Spatially two-dimensional mathematical model of the flow hydrodynamics in a channel filled with a net-like spacer

▶ Novel approach of mathematical modeling of flow hydrodynamics in an electrodialysis unit. ▶ Single channel between two membranes filled with net-like spacer considered. ▶ Simulation of the industrial scale apparatus on an ordinary PC in units of minutes. ▶ Approach based on reduction of the proble...

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Published inJournal of membrane science Vol. 368; no. 1-2; pp. 171 - 183
Main Authors Kodým, R., Vlasák, F., Šnita, D., Černín, A., Bouzek, K.
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 15.02.2011
Elsevier
Subjects
Channel filled with a net-like spacer
Chemistry
Colloidal state and disperse state
Computational fluid dynamics
computer software
dialysis
Electrodialysis
equations
Exact sciences and technology
Flow distribution
General and physical chemistry
hydrodynamics
laminar flow
mathematical models
Membranes
pressure
CFD
3D
2D
RANS
Computational fluid dynamics
Channel filled with a net-like spacer
Flow distribution
HS
Electrodialysis
Filament
Fluid dynamics
Stokes equation
Hydrodynamics
Two dimensional model
Dimension
Modeling
Geometry
Chemical reduction
Resistance
Liquid
Flow regime
Laminar flow
Distribution
Mathematical model
Structure
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Abstract ▶ Novel approach of mathematical modeling of flow hydrodynamics in an electrodialysis unit. ▶ Single channel between two membranes filled with net-like spacer considered. ▶ Simulation of the industrial scale apparatus on an ordinary PC in units of minutes. ▶ Approach based on reduction of the problem dimension from 3D down to 2D. A spatially two-dimensional (2D) mathematical model of the flow hydrodynamics in a flat channel filled with a net-like spacer, for example, typical of the electrodialysis process, was developed and implemented. Subsequently the model was experimentally validated. The model introduced represents a novel CFD (computational fluid dynamic) approach, based on a reduction of the model dimensions from 3D to 2D. This allowed the modeling of systems of industrially relevant geometries on an ordinary personal computer. The simplification is possible because of the structure of the net-like spacer used which consists of two layers of filaments. In the individual layers the filaments are oriented identically. Due to this arrangement the model domain can be separated into two hydraulically interconnected sub-layers, which can be mathematically treated as 2D. The model presented is semiempirical. It includes two empirical coefficients representing hydraulic resistances. They reflect the resistance of spacer filaments to the flow in the normal and tangential direction. The stationary flow of incompressible liquid in the laminar flow regime was calculated. The model equations are based on Navier–Stokes and continuity equations. The pressure loss is described by anisotropic Darcy's law.
AbstractList A spatially two-dimensional (2D) mathematical model of the flow hydrodynamics in a flat channel filled with a net-like spacer, for example, typical of the electrodialysis process, was developed and implemented. Subsequently the model was experimentally validated. The model introduced represents a novel CFD (computational fluid dynamic) approach, based on a reduction of the model dimensions from 3D to 2D. This allowed the modeling of systems of industrially relevant geometries on an ordinary personal computer. The simplification is possible because of the structure of the net-like spacer used which consists of two layers of filaments. In the individual layers the filaments are oriented identically. Due to this arrangement the model domain can be separated into two hydraulically interconnected sub-layers, which can be mathematically treated as 2D. The model presented is semiempirical. It includes two empirical coefficients representing hydraulic resistances. They reflect the resistance of spacer filaments to the flow in the normal and tangential direction. The stationary flow of incompressible liquid in the laminar flow regime was calculated. The model equations are based on Navier-Stokes and continuity equations. The pressure loss is described by anisotropic Darcy's law.
▶ Novel approach of mathematical modeling of flow hydrodynamics in an electrodialysis unit. ▶ Single channel between two membranes filled with net-like spacer considered. ▶ Simulation of the industrial scale apparatus on an ordinary PC in units of minutes. ▶ Approach based on reduction of the problem dimension from 3D down to 2D. A spatially two-dimensional (2D) mathematical model of the flow hydrodynamics in a flat channel filled with a net-like spacer, for example, typical of the electrodialysis process, was developed and implemented. Subsequently the model was experimentally validated. The model introduced represents a novel CFD (computational fluid dynamic) approach, based on a reduction of the model dimensions from 3D to 2D. This allowed the modeling of systems of industrially relevant geometries on an ordinary personal computer. The simplification is possible because of the structure of the net-like spacer used which consists of two layers of filaments. In the individual layers the filaments are oriented identically. Due to this arrangement the model domain can be separated into two hydraulically interconnected sub-layers, which can be mathematically treated as 2D. The model presented is semiempirical. It includes two empirical coefficients representing hydraulic resistances. They reflect the resistance of spacer filaments to the flow in the normal and tangential direction. The stationary flow of incompressible liquid in the laminar flow regime was calculated. The model equations are based on Navier–Stokes and continuity equations. The pressure loss is described by anisotropic Darcy's law.
Author Bouzek, K.
Vlasák, F.
Šnita, D.
Černín, A.
Kodým, R.
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Issue 1-2
Keywords CFD
3D
2D
RANS
Computational fluid dynamics
Channel filled with a net-like spacer
Flow distribution
HS
Electrodialysis
Filament
Fluid dynamics
Stokes equation
Hydrodynamics
Two dimensional model
Dimension
Modeling
Geometry
Chemical reduction
Resistance
Liquid
Flow regime
Laminar flow
Distribution
Mathematical model
Structure
Language English
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Snippet ▶ Novel approach of mathematical modeling of flow hydrodynamics in an electrodialysis unit. ▶ Single channel between two membranes filled with net-like spacer...
A spatially two-dimensional (2D) mathematical model of the flow hydrodynamics in a flat channel filled with a net-like spacer, for example, typical of the...
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SubjectTerms Channel filled with a net-like spacer
Chemistry
Colloidal state and disperse state
Computational fluid dynamics
computer software
dialysis
Electrodialysis
equations
Exact sciences and technology
Flow distribution
General and physical chemistry
hydrodynamics
laminar flow
mathematical models
Membranes
pressure
Title Spatially two-dimensional mathematical model of the flow hydrodynamics in a channel filled with a net-like spacer
URI https://dx.doi.org/10.1016/j.memsci.2010.11.042
https://search.proquest.com/docview/853486236
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