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Efficient stochastic finite element methods for flow in heterogeneous porous media. Part 2: Random lognormal permeability |
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| Authors: | Luca Traverso Timothy Nigel Phillips |
| Institution: | 1. School of Earth and Ocean Sciences, Cardiff University, Cardiff, UK
School of Mathematics, Cardiff University, Cardiff, UK;2. School of Mathematics, Cardiff University, Cardiff, UK |
| Abstract: | Efficient and robust iterative methods are developed for solving the linear systems of equations arising from stochastic finite element methods for single phase fluid flow in porous media. Permeability is assumed to vary randomly in space according to some given correlation function. In the companion paper, herein referred to as Part 1, permeability was approximated using a truncated Karhunen-Loève expansion (KLE). The stochastic variability of permeability is modeled using lognormal random fields and the truncated KLE is projected onto a polynomial chaos basis. This results in a stochastic nonlinear problem since the random fields are represented using polynomial chaos containing terms that are generally nonlinear in the random variables. Symmetric block Gauss-Seidel used as a preconditioner for CG is shown to be efficient and robust for stochastic finite element method. |
| Keywords: | AMG conjugate gradient groundwater flow MINRES permeability preconditioners stochastic finite element method stochastic mixed finite element method |