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化学工业与工程 2023, Vol. 40 Issue (2) :104-113    DOI: 10.13353/j.issn.1004.9533.20210840
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纳米粒子/氧化石墨烯改性复合膜制备及其分离性能研究
周建敏1, 李非1,2,3,4, 费莉婷1, 刘杰1,2,3,4, 纪志永1,2,3,4, 赵颖颖1,2,3,4, 汪婧1,2,3,4, 郭小甫1,2,3,4, 王士钊1,2,3,4, 袁俊生1,2,3,4, 毕京涛1,2,3,4, 刘凤禛1
1. 河北工业大学化工学院/海水资源高效利用化工技术教育部工程研究中心, 天津 300130;
2. 河北省现代海洋化工技术协同创新中心, 天津 300130;
3. 河北工业大学化工学院/化工节能过程集成与资源利用 国家-地方联合工程实验室, 天津 300130;
4. 天津市本质安全化工技术重点实验室, 天津 300130
Preparation and separation performance of nanoparticles/graphene oxide modified composite membrane
ZHOU Jianmin1, LI Fei1,2,3,4, FEI Liting1, LIU Jie1,2,3,4, JI Zhiyong1,2,3,4, ZHAO Yingying1,2,3,4, WANG Jing1,2,3,4, GUO Xiaofu1,2,3,4, WANG Shizhao1,2,3,4, YUAN Junsheng1,2,3,4, BI Jingtao1,2,3,4, LIU Fengzhen1
1. Engineering Research Center for Chemical Technology of the Efficient Utilization of Seawater Resources, School of Chemical Engineering, Hebei University of Technology, Tianjin 300130, China;
2. Collaborative Innovation Center of Hebei Modern Marine Chemical Technology, Tianjin 300130, China;
3. Chemical Energy Conservation Process Integration and Resource Utilization National-Local Joint Engineering Laboratory, School of Chemical Engineering, Hebei University of Technology, Tianjin 300130, China;
4. Tianjin Key Laboratory of Intrinsically Safe Chemical Technology, Tianjin 300130, China

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摘要 采用真空抽滤-压力喷涂的方法,以聚酰胺纳滤膜为基膜,制备了氧化石墨烯和二氧化钛纳米粒子质量比为1∶1、2∶1、3∶1和4∶1的复合膜GOT1、GOT2、GOT3和GOT4以及氧化石墨烯和二氧化硅纳米粒子质量比为1∶1、2∶1、3∶1和4∶1的复合膜GOS1、GOS2、GOS3和GOS4。通过SEM、EDS、XPS和GIWAXS方法对GOT复合膜和GOS复合膜进行了分析表征,结果表明,氧化石墨烯和纳米粒子均匀负载在聚酰胺纳滤膜表面。研究了复合膜的性能,并推测了复合膜的净水机理。其中GOT复合膜在0.75 MPa下水通量可达50 L·m-2·h-1,相较于原始基膜提高了25%,显示出了最佳的水通量性能,并且在保持较高通量的同时,对盐溶液和重金属离子的截留率仍能维持在90%左右。真空抽滤-压力喷涂的方法为氧化石墨烯复合膜的制备提供一种新的工艺思路,为废水处理提供了一种更高净化效率的复合膜。
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周建敏
李非
费莉婷
刘杰
纪志永
赵颖颖
汪婧
郭小甫
王士钊
袁俊生
毕京涛
刘凤禛
关键词氧化石墨烯   纳米粒子   复合膜   改性     
Abstract: On the surface of polyamide nanofiltration membranes (NF), two nanoparticle intercalated graphene oxide composite membranes were loaded through the method of vacuum extraction filtration and pressure spraying. The mass ratio of graphene oxide (GO) and silicon dioxide (SiO2) for the composite membranes GOS1, GOS2, GOS3, GOS4 were 1∶1, 2∶1, 3∶1, 4∶1. The mass ratio of graphene oxide (GO) and titanium dioxide (TiO2) for the composite membranes GOT1, GOT2, GOT3, GOT4 were 1∶1, 2∶1, 3∶1, 4∶1. GOT and GOS composite membranes were characterized by SEM, EDS,XPS and GIWAXS. The results indicated that GO and nanoparticles were uniformly loaded on the surface of polyamide nanofiltration membrane. The properties of the composite membranes were studied, and the water purification mechanism of the composite membranes was speculated. The water flux of GOT composite membrane can reach 50 L·m-2·h-1 at 0.75 MPa, which is 25% higher than that of the original substrate. The GOT composite membrane has the higher flux and maintain a higher flux compared with the original base membrane. At the same time, it can maintain a rejection rate of about 90% for salt solution and heavy metal ions. This topic provides a new process idea for the preparation of graphene oxide composite membranes and a composite membrane with higher purification efficiency for wastewater treatment.
Keywordsgraphene oxide   nanoparticles   composite membranes   modification     
Received 2021-11-05;
Fund:大学生创新创业训练计划项目(X202110080047);河北省自然科学基金项目(E2020202020);河北省高等学校科学技术研究项目(QN2019048);国家重点研究发展计划项目(2016YFB0600504);教育部创新团队发展计划项目(IRT14R14);河北省现代海洋化工技术协同创新中心项目(冀教科[2013]37号);基于工学并举的"海水提钾"一体化教学资源构建(202002046010);基于科教融合的海洋技术专业教学资源构建及应用探索(2020GJJG029)。
Corresponding Authors: 李非,讲师,E-mail:lifei2008@hebut.edu.cn     Email: lifei2008@hebut.edu.cn
About author: 周建敏(1999-),女,研究方向为绿色化学、工业结晶。
引用本文:   
周建敏, 李非, 费莉婷, 刘杰, 纪志永, 赵颖颖, 汪婧, 郭小甫, 王士钊, 袁俊生, 毕京涛, 刘凤禛.纳米粒子/氧化石墨烯改性复合膜制备及其分离性能研究[J].  化学工业与工程, 2023,40(2): 104-113
ZHOU Jianmin, LI Fei, FEI Liting, LIU Jie, JI Zhiyong, ZHAO Yingying, WANG Jing, GUO Xiaofu, WANG Shizhao, YUAN Junsheng, BI Jingtao, LIU Fengzhen.Preparation and separation performance of nanoparticles/graphene oxide modified composite membrane[J].  Chemcial Industry and Engineering, 2023,40(2): 104-113
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