| POLYMERS AND POLYMER MATRIX COMPOSITES |
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| Research Progress of Chitosan Membranes in Pervaporation Separation |
| LIU Xiaoqi, ZHANG Ting'an, LIU Yan, ZHAO Xinxin
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| Key Laboratory for Ecological Metallurgy of Multimetal Mineral (Ministry of Education), Northeast University, Shenyang 110819, China |
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Abstract Pervaporation membranes were extensively applied in many fields such as food, medicine, agriculture, and chemical industry as an energy efficient alternative and economy technology of separating liquid mixtures. However, most membranes suffer from the drawback of separation performance, thermal stability, acid and alkaline resistance and environmental protection in aqueous solution. Chitosan is one of the most promi-sing pervaporation membrane materials, that exhibits excellent separation performance due to its strong hydrophilicity and easy modification, good stability, wide sources and biodegradability.
However, pure chitosan membranes usually show low separation selectivity due to high swelling which limits the performance of these membranes in PV separations. To enhance the membrane performance, chitosan needs modification to get good mechanical property and achieve better selectivity towards water. Grafting, crosslinked, blending with other polymers and filling with inorganic chemicals are easy methods to adjust the structure and properties of chitosan membranes. A convenient and effective approach to improve their mechanical strength is to form a crosslinked network in the membranes. Nevertheless, this approach usually consumes vast amounts of hydrophilic groups and significantly depresses the permeation flux. Compared with pristine chitosan membranes, blended membranes have higher permselectivity and permeation flux, while they suffer more swelling for pervaporation dehydration of organics. The incorporation of a small amount of inorganic particles in the compo-site membranes not only improves the separation characteristics, but also influences the mechanical and thermal properties significantly. Howe-ver, the interface differentiation, between the chitosan and inorganic particles, and the presence of a strong agglomeration tendency of these inorganic particles make it highly critical to fabricate a suitable composite membranes. To make the chitosan membranes have more excellent comprehensive properties, researchers often adopt multiple modification methods at the same time.
This paper introduces the background and separation mechanism of pervaporation and analyzes the film formation mechanism, preparation and application of chitosan membranes. The research and development of chitosan pervaporation membranes was summarized from the perspective of organic/water and organic/organic. Finally, the future development trend was prospected in order to provide a reference for the rapid preparation of new chitosan membranes with high stability and excellent separation performance.
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Published: 19 January 2021
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| Fund:This work was financially supported by the National Natural Science Foundation of China (51774078, 51874078, U1702253, U1508217). |
About author:: Xiaoqi Liu received her M.S. degree in School of Materials Science and Engineering at Lanzhou University of Technology in 2018. She is currently pursuing her Ph.D. at the School of metallurgy, Northeastern University under the supervision of Prof. Tingan Zhang. Her research has focused on application of polymer composites in hydrometallurgy.
Ting'an Zhang, professor at School of metallurgy, Northeastern University, distinguished professor of “Kunlun scholar” of Qinghai province. His research interests are special metallurgy, metallurgical materials integration, and metallurgical reaction engineering research. He has published 10 textbooks and monographs, published more than 300 academic papers, and declared (authorized) more than 100 national invention patents. |
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