Adaptive isogeometric finite element analysis of steady-state groundwater flow

• Published in: International journal for numerical and analytical methods in geomechanics Vol. 40; no. 5; pp. 738 - 765
• Main Authors: Bekele, Yared W., Kvamsdal, Trond, Kvarving, Arne M., Nordal, Steinar
• Format: Journal Article
• Language: English
• Published: Bognor Regis Blackwell Publishing Ltd 10.04.2016; Wiley Subscription Services, Inc
• Subjects: a posteriori error estimates; adaptive refinement; Boundary conditions; Computer simulation; Errors; Estimates; Finite element method; Galerkin methods; Ground-water flow; Groundwater flow; isogeometric analysis; Mathematical analysis; Mathematical models
• ISSN: 0363-9061; 1096-9853
• DOI: 10.1002/nag.2425

Summary Numerical challenges occur in the simulation of groundwater flow problems because of complex boundary conditions, varying material properties, presence of sources or sinks in the flow domain, or a combination of these. In this paper, we apply adaptive isogeometric finite element analysis using locally refined (LR) B‐splines to address these types of problems. The fundamentals behind isogeometric analysis and LR B‐splines are briefly presented. Galerkin's method is applied to the standard weak formulation of the governing equation to derive the linear system of equations. A posteriori error estimates are calculated to identify which B‐splines should be locally refined. The error estimates are calculated based on recovery of the L2‐projected solution. The adaptive analysis method is first illustrated by performing simulation of benchmark problems with analytical solutions. Numerical applications to two‐dimensional groundwater flow problems are then presented. The problems studied are flow around an impervious corner, flow around a cutoff wall, and flow in a heterogeneous medium. The convergence rates obtained with adaptive analysis using local refinement were, in general, observed to be of optimal order in contrast to simulations with uniform refinement. Copyright © 2015 John Wiley & Sons, Ltd.