Simulation of Impurity Absorption from Laminar Flow in a System of Hollow Fiber Membranes

IF 2 Q4 CHEMISTRY, PHYSICAL Membranes and Membrane Technologies Pub Date : 2023-12-01 DOI:10.1134/S2517751623060069
V. A. Kirsh
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Abstract

The external steady flow of a viscous incompressible fluid and the convective-diffusion mass transfer of a solute in an ordered system of parallel hollow fiber membranes located perpendicular to the flow have been calculated in the ranges of Reynolds numbers \(\operatorname{Re} \) = 0.01–100 and Schmidt numbers \({\text{Sc}}\) = 1–1000. The Navier–Stokes equations and the convective diffusion equation have been solved using computational fluid dynamics methods with the no-slip boundary condition and the condition of a constant solute concentration on the outer surface of the streamlined fiber. Calculations have been performed for one row of fibers and for a system consisting of four and sixteen rows of fibers. The output concentrations and impurity absorption coefficients by the fiber \(\eta \) have been calculated depending on the packing density of the fibers \(\alpha \) and numbers \(\operatorname{Re} \) and \({\text{Sc}}\). The studies have shown that the absorption coefficient \(\eta \) by the fiber in an isolated row of fibers can be used to calculate the absorption efficiency of a thick fibrous bed.

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中空纤维膜层流系统中杂质吸收的模拟
本文在雷诺数\(\operatorname{Re} \) = 0.01-100和施密特数\({\text{Sc}}\) = 1-1000范围内,计算了粘性不可压缩流体在垂直于流动方向的平行中空纤维膜有序体系中的稳态流动和溶质的对流扩散传质。采用计算流体力学方法,在无滑移边界条件和流线型纤维外表面溶质浓度恒定条件下,求解了Navier-Stokes方程和对流扩散方程。对一排纤维和由四排和十六排纤维组成的系统进行了计算。根据光纤的堆积密度\(\alpha \)和编号\(\operatorname{Re} \)、\({\text{Sc}}\),计算出光纤\(\eta \)的输出浓度和杂质吸收系数。研究表明,隔离排纤维的吸收系数\(\eta \)可用于计算厚纤维床层的吸收效率。
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来源期刊
CiteScore
3.10
自引率
31.20%
发文量
38
期刊介绍: The journal Membranes and Membrane Technologies publishes original research articles and reviews devoted to scientific research and technological advancements in the field of membranes and membrane technologies, including the following main topics:novel membrane materials and creation of highly efficient polymeric and inorganic membranes;hybrid membranes, nanocomposites, and nanostructured membranes;aqueous and nonaqueous filtration processes (micro-, ultra-, and nanofiltration; reverse osmosis);gas separation;electromembrane processes and fuel cells;membrane pervaporation and membrane distillation;membrane catalysis and membrane reactors;water desalination and wastewater treatment;hybrid membrane processes;membrane sensors;membrane extraction and membrane emulsification;mathematical simulation of porous structures and membrane separation processes;membrane characterization;membrane technologies in industry (energy, mineral extraction, pharmaceutics and medicine, chemistry and petroleum chemistry, food industry, and others);membranes and protection of environment (“green chemistry”).The journal has been published in Russian already for several years, English translations of the content used to be integrated in the journal Petroleum Chemistry. This journal is a split off with additional topics.
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