Poiseuille-Number-Based Kozeny–Carman Model for Computation of Pore Shape Factors on Arbitrary Cross Sections
Porous media characterization is crucial to engineering projects where the pore shape has impact on performance gains. Membrane filters, sportswear fabrics, and tertiary oil recovery are a few examples. Kozeny–Carman (K–C) models are one of the most frequently used to understand, for instance, the r...
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| Published in | Transport in porous media Vol. 138; no. 1; pp. 99 - 131 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Dordrecht
Springer Netherlands
01.05.2021
Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0169-3913 1573-1634 |
| DOI | 10.1007/s11242-021-01592-4 |
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| Abstract | Porous media characterization is crucial to engineering projects where the pore shape has impact on performance gains. Membrane filters, sportswear fabrics, and tertiary oil recovery are a few examples. Kozeny–Carman (K–C) models are one of the most frequently used to understand, for instance, the relation between porosity, permeability, and other small-scale parameters. However, they have limitations, such as the inability to capture the correct dependence of permeability on porosity, the imperfect handling of the linear and nonlinear effects yielded by its fundamental quantities, and the insufficiency of geometrical parameters to predict the permeability correctly. In this paper, we cope with the problem of determining shape factors for generic geometries that represent sundry porous media configurations. Specifically, we propose a method that embeds the Poiseuille number into the classical K–C equation and returns a substitute shape factor term for its original counterpart. To the best of our knowledge, the existing formulations are unable to obtain shape factors for pores whose geometry is beyond the regular ones. We apply a Galerkin-based integral (GBI) method that determines shape factors for generic cross sections of pore channels. The approach is tested on straight capillaries with arbitrary cross sections subject to steady single-phase flow under the laminar regime. We show that shape factors for basic geometries known from experimental results are replicable exactly. Besides, we provide shape factors with precision up to 4 digits for a class of geometries of interest. As a way to demonstrate the applicability of the GBI approach, we report a case study that determines shape factors for 19 generic individual pore sections of a laboratory experiment involving flow rate measurements in an industrial arrangement of a water-agar packed bed. Porosity, flow behavior, and velocity distributions determined numerically achieve a narrow agreement with experimental values. The findings of this study provide parameters that can help to design new devices or mechanisms that depend on arbitrary pore shapes, as well as to characterize fluid flows in heterogeneous porous media. |
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| AbstractList | Porous media characterization is crucial to engineering projects where the pore shape has impact on performance gains. Membrane filters, sportswear fabrics, and tertiary oil recovery are a few examples. Kozeny–Carman (K–C) models are one of the most frequently used to understand, for instance, the relation between porosity, permeability, and other small-scale parameters. However, they have limitations, such as the inability to capture the correct dependence of permeability on porosity, the imperfect handling of the linear and nonlinear effects yielded by its fundamental quantities, and the insufficiency of geometrical parameters to predict the permeability correctly. In this paper, we cope with the problem of determining shape factors for generic geometries that represent sundry porous media configurations. Specifically, we propose a method that embeds the Poiseuille number into the classical K–C equation and returns a substitute shape factor term for its original counterpart. To the best of our knowledge, the existing formulations are unable to obtain shape factors for pores whose geometry is beyond the regular ones. We apply a Galerkin-based integral (GBI) method that determines shape factors for generic cross sections of pore channels. The approach is tested on straight capillaries with arbitrary cross sections subject to steady single-phase flow under the laminar regime. We show that shape factors for basic geometries known from experimental results are replicable exactly. Besides, we provide shape factors with precision up to 4 digits for a class of geometries of interest. As a way to demonstrate the applicability of the GBI approach, we report a case study that determines shape factors for 19 generic individual pore sections of a laboratory experiment involving flow rate measurements in an industrial arrangement of a water-agar packed bed. Porosity, flow behavior, and velocity distributions determined numerically achieve a narrow agreement with experimental values. The findings of this study provide parameters that can help to design new devices or mechanisms that depend on arbitrary pore shapes, as well as to characterize fluid flows in heterogeneous porous media. |
| Author | Simões, Tatiana A. Júnior, Valdecir A. Santos Oliveira, Gustavo P. Júnior, Antônio F. Silva |
| Author_xml | – sequence: 1 givenname: Valdecir A. Santos surname: Júnior fullname: Júnior, Valdecir A. Santos organization: Department of Physics and Civil Engineering, State University of Paraíba, Center of Science, Technology and Health – sequence: 2 givenname: Antônio F. Silva surname: Júnior fullname: Júnior, Antônio F. Silva organization: Department of Physics and Civil Engineering, State University of Paraíba, Center of Science, Technology and Health – sequence: 3 givenname: Tatiana A. surname: Simões fullname: Simões, Tatiana A. organization: Petroleum Engineering Modelling Laboratory, Federal University of Paraíba – sequence: 4 givenname: Gustavo P. orcidid: 0000-0002-4042-3548 surname: Oliveira fullname: Oliveira, Gustavo P. email: gustavo.oliveira@ci.ufpb.br organization: Postgraduate Program in Mechanical Engineering, Federal University of Paraíba |
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| SubjectTerms | Capillaries Civil Engineering Classical and Continuum Physics Computational fluid dynamics Cross-sections Earth and Environmental Science Earth Sciences Flow velocity Fluid filters Fluid flow Geotechnical Engineering & Applied Earth Sciences Hydrogeology Hydrology/Water Resources Industrial Chemistry/Chemical Engineering Laminar flow Mathematical models Oil recovery Packed beds Parameters Permeability Porosity Porous media Porous media flow Shape factor Single-phase flow |
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| Title | Poiseuille-Number-Based Kozeny–Carman Model for Computation of Pore Shape Factors on Arbitrary Cross Sections |
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