Journal ArticleDOI
Numerical Modeling of Coupled Fluid Flow and Geomechanical Stresses in a Petroleum Reservoir
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In this article, a fully coupled hydro and geomechanical model has been used to predict the transient pressure disturbance, reservoir deformation, and effective stress distribution in both homogeneous and heterogeneous reservoirs.Abstract:
\n A fully coupled hydro and geomechanical model has been used to predict the transient pressure disturbance, reservoir deformation, and effective stress distribution in both homogeneous and heterogeneous reservoirs. The heterogeneous reservoir is conceptualized by explicitly considering the spatial distributions of porosity and permeability as against assuming it as constant values. The finite element method was used in the coupled model in conjunction with the poroelasticity. Transient pressure disturbance is significantly influenced by the overburden during the production in both homogeneous and heterogeneous reservoirs for all the perforation schemes. Perforation scheme 2 provides the optimum reservoir performance when compared with other three schemes in terms of transient pressure distribution and reservoir subsidence. It also has the ability to overcome both the water and gas coning problems when the reservoir fluid flow is driven by both gas cap and water drive mechanisms. A Biot–Willis coefficient is found to significantly influence both the pressure and stress distribution right from the wellbore to the reservoir boundary. Maximum effective stresses have been generated in the vicinity of the wellbore in the reservoir at a high Biot–Willis coefficient of 0.9. Thus, the present work clearly projects that a Biot–Willis coefficient of 0 cannot be treated to be a homogeneous reservoir by default, while the coupled effect of hydro and geomechanical stresses plays a very critical role. Therefore, the implementation of the coupled hydro and geomechanical numerical models can improve the prediction of transient reservoir behavior efficiently for the simple and complex geological systems effectively.read more
Citations
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Study on the Influence of Geometric Characteristics of Grain Membranes on Permeability Properties in Porous Sandstone.
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References
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Book
Petroleum Related Rock Mechanics
TL;DR: In this article, the authors present a method for estimating the minimum number of men required to prevent a borehole from collapsing due to a failure, based on anisotropy and nonlinear elasticity.
Book
Reservoir Engineering Handbook
TL;DR: In this paper, the material balance equation was used to predict the type curve analysis of reservoir fluid flow in terms of the ratio of relative permeability of reservoir-fluid properties relative to rock properties.
Book
Computational Methods for Multiphase Flows in Porous Media
TL;DR: The Black Oil model is applied as a guide for welling modeling of fractured porous media and nonisothermal flow as well as for solution of linear systems.
Book
Computational Methods for Multiphase Flows in Porous Media (Computational Science and Engineering 2)
TL;DR: In this paper, the Black Oil model was used to model the flow and transport equations of a single phase flow and a two-phase flow in porous porous media, and Chemical Flooding was used for the same purpose.
Journal Article
Permeability-porosity relationships in sedimentary rocks
TL;DR: In this paper, the pore dimension is used to predict porosity and other measurable rock parameters, such as grain, surface area, or pore dimensions, and the results show that porosity reduction is always accompanied by a reduction in characteristic pore size.