In petroleum reservoir simulation, the industry standard preconditioner, the Constrained Pressure Residual method (CPR), is a two-stage process which involves solving a restricted pressure system with Algebraic Multigrid (AMG). Initially designed for isothermal models, this approach is often used in the thermal case. However, it does not have a specific treatment of the additional energy conservation equation and temperature variable. We seek to develop preconditioners which better capture thermal effects such as heat diffusion. In order to study the effects of both pressure and temperature on fluid and heat flow, we consider a model of non-isothermal single phase flow through porous media. For this model, we develop a block preconditioner ...
For a prescribed porosity, the coupled magma/mantle flow equations can be formulated as a two-field ...
We consider deflation-based pre-conditioning of the pressure equation for large-scale reservoir mode...
The key to reliable simulations of flow in fractured porous media is the proper design, analysis and...
For both isothermal and thermal petroleum reservoir simulation, the Constrained Pressure Residual (C...
Multiphase flow through porous media can be modelled as a complex system of partial differential equ...
This work proposes an original preconditioner coupling the Constrained Pressure Residual (CPR) metho...
The paper overviews and compares some block preconditioners for the solution of saddle point systems...
Fully implicit black-oil simulations result in huge, often very-ill-conditioned, linear systems of e...
We present a novel and efficient preconditioning technique to solve the non-symmetric system of equa...
The research carried out in this work is aimed at the development of an explicit computational algor...
Solving realistic problems related to flow in porous media to desired accuracy may be prohibitively ...
The black oil model is widely used to describe multiphase porous media flow in the petroleum industr...
Abstract We are interested in the modelling of saturated thermo-hydro-mechanical (THM) problems that...
For a prescribed porosity, the coupled magma/mantle flow equations can be formulated as a two-field ...
In this thesis we develop a multiscale method that solves non-isothermal flow in porous media. A seq...
For a prescribed porosity, the coupled magma/mantle flow equations can be formulated as a two-field ...
We consider deflation-based pre-conditioning of the pressure equation for large-scale reservoir mode...
The key to reliable simulations of flow in fractured porous media is the proper design, analysis and...
For both isothermal and thermal petroleum reservoir simulation, the Constrained Pressure Residual (C...
Multiphase flow through porous media can be modelled as a complex system of partial differential equ...
This work proposes an original preconditioner coupling the Constrained Pressure Residual (CPR) metho...
The paper overviews and compares some block preconditioners for the solution of saddle point systems...
Fully implicit black-oil simulations result in huge, often very-ill-conditioned, linear systems of e...
We present a novel and efficient preconditioning technique to solve the non-symmetric system of equa...
The research carried out in this work is aimed at the development of an explicit computational algor...
Solving realistic problems related to flow in porous media to desired accuracy may be prohibitively ...
The black oil model is widely used to describe multiphase porous media flow in the petroleum industr...
Abstract We are interested in the modelling of saturated thermo-hydro-mechanical (THM) problems that...
For a prescribed porosity, the coupled magma/mantle flow equations can be formulated as a two-field ...
In this thesis we develop a multiscale method that solves non-isothermal flow in porous media. A seq...
For a prescribed porosity, the coupled magma/mantle flow equations can be formulated as a two-field ...
We consider deflation-based pre-conditioning of the pressure equation for large-scale reservoir mode...
The key to reliable simulations of flow in fractured porous media is the proper design, analysis and...