副高职称
柳君侠
作者:        发布时间:2023-10-27        阅读量:


姓名:柳君侠Liu Junxia

职称:副教授

职务:系党支部书记

导师类别:硕士研究生导师

电子邮箱:whjunxia@163.com

研究方向:膜法水和废水处理技术;污泥处理及资源化利用

招生专业:市政工程/土木水利

1.个人简介300字内)

从事膜法水处理(仿生超浸润膜制备过程理论模拟、膜工艺特性优化)和污泥资源化利用研究工作;主持国家自然科学基金、中国博士后基金、校企产学研合作等多项课题;近五年在环境水处理权威刊物ESTWRJMSDesalSPT等发表学术论文30篇。

2.学习与工作经历

2018/04-至今 8040威尼斯 8040威尼斯 青百副教授

2017/04-2017/10, 香港大学 土木工程系 访问学者

2016/03-2018/03 8040威尼斯 化学工程与技术 博士后

2011/09-2015/03  同济大学 市政工程 博士

2010/07-2011/08  中国市政工程西北设计研究院 给排水设计师

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

3.学术兼职

《中国给水排水》、《长沙理工大学学报》期刊青年编委

Water特刊 Guest Editor

环境领域ESTWRJMSTop期刊评审人

4.荣誉与奖励

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

窗体顶端

5.期刊论文

近五年发表论文

[1] Junxia Liu, W Fu, X Yuet al. Relating critical and limiting fluxes to metastable and long-term stable fluxes through collision-attachment theory. Water Research, 2023, 238, 120010 中科院SCI 1

[2] Junxia Liu, Huang T, 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. 中科院1

[3] Junxia Liu, 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. 中科院1

[4] Junxia Liu; Tang, Zhiwei; Yang, Haiyan, et al., Dissecting the role of membrane defects with low-energy barrier on fouling development through A collision Attachment-Monte Carlo approach. Journal of membrane science, 2022, 633, 120981. 中科院1

[5] Junxia Liu; 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. 中科院1

[6] Junxia Liu; 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. 中科院1

[7] Junxia Liu, Cao Pei, Xuri Yu, Tian Li, Wen Sun, Yaxiang Zhao, Hongjian Yu, Wang Zhihong*, A coupled molybdenum disulfide - copper modification of NF membrane for enhanced anti-bacterial performance, Desalination, 2023,546, 116190, 中科院SCI 2

[8] Junxia Liu, Xuri Yu, Ennuo Yang, et al., A combined tannic acid-copper-iron coating of ultrafiltration membrane for enhanced anti-bacterial and algal-inhibition performance, Journal of Water Process Engineering, 2022, 50, 103250, 中科院SCI 2

[9] 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. 中科院2

[10] Junxia Liu, Z. Tang, J. Zeng, Y., et al. Degradation of Acid Orange 8 through Photocatalysis in the Presence of ZnO/polyaniline Nanocomposite, International Journal of Electrochemical Science, 17 (2022), 220857, 中科院4

[11] Junxia Liu; Chen, Kang; Zou, K; 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. 中科院4

[12] Junxia Liu; 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. 中科院4

[13] Junxia Liu, 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. 中科院3

[14] Wen Sun, Tian Li, Yaoliang Hong, Huaqiang Chu, Junxia Liu, et al., Dual-objective optimization of biofuel-based solid oxide fuel cell energy system for hydrogen fuel and desalinated water production, Fuel, 334 (2023), 126598, 中科院1

[15] W. Sun, T. Li, H. Chu, Junxia Liu, et al., Modeling the ammonia absorption capacity of choline chloride-based deep eutectic solvents with artificial neural networks, Journal of Cleaner Production, 373 (2022), 133764 中科院1

[16] Wen Sun, Tian Li, Huaqiang Chu, Junxia Liu, et al., Techno-economic optimization of a fuel cell with nanomaterial structure membrane for electricity and heating production, Fuel, 329(2022) 125410 中科院1

[17] Zhao, Dongsheng; Liu, Junxia; Qiu, L; 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. 中科院1

[18] 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.  中科院SCI 1

[19] W. Sun, Y. Hong, T. Li, H. Chu, Junxia Liu, et al., Biogenic synthesis of reduced graphene oxide decorated with silver nanoparticles (rGO/Ag NPs) using table olive (olea europaea) for efficient and rapid catalytic reduction of organic pollutants, Chemosphere, 310 (2023), 136759, 中科院2

[20] 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 中科院SCI 2

[21] W. Sun, Y. Hong, T. Li, H. Chu, Junxia. Liu, et al., Application of sulfur-coated magnetic carbon nanotubes for extraction of some polycyclic aromatic hydrocarbons from water resources, Chemosphere, 309 (2022), 136632 中科院2

[22] H. Yang, X. Yu, Junxia. Liu, et al., A Concise Review of Theoretical Models and Numerical Simulations of Membrane Fouling, Water, 14 (2022), 3537, 中科院3

[23] 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. 中科院3

[24] T. Li, H. Yu, J. Tian, Junxia Liu*, et al., PAC-UF Process Improving Surface Water Treatment: PAC Effects and Membrane Fouling Mechanism, Membranes, 12 (2022), 12050487 中科院4

[25] 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. 中科院4

[26] 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.

[27] 余健鑫,钟绮芸,龙志宏,李婧,陈康,杨海燕,柳君侠. 基于XDLVO理论的亲疏水组分对超滤膜污染的影响, 中国给水排水2023, 39(7):35-42

[28] 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

[29] 余健鑫,陈淦茁,李婧,邹康兵,陈康,柳君侠; 东江水有机物特性变化规律及超滤膜污染中试研究, 水处理技术, 2024

[30] 符威,玉旭日,龙志宏,柳君侠,王琦. 南方某城市地下综合管廊应急排水设计思考, 净水技术, 2024

6.主要著作

近五年著作

[1] Dong Bingzhi; Li Tian; Chu Huaqiang; He Huan; Zhu shumin; Liu Junxia. Drinking Water Treatment: New Membrane Technology[M]. Tongji University Press Co. Ltd, Shanghai, Walter de Gruyter GmbH, Berlin/Boston 2022

7.知识产权

近五年知识产权

[1] 柳君侠,萧智仁,符威,王志红,带有改进结构的可调脉冲布水器,2023-06-13,中国,ZL 202320303086.X (实用新型)

[2] 柳君侠,钟绮芸,周扬帆,龙志宏,王志红,水处理用的过滤膜组件,2023-06-13,中国,ZL 202320230029.3 (实用新型)

[3] 柳君侠,张丽芳,陈霖纯,余健鑫,龙志宏,冯力,一种泥水处理用沉淀分离装置,2023-06-20中国,ZL 202320231143.8 (实用新型)

[4] 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, 2022-8-19, 中国, ZL 2020 1 1251043.9 (发明专利)

[5]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 2018 1 0126595.3 (发明专利)

[6]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, 2021-12-07, 中国, ZL 2021 2 0261776.4 (实用新型)

8.项目情况

近五年项目

(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 2020-12, 23.0万元, 主持

(2) 8040威尼斯青年百人基金, 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, 20.0万元, 主持

(3) 校企产学研合作项目, 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,主研

(4) 校企产学研合作项目, 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,2022-012024-01,  46.6 万元, 主持

(5) 校企产学研合作项目, 复合絮凝技术强化水厂污泥浓缩过程研究,2023-082025-08,  12.0 万元, 主持

(6) 校企产学研合作项目, 基于PVDF 压力式超滤膜过滤性能评价及老化机制研究,2023-10 2025-10,  48.3 万元, 主持

9.我的团队

已毕业学生去向:科研院所(广东水科院)、设计院(上海市政、西南市政、西北市政)、水务公司(深圳水务、佛山水务、广州自来水)。

在读研究生情况市政工程专业7名,工程管理专业2

在研课题方向:膜过程液流传质模拟、仿生超浸润智能膜制备、污泥基净水材料制备

招生意向:每年招2–3名研究生;欢迎给排水/环境/化学/材料等学科背景,热爱科研,有志于深造的学生报考希望学生做到三心:热心(积极主动)、用心(动脑思考)、恒心(持之以恒)


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