On a multigrid solver for the three-dimensional Biot poroelasticity system in multilayered domains

In: J. Computers and Visualization in Science. Number 85, Fraunhofer ITWM, Februrary, 2007

Authors

• Anna Naumovich
• F. J. Gaspar

Abstract

In this paper, we present problem-dependent prolongation and problem-dependent restriction for a multigrid solver for the three-dimensional Biot poroelasticity system, which is solved in a multilayered domain. The system is discretized on a staggered grid using the finite volume method. During the discretization, special care is taken of the discontinuous coefficients. For the efficient multigrid solver, a need in operator-dependent restriction and/or prolongation arises. We derive these operators so that they are consistent with the discretization. They account for the discontinuities of the coefficients, as well as for the coupling of the unknowns within the Biot system. A set of numerical experiments shows necessity of use of the operator-dependent restriction and prolongation in the multigrid solver for the considered class of problems.

Full Text

• Publication: Naumovich.Gaspar06multigrid.pdf

BibTeX

 
@Article{ Naumovich.Gaspar06multigrid, 
   title = { On a multigrid solver for the three-dimensional Biot poroelasticity system in multilayered domains }, 
   author = { Anna Naumovich and F. J. Gaspar },    
   journal = { J. Computers and Visualization in Science },   
   number = { 85 }, 
   institution = { Fraunhofer ITWM },        
   month = feb, 
   year = 2007, 
} 

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This publication belongs to the project MultiFil.