A double-porosity model for a fractured aquifer with non-Darcian flow in fractures

Altinörs, Altay; Önder, Halil

doi:10.1623/hysj.53.4.868

Cited by 13 publications

(8 citation statements)

References 37 publications

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“…In petroleum reservoirs, the presence of cracks, fissures, and fractures can cause a high degree of heterogeneity in the porous media, resulting in different flow properties occurring at different points in the domain of varying fracture lengths or sizes. According to Altinörs and Önder (2010) [1], a nonhomogeneous porous medium creates a nonuniform flow field that affects movement of fluids with signifi-cant different flow velocities and flow behavior [1,2], a common phenomena identified with multiscale fractured porous media. The effective representation of advection and diffusion in models associated with fluid transport in naturally fractured reservoirs is a generic problem for researchers and oil field engineers.…”

Section: Introductionmentioning

confidence: 99%

A New Multicontinuum Model for Advection-Diffusion Process of Single-Phase Nonlinear Flow in a Multiscale Fractured Porous Media

Owusu

Sakyi

Amoako-Yirenkyi

et al. 2022

Journal of Applied Mathematics

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Fractured porous media modeling and simulation has seen significant development in the past decade but still pose a great challenge and difficulty due to the multiscale nature of fractures, domain heterogeneity, and the nonlinear flow fields due to the high flow velocity and permeability resulting from the presence of fractures. Therefore, modeling fluid transport that is influenced by both advection and diffusion in fractured porous media studies becomes a generic problem, which this study seeks to address. In this paper, we present a study on non-Darcian fluid transport in multiscale naturally fractured reservoirs via an upscaling technique. An averaged macroscopic equation representing pressure distribution in a three-phase multiscale fractured porous medium was developed, consisting of the matrix and a 2-scale fractured network of length-scales ℓ m and ℓ M . The resulting macroscopic model has cross-advective and diffusive terms that account for induced fluxes between the interacting domains, as well as a mass transfer function that is dependent on both physical and geometric properties of the domain, with both advective and diffusive properties. This model also has effective diffusive and advective coefficients that account for reservoir properties such as viscosity, fluid density, and flow velocity. From the numerical simulation, a radial, a horizontal-linear flow behavior, and a transient and quasi-steady-state flow regime that is typical of naturally fractured porous media was observed. The findings of this study will provide researchers a reliable tool to study fractured porous media and can also help for better understanding of the dynamics of flow in fractured reservoirs.

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Section: Introductionmentioning

confidence: 99%

A New Multicontinuum Model for Advection-Diffusion Process of Single-Phase Nonlinear Flow in a Multiscale Fractured Porous Media

Owusu

Sakyi

Amoako-Yirenkyi

et al. 2022

Journal of Applied Mathematics

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“…Knowledge of pore size distribution is critical for understanding both the mechanisms and storage [18]. The fractured rocks, aquifers, or reservoirs consist of two overlapping subsystems: one represents fractures, and the other represents the porous matrix [21][22][23]. The general flow through the rock is established by a more permeable system (fractures), while a less permeable system (matrix blocks), which have a large storage capacity, feeds fluid into the fractures [23,24].…”

Section: Introductionmentioning

confidence: 99%

Geometric and Fractal Characterization of Pore Systems in the Upper Triassic Dolomites Based on Image Processing Techniques (Example from Žumberak Mts, NW Croatia)

et al. 2021

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Karst aquifers are important sources of thermal and groundwater in many parts of the world, such as the Alpine–Dinaric–Carpathian region in Europe. The Upper Triassic dolomites are regionally recognized thermal and groundwater aquifers but also hydrocarbon reservoirs. They are characterized by predominantly fractured porosity, but the actual share of depositional and diagenetic porosity is rarely investigated. In this research, we presented the geometric characterization of the measured microporosity of the Upper Triassic dolomites of the Žumberak Mts (Croatia), through thin-section image processing and particle analysis techniques. Pore parameters were analyzed on microphotographs of impregnated thin sections in scale. A total of 2267 pores were isolated and analyzed. The following parameters were analyzed: pore area, pore perimeter, circularity, aspect ratio (AR), roundness, solidity, Feret AR, compactness, and fractal dimension. Furthermore, porosity was calculated based on the pore portion in each image. The effective porosity on rock samples was determined using saturation and buoyancy techniques as an accompanying research method. We analyzed distributions of each parameter, their correlation, and most of the parameters are characterized by an asymmetric or asymmetric normal distribution. Parameters that quantify pore irregularities have similar distributions, and their values indicate the high complexity of the pore geometry, which can significantly impact permeability.

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“…Perfaz unidades litoestratigráficas mesoproterozoicas (i.e., Formações Tombador e Caboclo), meso-neoproterozoicas (i.e., Formação Morro do Chapéu) e neoproterozoicas (i.e., Formação Bebedouro) (Schobbenhaus 1996;Pedreira 1997;Souza et al 2019). Nesse contexto, as águas subterrâneas ocorrem em rochas sedimentares com metamorfismo incipiente muitas vezes silicificadas e fraturadas que compõe um sistema de dupla porosidade (Bai, Elsworth & Roegiers 1993;Altinörs & Önder 2008). Assim, o armazenamento e a circulação da água estão intimamente relacionados à existência das descontinuidades estruturais.…”

Section: Introductionunclassified

Extração Automática de Lineamentos na Exploração de Água Subterrânea: Caso dos Aquíferos Metassedimentares da Chapada Diamantina Centro-Setentrional

Barreiro

Barbosa

2021

Anu. Inst. Geoc.

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ResumoEste artigo apresenta uma aplicação da técnica de extração automática de lineamentos nos estudos de águas subterrâneas. Seu objetivo é identificar feições estruturais, definir seu papel na hidrodinâmica dos aquíferos metassedimentares da Chapada Diamantina Centro-Setentrional e estabelecer uma relação entre os sistemas de fraturas e a prospecção hidrogeológica. A metodologia consiste em produzir um mapa de lineamentos obtidos através do processamento dos dados de modelo digital de elevação do SRTM, sobreposição de imagens sombreadas e produção de duas imagens de iluminação multidirecionais A e B (azimutes 0º, 45º, 90º, 135º e 180º, 225º, 270º, 315º respectivamente) utilizadas na extração automática das estruturas. Destas, a Imagem Multidirecional A apresentou uma menor variância nos dados, sendo utilizada nas interpretações hidrogeológicas a partir das orientações preferenciais dos lineamentos extraídos. A análise estatística em um conjunto com 2.370 lineamentos indica a predominância de três famílias: NNW-SSE (26,5%), NW-SE (23,0 %) e N-S (22,5%). Em geral, interpretou-se que o campo de tensão principal está associado aos lineamentos NNW-SSE, que correspondem às fraturas extensionais de partição (tipo T). As demais, tem relação com sistemas de pares conjugados de cisalhamento de NW-SE (antitético, tipo R') e N-S (sintético, tipo R). Esse padrão se relaciona com a evolução tectono-estrutural rúptil e com a geometria das rochas em anticlinais e sinclinais com eixos concordantes com a orientação N-S. Assim, as maiores densidades e interseções das fraturas principais (T, R e R') ocorrem nos locais de máxima curvatura dos anticlinais e sinclinais nas porções sudeste, nordeste e noroeste da área. Essas características implicam em uma maior favorabilidade para circulação e armazenamento de água subterrânea, com ocorrência de poços produtores com vazões entre 40,1 a 203,0 m 3 /h em oposição das demais regiões que são praticamente desprovidas de concentrações e interseções significativas de lineamentos.

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A double-porosity model for a fractured aquifer with non-Darcian flow in fractures

Cited by 13 publications

References 37 publications

A New Multicontinuum Model for Advection-Diffusion Process of Single-Phase Nonlinear Flow in a Multiscale Fractured Porous Media

A New Multicontinuum Model for Advection-Diffusion Process of Single-Phase Nonlinear Flow in a Multiscale Fractured Porous Media

Geometric and Fractal Characterization of Pore Systems in the Upper Triassic Dolomites Based on Image Processing Techniques (Example from Žumberak Mts, NW Croatia)

Extração Automática de Lineamentos na Exploração de Água Subterrânea: Caso dos Aquíferos Metassedimentares da Chapada Diamantina Centro-Setentrional

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