Simulation of Colloid Transport and Retention using a Pore‐Network Model with Roughness and Chemical Heterogeneity on Pore Surfaces

Water Resources Research ◽

10.1029/2020wr028571 ◽

2021 ◽

Author(s):

Dantong Lin ◽

Liming Hu ◽

Scott Alan Bradford ◽

Xinghao Zhang ◽

Irene M.C. Lo

Keyword(s):

Network Model ◽

Pore Network ◽

Colloid Transport ◽

Pore Network Model ◽

Chemical Heterogeneity

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An Improved Capillary Bundle Model by Using Tortuosity and Parameters Extracted from Pore Network Model

Proceedings of the 15th International Heat Transfer Conference ◽

10.1615/ihtc15.pmd.009841 ◽

2014 ◽

Author(s):

Xinhuan Zhou ◽

Lanlan Jiang ◽

Lingyu Chen ◽

Yu Liu ◽

Yongchen Song ◽

...

Keyword(s):

Network Model ◽

Pore Network ◽

Pore Network Model ◽

Capillary Bundle Model ◽

Capillary Bundle

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A dynamic pore-network model for spontaneous imbibition in porous media

Advances in Water Resources ◽

10.1016/j.advwatres.2019.103420 ◽

2019 ◽

Vol 133 ◽

pp. 103420 ◽

Author(s):

Chao-Zhong Qin ◽

Harald van Brummelen

Keyword(s):

Porous Media ◽

Network Model ◽

Pore Network ◽

Spontaneous Imbibition ◽

Pore Network Model ◽

Dynamic Pore Network

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A pore network model study of the fluid-fluid interfacial areas measured by dynamic-interface tracer depletion and miscible displacement water phase advective tracer methods

Water Resources Research ◽

10.1029/2012wr011862 ◽

2012 ◽

Vol 48 (10) ◽

Author(s):

Tohren C. G. Kibbey ◽

Lixia Chen

Keyword(s):

Network Model ◽

Pore Network ◽

Miscible Displacement ◽

Water Phase ◽

Pore Network Model ◽

Model Study ◽

Dynamic Interface ◽

Interfacial Areas ◽

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Pore network model of deactivation of immobilized glucose isomerase in packed-bed reactors II: three-dimensional simulation at the particle level

Chemical Engineering Science ◽

10.1016/s0009-2509(02)00014-3 ◽

2002 ◽

Vol 57 (6) ◽

pp. 939-952 ◽

Author(s):

Mitra Dadvar ◽

Muhammad Sahimi

Keyword(s):

Network Model ◽

Three Dimensional ◽

Glucose Isomerase ◽

Pore Network ◽

Pore Network Model ◽

Packed Bed Reactors ◽

Particle Level ◽

Dimensional Simulation ◽

Immobilized Glucose Isomerase

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Pore-network model of evaporation-induced salt precipitation in porous media: The effect of correlations and heterogeneity

Advances in Water Resources ◽

10.1016/j.advwatres.2017.12.004 ◽

2018 ◽

Vol 112 ◽

pp. 59-71 ◽

Author(s):

Hassan Dashtian ◽

Nima Shokri ◽

Muhammad Sahimi

Keyword(s):

Porous Media ◽

Network Model ◽

Pore Network ◽

Pore Network Model ◽

Salt Precipitation

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A Development of Pore Network Model Coupled Thermal Transport for Hydrophilic Porous Media of PEM Electrolyser

ECS Meeting Abstracts ◽

10.1149/ma2021-0127975mtgabs ◽

2021 ◽

Vol MA2021-01 (27) ◽

pp. 975-975

Author(s):

Alper Can Ince ◽

Mustafa Fazil Serincan

Keyword(s):

Porous Media ◽

Network Model ◽

Thermal Transport ◽

Pore Network ◽

Pore Network Model

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Permeability of cementitious materials using a multiscale pore network model

Construction and Building Materials ◽

10.1016/j.conbuildmat.2021.125298 ◽

2021 ◽

Vol 312 ◽

pp. 125298

Author(s):

Saeid Babaei ◽

Suresh C. Seetharam ◽

Arnaud Dizier ◽

Gunther Steenackers ◽

Bart Craeye

Keyword(s):

Network Model ◽

Pore Network ◽

Cementitious Materials ◽

Pore Network Model

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The Pore-network Modelling of the Infiltration Experiments Performed on Unsaturated Coarse Sands

10.5194/egusphere-egu21-14147 ◽

2021 ◽

Author(s):

Tomáš Princ ◽

Michal Snehota

Keyword(s):

Hydraulic Conductivity ◽

Network Model ◽

Pore Network ◽

Pore Network Model ◽

Air Bubbles ◽

Network Modelling ◽

Air Content ◽

Pore Network Modelling ◽

X Ray Computed ◽

<p>The research focused on the simulation of the previous experiment described by Princ et al. (2020). The relationship between entrapped air content (<em>&#969;</em>) and the corresponding satiated hydraulic conductivity (<em>K</em>) was investigated for two coarse sands, in the experiment. Additionally the amount and distribution of air bubbles were quantified by X-ray computed tomography.</p><p>The pore-network model based on OpenPNM platform (Gostick et al. 2016) was used to attempt simulation of a redistribution of the air bubbles after infiltration. Satiated hydraulic conductivity was determined to obtain the <em>K</em>(<em>&#969;</em>) relationship. The results from pore-network model were compared with the results from experiments.</p><p>Gostick et al. (2016). Computing in Science & Engineering. 18(4), p60-74.</p><p>Princ et al. (2020). Water. 12(2), p1-19.</p>

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Gas Bubble Nucleation and Migration in Soils—Pore-Network Model Simulation

New Solutions for Challenges in Applications of New Materials and Geotechnical Issues - Sustainable Civil Infrastructures ◽

10.1007/978-3-319-95744-9_3 ◽

2018 ◽

pp. 27-37

Author(s):

Nariman Mahabadi ◽

Xianglei Zheng ◽

Tae Sup Yun ◽

Jaewon Jang

Keyword(s):

Network Model ◽

Model Simulation ◽

Pore Network ◽

Bubble Nucleation ◽

Pore Network Model ◽

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Ability of a pore network model to predict fluid flow and drag in saturated granular materials

Computers and Geotechnics ◽

10.1016/j.compgeo.2019.02.007 ◽

2019 ◽

Vol 110 ◽

pp. 344-366 ◽

Author(s):

Adnan Sufian ◽

Christopher Knight ◽

Catherine O’Sullivan ◽

Berend van Wachem ◽

Daniele Dini

Keyword(s):

Granular Materials ◽

Network Model ◽

Pore Network ◽

Pore Network Model

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