柳君侠

作者: 时间:2019-03-19 点击数:

姓名(加全拼):柳君侠 Liu Junxia

职称:副教授 

导师类别:硕士生导师

科研方向:给水处理理论与技术、膜法水处理理论与技术

个人简介(300字内):从事给水处理技术(混凝、吸附、氧化)及饮用水膜法水处理技术(微滤、超滤、纳滤、反渗透)研究工作;主持国家自然科学基金、中国博士后基金、校企产学研合作项目等多项课题;在环境领域Environmental Science & TechnologyJournal of membrane science 等权威刊物发表学术论文近30篇。

个人主页:

招生学院:土木与交通工程学院

联系方式:whjunxia@163.com

学科领域:给排水科学与工程、市政工程、环境工程

教育背景:

2011.09-2015.03 同济大学 市政工程   博士

 2007.09-2010.06 武汉理工大学 市政工程  硕士

 2003.09-2007.06 武汉理工大学 给水排水工程  学士

学术兼职:《中国给水排水》青年编委会委员;环境领域Environmental Science & TechnologyWater researchJournal of membrane scienceTop期刊评审人。

工作经历:

1. 2018/04-至今, 广东工业大学, 土木与交通工程学院, 青年百人 副教授

2. 2017/04-2017/10, 香港大学, 土木工程系, 访问学者

3. 2016/03-2018/03, 广东工业大学, 化学工程与技术,博士后

主要荣誉:第三届全国泵与泵站知识竞赛一等奖(优秀指导老师);南阳市自然科学优秀学术成果一等奖

主讲课程:泵与泵站、水力学、水工程经济、水工艺基础理论、创新能力提升项目等

主要论文:

[1] Liu, Junxia; Fan, Yaqian.; Sun, Yuhui; et al., Modelling the critical roles of zeta potential and contact angle on colloidal fouling with a coupled XDLVO - collision attachment approach. Journal of membrane science, 2021, 623, 119048.

[2] Liu, Junxia; Zhao, Yaxiang; Fan, Yaqian; et al., Dissect the role of particle size through collision-attachment simulations for colloidal fouling of RO/NF membranes. Journal of membrane science, 2021, 638, 119679.

[3] Liu, Junxia; Chen, Kang; Zou, Kangbing; et al, Insights into the roles of membrane pore size and feed foulant concentration in ultrafiltration membrane fouling based on collision-attachment theory, Water Environment Research, 2021, 93(4):516-523.

[4] Liu Junxia; Qiu Yongting; He Linjuan; et al. Effect of iron and phosphorus on the microalgae growth in co-culture. Archives of Microbiology, 2021, 203(2):733-740.

[5] Liu, Junxia; Huang, Tianyi; Ji, Ruibo; et al., Stochastic Collision–Attachment-Based Monte Carlo Simulation of Colloidal Fouling: Transition from Foulant–Clean-Membrane Interaction to Foulant–Fouled-Membrane Interaction. Environmental Science & Technology, 2020, 54, (19), 12703-12712.

[6] Liu, Junxia; Yang, Ennuo; Huang, et al; Correlation of chemically irreversible fouling with organic constituents of feed water during membrane filtration, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2020, 597: 124790.  

[7] Liu Junxia, Wang Zhihong, Tang Chuyang, et al. Modeling dynamics of colloidal fouling of RO/NF membrane with a novel collision-attachment approach, Environmental Science & Technology, 2018, 52,1471-1478

[8] Liu Junxia, Tan Kaiting, He Linjuan, et al. Effect of limitation of iron and manganese on microalgae growth in fresh water. Microbiology-SGM, 2018, 164:1514-1521.

[9] Liu Junxia, Tian Jing, Wang Zhihong, et al. Mechanism analysis of powdered activated carbon controlling microfiltration membrane fouling in surface water treatment. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2017,517:45-51

[10] Liu Junxia, Wang Zhihong, He Huan, et al. Fractionating natural organic matter and evaluating the fouling potentials of its components. Desalination & Water Treatment, 2017, 74:87-95

[11] Liu Junxia, Wang Zhihong, Cao Bangqing, et al. Ultrafiltration of distinct natural waters: Correlation of fouling resistances with water constituents. Desalination & Water Treatment, 2017, 68, 40-48

[12] Junxia Liu, Wang Zhihong, Dong Bingzhi, et al. Fouling behaviors correlating to water characteristics during the ultrafiltration of micro-polluted water with and without the addition of powdered activated carbon. Colloids and Surfaces A, Physicochemical and Engineering Aspects, 2016, 511:320-328

[13] Liu Junxia, Dong Bingzhi, Cao Bangqing et al. Microfiltration process for surface water treatment: Irreversible fouling identification and chemical cleaning. RSC Advances, 2016, 6, 114005 - 114013

[14] Zhao, Dongsheng; Liu, Junxia; Qiu, Liping; et al., Roles of a mixed hydrophilic/hydrophobic interface in the regulation of nanofiltration membrane fouling in oily produced wastewater treatment: Performance and interfacial thermodynamic mechanisms, Separation and Purification Technology, 2021, 257, 117970.

[15] Gao, Kuo; Li, Tian*; Liu, Junxia; et al., Ultrafiltration membrane fouling performance by mixtures with micromolecular and macromolecular organics, Environmental Science-Water Research & Technology, 2019, 5(2): 277-286.  

[16] Zhao, Dongsheng; Qiu, Liping; Song, Jiyu; Liu, Junxia; et al., Efficiencies and mechanisms of chemical cleaning agents for nanofiltration membranes used in produced wastewater desalination, Science of the Total Environment, 2019, 652: 256-266.  

[17] Zhao, Dongsheng; Song, Jiyu; Xu, Jun; Yu, Shuili*; Liu, Junxia; et al., Behaviours and mechanisms of nanofiltration membrane fouling by anionic polyacrylamide with different molecular weights in brackish wastewater desalination, Desalination, 2019, 468: 114058

[18] Dong, Bingzhi; Gui, Bo; Liu, Junxia*; et al., Analysis of organic foulants in the coagulation-microfiltration process for the treatment of Taihu Lake, Environmental Technology, 2019, 40(25): 3364-3370.  

[19] 赵亚翔; 柳君侠*; 王志红; 邹康兵; 新型抗污染膜材料研究进展,水处理技术, 2022, 48(1): 18-22

[20] 何林娟; 邹康兵; 盛云鸽; 杨恩诺; 黄添怡; 柳君侠*; 王志红; 预处理对东江原水超滤过程中膜污染的控制作用, 中国给水排水, 2021, 37(1): 16-21,27.

主要著作:

        [1] Dong Bingzhi; Li Tian; Chu Huaqiang; He Huan; Zhu shumin; Liu Junxia. Drinking Water Treatmen

        t: New Membrane Technology[M]. Tongji University Press Co. Ltd, Shanghai, Walter de Gruyter GmbH,

        Berlin/Boston 2022

知识产权:

      [1]邹康兵; 范雅倩;何林娟; 袁永钦; 王志红; 柳君侠; 周毓, 一种基于超滤膜的水处理系统, 2021-12-0 

      7, 中国, ZL 2021 2 0261776.4

       [2]谭凯婷; 王志红; 仇永婷; 刘立凡; 柳君侠, 一种天然富藻水体的除藻方法, 2021.11,02中国, ZL 201

       8 1 0126595.3

       [3] 杨恩诺; 柳君侠; 王志红; 邹康兵, 一种联合抑制膜生物污染改性超滤膜及其制备方法和应用, 20

       20-11-11, 中国, 202011251043.9

科研项目:

       (1) 国家自然科学基金青年项目, 51708130, 地表水超滤过程中化学不可逆膜污染微观作用机理及控

   制研究, 2018-01-01 2020-12-31, 23万元, 主持

       (2) 中国博士后科学基金面上项目, 2017M612616, 藻类纯培养及混合培养胞外有机物超滤膜污染行

    为及控制, 2017-01 2018-03, 5万元, 主持

       (3) 广东工业大学青年百人计划专项基金, 220413259, 三价铁-单宁酸络合物改性超滤膜制备工艺研

    究, 2018-09 2022-12, 20万元, 主持

       (4) 广州自来水有限公司校企合作项目, 珠三角水源条件下基于饮用水水质末端控制的超滤膜污染

    成分识别及控制技术研究, 2020-01 2022-1297 万元,参与

       (5) 广州自来水有限公司校企合作项目, 广州市中心城区地下深埋综合管廊给水管道入廊安装关键

    技术研究,2022.01-2024.01, 47 , 主持

 

地址:广州市番禺区广州大学城外环西路100号广东工业大学行政楼325    邮编:510006

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