The computation time for reservoir simulation is dominated by the linear solver. The sets of linear equations which arise in reservoir simulation have two distinctive features: the problems are usually highly anisotropic, with a dominant vertical flow direction, and the commonly used fully implicit method requires a simultaneous solution for pressure and saturation or molar concentration variables. These variables behave quite differently, with the pressure feeling long-range effects while the saturations vary locally. In this paper we review preconditioned iterative methods used for solving the linear system equations in reservoir simulation and their parallelisation. We then propose a variant of the classical additive Schwarz precondition...
We present a novel and efficient preconditioning technique to solve the non-symmetric system of equa...
As the characteristic propagation speed is infinite for unsteady incompressible flows, solving for t...
Linear solvers usually are the most time- and memory-demanding part of a full coupled hydromechanic...
Linear solvers for reservoir simulation applications are the objective of this review. Specifically,...
Fully implicit black-oil simulations result in huge, often very-ill-conditioned, linear systems of e...
In the common implicit integration schemes of fluid-dynamics equations, the need to solve a linear s...
. We introduce some cheaper and faster variants of the classical additive Schwarz preconditioner (AS...
This work proposes an original preconditioner coupling the Constrained Pressure Residual (CPR) metho...
AbstractWe propose a new preconditioner DASP (discrete approximate spectral preconditioner), based o...
International audienceThe solution of differential equations with implicit methods requires the solu...
A primary challenge for a new generation of reservoir simulators is the accurate description of mult...
Parallel implementations of a Newton-Krylov-Schwarz algorithm are used to solve a model problem repr...
Abstract. We develop a simple algorithmic framework to solve large-scale symmetric positive definite...
Modern petroleum reservoir simulation serves as a primary tool for quantitatively managing reservoir...
A two level preconditioner, based on the Aitken acceleration technique of a sequence of q interface’...
We present a novel and efficient preconditioning technique to solve the non-symmetric system of equa...
As the characteristic propagation speed is infinite for unsteady incompressible flows, solving for t...
Linear solvers usually are the most time- and memory-demanding part of a full coupled hydromechanic...
Linear solvers for reservoir simulation applications are the objective of this review. Specifically,...
Fully implicit black-oil simulations result in huge, often very-ill-conditioned, linear systems of e...
In the common implicit integration schemes of fluid-dynamics equations, the need to solve a linear s...
. We introduce some cheaper and faster variants of the classical additive Schwarz preconditioner (AS...
This work proposes an original preconditioner coupling the Constrained Pressure Residual (CPR) metho...
AbstractWe propose a new preconditioner DASP (discrete approximate spectral preconditioner), based o...
International audienceThe solution of differential equations with implicit methods requires the solu...
A primary challenge for a new generation of reservoir simulators is the accurate description of mult...
Parallel implementations of a Newton-Krylov-Schwarz algorithm are used to solve a model problem repr...
Abstract. We develop a simple algorithmic framework to solve large-scale symmetric positive definite...
Modern petroleum reservoir simulation serves as a primary tool for quantitatively managing reservoir...
A two level preconditioner, based on the Aitken acceleration technique of a sequence of q interface’...
We present a novel and efficient preconditioning technique to solve the non-symmetric system of equa...
As the characteristic propagation speed is infinite for unsteady incompressible flows, solving for t...
Linear solvers usually are the most time- and memory-demanding part of a full coupled hydromechanic...