<abstract xmlns="http://www.w3.org/1999/xhtml"><p>The objective of this work is numerical simulation of the membrane by direct analysis at micro, meso and macro level. This approach includes first a defining and modeling of a basic structural unit, after that simulation of a fragment as a representative element of the membrane structure. Then the results obtained to transfer for the entire membrane module and finally modeling of the membrane as porous media with calculated permeability. The numerical simulation was done with Ansys CFX, using the Darcy’s equation for flow through porous media with configuration of the membrane and second order backward Euler transient scheme for solving the Navier-Stokes equations.</p><p>The permeability of the membrane is determined at a micro and macro level by computer simulation for different fluids, which allows to evaluating the influence of the viscosity on the flow passing through the membrane. This micro-macro approach is quite efficient and cost-effective because it saves time and requires less computer capacity and allows direct analysis of the complex structure of the membrane modules.</p></abstract>

The objective of this work is numerical simulation of the membrane by direct analysis at micro, meso and macro level. This approach includes first a defining and modeling of a basic structural unit, after that simulation of a fragment as a representative element of the membrane structure. Then the results obtained to transfer for the entire membrane module and finally modeling of the membrane as porous media with calculated permeability. The numerical simulation was done with Ansys CFX, using the Darcy’s equation for flow through porous media with configuration of the membrane and second order backward Euler transient scheme for solving the Navier-Stokes equations.The permeability of the membrane is determined at a micro and macro level by computer simulation for different fluids, which allows to evaluating the influence of the viscosity on the flow passing through the membrane. This micro-macro approach is quite efficient and cost-effective because it saves time and requires less computer capacity and allows direct analysis of the complex structure of the membrane modules.

Micro-macro transition for numerical simulation of submerged membrane bioreactor

The EuroBiotech Journal

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.

{"article-title":"Micro-macro transition for numerical simulation of submerged membrane bioreactor"}

The objective of this work is numerical simulation of the membrane by direct analysis at micro, meso and macro level. This approach includes first a defining...

k(m²)	Q (numerical)(m³/s)	Q (Darsy’s law)(m³/s)
1.00 E-13	5.65 E-09	5.56 E-09
1.00 E-10	5.60 E-06	5.56 E-06
1.00 E-08	5.61 E-04	5.56 E-04
1.00 E-07	5.56 E-03	5.56 E-03
1.00 E-06	3.90 E-02	5.56 E-02

Micro-macro transition for numerical simulation of submerged membrane bioreactor

Article Category: Research Article

Publicado en línea: 30 abr 2020

Páginas: 82 - 88

DOI: https://doi.org/10.2478/ebtj-2020-0009

Palabras clave
CFD simulation, permeability, submerged membrane reactors, modeling

© 2020 Moutafchìeva Dessislava, Iliev Veselin, published by Sciendo

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.

Figure 1

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Figure 4

Figure 5

Figure 6

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Table 1

Micro-macro transition for numerical simulation of submerged membrane bioreactor

Article Category: Research Article

Publicado en línea: 30 abr 2020

Páginas: 82 - 88

DOI: https://doi.org/10.2478/ebtj-2020-0009

Palabras claveCFD simulation, permeability, submerged membrane reactors, modeling

© 2020 Moutafchìeva Dessislava, Iliev Veselin, published by Sciendo

This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.

Figure 1

Figure 2

Figure 3

Figure 4

Figure 5

Figure 6

Figure 7

Table 1

Palabras clave
CFD simulation, permeability, submerged membrane reactors, modeling