王志
教授天津大学化工学院
教师简介

王志


 博士、教授、博士生导师


学习和工作经历


1993 在天津大学获得化学工程专业博士学位
1990 在天津大学获得化学工程专业硕士学位
1987 在天津大学获得化工机械与设备专业学士学位
2010.12-至今 天津大学化工学院党委书记
2008-至今 天津市膜科学与海水淡化技术重点实验室主任
2003.4-2005.5天津大学化工学院党委副书记
2005.6-2010.12 天津大学化工学院副院长
2002.10-至今  博士生导师,天津大学化工学院
2001.6-至今   教授,天津大学化工学院
1996.5-1997.10 博士后,德国卡尔斯鲁厄大学
1993.9-2001.6  讲师、副教授,天津大学化工学院


研究方向


膜和膜过程,海水淡化,气体分离。


学术兼职


全国膜与膜过程学术会议组织委员会副主任及学术委员会委员
全国分离膜标准化技术委员会委员
中国海水淡化与水再利用学会常务理事
天津市膜技术工程中心学术委员
北京膜学会常务理事
清洁燃气产业技术创新联盟理事
高性能膜材料领域国家“十二五”规划咨询专家
中国膜科学与技术报告会学术委员会委员
中国仪表功能材料学会功能膜材料专业委员会委员
《Membrane Water Treatment》、《膜科学与技术》编委


学术研究和教学表彰/奖励


“膜与膜过程基础研究”获天津市自然科学奖一等奖(2005,排名第二)
“化工类多元化和国际化研究生教育创新体系的构建”获国家级教学成果奖一等奖(2009,排名第三)


近五年来讲授的主要课程


(1) 膜科学与技术(本科生),选修课,4学时/周,5届,共300人
(2) 膜科学与技术原理(全日制硕士生),选修课,4学时/周,5届,共300人
(3) 膜与膜过程理论(博士生),选修课,4学时/周,5届,共75人


承担的实践性教学


毕业论文(本科生),2004级~2008级(近五年)化学工程与工艺专业、分子科学与工程专业,共20人;
大学生科技创新实践25人;澳大利亚国际实习学生4人。


教材和专著编写

《膜分离技术及其应用》,化学工业出版社,2003
《海水淡化工程》,化学工业出版社,2002
《工业纯水制备技术、设备及应用》,化学工业出版社,2007
《膜技术前沿及工程应用》,中国纺织出版社, 2009

部分学术研究课题(负责人)


(1) 863项目
CO2分离膜材料及规模化制备技术(2012.01-2014.12)
(2)973项目
面向应用过程的膜材料设计与制备基础研究——抗CO2塑化功能高分子膜材料设计及分离过程研究 (2009.01-2013.12)
(3) 973项目
吸收、吸附和膜分离CO2的基础研究 (2006.10-2010.10)
(4) 973项目
面向应用过程的膜材料设计与制备基础研究——促进传递机理与膜材料的设计新方法(2003.12-2008.11)
(5)国家自然科学基金
海因衍生物改性反渗透膜的制备方法及其可再生耐氯抗生物污染性能研究(2013.01-
2016.12)
(6) 国家自然科学基金
用于CO2捕集的CO2/N2分离膜研究 (2009.01-2012.12 )
(7) 国家自然科学基金
膜面不同尺度峰谷结构形成及对膜性能影响的机制与调控 (2007.01-2009.12)
(8) 国家自然科学基金
固定载体促进传递膜载体分布优化理论和技术研究 (2005.01-2007.12)


代表性学术论文


[1]Wang, M.,Wang, Z.,Li, S., etc., A high performance antioxidative and acid resistant membrane   prepared by interfacial polymerization for CO2 separation from flue gas[J]. Energy & Environmental Science, Feb, 2013, 6 (2),pp 539-551.
[2]Qiao, Z.,Wang, Z.,Zhao, S., etc., High adsorption performance polymers modified by small molecules containing functional groups for CO2 separation[J]. RSC Advances, 2013, 2013, 3 (1),pp 50-54.
[3]Zhao, S.,Wang, Z.,Wei, X., etc., Performance Improvement of Polysulfone Ultrafiltration Membrane Using Well-Dispersed Polyaniline-Poly(vinylpyrrolidone) Nanocomposite as the Additive[J]. Industrial & Engineering Chemistry Research, Mar 28, 2012, 51 (12),pp 4661-4672.
[4]Zhao, J.,Wang, Z.,Wang, J., etc., High-performance membranes comprising polyaniline nanoparticles incorporated into polyvinylamine matrix for CO2/N-2 separation[J]. Journal of Membrane Science, Jun 1, 2012, 403 pp 203-215.
[5]Yuan, F.,Wang, Z.,Yu, X., etc., Visualization of the Formation of Interfacially Polymerized Film by an Optical Contact Angle Measuring Device[J]. Journal of Physical Chemistry C, May 31, 2012, 116 (21),pp 11496-11506.
[6]Yuan, F.,Wang, Z.,Li, S., etc., Formation-structure-performance correlation of thin film composite membranes prepared by interfacial polymerization for gas separation[J]. Journal of Membrane Science, Dec 1, 2012, 421 pp 327-341.
[7]Yao, K.,Wang, Z.,Wang, J., etc., Biomimetic material-poly(N-vinylimidazole)-zinc complex for CO2 separation[J]. Chemical Communications, 2012, 2012, 48 (12),pp 1766-1768.
[8]Wei, X.,Wang, Z.,Wang, J., etc., A novel method of surface modification to polysulfone ultrafiltration membrane by preadsorption of citric acid or sodium bisulfite[J]. Membrane Water Treatment, Jan, 2012, 3 (1),pp 35-49.
[9]Li, S.,Wang, Z.,Yu, X., etc., High-Performance Membranes with Multi-permselectivity for CO2 Separation[J]. Advanced Materials, Jun 26, 2012, 24 (24),pp 3196-3200.
[10]Zhao, S.,Wang, Z.,Wei, X., etc., Performance improvement of polysulfone ultrafiltration membrane using PANiEB as both pore forming agent and hydrophilic modifier[J]. Journal of Membrane Science, Dec 1, 2011, 385 (1-2),pp 251-262.
[11]Zhao, S.,Wang, Z.,Wei, X., etc., Comparison study of the effect of PVP and PANI nanofibers additives on membrane formation mechanism, structure and performance[J]. Journal of Membrane Science, Dec 1, 2011, 385 (1-2),pp 110-122.
[12]Zhao, S.,Wang, Z.,Wang, J., etc., PSf/PANI nanocomposite membrane prepared by in situ blending of PSf and PANI/NMP[J]. Journal of Membrane Science, Jul 1, 2011, 376 (1-2),pp 83-95.
[13]Yuan, S.,Wang, Z.,Qiao, Z., etc., Improvement of CO2/N-2 separation characteristics of polyvinylamine by modifying with ethylenediamine[J]. Journal of Membrane Science, Aug 15, 2011, 378 (1-2),pp 425-437.
[14]Yu, X.,Wang, Z.,Zhao, J., etc., An Effective Method to Improve the Performance of Fixed Carrier Membrane via Incorporation of CO2-selective Adsorptive Silica Nanoparticles[J]. Chinese Journal of Chemical Engineering, Oct, 2011, 19 (5),pp 821-832.
[15]Wang, M.,Wang, Z.,Wang, J., etc., An antioxidative composite membrane with the carboxylate group as a fixed carrier for CO2 separation from flue gas[J]. Energy & Environmental Science, Oct, 2011, 4 (10),pp 3955-3959.
[16]Yu, X.,Wang, Z.,Wei, Z., etc., Novel tertiary amino containing thin film composite membranes prepared by interfacial polymerization for CO2 capture[J]. Journal of Membrane Science, Oct 15, 2010, 362 (1-2),pp 265-278.
[17]Wei, X.,Wang, Z.,Zhang, Z., etc., Surface modification of commercial aromatic polyamide reverse osmosis membranes by graft polymerization of 3-allyl-5,5-dimethylhydantoin[J]. Journal of Membrane Science, Apr 1, 2010, 351 (1-2),pp 222-233.
[18]Wei, X.,Wang, Z.,Fan, F., etc., Advanced treatment of a complex pharmaceutical wastewater by nanofiltration: Membrane foulant identification and cleaning[J]. Desalination, Feb, 2010, 251 (1-3),pp 167-175.
[19]Wei, X.,Wang, Z.,Chen, J., etc., A novel method of surface modification on thin-film-composite reverse osmosis membrane by grafting hydantoin derivative[J]. Journal of Membrane Science, Jan 1, 2010, 346 (1),pp 152-162.
[20]Duan, M.,Wang, Z.,Xu, J., etc., Influence of hexamethyl phosphoramide on polyamide composite reverse osmosis membrane performance[J]. Separation and Purification Technology, Oct 13, 2010, 75 (2),pp 145-155.
[21]Yang, D.,Wang, Z.,Wang, J., etc., Potential of Two-Stage Membrane System with Recycle Stream for CO2 Capture from Postcombustion Gas[J]. Energy & Fuels, Oct, 2009, 23 pp 4755-4762.
[22]Yang, D.,Wang, Z.,Wang, J., etc., Parametric Study of the Membrane Process for Carbon Dioxide Removal from Natural Gas[J]. Industrial & Engineering Chemistry Research, Oct 7, 2009, 48 (19),pp 9013-9022.
[23]Fan, Z.,Wang, Z.,Sun, N., etc., Performance improvement of polysulfone ultrafiltration membrane by blending with polyaniline nanofibers[J]. Journal of Membrane Science, Jul 15, 2008, 320 (1-2),pp 363-371.
[24]Fan, Z.,Wang, Z.,Duan, M., etc., Preparation and characterization of polyaniline/polysulfone nanocomposite ultrafiltration membrane[J]. Journal of Membrane Science, Mar 5, 2008, 310 (1-2),pp 402-408.
[25]Cai, Y.,Wang, Z.,Yi, C., etc., Gas transport property of polyallylamine-poly(vinyl alcohol)/polysulfone composite membranes[J]. Journal of Membrane Science, Mar 5, 2008, 310 (1-2),pp 184-196.
[26]Wang, Z.,Liu, G.,Fan, Z., etc., Experimental study on treatment of electroplating wastewater by nanofiltration[J]. Journal of Membrane Science, Nov 15, 2007, 305 (1-2),pp 185-195.
[27]Wang, Z.,Li, M.,Cai, Y., etc., Novel CO2 selectively permeating membranes containing PETEDA dendrimer[J]. Journal of Membrane Science, Mar 1, 2007, 290 (1-2),pp 250-258.
[28]Zhao, J.,Wang, Z.,Wang, J., etc., Influence of heat-treatment on CO2 separation performance of novel fixed carrier composite membranes prepared by interfacial polymerization[J]. Journal of Membrane Science, Oct 20, 2006, 283 (1-2),pp 346-356.
[29]Zhang, Y.,Wang, Z.,Zhao, J., etc., Selective permeation of CO2 through modified PVSA/PS composite membrane[J]. Chinese Chemical Letters, Feb, 2006, 17 (2),pp 277-280.
[30]Wang, Z.,Yi, C. H.,Zhang, Y., etc., CO2-facilitated transport through poly(N-vinyl-gamma-sodium aminobutyrate-co-sodium acrylate) polysulfone composite membranes[J]. Journal of Applied Polymer Science, Apr 5, 2006, 100 (1),pp 275-282.

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