Equivalent Pore Channel Model for Fluid Flow in Rock Based on Microscale X-ray CT Imaging

Choi, Choongik; Lee, Yong-ki; Song, Jae-Joon

doi:10.3390/ma13112619

Cited by 12 publications

(4 citation statements)

References 47 publications

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“…3 (d), the simplification principle is to reduce the connection points to make the curve smooth, to obtain the orifice image Fig. 3 (e) [ 37 ]. Fig.…”

Section: Methodsmentioning

confidence: 99%

Understanding the drying mechanism of straw substrate culture block: Physicochemical properties, pore structure, and drying optimization

Cheng,

Liu,

Sun

et al. 2024

Heliyon

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“…3 (d), the simplification principle is to reduce the connection points to make the curve smooth, to obtain the orifice image Fig. 3 (e) [ 37 ]. Fig.…”

Section: Methodsmentioning

confidence: 99%

Understanding the drying mechanism of straw substrate culture block: Physicochemical properties, pore structure, and drying optimization

Cheng,

Liu,

Sun

et al. 2024

Heliyon

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“…In such cases, the local permeability is described by Hagen‐Poiseuille law,

k=\frac{{d}_{i}^{2}\phi }{64}

. The microtube diameter value is constrained by correlating the pore‐size distribution obtained experimentally using mercury injection capillary pressure with the mapping of the local porosity field in the unresolved region (Choi et al., 2020; Yang, Kang, & Yun, 2021). Even though further work still needs to be done to reconstruct accurately the unresolved pores using the pore‐size distribution and the grayscale images, micro‐continuum models have demonstrated their abilities to compute absolute permeability including the instrument resolution.…”

Section: Applications In Geosciencesmentioning

confidence: 99%

Micro‐Continuum Modeling: An Hybrid‐Scale Approach for Solving Coupled Processes in Porous Media

Soulaine

2024

Water Resources Research

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Micro‐continuum models are versatile and powerful approaches for simulating coupled processes in two‐scale porous systems. Initially oriented for modeling static single‐phase flow in microtomography images with sub‐voxel porosity, the concept has been extended over the years to multi‐phase flow, reactive transport, and poromechanics. This paper introduces an integrated micro‐continuum framework to model coupled processes in porous media. It reviews state‐of‐the‐art models and discusses applications in geosciences including Digital Rock Physics with sub‐voxel porosity, moving fluid‐solid interface at the pore‐scale due to geochemical reactions, fracture‐matrix interactions, and solid deformation. Finally, the paper discusses future developments in micro‐continuum models.

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“…The study suggested that HC of peat soils was greatly regulated by a pore shape coefficient which was generally supposed to contain pore characteristics like PSD, path tortuosity, roundness, and sphericity of pores. A pore channel model developed with different pore segments showed that flow in water varied with the pore shape in 2D images whereas tortuosity is prominent in 3D images (Choi et al, 2020). For the characterization of all the factors required for pore geometry, X-ray micro-CT equipment was used with a voxel size ranging from 3 to 10 μm and commercial Avizo software was used to visualize, and analyse the stacked image.…”

Section: Water Content and Solute Transportmentioning

confidence: 99%

Application of X-ray computed tomography in soil and plant -a review

Ghosh,

Maity,

Rabbi

et al. 2023

Front. Environ. Sci.

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X-ray computed tomography (X-ray CT) is a non-destructive method of soil analysis which can provide three-dimensional (3D) view, quantitative information of the internal organization of the soil. In this paper, we discuss the potential application of X-ray CT in characterization of soil properties like porosity and pore size distribution (PSD), root architecture, soil phase classification, water and solute transport in soil, and highlight the research during last 10–15 years. Here, we review the recent development of X-ray CT in soil science, use of artificial intelligence and machine learning in image analysis, point out the major challenges associated with its use, discuss few improvements to overcome these difficulties and elaborate the possible future technological developments for non-invasive/destructive soil characterization by integrating X-ray CT with recently available complementary techniques.

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Equivalent Pore Channel Model for Fluid Flow in Rock Based on Microscale X-ray CT Imaging

Cited by 12 publications

References 47 publications

Understanding the drying mechanism of straw substrate culture block: Physicochemical properties, pore structure, and drying optimization

Understanding the drying mechanism of straw substrate culture block: Physicochemical properties, pore structure, and drying optimization

Micro‐Continuum Modeling: An Hybrid‐Scale Approach for Solving Coupled Processes in Porous Media

Application of X-ray computed tomography in soil and plant -a review

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