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    阮雪华

    • 副教授   博士生导师   硕士生导师
    • 主要任职:无
    • 其他任职:辽宁省工业VOCs综合治理及利用工程技术研究中心副主任
    • 性别:男
    • 毕业院校:大连理工大学
    • 学位:博士
    • 在职信息:在职
    • 所在单位:化工学院
    • 学科:化学工程 膜科学与技术 水科学与技术
    • 办公地点:盘锦校区D01-310B
    • 电子邮箱:

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    个人简介

    长期从事新型高效分离膜及其工业化过程研究,包括膜材料设计合成、特种分离膜研制、膜组件高精度离散数值计算以及多源复杂分离过程优化设计等,负责国家自然科学项目2项,博士后科学基金面上一等资助1项,参与国家自然科学基金重大科研仪器研制项目、重点项目、面上项目等5项,在AIChE J.和J. Membr. Sci.等化工领域权威期刊发表SCI论文50余篇,申请国家发明专利55项,获授权24项,研发的工艺技术在中石化镇海炼化、胜利油田、中石油辽河石化、辽阳石化和大连石化等企业成功实施10余项,荣获国家科学技术进步二等奖2次(膜法高效回收与减排化工行业挥发性有机气体,第三完成人,2018年;含烃石化尾气梯级耦合膜分离技术研发与工业应用,第四完成人,2010年)、侯德榜化工科技青年奖1次、日内瓦国际发明展特别嘉许金奖1次、中国石油和化学工业联合会/协会科技进步一等奖2次、中国专利优秀奖1次,2019年入选辽宁省“兴辽英才计划”青年拔尖人才。




    已发表SCI学术论文


    [56]  Ionic liquid tuning nanocage size of MOFs through a two-step adsorption/infiltration strategy for enhanced gas screening of mixed-matrix membranes, Z Guo, W Zheng, X Yan, Y Dai, X Ruan, X Yang, X Li, N Zhang, G He, Journal of Membrane Science, 2020, DOI: 10.1016/j.memsci.2020.118101


    [55] A new long-side-chain sulfonated PPO/PBI amphoteric membrane for vanadium redox flow battery, B Jiang, L Hu, X Yan, J Sun, L Gao, Y Dai, X Ruan, G He, Chinese Journal of Chemical Engineering, 2020, DOI:10.1016/j.cjche.2020.03.010

     

    [54]Stretched ZIF-8@GO flake-like fillers via pre-Zn(II)-doping strategy to enhance CO2 permeation in mixed matrix membranes, K Yang, Y Dai, X Ruan, W Zheng, X Yang, R Ding, G He, Journal of Membrane Science, 2020, 601, 117934

     

    [53]Amino-functional ZIF-8 nanocrystals by microemulsion based mixed linker strategy and the enhanced CO2/N2 separation, R Ding, W Zheng, K Yang, Y Dai, X Ruan, X Yan, G He, Separation and Purification Technology, 2020, 236, 116209

     

    [52]Membrane-based separation technologies: from polymeric materials to novel process: an outlook from China, Z Jiang, L Chu, X Wu, Z Wang, X Jiang, X Ju, X Ruan, G He, Reviews in Chemical Engineering, 2019, 36,  67-105

     

    [51]Novel piperidinium functionalized anionic membrane for alkaline polymer electrolysis with excellent electrochemical properties, X Su, L Gao, L Hu, NA Qaisrani, X Yan, W Zhang, X Jiang, X Ruan, G He, Journal of Membrane Science, 2019, 581, 283-292

     

    [50]Long-branched and densely functionalized anion exchange membranes for fuel cells, J Liu, X Yan, L Gao, L Hu, X Wu, Y Dai, X Ruan, G He, Journal of Membrane Science, 2019, 581, 82-92

     

    [49]Superhydrophobic polypropylene membrane with fabricated antifouling interface for vacuum membrane distillation treating high concentration sodium/magnesium saline water, Y Shao, M Han, Y Wang, G Li, W Xiao, X Li, X Wu, X Ruan, X Yan, G He, X Jiang, Journal of Membrane Science, 2019, 579, 240-252

     

    [48]Fabrication of defect-free Matrimid® asymmetric membranes and the elevated temperature application for N2/SF6 separation, Y Dai, Q Li, X Ruan, Y Hou, X Jiang, X Yan, G He, F Meng, Z Wang, Journal of Membrane Science, 2019, 577, 258-265

     

    [47]ZIFs-modified GO plates for enhanced CO2 separation performance of ethyl cellulose based mixed matrix membranes, K Yang, Y Dai, W Zheng, X Ruan, H Li, G He, Separation and Purification Technology, 2019, 214, 87-94

     

    [46]Graphic synthesis method for multi-technique integration separation sequences of multi-input refinery gases, X Ruan, H Xiao, X Jiang, X Yan, Y Dai, G He, Separation and Purification Technology, 2019, 214, 187-195

     

    [45]ZIF-8 heterogeneous nucleation and growth mechanism on Zn(II)-doped polydopamine for composite membrane fabrication, X Ruan, X Zhang, Z Zhou, X Jiang, Y Dai, X Yan, G He, Separation and Purification Technology, 2019, 214, 95-103

     

    [44]Enhanced performance of superhydrophobic polypropylene membrane with modified antifouling surface for high salinity water treatment, Y Wang, G He, Y Shao, D Zhang, X Ruan, W Xiao, X Li, X Wu, X Jiang, Separation and Purification Technology, 2019, 214, 11-20

     

    [43]Membrane separation system for coalfired flue gas reclamation: process planning and initial design, X Ruan, H Xiao, J Shou, A Huang, W Xiao, G He, The Canadian Journal of Chemical Engineering, 2019, 97, 717-726

     

    [42]Hydration structures of vanadium/oxovanadium cations in the presence of sulfuric acid: a molecular dynamics simulation study, N Zhang, B Yang, J Huo, W Qi, X Zhang, X Ruan, J Bao, G He, Chemical Engineering Science, 2019, 195, 683-692

     

    [41]Interface-based crystal particle autoselection via membrane crystallization: from scaling to process control, X Jiang, D Lu, W Xiao, G Li, R Zhao, X Li, G He, X Ruan, AIChE Journal, 2019, 65 (2), 723-733

     

    [40]A novel hollow fiber membrane-assisted antisolvent crystallization for enhanced mass transfer process control, L Tuo, X Ruan, W Xiao, X Li, G He, X Jiang, AIChE Journal, 2019, 65 (2), 734-744

     

    [39]Novel triple tertiary amine polymer-based hydrogen bond network inducing highly efficient proton-conducting channels of amphoteric membranes for high-performance vanadium redox flow battery, H Zhang, X Yan, L Gao, L Hu, X Ruan, W Zheng, G He, ACS Applied Materials & Interfaces, 2019, 11, 5003-5014

     

    [38]"Fishnet-like" ion-selective nanochannels in advanced membranes for flow batteries, L Hu, L Gao, C Zhang, X Yan, X Jiang, W Zheng, X Ruan, X Wu, G Yu, G He, Journal of Materials Chemistry A, 2019, 7, 21112-21119

     

    [37]Understanding of imidazolium group hydration and polymer structure for hydroxide anion conduction in hydrated imidazolium-g-PPO membrane by molecular dynamics simulations, N Zhang, J Huo, B Yang, X Ruan, X Zhang, J Bao, W Qi, G He, Chemical Engineering Science, 2018, 192, 1167-1176

     

    [36]Tailored robust hydrogel composite membranes for continuous protein crystallization with ultrahigh morphology selectivity, L Wang, G He, X Ruan, D Zhang, W Xiao, X Li, X Wu, X Jiang, ACS Applied Materials & Interfaces, 2018, 10, 26653-26661

     

    [35]Integration of molecular dynamic simulation and free volume theory for modeling membrane VOC/gas separation, B Chen, Y Dai, X Ruan, Y Xi, G He, Frontiers of Chemical Science and Engineering, 2018, 12 (2), 296-305

     

    [34]Facile fabrication of reinforced homoporous MF membranes by in situ breath figure and thermal adhesion method on substrates, X Ruan, K Zhang, X Jiang, X Zhang, X Yan, N Zhang, G He, Journal of Membrane Science, 2018, 554, 291-299

     

    [33]Hydrophilic side chain assisting continuous ion-conducting channels for anion exchange membranes, Y Pan, Q Zhang, X Yan, J Liu, X Xu, T Wang, I El Hamouti, X Ruan, C Hao, G He, Journal of Membrane Science, 2018, 552, 286-294

     

    [32]Effect of hydrogen-bonding interaction on the arrangement and dynamics of water confined in a polyamide membrane: A molecular dynamics simulation, N Zhang, S Chen, B Yang, J Huo, X Zhang, J Bao, X Ruan, G He, The Journal of Physical Chemistry B, 2018, 122 (17), 4719-4728

     

    [31]Highly efficient tetrafluoroethylene recovery for batch polymerization system: Membrane preparation and process development, H Wang, Y Dai, X Ruan, X Jiang, X Yan, W Xiao, G He, Journal of Membrane Science, 2018, 549, 403-410

     

    [30]Structural characteristics of hydrated protons in ion conductive channels: synergistic effect of the sulfonate group and fluorine studied by molecular dynamics simulation, Y Song, J Huo, N Zhang, J Bao, X Zhang, X Ruan, G He, The Journal of Physical Chemistry C, 2018, 122 (4), 1982-1989

     

    [29]A novel long-side-chain sulfonated poly (2, 6-dimethyl-1, 4-phenylene oxide) membrane for vanadium redox flow battery, X Yan, J Sun, L Gao, W Zheng, Y Dai, X Ruan, G He, International Journal of Hydrogen Energy, 2018, 43 (1), 301-310

     

    [28]Hybrid control mechanism of crystal morphology modification for ternary solution treatment via membrane assisted crystallization, X Jiang, G Li, D Lu, W Xiao, X Ruan, X Li, G He, Crystal Growth & Design, 2017, 18 (2), 934-943

     

    [27]A novel imidazolium-based amphoteric membrane for high-performance vanadium redox flow battery, X Yan, C Zhang, Y Dai, W Zheng, X Ruan, G He, Journal of Membrane Science, 2017, 544, 98-107

     

    [26]Polyimide membrane system for tetrafluoroethylene recovery: Industrial plant, optimal operation and economic analysis, X Ruan, H Wang, Y Dai, X Yan, N Zhang, X Jiang, G He, Separation and Purification Technology, 2017, 188, 468-475

     

    [25]Enhancing mechanical stability and uniformity of 2-D continuous ZIF-8 membranes by Zn (II)-doped polydopamine modification, X Ruan, X Zhang, X Liao, X Jiang, Y Dai, X Yan, G He, Journal of Membrane Science, 2017, 541, 101-107

     

    [24]Polyethyleneiminegrafted membranes for simultaneously adsorbing heavy metal ions and rejecting suspended particles in wastewater, X Ruan, Y Xu, X Liao, G He, X Yan, Y Dai, N Zhang, L Du, AIChE Journal, 2017, 63, 4541-4548

     

    [23]Improvement of alkaline stability for hydroxide exchange membranes by the interactions between strongly polar nitrile groups and functional cations, X Yan, R Deng, Y Pan, X Xu, I El Hamouti, X Ruan, X Wu, C Hao, G He, Journal of Membrane Science, 2017, 533, 121-129

     

    [22]Formation mechanism of the spiral-like structure of a hydrogen bond network confined in a fluorinated nanochannel: a molecular dynamics simulation, N Zhang, Y Song, J Huo, Y Li, Z Liu, J Bao, S Chen, X Ruan, G He, The Journal of Physical Chemistry C, 2017, 121 (25), 13840-13847

     

    [21]Modeling and simulation of mitigating membrane fouling under a baffle-filled turbulent flow with permeate boundary, W Zhang, X Ruan, Y Ma, X Jiang, W Zheng, Y Liu, G He, Separation and Purification Technology, 2017, 179, 13-24

     

    [20]Molecular dynamics study of confined structure and diffusion of hydrated proton in Hyfion® perfluorosulfonic acid membranes, N Zhang, Z Liu, X Ruan, X Yan, Y Song, Z Shen, X Wu, G He, Chemical Engineering Science, 2017, 158, 234-244

     

    [19]Long-spacer-chain imidazolium functionalized poly (ether ether ketone) as hydroxide exchange membrane for fuel cell, X Yan, L Gao, W Zheng, X Ruan, C Zhang, X Wu, G He, International Journal of Hydrogen Energy, 2016, 41 (33), 14982-14990

     

    [18]Molecular dynamics simulation of the hydration structure and hydrogen bonding behavior of phenol in aqueous solution, N Zhang, X Ruan, Y Song, Z Liu, G He, Journal of Molecular Liquids, 2016, 221, 942-948

     

    [17]Effective reclamation of vent gas in ethylbenzene dehydrogenation by coupling multi-stage circle absorption and membrane units, X Ruan, L Wang, Y Dai, N Zhang, X Yan, G He, Separation and Purification Technology, 2016, 168, 265-274

     

    [16]Constructing a rigid crosslinked structure for enhanced conductivity of imidazolium functionalized polysulfone hydroxide exchange membrane, J Dai, G He, X Ruan, W Zheng, Y Pan, X Yan, International Journal of Hydrogen Energy, 2016, 41 (25), 10923-10934

     

    [15]Imidazole functionalized graphene oxide/PEBAX mixed matrix membranes for efficient CO2 capture, Y Dai, X Ruan, Z Yan, K Yang, M Yu, H Li, W Zhao, G He, Separation and Purification Technology, 2016, 166, 171-180

     

    [14]Pressure swing adsorption/membrane hybrid processes for hydrogen purification with a high recovery, B Li, G He, X Jiang, Y Dai, X Ruan, Frontiers of Chemical Science and Engineering, 2016, 10 (2), 255-264

     

    [13]The control and optimization of macro/micro-structure of ion conductive membranes for energy conversion and storage, X Yan, W Zheng, X Ruan, Y Pan, X Wu, G He, Chinese Journal of Chemical Engineering, 2016, 24 (5), 558-571

     

    [12]Membrane assisted cooling crystallization: process model, nucleation, metastable zone, and crystal size distribution, X Jiang, D Lu, W Xiao, X Ruan, J Fang, G He, AIChE Journal 62, 2016, (3), 829-841

     

    [11]Dual-membrane module and its optimal flow pattern for H2/CO2 Separation, B Chen, X Ruan, X Jiang, W Xiao, G He, Industrial & Engineering Chemistry Research, 2016, 55 (4), 1064-1075

     

    [10]Structural characteristics of hydrated protons in the conductive channels: effects of confinement and fluorination studied by molecular dynamics simulation, N Zhang, Y Song, X Ruan, X Yan, Z Liu, Z Shen, X Wu, G He, Physical Chemistry Chemical Physics, 2016, 18 (35), 24198-24209

     

    [9]Bis-ammonium immobilized polystyrenes with co-catalyzing functional end groups as efficient and reusable heterogeneous catalysts for synthesis of cyclic carbonate from CO2 and epoxides, Q Deng, G He, Y Pan, X Ruan, W Zheng, X Yan, RSC Advances, 2016, 6 (3), 2217-2224

     

    [8]High solvent resistance PTFPMS/PEI hollow fiber composite membrane for gas separation, Y Dai, X Ruan, F Bai, M Yu, H Li, Z Zhao, G He, Applied Surface Science, 2016, 360, 164-173

     

    [7]Further separation of HFC-23 and HCFC-22 by coupling multi-stage PDMS membrane unit to cryogenic distillation, X Ruan, Y Dai, L Du, X Yan, G He, B Li, Separation and Purification Technology, 2015, 156, 673-682

     

    [6]A novel membrane distillation response technology for nucleation detection, metastable zone width measurement and analysis, X Jiang, X Ruan, W Xiao, D Lu, G He, Chemical Engineering Science, 2015, 134, 671-680

     

    [5]Synergy of CO2 removal and light hydrocarbon recovery from oil-field associated gas by dual-membrane process, B Chen, X Ruan, W Xiao, X Jiang, G He, Journal of Natural Gas Science and Engineering, 2015, 26, 1254-1263

     

    [4]Particles deposition on microfiltration permeable boundary: modeling and simulation with two-ways coupling sphere model in a turbulent flow, WJ Zhang, XH Ruan, GH He, YL Ma, YF Liu, Engineering Computations, 2015, 32 (4), 1135-1152

     

    [3]Quaternary phosphonium-functionalized poly (ether ether ketone) as highly conductive and alkali-stable hydroxide exchange membrane for fuel cells, X Yan, S Gu, G He, X Wu, W Zheng, X Ruan, Journal of Membrane Science, 2014, 466, 220-228

     

    [2]Chemical potential analysis for directing the optimal design of gas membrane separation frameworks, X Ruan, G He, B Li, X Yan, Y Dai, Chemical Engineering Science, 2014, 107, 245-255

     

    [1] Cleaner recovery of tetrafluoroethylene by coupling residue-recycled polyimide membrane unit to distillation, X Ruan, G He, B Li, J Xiao, Y Dai, Separation and Purification Technology, 2014, 124, 89-98

     


    已授权国外/国际发明专利


    [1] Surface modification method based on polymerization and cross-linking solidification of dopamine and/or derivatives thereof, X Ruan, G He, X Liao, Y Xu, X Yan, Y Dai, N Zhang, US Patent 16323452, March 2020




    已授权国家发明专利


    [24] 一种深冷与膜耦合的乙烯循环制冷系统不凝排放气分离回收工艺, ZL201910247722.X, 贺高红, 杨晓航, 阮雪华, 代岩, 郭明钢, 肖红岩


    [23] 一种多巴胺及其衍生物聚合并交联固化的表面改性方法, ZL201611178888.3, 阮雪华, 廖绪行, 贺高红, 徐燕, 焉晓明, 代岩, 张宁


    [22] 一种酮与羧酸在电化学氢泵反应器中一步加氢酯化的方法, ZL201810375920.X, 吴雪梅, 贺高红, 宋雪, 黄诗琪, 肖武, 阮雪华, 郑文姬, 范姝艾, 王云晴, 孙嵩岚, 于喆淼


    [21] 一种哌嗪功能化聚苯醚碱性阴离子交换膜及其制备方法, ZL201710466664.0, 焉晓明, 高莉, 贺高红, 阮雪华, 郑文姬, 代岩, 吴雪梅


    [20] 一种长支链聚苯醚阴离子膜及其制备方法, ZL201610572946.4, 焉晓明, 高莉, 贺高红, 阮雪华, 郑文姬, 潘昱


    [19] 一种梯级利用烟气余热的二氧化碳捕集液化工艺, ZL201610408748.4, 阮雪华, 辛月, 贺高红, 肖武, 代岩, 焉晓明, 张宁


    [18] 一种半柔性聚醚砜/酮阴离子交换膜的制备方法, ZL201610032430.0, 焉晓明, 赵宝林, 贺高红, 郑文姬, 阮雪华, 代岩, 潘昱


    [17] 负载型双季铵盐催化剂及其制备方法和环状碳酸酯的制备方法, ZL201510916235.X, 焉晓明, 邓庆元, 贺高红, 潘昱, 郑文姬, 阮雪华


    [16] 一种负载型季鏻盐催化剂制备环状碳酸酯的方法, ZL201510442688.3, 焉晓明, 邓庆元, 贺高红, 潘昱, 郑文姬, 阮雪华


    [15] 膜分离富氧空气强化二段转化炉的布朗合成氨造气工艺, ZL201510250412.5, 阮雪华, 朱婷婷, 贺高红, 焉晓明, 李保军, 郑文姬, 张宁


    [14] 一种绿色环保的沼气资源多元化利用工艺, ZL201510252998.9, 阮雪华, 郭明钢, 贺高红, 代岩, 焉晓明, 李保军, 杨招艺


    [13] 回收乙烯压缩制冷系统开车尾气的分离工艺, ZL201510250147.0, 阮雪华, 林雪, 贺高红, 代岩, 张宁, 焉晓明, 郑文姬


    [12] 一种长支链聚砜阴离子膜及其制备方法, ZL201510213184.4, 焉晓明, 胡玉涛, 贺高红, 阮雪华, 郑文姬, 曾薇, 潘昱


    [11] 一种使用膜分离与变压吸附联合处理炼厂气的方法和系统, ZL201410851664.9, 贺高红, 陈博, 阮雪华, 肖武, 姜晓滨, 李保军


    [10] 一种提高油田伴生气分离效率并回收二氧化碳的方法, ZL201410526096.5, 贺高红, 陈博, 阮雪华, 肖武


    [9] 脱除乙苯脱氢尾气中苯乙烯及回收氢气的方法, ZL201410151133.9, 阮雪华, 贺高红, 李保军, 肖武, 陈博, 代岩


    [8] 高通量二氧化碳分离纤维素醚类衍生物复合膜及其制备方法, ZL201310711557.1, 阮雪华, 贺高红, 姚从春, 代岩, 焉晓明, 李保军


    [7] 一种减少丁基橡胶生产过程中氯甲烷物耗的方法, ZL201210411264.7, 任纪文, 贺高红, 李保军, 邱正茂, 阮雪华, 陈博, 宋亮


    [6] 含氟聚硅氧烷橡胶态复合气体分离膜、制备方法及其应用, ZL201110218649.7, 聂飞, 贺高红, 李保军, 阮雪华, 代岩,


    [5] 一种含轻烃石油化工气体的处理方法, ZL201110095620.4, 屠伟龙, 阮雪华, 贺高红, 胡江青, 杨云峰, 刘红晶, 高翔宇


    [4] 一种提高浅冷回收油田伴生气轻烃效率的方法, ZL201010591309.4, 贺高红, 于长福, 李保军, 阮雪华, 朱向阳, 吴雪梅


    [3] 一种高纯度、高回收率提纯焦炉煤气中氢气的方法, ZL201010203034.2, 贺高红, 朱向阳, 王世安, 李保军, 阮雪华, 吴雪梅, 何振, 段振红


    [2] 炼厂气集中梯级回收方法, ZL200910011802.1, 贺高红, 李保军, 阮雪华, 苏学锋, 聂飞, 范瑛琦


    [1] 合成弛放气中氢气及一氧化碳综合回收的分离方法, ZL200910011406.9, 范瑛琦, 贺高红, 阮雪华, 李保军


    教育经历

    2004.9 -- 2014.9
    大连理工大学       化学工程       博士

    2000.9 -- 2004.6
    湘潭大学       化学工程       学士

    工作经历

    2017.10 -- 至今

    大连理工大学石化学院

    2014.9 -- 2017.10

    大连理工大学石化学院

    研究方向

  • 膜组件的高精度离散数值计算、多源复杂分离过程的优化设计

  • 新型膜材料的设计合成、特种分离膜的研制与应用