Effects of a Partially Communicating Fault in a Composite Reservoir on Transient Pressure Testing

Ambastha, A.K.; McLeroy, P.G.; Grader, A.S.

doi:10.2118/16764-pa

Cited by 57 publications

(15 citation statements)

References 17 publications

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“…We easily could have added a skin at the interfaces, which would have changed the boundary conditions for the partial differential equation, as in the two-zone model used by Ambastha. 1 We decided not to use this refinement, which is, to our knowledge, less relevant for channelized environments than the lateral extent of the system. The complexity of our approach is thus somewhere between Kuchuk's model and Ambastha's model.…”

Section: Discussionmentioning

confidence: 99%

Pressure Behavior in Finite Channel-Levee Complexes

Bourgeois¹,

Daviau²,

Combe³

1996

SPE Formation Evaluation

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In a channelized environment, the overbank facies (levees, crevasse-splays) have poorer reservoir qualities than the channel itself. In this type of environment, the geometry of this two-feature complex, together with its permeability contrast, influences the pressure transient response. The pressure behavior of this kind of reservoir has been computed for well-test analysis purposes.Our geometric model comprises a main channel bounded laterally with finite or infinite width levees. It is conceptualized as a composite linear strip reservoir with different mobilities and diffusivities. The length of the whole system also can be either finite or infinite. The solution uses a time-space Laplace transform and a spatial Fourier transform already used by Ambastha, 1 Butler, 2 and Kuchuk. 3 Moreover, our model adds lateral limits by no-flux boundary conditions and longitudinal limits by superposition of image wells or by using a finite Fourier transform.This paper exhibits specific features of the type curves generated for the model. The influence of the levees and of the permeability ratio between channel and levees on the derivative signature is discussed. Hints are given for diagnostic purposes and parameter estimation. Fieldcase buildup analyses show the applicability of the approach.

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Section: Discussionmentioning

confidence: 99%

Pressure Behavior in Finite Channel-Levee Complexes

Bourgeois¹,

Daviau²,

Combe³

1996

SPE Formation Evaluation

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“…Strltsova and Mckinley [24] discussed the buildup pattern for linear discontinuities and the effect of flow time on quantitative assessment of reservoir parameters. Ambastha et al [25] employed analytical solutions to obtain pressure-transient behavior for a line-source well in a composite reservoir. Based on Ambastha's model, an analytical solution for a three-zone laterally composite reservoir model [26] was found in the Laplace-Fourier space, and Kuchuk and Tarek [27] extended this model to multizone case, explaining the changes in porosity, permeability, and compressibility.…”

Section: Introductionmentioning

confidence: 99%

Pressure Transient Analysis for a Horizontal Well in Heterogeneous Carbonate Reservoirs Using a Linear Composite Model

Duan

Ren

Fang

et al. 2020

Mathematical Problems in Engineering

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Carbonate reservoirs usually have strong anisotropy. Oil and gas recovery from fractured reservoirs is highly challenging due to complicated mechanisms involved in production from these reservoirs. A horizontal well completed in these reservoirs may extend through multiple zones, including homogeneous, dual-porosity, and triple-porosity formations. Traditional well test models assume that the entire length of a horizontal or multilateral well remains in the same formation with uniform properties. A well test model for pressure transient analysis of horizontal wells extending through a carbonate reservoir consisting of natural fractures, rock matrix, and vugs with different properties is presented in this study. e focus of this study is on dual-porosity (fracture-matrix) and triple-porosity (fracture-matrix-vug) reservoirs, considering the pseudosteady interporosity flows from rock matrix and vugs into fractures. A multizone triple-porosity model was established and solved by using the point source function, Green's function, and coupling of multiple reservoir sections. e corresponding type curves were developed, and sensitivity analysis was carried out. e type curves of flow stage division reveal that a horizontal well traversing a three-section reservoir including homogeneous, dual-porosity (fracture-matrix)/triple-porosity (fracture-vug-matrix), and homogeneous sections identifies the stages of pseudosteady interporosity flow from matrix and vug into fracture, fracture pseudoradial flow, system linear flow, system pseudoradial flow, and pseudosteady flow occur in sequence. e greater the difference of permeability between the dual-porosity/triple-porosity section and the two homogeneous sections, the more obvious the interporosity flow on the pressure derivative curve. is approach satisfies the need for pressure transient analysis for a horizontal well that traverses two or more regions with distinct properties in heterogeneous carbonate reservoirs.

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“…These solutions considering PCF improved the design and analysis of interference tests. Ambastha and Sageev (1987, 1989, 1990) modeled a linear fault as an infinitesimal thickness skin boundary. Analytical solution of a line-source, constant-rate well in a composite reservoir is obtained with one Fourier space transformation and time-space Laplace transformations.…”

Section: Introductionmentioning

confidence: 99%