Add to ORKGIn this dissertation, an approach, which is based on the dual-porosity concept and takes into account rock deformations, is presented to derive rigorously a set of coupled differential equations governing the behavior of fractured porous media and two-phase fluid flow. The finite difference numerical method, as an alternative method for finite element, is applied to discretize the governing equations both in time and space domains. Throughout the derived set of equations, the fluid pressures and saturations as well as the solid displacements are considered as the primary unknowns.The numerical model and simulator, RFIA (Rock Fluid InterAction), developed in this dissertation can be a powerful tool to solve difficult problems not only in pet...
The purpose of the present study is to develop a method for simultaneous solution of stress and flow...
This report describes the development and use of a semi-analytical dual-porosity simulator for unsat...
Discrete fracture and matrix modeling of coupled flow and geomechanics is instrumental for understan...
A fully coupled flow-deformation model for two-phase fluid flow through deformable fractured porous ...
The developed theoretical formulation and numerical model are validated against several cases where ...
The mathematical models have been cast into finite element form and verified against analytical solu...
Abstract. Understanding flow and transport processes in naturally fractured po-rous media is of inte...
This paper presents a mathematical model for simulating single-phase and multiphase flow through str...
140 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1980.A theory is formulated for a ...
Naturally fractured reservoirs as natural stores and conductors for fluid resources occur worldwide....
Naturally fractured reservoirs as natural stores and conductors for fluid resources occur worldwide....
A new dual-porosity model is developed for single-phase flow in fractured/porous media. As in the co...
Improving the reliability of integrated reservoir development planning and addressing subsidence, fa...
A new dual-porosity model is developed for single-phase flow in fractured/porous media. As in the co...
A new type of dual-porosity model is being developed to simulate two-phase flow processes in fractur...
The purpose of the present study is to develop a method for simultaneous solution of stress and flow...
This report describes the development and use of a semi-analytical dual-porosity simulator for unsat...
Discrete fracture and matrix modeling of coupled flow and geomechanics is instrumental for understan...
A fully coupled flow-deformation model for two-phase fluid flow through deformable fractured porous ...
The developed theoretical formulation and numerical model are validated against several cases where ...
The mathematical models have been cast into finite element form and verified against analytical solu...
Abstract. Understanding flow and transport processes in naturally fractured po-rous media is of inte...
This paper presents a mathematical model for simulating single-phase and multiphase flow through str...
140 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1980.A theory is formulated for a ...
Naturally fractured reservoirs as natural stores and conductors for fluid resources occur worldwide....
Naturally fractured reservoirs as natural stores and conductors for fluid resources occur worldwide....
A new dual-porosity model is developed for single-phase flow in fractured/porous media. As in the co...
Improving the reliability of integrated reservoir development planning and addressing subsidence, fa...
A new dual-porosity model is developed for single-phase flow in fractured/porous media. As in the co...
A new type of dual-porosity model is being developed to simulate two-phase flow processes in fractur...
The purpose of the present study is to develop a method for simultaneous solution of stress and flow...
This report describes the development and use of a semi-analytical dual-porosity simulator for unsat...
Discrete fracture and matrix modeling of coupled flow and geomechanics is instrumental for understan...