真空膜蒸馏多段工艺对产率和温度极化的影响

Q2 Materials Science

Journal of Membrane Science and Research Pub Date : 2021-10-17 DOI:10.22079/JMSR.2021.534548.1480

M. Asif, Waqas Alam, Wajeeha Bibi, Jawad Rabbi

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引用次数: 1

摘要

多级真空膜蒸馏（MSVMD）作为提高单级结构性能的手段，近年来受到了人们的关注。本研究旨在分析VMD（真空膜蒸馏）中的多阶段对生产率和相关温度极化的影响。另一个目标是确定反转点，在该点之后，进一步的多级在渗透物生产率（通量）和相关的温度极化方面都不再有利。在用实验数据验证后，对MSVMD的性能进行了数值参数分析。此外，在不同的膜规格下，同时分析了渗透物生产率和相关的温度极化现象。给出MSVMD最大可能性能的最佳级数是根据最显著的工艺变量和膜规格的变化进行估计的。对于不同的过程变量，发现反演点在40个阶段以上，然而，对于一些突出的膜特性的变化，反演点仍远低于20个阶段。

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Effect of multi-staging in vacuum membrane distillation on productivity and temperature polarization

MSVMD (multi-stage vacuum membrane distillation) has recently gained attention as means of enhancing the performance of single stage configuration. The present study is aimed to analyze the impact of multi-staging in VMD (vacuum membrane distillation) on productivity and the associated temperature polarization. Another goal is to determine the point of inversion, a point after which further multi-staging is no more beneficial both in terms of permeate productivity (flux) and associated temperature polarization. After validation with the experimental data, a parametric analysis of MSVMD performance is carried out numerically. Further, the permeate productivity and associated temperature polarization phenomenon were analyzed simultaneously under varying membrane specifications. The optimum number of stages, giving the maximum possible performance of MSVMD, is estimated for variation in most prominent process variables and membrane specifications. The point of inversion was found to be above 40 stages for varying process variables, however, it remained well below 20 stages for variation in some of the prominent membrane characteristics.

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来源期刊

Journal of Membrane Science and Research Materials Science-Materials Science (miscellaneous)

CiteScore

4.00

自引率

0.00%

发文量

审稿时长

8 weeks

期刊介绍： The Journal of Membrane Science and Research (JMSR) is an Open Access journal with Free of Charge publication policy, which provides a focal point for academic and industrial chemical and polymer engineers, chemists, materials scientists, and membranologists working on both membranes and membrane processes, particularly for four major sectors, including Energy, Water, Environment and Food. The journal publishes original research and reviews on membranes (organic, inorganic, liquid and etc.) and membrane processes (MF, UF, NF, RO, ED, Dialysis, MD, PV, CDI, FO, GP, VP and etc.), membrane formation/structure/performance, fouling, module/process design, and processes/applications in various areas. Primary emphasis is on structure, function, and performance of essentially non-biological membranes.