EFFECT OF POLYMER MODIFIER ON THE MOR­PHO­LOGICAL AND SEPARATION PROPERTIES OF ASYMMETRIC MICROFILTRATION MEMBRANES

Grace A V Magalhães-Ghiotto, L.C.A. Molina, K. Kudelko, L. Nichi, R. Bergamasco, Yuliya Dzyazko
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Abstract

Modifying membranes is a common approach to improve their separation ability. In this work, a series of the membranes, which reject colloidal particles of a wide diapason of their size,  was obtained by modifying acetylcellulose microfiltration membranes with such rigid polymer as polymetylmetacrilate.  Modifying was carried out by precipitation of the polymer in the membrane pores, the depo­sition occurred from the solutions of different concentrations. Other way was multistage modifying membranes with a solution of the same concentration. Depending on the modifying conditions, the content of polymetylmetacrilate in the membrane was 12–44 %. Morphology of the composite membranes was investigated by optical and scanning electron microscopy. Water test was also performed at 0.5–2 bar. The membranes obey Darcy law  in this pressure diapason: thus, the pore radius can be approximately estimated from the Hagen – Poiseuille equation (18–63 nm). Moreover, the modifier minimizes the membrane compression: a decrease of the permeate flux is 19 % (pristine membrane) and 8% for membranes containing high amount of the modifier. Colloidal solutions of water-soluble linear polymer, vegetable protein and sol of hydrated iron oxide were also used for the membrane testing. The selectivity of  composite membranes enhances in the row: polyvinylpyrollidone < iron oxide < albumin. In the case of vegetable protein, the membrane selectivity is 30–91% depending on the modifier content. The membrane with highest separation ability was used for clarification of goiaba juice: the selectivity towards total solids was found to reach 33–73%. The permeate can be used for the production of beverages, the  concentrate is recommended for confectionery industry. Polymethylmetacrylate can be recommended for the membrane modifying as a binding component in the composite containing also hydrophilic agent.
聚合物改性剂对不对称微滤膜的形态和分离性能的影响
改性膜是提高膜分离能力的常用方法。在这项工作中,通过使用聚甲基丙烯酸甲酯等硬质聚合物对乙酰纤维素微滤膜进行改性,获得了一系列能排斥大小不一的胶体颗粒的膜。 改性是通过聚合物在膜孔中的沉淀进行的,沉淀来自不同浓度的溶液。另一种方法是用相同浓度的溶液对膜进行多级改性。根据改性条件的不同,膜中聚甲基丙烯酸甲酯的含量为 12-44%。通过光学显微镜和扫描电子显微镜对复合膜的形态进行了研究。还在 0.5-2 巴的压力下进行了水测试。在这种压力下,膜符合达西定律:因此,孔隙半径可根据哈根-普瓦塞耶方程(18-63 nm)近似估算。此外,改性剂能最大限度地减少膜的压缩:渗透通量减少了 19%(原始膜),而含有大量改性剂的膜则减少了 8%。膜测试还使用了水溶性线性聚合物、植物蛋白和水合氧化铁溶胶的胶体溶液。复合膜的选择性按聚乙烯吡咯烷酮 < 氧化铁 < 白蛋白的顺序增强。对于植物蛋白,膜的选择性为 30-91%,取决于改性剂的含量。分离能力最高的膜被用于澄清戈亚巴果汁:对总固体的选择性达到 33-73%。渗透物可用于生产饮料,浓缩物建议用于糖果业。建议将聚甲基丙烯酸甲酯用作膜改性剂,作为含有亲水剂的复合材料中的结合成分。
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