Elliptical Flow In Composite Reservoirs

Stanislav, J.F.; Easwaran, C. V.; Kokal, Sunil

doi:10.2118/92-10-06

Cited by 9 publications

(4 citation statements)

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“…Historically, there has been much work devoted to problems defined within an ellipse for the wave equation [e.g., McLachlan , 1947]. There have been a few papers devoted to transport in porous media focusing on problems in the petroleum industry of wells in petroleum reservoirs of elliptical shape or anisotropic permeabilities or fractures which intersect wells along their length [e.g., Kucuk and Brigham , 1979; Obut and Ertigen , 1987; Spath and Thambynayagam , 1997; Stanislav et al , 1987, 1992]. However, we have neither found solutions to hydrogeological problems involving elliptical geometries and transient behavior nor to other applications that solve the problem at hand.…”

Section: Transport Models For Conduit and Aquitardmentioning

confidence: 99%

Impact of permeable conduits on solute transport in aquitards: Mathematical models and their application

Harrington

Hendry

Robinson

2007

Water Resources Research

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[1] The migration of contaminants through porous conduits (for example, sand layers) in aquitards, or any preferential flow feature within a low-permeability matrix, can be significantly retarded via diffusion into the matrix and processes such as sorption and decay. Previous solutions for simulating contaminant transport in these types of environments have been limited to a parallel-plate approach such as that used in studies of fractured rock aquifers. A major drawback of using these approaches is that they cannot account for the radial component of diffusion that occurs from circular-or elliptical-sectioned conduits. We have developed solutions for both of the latter cases and compared results from generic simulations to those obtained with a conventional parallel-plate model. The results demonstrated using a circular conduit approach can produce concentration profiles for both the conduit and surrounding matrix that are up to several orders of magnitude lower than those predicted using parallel-plate models. The solutions for elliptical-section conduits provide concentration profiles that are bounded by the circular-and parallel-plate models. We also present several generic simulations to demonstrate the effects of conduit radius and average groundwater flow velocity on concentration profiles. Finally, the circular conduit model is applied to a clay-rich till aquitard in southern Saskatchewan, Canada to provide insight into an anomalous dissolved chloride peak in the vertical pore water profile. The model demonstrates that the source of the high Cl À could be as far as 10-100 km from the site (although this distance may be unrealistic) and allows estimation of the Cl À concentration at the source. We envisage that the solutions for conduit diffusion will have far wider applications than just aquitard studies, and future uses may include tracer tests in karstic and fractured aquifers.

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Section: Transport Models For Conduit and Aquitardmentioning

confidence: 99%

Impact of permeable conduits on solute transport in aquitards: Mathematical models and their application

Harrington

Hendry

Robinson

2007

Water Resources Research

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“…Actually, the hydraulically fracturing technology can stimulate an area around the fractures with different reservoir properties from the initial formation, so the results of the above research have not been applied to well testing. Therefore, some scholars (Obut and Ertekin, 1987;Stanislav et al, 1992) focused on studying the behavior of the elliptical reservoir with SRV. Xu et al (2015) developed the elliptical tri-porosity model (Zhang et al, 2011) into the tight oil reservoir with an elliptical SRV.…”

Section: Analytical and Semi-analytical Methodsmentioning

confidence: 99%

A review of stimulated reservoir volume characterization for multiple fractured horizontal well in unconventional reservoirs

Wang¹,

Zheng²,

Sheng³

et al. 2017

Adv. Geo-Energ. Res.

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Unconventional resource exploration has boosted U.S. oil and gas production, which is successfully by horizontal well drilling and hydraulic fracturing. The horizontal well with multiple transverse fractures has proven to be effective stimulation approach could increase reservoir contact significantly. Unlike the single fracture planes in typical low permeability sands, fractures in shales tends to generate more complex, branching networks. The concept of stimulated reservoir volume (SRV) was developed to quantitative measure of multistage fracture interact with natural fractures in unconventional reservoir. However, the simple fracture modeling of the past do not suitable for the complex scenarios simulation. This paper reviews the mainstream characterization method of stimulated reservoir volume in shale reservoirs, including microseismic interpretation, rate transient analysis method, analytical and semi-analytical method and numerical method. Finally, the systematic evaluation of application conditions with respect to each method and further research directions for characterization method are proposed.

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“…By using these models, the pressure can be calculated with known parameters such as the plugging range (damage radius) and the plugging degree (skin coefficient). In fact, if the coal seams are divided into plugged and non-plugged areas, the coal seams are similar to conventional composite reservoirs (Stanislav et al, 1992;Kuchuk and Tarek, 1997;Yang et al, 2005;Xu et al, 2015), which can be solved by establishing mathematical models and solving mathematical models.…”

Section: Parameters Forward Modelmentioning

confidence: 99%

Feasibility Analysis and Optimal Design of Acidizing of Coalbed Methane Wells

Guo

Chen²,

Yao

et al. 2019

Journal of Energy Resources Technology

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Plugging is a prominent reason for production reduction in coalbed methane (CBM) wells. In order to solve this problem, authors conducted the feasibility analysis and optimal design of acidizing of CBM wells to remove the plugging in Hancheng block (H block) China. First, X-ray diffraction analysis shows that the plugging contains acid-soluble minerals and the field case indicates that acidizing effect is positively correlated with the content of acid-soluble minerals. Inspired by this, authors analyze determining factors of the content of acid-soluble minerals. Well logging parameters (DEN, AC, GR) are selected to establish a neural network model to predict the content of acid-soluble minerals. Furthermore, a feasibility criterion of acidizing of CBM wells is proposed. Then, a forward model and an inversion algorithm are proposed to diagnose the plugging. The multisolution problem of parameters inversion is solved by the Gauss–Marquardt (G-M) algorithm based on the stochastic initial value and maximum probability. Combining this method with the current numerical model of acidizing, authors present an optimal design in order to optimize the volume and injection rate of the acid. Meanwhile, by experimental study, authors propose a new acid formulation. Finally, results have been applied in the field to confirm the feasibility of the acidizing. It turns out that acidizing is an effective stimulation technology for some specific CBM wells, and the feasibility analysis and the optimal design can improve the effect of acidizing of CBM wells.

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Elliptical Flow In Composite Reservoirs

Cited by 9 publications

References 0 publications

Impact of permeable conduits on solute transport in aquitards: Mathematical models and their application

Impact of permeable conduits on solute transport in aquitards: Mathematical models and their application

A review of stimulated reservoir volume characterization for multiple fractured horizontal well in unconventional reservoirs

Feasibility Analysis and Optimal Design of Acidizing of Coalbed Methane Wells

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