化工学报 ›› 2016, Vol. 67 ›› Issue (5): 1957-1964.DOI: 10.11949/j.issn.0438-1157.20151422

• 分离工程 • 上一篇    下一篇

超亲水SiO2修饰膜的构建及其油水乳液分离性能

郑细鸣, 范荣玉, 肖启瑞, 孔祥龙   

  1. 武夷学院生态与资源工程学院, 绿色化工技术福建省高等学校重点实验室, 福建 武夷山 354300
  • 收稿日期:2015-09-08 修回日期:2016-01-21 出版日期:2016-05-05 发布日期:2016-05-05
  • 通讯作者: 郑细鸣
  • 基金资助:

    福建省自然科学基金项目(2015J01602,2014J01056)。

Fabrication of silica-decorated membranes with superhydrophilicity and evaluation of their performances in oil/water emulsion separation

ZHENG Ximing, FAN Rongyu, XIAO Qirui, KONG Xianglong   

  1. Key Laboratory of Green Chemical Technology of Fujian Province University, School of Ecology and Resource Engineering, Wuyi University, Wuyishan 354300, Fujian, China
  • Received:2015-09-08 Revised:2016-01-21 Online:2016-05-05 Published:2016-05-05
  • Supported by:

    supported by the Natural Science Foundation of Fujian Province (2015J01602, 2014J01056).

摘要:

采用硅溶胶和多巴胺作为修饰剂,通过一步反应在微孔聚丙烯膜(MPPM)表面构建了SiO2修饰层。利用FTIR、ESEM和EDX对膜进行了表征,发现膜表面SiO2颗粒分布非常均匀。水/油接触角及纯水通量实验结果表明,修饰膜具有超亲水性及水下超疏油性,透水能力强,水通量大[在0.1 MPa时,水通量高达(5100±500)L·m-2·h-1]。油水乳液分离结果表明,修饰膜能有效分离油水乳液,在0.05 MPa时,油水乳液水通量达2830 L·m-2·h-1,油截留率达99.8%以上,即使过膜压力增大到0.15 MPa,油截留率也能保持在99%以上,且膜表面的油污可用水清洗除去,展现出很好的应用前景。

关键词: 膜, 表面, 超亲水性, 二氧化硅, 油水乳液分离, 聚丙烯

Abstract:

Using silica sol and dopamine as modifiers, SiO2 modified layers were fabricated on the microporous polypropylene membrane (MPPM) surfaces by a one-step reaction. The resulted membranes were characterized with Fourier transform infrared spectroscopy (FTIR), environmental scanning electron microscopy (ESEM) and energy dispersive X-ray spectroscopy (EDX). The results confirmed that SiO2 particle was dispersed uniformly on the MPPM surface. The experimental results of water/oil contact angle and water flux indicated that the modified membranes had superhydrophilic and underwater superoleophobicity surface, and showed excellent water permeability with high pure water flux [up to (5100±500) L·m-2·h-1 under 0.1 MPa]. The separation abilities of the modified membranes for oil/water emulsion were also investigated. It was found that the modified membranes could separate oil/water emulsion effectively with a highest water flux of 2830 L·m-2·h-1 and oil rejection ratio of 99.8% under 0.05 MPa. Moreover, oil rejection ratio of the modified membranes could retain above 99% even under 0.15 MPa, and the oil attached to the membrane surfaces could be easily removed by water. The silica-decorated membranes enable an efficient and energy-saving separation for oil/water emulsion, and thus shows attractive potential for practical oil/water emulsion separation.

Key words: membrane, surface, superhydrophilicity, silica, oil/water emulsion separation, polypropylene

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