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初永宝1, 郑文龙1, 王雪1, 王燕2a,2b
(1.青岛科技大学 环境与安全工程学院,山东 青岛 266042;
2.山东大学 a.环境学院;b.污染控制与资源化研究山东重点试验室,山东 济南 255100)
摘要: 通过微絮凝超滤联用工艺处理不同温度水样,研究了微絮凝过程中有机物的去除效果、形成絮体特性的差异以及温度的不同所造成超滤膜污染的主要机理。结果表明:微絮凝过程对低温水样的有机物去除率优于常温水样;尽管不同温度水样微絮凝过程中形成絮体的大小差异不大,但低温水样形成絮体的分型维数要明显小于常温水样,这说明低温水样形成的絮体结构更加疏松;不论是低温水样还是常温水样,滤饼层阻力都在造成膜污染的膜阻力因素中占主导地位,与常温水样相比,低温水样有较高的相对膜通量,说明低温水样形成的絮体造成的膜污染程度要比常温水样轻,这与低温条件下所形成絮体的特性密切相关。
关键词: 微絮凝超滤; 絮体特性; 膜污染
中图分类号: X 52 文献标志码: A
Mechanism of Membrane Fouling During the Treatment of Low Temperature Water by Microflocculationultrafiltration Process
CHU Yongbao1, ZHENG Wenlong1,WANG Xue1,WANG Yan2a,2b
(1.College of Environmental and Safety Engineering,Qingdao University of Science and Technology, Qingdao 266042, China;
2.a.School of Environmental Science and Engineering; b.Shandong Key Laboratory of Water Pollution Control and Resource Reuse,Shandong University, Jinan 255100,China)
Abstract: The removal of organic matter, the floc properties and the main mechanism of membrane fouling resulting from different temperatures were investigated using microflocculationultrafiltration process in this study. Results showed that flocs formed in the lower temperature water sample had better removal efficiencies of nature organic matter. Though the floc size of flocs formed in different temperatures water samples had little difference, fractal dimension (dF) of the flocs formed in the low temperatures water sample was lower than normal temperatures water sample, indicating that flocs formed in the low temperatures water sample had a more loose interior floc structure. The cake layer was the main reason of membrane fouling regardless of the temperature of water sample. The lower temperature water sample with higher permeate flux had better performance in membrane fouling and this was closely related to the floc properties of flocs formed in low temperature.
Key words: microflocculationultrafiltration process; floc properties; membrane fouling
收稿日期: 20141207
基金项目: 国家自然科学基金项目(21207074; 21377072);山东省优秀中青年科学家科研奖励基金项目(BS2012HZ004).
作者简介: 初永宝(1977—),女,副教授.
文章编号: 16726987(2016)02017406; DOI: 10.16351/j.16726987.2016.02.011