Combined Effects of Surface Roughness, Solubility Parameters, and Hydrophilicity on Biofouling of Reverse Osmosis Membranes.

IF 3.3 4区 工程技术 Q2 CHEMISTRY, PHYSICAL Membranes Pub Date : 2024-11-08 DOI:10.3390/membranes14110235
Neveen AlQasas, Daniel Johnson
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Abstract

The fouling of protein on the surface of reverse osmosis (RO) membranes is a surface phenomenon strongly dependent on the physical and chemical characteristics of both the membrane surface and the foulant molecule. Much of the focus on fouling mitigation is on the synthesis of more hydrophilic membrane materials. However, hydrophilicity is only one of several factors affecting foulant attachment. A more systematic and rationalized methodology is needed to screen the membrane materials for the synthesis of fouling-resistant materials, which will ensure the prevention of the accumulation of foulants on the membrane surfaces, avoiding the trial and error methodology used in most membrane synthesis in the literature. If a clear correlation is found between various membrane surface properties, in combination or singly, and the amount of fouling, this will facilitate the establishment of a systematic strategy of screening materials and enhance the selection of membrane materials and therefore will reflect on the efficiency of the membrane process. In this work, eight commercial reverse osmosis membranes were tested for bovine serum albumin (BSA) protein fouling. The work here focused on three surface membrane properties: the surface roughness, the water contact angle (hydrophilicity), and finally the Hansen solubility parameter (HSP) distance between the foulant understudy (BSA protein) and the membrane surface. The HSP distance was investigated as it represented the affinities of materials to each other, and therefore, it was believed to have an important contribution to the tendency of foulant to stick to the surface of the membrane. The results showed that the surface roughness and the HSP distance contributed to membrane fouling more than the hydrophilicity. We recommend taking into account the HSP distance between the membrane material and foulants when selecting membrane materials.

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表面粗糙度、溶解度参数和亲水性对反渗透膜生物污染的综合影响
蛋白质在反渗透膜(RO)表面的污垢是一种表面现象,与膜表面和污垢分子的物理和化学特性密切相关。减少污垢的主要方法是合成亲水性更强的膜材料。然而,亲水性只是影响污物附着的几个因素之一。需要一种更系统化和合理化的方法来筛选膜材料,以合成抗污垢材料,这将确保防止污垢在膜表面积累,避免文献中大多数膜合成所使用的试错方法。如果能在各种膜表面特性(组合或单独)与污垢量之间找到明确的相关性,这将有助于建立系统的材料筛选策略,加强膜材料的选择,从而反映膜过程的效率。在这项工作中,对八种商用反渗透膜进行了牛血清白蛋白(BSA)蛋白质污垢测试。这项工作的重点是膜的三种表面特性:表面粗糙度、水接触角(亲水性)以及污垢底物(BSA 蛋白质)与膜表面之间的汉森溶解度参数(HSP)距离。研究汉森溶解度参数距离是因为它代表了材料之间的亲和力,因此认为它对污物粘附在膜表面的倾向有重要影响。结果显示,表面粗糙度和 HSP 距离比亲水性对膜污垢的影响更大。我们建议在选择膜材料时考虑膜材料与污物之间的 HSP 距离。
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来源期刊
Membranes
Membranes Chemical Engineering-Filtration and Separation
CiteScore
6.10
自引率
16.70%
发文量
1071
审稿时长
11 weeks
期刊介绍: Membranes (ISSN 2077-0375) is an international, peer-reviewed open access journal of separation science and technology. It publishes reviews, research articles, communications and technical notes. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. There is no restriction on the length of the papers. Full experimental and/or methodical details must be provided.
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