Application of PC model to predict liquid penetration into a porous substrate

In order to predict the process of fluid penetration into a thin porous substrate, a calculation in Open Foam open-source software was performed: the AngeledDuctExplict angular implicit channel calculation case for incompressible matter with a stationary solver for incompressible turbulent flow with...

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Main Authors: Orlova, E. Yu, Shmelev, F. Yu, Sultanova, Yu. M., Varepo, L. G., Trapeznikova, O. V.
Format: Conference Proceeding
Language:English
Subjects:
Computational grids
Finite element method
Fluid flow
Incompressible flow
Inks
Penetration
Porous materials
Printing industry
Source code
Substrates
Turbulent flow
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creator Orlova, E. Yu
Shmelev, F. Yu
Sultanova, Yu. M.
Varepo, L. G.
Trapeznikova, O. V.
description In order to predict the process of fluid penetration into a thin porous substrate, a calculation in Open Foam open-source software was performed: the AngeledDuctExplict angular implicit channel calculation case for incompressible matter with a stationary solver for incompressible turbulent flow with implicit or explicit porousness treatment porousSimpleFoam. A block-structured hexahedral computational mesh is constructed using the blockMesh utility. This model is intended to investigate and predict the penetration of fluids in thin porous materials. As an example of the application of this model: controlling the supply of dampening solutions and inks, taking into account the use of modern printing materials in the printing industry.
doi_str_mv 10.1063/5.0075139
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source American Institute of Physics:Jisc Collections:Transitional Journals Agreement 2021-23 (Reading list)
subjects Computational grids
Finite element method
Fluid flow
Incompressible flow
Inks
Penetration
Porous materials
Printing industry
Source code
Substrates
Turbulent flow
title Application of PC model to predict liquid penetration into a porous substrate
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