污染的正渗透（FO）膜的渗透反冲洗机理

Q2 Materials Science

Journal of Membrane Science and Research Pub Date : 2020-03-13 DOI:10.22079/JMSR.2020.118843.1315

S. Daly, A. J. Semiao

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引用次数: 3

摘要

有机物会导致膜中最大的问题之一：结垢。因此，开发高效的清洁工艺至关重要。本研究系统地考察了在不同物理和化学条件下形成的褐藻酸污垢对正渗透渗透渗透反洗清洗效率的影响。通过共聚焦激光扫描显微镜测量渗透反洗前后的污垢层厚度，以评估清洁效率，同时测量纯水流量（PWF）。渗透反冲洗被发现是非常有效的。在进料溶液中不存在Ca2+的情况下，藻酸盐污垢的厚度是污垢层的厚度，直到使用4M NaCl的提取溶液（DS）增加初始膜污垢通量时，反冲洗也变得不那么有效，尽管PWF完全恢复，但仍有91μM的污垢。在渗透反冲洗DS中使用Ca2+导致结垢层膨胀，并且由于通量反转以及藻酸层和Ca2+之间的相互作用而无法去除。PWF回收率降低，表明用于反洗的盐的类型对清洁效率有严重影响。

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Mechanisms Involved in Osmotic Backwashing of Fouled Forward Osmosis (FO) Membranes

Organic matter leads to one of the biggest problems in membranes: fouling. Developing efficient cleaning processes is therefore crucial. This study systematically examines how alginic acid fouling formed under different physical and chemical conditions affect osmotic backwashing cleaning efficiency in forward osmosis (FO). The fouling layer thickness before and after osmotic backwashing was measured by confocal laser scanning microscopy in order to assess cleaning efficiency, along with pure water flux (PWF) measurements. Osmotic backwashing was found to be very efficient. In the absence of Ca2+ in the feed solution, the alginate fouling thickness was fouling layer thickness down to Backwashing also became less effective when the initial membrane fouling flux increased using a draw solution (DS) of 4 M NaCl, with 91 μm of fouling remaining, despite a fullPWF restoration. The use of Ca2+ in the osmotic backwashing DS caused the fouling layer to expand and not be removed due to flux reversal and the interaction between the alginic acid layer and Ca2+. A reduction in the PWF recovery was obtained, showing the type of salt used for backwashing has a severe influence on cleaning efficiency.

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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.