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The effect of void structure on the permeability of fibrous networks
Antti I. Koponen
, Axel Ekman
, Keijo Mattila
, Ahmad Al-Qararah
, Jussi Timonen
BA5401 Fiber web processes
University of Jyväskylä
Research output
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Keyphrases
Three-dimensional (3D)
100%
Structural Information
100%
Void Space
100%
Void Structure
100%
High-resolution
100%
Lattice Boltzmann Method
100%
Local Structure
100%
Fluid Flow Simulation
100%
Digital Image
100%
Fibrous Materials
100%
Model Prediction
100%
X-ray Microtomography Images
100%
Porous Materials
100%
Kraft Fiber
100%
CTMP Fiber
100%
High Porosity
100%
Carman-Kozeny
100%
INIS
permeability
100%
voids
100%
values
50%
information
50%
images
50%
prediction
50%
simulation
25%
foams
25%
fibers
25%
x radiation
25%
water
25%
space
25%
validation
25%
laboratories
25%
porous materials
25%
porosity
25%
resolution
25%
fluid flow
25%
sheets
25%
Engineering
Flow Simulation
100%
Model Prediction
100%
Local Structure
100%
Fluid Flow
100%
Lattice-Boltzmann Method
100%
High Resolution
100%
Porosity
100%
Material Science
X-Ray Microtomography
100%
Lattice-Boltzmann Method
100%
Fibrous Material
100%
Fluid Flow
100%