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About Revisiting Domain Decomposition Methods for Poroelasticity

Horacio Florez
Additional contact information
Horacio Florez: Harold Vance Department of Petroleum Engineering, Texas A & M University, 3116 TAMU, College Station, TX 77843, USA

Mathematics, 2018, vol. 6, issue 10, 1-29

Abstract: In this paper, we revisit well-established domain decomposition (DD) schemes to perform realistic simulations of coupled flow and poroelasticity problems on parallel computers. We define distinct solution schemes to take into account different transmission conditions among subdomain boundaries. Indeed, we examine two different approaches, i.e., Dirichlet-Neumann (DN) and the mortar finite element method (MFEM), and we recognize their advantages and disadvantages. The MFEM significantly lessens the computational cost of reservoir compaction and subsidence calculations by dodging the conforming Cartesian grids that arise from the pay-zone onto its vicinity. There is a manifest necessity of producing non-matching interfaces between the reservoir and its neighborhood. We thus employ MFEM over nonuniform rational B-splines (NURBS) surfaces to stick these non-conforming subdomain parts. We then decouple the mortar saddle-point problem (SPP) using the Dirichlet-Neumann domain decomposition (DNDD) scheme. We confirm that this procedure is proper for calculations at the field level. We also carry comprehensive comparisons between the conventional and non-matching solutions to prove the method’s accuracy. Examples encompass linking finite element codes for slightly compressible single-phase and poroelasticity. We have used this program to a category of problems ranking from near-borehole applications to whole field subsidence estimations.

Keywords: domain decomposition; Dirichlet-Neumann; mortar finite elements (search for similar items in EconPapers)
JEL-codes: C (search for similar items in EconPapers)
Date: 2018
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