王越

天津大學化工學院教授

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王 越:天津大學化工學院教授
學術兼職:
國際期刊《Desalination and Water Treatment》副主編
北京膜學會常務理事兼副秘書長
中國水利企業協會脫鹽分會副秘書長
學術成就:
國家重點研發計劃項目首席科學家,中國化工集團公司科學技術獎特等獎(2012年),天津市《水處理技術高效強化創新團隊》和《膜材料與膜技術創新團隊》核心成員。
科研項目:
2017“水資源高效開發利用”國家重點專項(2017YFC0403800)
國家科技部“十二五”科技支撐計劃項目(2013BAB08B03)
國家自然科學基金面上項目(21276178)
天津市科技興海計劃項目(KJXH2012-03)
天津市海洋經濟創新發展區域示範項目
論著專利:
1.Zhiqiang Wang, Yue Wang*, Dongya Ma, Shichang Xu, Jixiao Wang. Investigations on the fouling characteristics of ion-doped polypyrrole/carbon nanotube composite electrodes in capacitive deionization by using half cycle running mode. Separation and Purification Technology 192 (2018) 15–20
2.Yue Wang*, Yawei Duan, Jie Zhou, Shichang Xu, Shichang Wang. Introducing Pre-pressurization/ depressurization Grooves to Diminish Flow Fluctuations of A Rotary Energy Recovery Device: Numerical Simulation and Validating Experiment. Desalination 413 (2017) 1-9
3.Jie Zhou, Yue Wang*, Yawei Duan, Junjie Tian, Shichang Xu. Capacity flexibility evaluation of a reciprocating-switcher energy recovery device for SWRO desalination system. Desalination 416 (2017) 45–53
4.Dongya Ma, Yue Wang*, Xinyu Han, Shichang Xu, Jixiao Wang. Electrode configuration optimization of capacitive deionization cells based on zero charge potential of the electrodes. Separation and Purification Technology, 189(2017)467-474
5.Shichang Xu, Yanqiu Liu, Yue Wang*, Mengke Zhang, Qinqin Xiao, Yawei Duan. Influential analysis of concentration polarization on water flux and power density in PRO process: modeling and experiments. Desalination 412 (2017) 39–48
6.Enle Xu, Yue Wang*, JieZhou, Shichang Xu, ShichangWang. Theoretical Investigations on Rotor Speed of the Self-driven Rotary Energy Recovery Device through CFD Simulation. Desalination 398 (2016) 189–197
7.Yue Wang*, Yafei Ren, Jie Zhou, Enle Xu, Shichang Xu. Functionality test of an innovative single-cylinder energy recovery device for SWRO desalination system, Desalination 388 (2016) 22-28
8.Yue Wang*, Mengke Zhang, Yanqiu Liu, Qinqin Xiao, Shichang Xu. Quantitative evaluation of concentration polarization under different operating conditions for forward osmosis process, Desalination 398 (2016) 106–113