个人简况
姓 名: 武春瑞
职 称: 研究员、博士生导师
电 话: 13682173017
电子信箱: wuchunrui@tiangong.edu.cn
教育背景
1997.09 – 2001.07 河北工业大学化工学院高分子化工专业 本科
2001.09 – 2006.09 大连理十大正规赌官方网站学化工学院高分子材料专业 博士 导师蹇锡高院士
工作经历
2006.10至今,十大正规赌官方网站从事教学科研工作,现任省部共建分离膜与膜过程国家重点实验室副主任,十大正规赌官方网站分析测试中心副主任。
人才称号
[1]中国膜行业杰出青年科技工作者,2020
[2]天津市中青年科技创新领军人才,2019
[3]天津市131人才第一层次人选,2018
[4]天津市河东区突出贡献专家,2018
[5]天津市高校中青年骨干创新人才,2017
科技奖励
[1] 疏水性中空纤维膜制备关键技术及应用,中国纺织工业联合会科学技术奖,一等奖2015.10,主持
[2] 工业循环冷却水膜集成净化过程研究,香港桑麻基金会纺织科技奖二等奖,2015.9,主持
学术兼职
[1] 2015.12至今 中国膜工业协会疏水膜技术及工程应用专业委员会 秘书长
[2] 2017.11 至今 中国海洋学会海水淡化与水再利用分会青年专家委员会 主任
[3] 2021.01 至今 北京膜学会 常务理事兼副秘书长
研究兴趣
[1] 疏水膜微结构形成原理与调控方法,膜蒸馏过程、强化方法与应用技术研究
[2] 超滤膜材料功能化与孔结构控制方法,膜污染进程与调控策略研究
[3] 纳滤膜分离层微结构形成原理与调控方法,纳滤膜过程与应用技术研究
科研项目
[1]国家重点研发计划“社会治理与智慧社会科技支撑(平安中国)”重点专项,“DNA物证勘查管控关键技术研究”,项目号:2021YFC330010003,2021.12-2024.11,主持人(148万)
[2]国家自然科学面上基金项目“污水处理超滤膜持久亲水-均孔微结构同步构建及协同净化机理”项目号:52170047,2022.01-2025.12,主持人(58万)
[3]国家自然科学面上基金项目“微污染水体净化双荷电纳滤膜分离层微结构调控方法及协同分离原理” 项目号:51978466, 2020.1-2023.12,主持人(60万)
[4]国家自然科学基金重点项目“膜法饮用水处理介观尺度调控原理” 项目号:51638011, 2017.1-2021.12,子课题主持人(60/300万)
[5]国家自然科学面上基金项目“废水处理膜蒸馏用氟烷基化多孔碳微球-PVDF混合基质膜构建与微结构调控机制” 项目号:51578376, 2016.1-2019.12,主持人(71万)
[6]国家自然科学面上基金项目“废水处理用类荷叶表面微纳米结构超疏水微孔膜的制备及膜蒸馏机理”项目号:51278336, 2013.1-2016.12,主持人(80万)
[7]国家自然科学基金青年基金项目“基于两相流原理的膜蒸馏过程鼓气强化方法与机理研究”,项目号:21106100,2012.1-2014.12,主持人(26万)
[8]中央引导地方科技发展专项“水污染防治用超疏水中空纤维膜微界面调控方法与制备关键技术研究及平台建设”,项目号:18ZYPTJC00010,2018.10-2019.09,主持人(200万)
[9]天津市应用基础及前沿技术研究计划(重点项目)“智能响应高抗污染中空纤维膜结构设计与制备”,项目号:15JCZDJC37500,2015.04~2018.03。主持人(20万)
[10]天津市科技兴海项目“高通量疏水膜与多效膜蒸馏高收率海水淡化技术开发与示范”,项目号:KJXH2014-03,2014.08~2017.07。主持人(340万)
[11]天津市应用基础及前沿技术研究计划“废水处理用表面仿生微纳米结构超疏水微孔膜的研制”,项目号:11JCYBJC04700,2011.04-2014.03。主持人(10万)
[12]企业委托项目“重金属离子高截留率PVC中空纤维复合膜研制”,2015.04~2020.12。主持人(60万)
[13]企业委托项目“PVC膜疏油改性方法研究”,2013.04~2015.03。主持人(40万)
[14]企业委托项目 “膜蒸馏系统反应器” 2007年。主持人(30万)
[15]国家自然科学面上基金项目“无级多效膜蒸馏过程研究” 项目号:21176188,2012.1-2014.12。第二完成人
[16]天津市应用基础及前沿技术研究计划(市重点基金)“废水浓缩减排与淡化再利用技术研究”项目号:09JCZDJC26300,2009.1-2011.12。第二完成人
[17]国家高技术研究发展计划“863”项目“工业循环冷却水膜集成净化处理技术”项目号:2008AA06Z303,2008.6-2010.12。第二完成人
[18]国家自然科学基金青年基金项目“中空纤维支撑液膜过程稳定性及传质强化的研究”项目号:20706003,2008.1-2010.12。第二完成人
[19]国家”十一五”科技支撑计划项目“膜蒸馏海水淡化技术研究”,项目号:2006BAB03A06,2007.1-2010.12。子课题,第二完成人
[20]天津市科技攻关重大项目,中空纤维膜成膜机理与性能优化研究,项目号:05YFGDGX10000-1,第二完成人
[21]天津科技发展计划项目,高生物相容性聚醚砜中空纤维血液透析膜研究,项目号:05YFJMJC12000,第二完成人
论文
[1]Q. Zhou, S. Liu, J. She, X. Wang, X. Lu, C. Wu*. In-situ aeration-assisted polydopamine/ polyethyleneimine copolymerization and deposition for rapid and uniform membrane modification, J. Membr. Sci., 657(2022)120662.
[2]S.H. Liu, C.Tang, J. She, X. Lu, H. Zhang, C.Wu*. Poly(ionic liquid) copolymer blended polyvinyl chloride ultrafiltration membranes with simultaneously improved persistent hydrophilicity and pore uniformity, Separation and Purification Technology, 295(2022)121270.
[3]R.W. Zhang, W.Y. Tang, H.F. Gao, C.R. Wu*, S. Gray, X.L. Lu*. In-situ construction of superhydrophobic PVDF membrane via NaCl-H2O induced polymer incipient gelation for membrane distillation, Separation and Purification Technology, 274(2021)13.
[4]S. Liu, Y. Chu, C. Tang, S. He*, C. Wu*. High-performance chlorinated polyvinyl chloride ultrafiltration membranes prepared by compound additives regulated non-solvent induced phase separation, J. Membr. Sci. 2020, 612: 118434.
[5]X. Kong, G. Shu, X. Lu, C. Wu, G. Y. Manipulating membrane surface porosity via deep insight into surfactants during nonsolvent induced phase separation, J. Membr. Sci. 611 (2020) 7.
[6]X. Kong, Y. Sun, X. Lu, C. Wu. Facile preparation of persistently hydrophilic poly(vinylidene fluoride-co-trifluorochloroethylene) membrane based on in -situ substitution reaction, J. Membr. Sci. 609 (2020) 8.
[7]L. Zhao, C. Wu, X. Lu, Ng. D ,Truong, YB , J. Zhang, Z. Xie. Theoretical guidance for fabricating higher flux hydrophobic/hydrophilic dual-layer membranes for direct contact membrane distillation. J. Membr. Sci. 596 (2020) 11.
[8]G .Yang, Z .Xie, S. Zhang, H .Zheng, K. Cai, Cran, M. Ng. D, C .Wu, Gray, S . Functionalized Carbon Nanotube-Mediated Transport in Membranes Containing Fixed-Site Carriers for Fast Pervaporation Desalination, ACS Appl. Mater. Interfaces ,2020, 12( 45)50918–50928.
[9]X. Kong, X. Lu, J. Liu, C. Wu, S .Zhang. Improved Desalination Performance of Polyvinylidene Fluoride Hollow Fiber Membranes by the Intermediate Role of Surfactants, Macromolecular Materials and engineering,2020,306(1).
[10]S. Liu, C. Wu*, X. Hou, J. She, S. Liu, X. Lu, H. Zhang, S. Gray. Understanding the chlorination mechanism and the chlorine-induced separation performance evolution of polypiperazine-amide nanofiltration membrane, J. Membr. Sci., 2019,573: 36-45.
[11]L. Zhao, C. Wu, X. Lu, Ng. D, Truong. YB, Z. Xie. Activated carbon enhanced hydrophobic/hydrophilic dual-layer nanofiber composite membranes for high-performance direct contact membrane distillation, Desalination,2018,446:59-69.
[12]C. Wu, Z. Wang, S. Liu, Z. Xie, H. Chen, X. Lu. Simultaneous permeability, selectivity and antibacterial property improvement of PVC ultrafiltration membranes via in-situ quaternization, J. Membr. Sci., 2018,548: 50-58.
[13]H. Zhang, X. Lu*, Z. Liu, Z. Ma, S. Wu, Z. Li, X. Kong, J. Liu, C. Wu*, The unidirectional regulatory role of coagulation bath temperature on cross-section radius of the PVDF hollow-fiber membrane, J. Membr. Sci.,, 2018, 550: 9-17.
[14]S. Liu, C. Wu*, W. Hung, X. Lu. One-step constructed ultrathin Janus polyamide nanofilm with opposite charges for highly efficient nanofiltration, J. Mater. Chem. A, 2017, 5, 22988 – 22996.(Front Cover)
[15]C. Wu, W. Tang, J. Zhang, S. Liu, Z. Wang, X. Wang, X. Lu. Preparation of super-hydrophobic PVDF membrane for MD purpose via hydroxyl induced crystallization-phase inversion, J. Membr. Sci., 2017, 543:288-300.
[16]H. Yan, X. Lu*, C. Wu*, X. Sun, W. Tang. Fabrication of a super-hydrophobic polyvinylidene fluoride hollow fiber membrane using a particle coating process, J. Membr. Sci., 2017, 533: 130-140.
[17]H.Zhang, X Lu*, Z. Liu, Z. Ma, S. Wu, Z. Li, X. Kong, C. Wu*, Study of the dual role mechanism of water-soluble additive in low temperature thermally-induced phase separation, J. Membr. Sci., 2017, 543: 1-9.
[18]Z. Ma, X Lu*, C. Wu*, C.Liu, Z. Liu, H.Zhang, Assessment of combination of pressure-relief pulsation flow and diatomite filter-aid in membrane fouling control, J. Taiwan Inst. Chem. E, 2017, 80: 464-471.
[19]Z. Liu, Q. Gao, X. Lu, Z .Ma, H. Zhang, C. Wu. Experimental study of the optimal vacuum pressure in vacuum assisted air gap membrane distillation process, Desalination,2017,414:63-72.
[20]Z. Ma, X. Lu, C. Wu, Q. Gao, L. Zhao, H. Zhang, Z. Liu. Functional surface modification of PVDF membrane for chemical pulse cleaning, J. Membr. Sci., 2017, 524:389-399.
[21]C. Wu, S. Liu, Z. Wang, J. Zhang, X. Wang, X. Lu, Y. Jia, W.-S. Hung, K.-R. Lee. Nanofiltration membranes with dually charged composite layer exhibiting super-high multivalent-salt rejection. J. Membr. Sci., 2016, 517:64–72.
[22]L. Zhao, C. Wu*, Z. Liu, Q. Zhang, X. Lu. Highly porous PVDF hollow fiber membranes for VMD application by applying a simultaneous co-extrusion spinning process, J. Membr. Sci., 2016, 505:82-91.
[23]L. Zhao, X. Lu*, C. Wu*, Q. Zhang. Flux enhancement in membrane distillation by incorporating AC Particles into PVDF matrix, J. Membr. Sci., 2016, 500: 46-54.
[24]C. Wu, Z. Li, X.SU, Y.Jia, X. Lu. Novel ultrafiltration membrane fouling control method with in-situ filter aid of perlite particles, Desal. Wat. Treat, 2016,57: 5365-5375.
[25]Z. Li, X. Lu, C. Wu, Q. Gao, S. Wu, H. Zhang, Study on the interfacial activation of dual surfactants in the process of forming porous membranes, J. Membr. Sci., 2016, 520: 823-831.
[26]C. Wu, H. Yan, Z. Li, X. Lu. Ammonia recovery from high concentration wastewater of soda ash industry with membrane distillation process, Desalination and Water Treatment,2016,57:6792-6800.
[27]C. Wu, Z. Li, J. Zhang, Y. Jia, Q. Gao, X. Lu. Study on the heat and mass transfer in air-bubbling enhanced vacuum membrane distillation, Desalination, 2015,373:16-26.
[28]J. Liu, X. Lu, C. Wu. Effect of annealing conditions on crystallization behavior and mechanical properties of NIPS poly(vinylidene fluoride) hollow fiber membranes, Joural Of Applied Polymer Science,2013,129:1417-1425.
[29]Z, Yang, X. Lu, C. Wu, X. Wang, Effect of pretreatment on membrane fouling and VMD performance in the treatment of RO-concentrated wastewater, Desalination and Water Treatment ,2013,51: 6994-7003.
[30]C. Wu, Y . Jia, H. Chen, X . Wang, Q. Gao, X. Lu, Study on air-bubbling strengthened membrane distillation process, Desalination and Water Treatment,2011,34:2-5
[31]H. Chen, C. Wu, Y. Jia, X . Wang, X. Lu. Comparison of three membrane distillation configurations and seawater desalination by vacuum membrane distillation, Desalination and Water Treatment,2011,28: 321-327.
[32]C. Wu, Y. Jia, H. Chen, X. Wang, X. Lu. Membrane distillation and novel integrated membrane process for reverse osmosis drained wastewater treatment, Desal. Wat. Treat, 2010,18:1-6.
[33]C. Wu, Y. Jia, H. Chen, X. Wang, X. Lu. Study on air-bubbling strengthened membrane distillation process, Desal. Wat. Treat, 2011,34: 2-5.
[34]C. Wu, S. Zhang, D. Yang, F. Yang, X. Jian. Preparation, characterization and application of a novel thermal stable composite nanofiltration membrane, J. Membr. Sci. 2009,326: 429-434.
[35]C. Wu, S. Zhang, D. Yang, F. Yang, X. Jian. Preparation, characterization and performance of thermal stable poly(phthalazinone ether amide) UF membranes, J. Membr. Sci. 2008, 311: 360-370.
[36]C. Wu, S. Zhang, D. Yang, J. Wei, C. Yan, X. Jian. Preparation, characterization and application in wastewater treatment of a novel thermal stable composite membrane. J. Membr. Sci. 2006, 279: 238-245.
专利
[1]武春瑞,唐文勇,张仁伟,吕晓龙.无机盐水溶液协同调控相分离制备超疏水微孔膜的方法:中国,CN201710871257.8,[P]. 专利申请日:2017-09-25,授权公告日:2021-07-30.
[2]武春瑞,刘四华,吕晓龙,李振刚,孙学超. 聚氯乙烯中空纤维复合纳滤膜及其制备方法:中国, CN201410707997.4 [P]. 专利申请日:2014-11-28,授权公告日:2019-10-11.
[3]武春瑞,刘四华,王中阳,吕晓龙,孙学超. 一种高通量的复合膜制备方法:中国专利,CN201510866698.X [P]. 专利申请日:2015-11-30, 授权公告日:2018.01.30
[4]武春瑞,孙学超,吕晓龙,唐文勇,赵丽华. 透气疏水混合基质膜及其制备方法:中国专利, CN201510891557.3 [P]. 专利申请日:2015-12-7, 授权公告日:2017.12.12
[5]武春瑞,王中阳,吕晓龙,刘四华,孙学超,王暄. 一种抗菌PVC超滤膜的制备方法:中国专利, CN201610192335.7 [P]. 专利申请日:2016-07-20,授权公告日:2019-09-03.
[6]武春瑞,唐文勇,申丹丹,吕晓龙,孙学超,刘四华.无机粒子诱导相分离制备超疏水混合基质膜的方法:中国专利,ZL201611158290.8[P].专利申请日:2016-12-15,授权公告日:2019-11-01.
[7]武春瑞,郭寒雨. 一种抗润湿的超疏水膜及制备方法:中国专利, 201811074945.2[P]. 专利申请日:2018-09-15,授权公告日:2021-11-19.
[8]武春瑞,汤超. 咪唑类功能化离子液体共聚物合成及合金超滤膜制备方法:中国专利, 202010375102.7[P]. 专利申请日:2020-05-07,授权公告日:2021-11-10.
[9]武春瑞,史乐,刘四华,郭乐乐,吕晓龙. 高选择性聚酰胺纳滤膜及其制备方法:中国专利, CN201910519444.9[P].专利申请日:2019-6-17,授权公告日:2022-4-5.
[10]武春瑞,刘四华,薛白,厍景国,史乐,吕晓龙. 具有图案表面的聚酰胺纳滤膜及制备方法:中国专利, CN201910669603.3[P].专利申请日:2019-7-24,授权公告日:2022-2-18.
[11]武春瑞,张仁伟,杜军璇,吕晓龙. 具有开放网络表面结构的超疏水膜及其制备方法:中国专利, 201910700241.X[P].专利申请日:2019-7-31,授权公告日:2022-4-5.
[12]武春瑞,厍景国,史乐,刘四华,吕晓龙. 双电层复合纳滤膜的制备方法:中国专利,CN202010482734.3[P]. 专利申请日:2020-06-01.
[13]武春瑞,厍景国,高海富,陈小乐,宋姿萍,吕晓龙.持久亲水均孔超滤膜制备方法:中国专利,CN202110843413.6 [P]. 专利申请日:2021-07-26,,授权公告日:2022-5-17.
[14]吕晓龙,武春瑞,倪非非,一种用于血液净化的双面改性分离膜及其制备、使用方法:中国专利, CN201611108215.0[p].2016.12.06
[15]吕晓龙,马忠,陈倩倩,武春瑞,郑淑云,孔晓,一种基于化学清洗响应的分离膜及其使用方法:中国专利,CN201610886409.7 [P].2016.10.11
[16]王捷,吴云,武春瑞,杨光,一种便携式水净化装置:中国专利,CN 201510815758.5 [p].2015.11.20
[17]高启君,吕晓龙,刘超,王晟林,王月,武春瑞,减压组合气隙膜蒸馏方法及其装置:中国专利,CN201410479708.X[p].2014.9.19
[18]吕晓龙,王晟林,武春瑞,高启君,刘超,王月,减压多效膜蒸馏方法及其装置:中国专利,CN201410479625.0[p]. 2014.09.19
[19]吕晓龙,王晟林,武春瑞,高启君,液隙多效膜蒸馏工艺及其装置:中国专利,CN 201410478587.7 [p]. 2014.09.18
[20]吕晓龙,王攀,陈华艳,高启君,武春瑞,王暄,贾悦,一种多效蒸发装置与方法:中国专利,CN201310243871.1 [p].2013.