problems in rigid porous media

de Oliveira,

Pinto,

Rodrigo

et al. 2023

Numerical Meth Engineering

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Two‐phase flow problems in porous media can be found in several areas, such as Geomechanics, Hydrogeology, Engineering and Biomedicine, for example. Typically, these processes are mathematically modeled by a highly nonlinear system of coupled partial differential equations. The nonlinearity of the system makes the design and implementation of robust numerical solvers a challenging task. In this work we consider the flow of two immiscible and incompressible fluids within a non‐deformable porous medium. A mixed pressure‐saturation formulation is adopted, allowing the transition from the unsaturated to saturated zones and maintaining numerical mass conservation. A cell‐centered finite volume method and an implicit Euler scheme are considered for the spatial and time discretization of the problem. In this work, we propose a solution method for two‐phase flow problems which is based on the combination of the modified Picard linearization method and a very simple cell‐centered multigrid algorithm that performs efficiently even for heterogeneous random media. This is shown in the numerical experiments, where two test problems are presented to demonstrate the robustness of the proposed solver.

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Section: Introductionmentioning

confidence: 99%