We simulate two-phase fluid flow using a stress–strain relation based on Biot’s theory of poroelasticity for partial saturation combined with the mass conservation equations. To uncouple flow and elastic strain, we use a correction to the stiffness of the medium under conditions of uniaxial strain. The pressure and saturation differential equations are then solved with an explicit time stepping scheme and the Fourier pseudospectral method to compute the spatial derivatives. We assume an initial pressure state and at each time step compute the wetting- and non wetting-fluid pressures at a given saturation. Then, we solve Richards’s equation for the non wetting-fluid saturation and proceed to the next time step with the updated saturations va...
In this work, the non-linear behaviour of saturation transport equations in sequential implicit simu...
A theory is presented to simulate the consolidation of elastic porous media saturated by two immisci...
International audienceWe propose an immiscible two phase flow fracture model, based on phase-field f...
We simulate two-phase fluid flow using a stress–strain relation based on Biot’s theory of poroelasti...
Numerical methods are necessary, and are extremely important, in developing an understanding of the ...
The work presented in the thesis is an examination of two different approaches to modelling two—phas...
AbstractThe analysis of multiphase flow in porous media is of considerable significance in the field...
This work uses a previuosly proposed mathematical model to study the filling up of an unsaturated ri...
Président : Sergey GAVRILYUK. Rapporteurs : Alain-Yves LEROUX, Sebastian NOELLE. Examinateurs : Fréd...
The proposed numerical scheme solves the linear poroelasticity equations, which refers to fluid flow...
In the petroleum reservoir at an early stage the oil is recovered due to existing natural pressure a...
SummaryIn the petroleum reservoir at an early stage the oil is recovered due to existing natural pre...
The squirt-flow wave attenuation mechanism is implemented in Biot's theory of poroelasticity in the ...
During high porosity reservoir production, the rock compaction is a complex phenomenon that depends ...
We are developing a finite element program for oil and gas reservoir simulation based on Biot's poro...
In this work, the non-linear behaviour of saturation transport equations in sequential implicit simu...
A theory is presented to simulate the consolidation of elastic porous media saturated by two immisci...
International audienceWe propose an immiscible two phase flow fracture model, based on phase-field f...
We simulate two-phase fluid flow using a stress–strain relation based on Biot’s theory of poroelasti...
Numerical methods are necessary, and are extremely important, in developing an understanding of the ...
The work presented in the thesis is an examination of two different approaches to modelling two—phas...
AbstractThe analysis of multiphase flow in porous media is of considerable significance in the field...
This work uses a previuosly proposed mathematical model to study the filling up of an unsaturated ri...
Président : Sergey GAVRILYUK. Rapporteurs : Alain-Yves LEROUX, Sebastian NOELLE. Examinateurs : Fréd...
The proposed numerical scheme solves the linear poroelasticity equations, which refers to fluid flow...
In the petroleum reservoir at an early stage the oil is recovered due to existing natural pressure a...
SummaryIn the petroleum reservoir at an early stage the oil is recovered due to existing natural pre...
The squirt-flow wave attenuation mechanism is implemented in Biot's theory of poroelasticity in the ...
During high porosity reservoir production, the rock compaction is a complex phenomenon that depends ...
We are developing a finite element program for oil and gas reservoir simulation based on Biot's poro...
In this work, the non-linear behaviour of saturation transport equations in sequential implicit simu...
A theory is presented to simulate the consolidation of elastic porous media saturated by two immisci...
International audienceWe propose an immiscible two phase flow fracture model, based on phase-field f...