Two methods for pore network of porous media

Gao, Shengyan; Meegoda, Jay N.; Hu, Liming

doi:10.1002/nag.1134

Cited by 74 publications

(53 citation statements)

References 37 publications

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“…All these parameters can be extracted directly from packed spheres . Gao et al (2011) showed that both the pore size distribution and the coordination number distribution approximately obey normal distribution for the random close packing of particles. There is no direct proof that the pore bodies are spatially correlated in size; however, there is weak spatial correlation between the pore body size and coordination number.…”

Section: Network Descriptionmentioning

confidence: 97%

“…The procedure for constructing an equivalent network is presented in Gao et al (2011). The main geometric and topological parameters that can be considered in the network include total number of pores in the network, average pore size, maximum and minimum pore size, standard deviation of pore size, pore spacing, parameters for characterizing the BACON bonds connecting two neighboring pores, average coordination number, standard deviation of coordination number.…”

Section: Network Descriptionmentioning

confidence: 99%

“…According to Gao et al (2011), the flow rate in a BACON bond i-j as shown in Fig. 1 connecting pores i and j for two-phase flow can be expressed as…”

Section: Flow Through a Bondmentioning

confidence: 99%

“…However, reasonable relative permeability values can be obtain by matching coordination number distribution. Gao et al (2011) proposed and validated one method of generating a 3D equivalent pore network of porous media to capture the pore fabric. This pore network can match both main geometrical and topological characteristics of the porous media including pore size distribution, coordination number distribution, and spatial correlation between pore size and coordination number.…”

Section: Introductionmentioning

confidence: 99%

“…This pore network can match both main geometrical and topological characteristics of the porous media including pore size distribution, coordination number distribution, and spatial correlation between pore size and coordination number. In addition, Gao et al (2011) introduced the Biconical Abscissa Asymmetric CONcentric (BACON) bond (Fig. 1) as a replacement for traditional cylindrical bond with constant cross-sectional dimension to describe the connection between two adjacent voids, and the size and position of pore throat was correlated to its two neighboring pore bodies.…”

Section: Introductionmentioning

confidence: 99%

See 4 more Smart Citations

Simulation of Dynamic Two-Phase Flow During Multistep Air Sparging

Gao

Meegoda

2012

Transp Porous Med

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Air sparging is an in situ soil/groundwater remediation technology, which involves the injection of pressurized air through air sparging well below the zone of contamination. To investigate the rate-dependent flow properties during multistep air sparging, a rule-based dynamic two-phase flow model was developed and applied to a 3D pore network which is employed to characterize the void structure of porous media. The simulated dynamic two-phase flow at the pore scale or microscale was translated into functional relationships at the continuum-scale of capillary pressure-saturation (P c -S) and relative permeabilitysaturation (K r -S) relationships. A significant contribution from the air injection pressure step and duration time of each air injection pressure on both of the above relationships was observed during the multistep air sparging tests. It is observed from the simulation that at a given matric potential, larger amount of water is retained during transient flow than that during steady flow. Shorter the duration of each air injection pressure step, there is higher fraction of retained water. The relative air/water permeability values are also greatly affected by the pressure step. With large air injection pressure step, the air/water relative permeability is much higher than that with a smaller air injection pressure step at the same water saturation level. However, the impact of pressure step on relative permeability is not consistent for flows with different capillary numbers (N ca ). When compared with relative air permeability, relative water permeability has a higher scatter. It was further observed that the dynamic effects on the relative permeability curve are more apparent for networks with larger pore sizes than that with smaller pore sizes. In addition, the effect of pore size on relative water permeability is higher than that on relative air permeability.

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Section: Network Descriptionmentioning

confidence: 97%

Section: Network Descriptionmentioning

confidence: 99%

“…According to Gao et al (2011), the flow rate in a BACON bond i-j as shown in Fig. 1 connecting pores i and j for two-phase flow can be expressed as…”

Section: Flow Through a Bondmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Simulation of Dynamic Two-Phase Flow During Multistep Air Sparging

Gao

Meegoda

2012

Transp Porous Med

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A re‐examination of throats

Kim

Lindquist

2013

Water Resources Research

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[1] We critically re-examine the concept of a throat in a porous medium as a geometric quantity defined independently of an entry meniscus in a drainage process. To maintain the standard notion of a throat as a locally minimum-area cross section in the pore network, we demonstrate with examples that throats must intersect each other. Using flow simulation, we show that these intersecting throats correspond to capillary pressure controlled entry points during drainage. We have designed a throat-finding algorithm that explicitly locates intersecting throats, using a planar approximation for robustness and speed. The capability of the new algorithm was compared against an existing algorithm in the construction of pore-throat networks from X-ray computed tomography images of consolidated sandstones (7.5-22% porosity) and of an unconsolidated sand pack (32.5% porosity). We show that the probability of throat intersection increases significantly with porosity above 20%; in the sand pack, over 1/4 of all throats intersect with another.

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Effect of Grain Size and Layer Thickness on Hardened State Properties in Selective Cement Activation

Mai,

Herding,

Lowke

2023

ce papers

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This article demonstrates the effect of varying the maximum grain size and the layer thickness of the particle bed on hardened state properties in Selective Cement Activation (SCA). The compressive strength and geometry (deviation from nominal geometry, surface roughness) are analyzed. Supplementary investigations (μCT, μRFA) are performed to explain the causes of the observed effects. It is found that the compressive strength of the manufactured specimens increases with decreasing layer thickness. This is attributed to reduced process‐induced segregation of the particle bed and fewer process‐induced voids. The geometric precision as well as the surface roughness of the printed test specimens do not differ significantly. As the grain size increases, the amount of compaction required to achieve the target packing density decreases. The compressive strength was found to increase when the grain size in the specimen is reduced. As the finer particle mixtures tend to have less void formation as a result of water application, an increased density of the specimen can be observed. The lower porosity as well as the smaller pores also have a favorable effect on geometric precision, which tends to increase with reduced grain size. At the same time, a lower surface roughness is also present.

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Two methods for pore network of porous media

Cited by 74 publications

References 37 publications

Simulation of Dynamic Two-Phase Flow During Multistep Air Sparging

Simulation of Dynamic Two-Phase Flow During Multistep Air Sparging

A re‐examination of throats

Effect of Grain Size and Layer Thickness on Hardened State Properties in Selective Cement Activation

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