研究方向主要集中在离子液体和离子液体膜的制备及其应用，具体包括：离子液体膜的制备及在气体分离的研究；基于纳米粒子制备复合膜，并进行二氧化碳的捕获机理的研究；胺类离子液体的制备及在无水氯化镁制备方面的研究；电解质体系相平衡数据的测定和模拟；基于AspenPlus进行相平衡数据的模拟及过程工艺设计。自2014年 担任SCI期刊Froniter的编委。

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081701-化学工程

化工热力学

2005-09--2008-06   北京化工大学   博士研究生
2001-09--2004-04   哈尔滨工程大学   硕士研究生

博士

   

2008-07~现在, 中国科学院过程工程研究所, 副研究员
2004-06~2005-08,黑龙江大学, 助理工程师
1998-07~2000-08,山东淄博齐鲁石化金麦计算机公司, 工程师

   

（1） 优秀毕业生, , 研究所（学校）, 2008
（2） 优秀奖学金, 二等奖, 研究所（学校）, 2002

[1] 单玲珑, 罗双江, 李福建, 王均凤, 张香平, 张锁江. 一种膜过程强化的无皂化稀土萃取分离新技术. CN: CN114150167A, 2022-03-08.
[2] 张锁江, 陈尚清, 王均凤, 王道广, 聂毅. 一种铯分离用普鲁士蓝类似物基复合吸附材料的制备方法. CN: CN113877540A, 2022-01-04.
[3] 张锁江, 王均凤, 王道广, 魏泽威, 聂毅. 一种从合成1-丁基-3-甲基咪唑四氟硼酸盐副产废水中回收溴化钠和四氟硼酸钠的方法. CN: CN113772687A, 2021-12-10.
[4] 王均凤, 张珊珊, 王道广, 聂毅, 张锁江. 一种离子液体水溶液体系中杂质离子的脱除方法. CN: CN113620393A, 2021-11-09.
[5] 张锁江, 李亚辉, 王道广, 王均凤. 一种有效分离高盐废水中有机物的方法. CN: CN113321269A, 2021-08-31.
[6] 张锁江, 张香平, 王均凤, 王道广. 一种制备晶型可控高纯碳酸稀土的方法. CN: CN111252796B, 2021-04-13.
[7] 张锁江, 王均凤, 李维超, 王道广, 聂毅. 一种离子液体体系中金属离子的脱除方法. CN: CN112569635A, 2021-03-30.
[8] 张锁江, 张丽, 王均凤, 王道广. 一种基于离子液体萃取体系分离重稀土元素的方法. CN: CN112458319A, 2021-03-09.
[9] 张锁江, 王道广, 王均凤, 王毅霖, 张晓飞, 李亚辉, 史佳腾, 崔朋蕾. 一种高硫低氯型含盐废水中盐分的分离方法. CN: CN111348794A, 2020-06-30.
[10] 张锁江, 王道广, 张香平, 王均凤. 一种稀土精矿中杂质铝元素的绿色分离方法. CN: CN111321293A, 2020-06-23.
[11] 张锁江, 王道广, 郎海燕, 王均凤, 王毅霖, 张晓飞. 一种阳极保护式自动除垢的电解含盐有机废水装置. CN: CN110937666A, 2020-03-31.
[12] 王均凤, 杨事成, 王道广, 李维超, 张锁江. 一种基于酮基功能化离子液体萃取分离锂的方法. CN: CN110527850A, 2019-12-03.
[13] 王均凤, 李维超, 王道广, 聂毅, 张锁江. 一种离子液体体系中小分子糖的脱除方法. CN: CN110527751A, 2019-12-03.
[14] 张锁江, 康召青, 聂毅, 周乐, 潘凤娇, 王均凤. 一种离子液体体系中还原糖含量的测试方法. CN: CN109932362A, 2019-06-25.
[15] 王倩, 张锁江, 郎海燕, 王均凤. 用于电化学石英晶体微天平与拉曼光谱联用的原位电解池. CN: CN107576646A, 2018-01-12.
[16] 李志宝, 高文成, 王均凤. 一种综合利用钾长石生产钾肥和氧化铝的方法. CN: CN102531710A, 2012-07-04.
[17] 李志宝, 王均凤. 一种高纯氧化镁的生产方法. CN: CN102502722A, 2012-06-20.
[18] 王均凤, 李志宝. 一种阻燃型氢氧化镁的生产方法. CN: CN102502725A, 2012-06-20.
[19] 李志宝, 王均凤. 一种制备电解镁用无水氯化镁的方法. CN: CN102145903A, 2011-08-10.
[20] 李志宝, 王均凤. 一种通过碳铵循环法经三水碳酸镁生产高纯氧化镁的方法. CN: CN101993098A, 2011-03-30.

   

[1] Chen, Shangqing, Wei, Zewei, Wang, Junfeng, Nie, Yi, Zhang, Suojiang. Spatial confinement and ion exchange synergetic strategy for highly selective removal of metal ions from the spinning solution containing ionic liquids. CHEMICAL ENGINEERING JOURNAL[J]. 2022, 437: [2] Bai, Ruibing, Wang, Junfeng, Wang, Daoguang, Zhang, Yanqiang, Cui, Junjie. Selective separation of lithium from the high magnesium brine by the extraction system containing phosphate-based ionic liquids. SEPARATION AND PURIFICATION TECHNOLOGY[J]. 2021, 274: http://dx.doi.org/10.1016/j.seppur.2021.119051.
[3] Li, Yahui, Zhang, Xiaofei, Wang, Yilin, Wang, Junfeng, Wang, Daoguang. Feasibility study of multi-effect distillation dealing with high-salinity organic RO concentrates: Experiment and theoretical analysis. DESALINATION[J]. 2021, 505: http://dx.doi.org/10.1016/j.desal.2021.115007.
[4] 王均凤. Enhancement in Li+/Mg2+ separation by the mussel-inspired modification of nanofiltration membrane with PDA and PEI. Journal of Applied Polymer Science. 2020, [5] 王道广, 王均凤, 张香平, 王毅霖, 张晓飞. 离子液体在稀土萃取分离中的应用. 化工学报[J]. 2020, 71(10): 4379-4394, http://lib.cqvip.com/Qikan/Article/Detail?id=7102965104.
[6] Wang, Junfeng, Yang, Shicheng, Zhang, Xiaofei, Wang, Yilin, Wang, Daoguang, Li, Weichao, Ashraf, Muhammad Awais, Park, AhHyung Alissa, Li, Xingchun. Extraction Mechanism of Lithium from the Alkali Solution with Diketonate-Based Ionic Liquid Extractants. ENERGY & FUELS[J]. 2020, 34(9): 11581-11589, https://www.webofscience.com/wos/woscc/full-record/WOS:000574904900107.
[7] Li, Weichao, Wang, Junfeng, Nie, Yi, Wang, Daoguang, Xu, Hongxiang, Zhang, Suojiang. Separation of soluble saccharides from the aqueous solution containing ionic liquids by electrodialysis. SEPARATION AND PURIFICATION TECHNOLOGY[J]. 2020, 251: http://dx.doi.org/10.1016/j.seppur.2020.117402.
[8] Ashraf, Muhammad Awais, Li, Xingchun, Wang, Junfeng, Guo, Shiwei, Xu, BaoHua. DiaNanofiltration-based process for effective separation of Li+ from the high Mg2+/Li+ ratio aqueous solution. SEPARATION AND PURIFICATION TECHNOLOGY[J]. 2020, 247: http://dx.doi.org/10.1016/j.seppur.2020.116965.
[9] Wang, Junfeng, Wang, Yilin, Zhang, Xiaofei, Wang, Daoguang, Li, Yahui, He, Hongyan, Li, Xingchun, Zhang, Suojiang. Technologies of Removal of Organics in Reverse Osmosis Concentrates from Petroleum Refinery Wastewater. PROGRESS IN CHEMISTRYnull. 2020, 32(10): 1462-1481, https://www.webofscience.com/wos/woscc/full-record/WOS:000596561300003.
[10] Bai, Ruibing, Wang, Junfeng, Cui, Li, Yang, Shicheng, Qian, Wei, Cui, Penglei, Zhang, Yanqiang. Efficient Extraction of Lithium Ions from High Mg/Li Ratio Brine through the Synergy of TBP and Hydroxyl Functional Ionic Liquids. CHINESE JOURNAL OF CHEMISTRY[J]. 2020, 38(12): 1743-1751, http://lib.cqvip.com/Qikan/Article/Detail?id=7103704707.
[11] 王均凤. Progress on the treatment technologies of reverse osmosis concentrates from petroleum refinery wastewater. Progress in Chemistry. 2020, [12] Ashraf, Muhammad Awais, Wang, Junfeng, Wu, Baichun, Cui, Penglei, Xu, Baohua, Li, Xingchun. Enhancement in Li+/Mg(2+)separation from salt lake brine with PDA-PEI composite nanofiltration membrane. JOURNAL OF APPLIED POLYMER SCIENCE[J]. 2020, 137(47): https://www.webofscience.com/wos/woscc/full-record/WOS:000545083700001.
[13] 王均凤, 王毅霖, 张晓飞, 王道广, 李亚辉, 何宏艳, 李兴春, 张锁江. 炼化反渗透浓水中有机物处理技术. 化学进展. 2020, 32(10): 1462-1481, http://lib.cqvip.com/Qikan/Article/Detail?id=7103476497.
[14] Yang, Shicheng, Liu, Guowei, Wang, Junfeng, Cui, Li, Chen, Yongmei. Recovery of lithium from alkaline brine by solvent extraction with functionalized ionic liquid. FLUID PHASE EQUILIBRIA[J]. 2019, 493: 129-136, http://dx.doi.org/10.1016/j.fluid.2019.04.015.
[15] Wang, Junfeng, Yang, Shicheng, Bai, Ruibing, Chen, Yongmei, Zhang, Suojiang. Lithium Recovery from the Mother Liquor Obtained in the Process of Li2CO3 Production. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH[J]. 2019, 58(3): 1363-1372, http://ir.ipe.ac.cn/handle/122111/27909.
[16] Cui, Li, Jiang, Kun, Wang, Junfeng, Dong, Kun, Zhang, Xiangping, Cheng, Fangqin. Role of ionic liquids in the efficient transfer of lithium by Cyanex 923 in solvent extraction system. AICHE JOURNAL[J]. 2019, 65(8): https://www.webofscience.com/wos/woscc/full-record/WOS:000474620800009.
[17] Cui, Li, Yang, Xia, Wang, Junfeng, He, Hongyan, Guo, Yanxia, Cheng, Fangqin, Zhang, Suojiang. Theoretical prediction of Li-6/Li-7 separation in solvent extraction system using Urey model. CHEMICAL ENGINEERING JOURNAL[J]. 2019, 358: 435-445, http://dx.doi.org/10.1016/j.cej.2018.09.181.
[18] 聂毅, 王均凤, 张振磊, 刘雪, 张香平. 离子液体回收循环利用的研究进展与趋势. 化工进展. 2019, 38(1): 100-110, http://lib.cqvip.com/Qikan/Article/Detail?id=7001110394.
[19] 王均凤. Lithium recovery from the mother liquor obtained in the process of Li2CO3 production using 1-phenyl-3-heptyl-1,3-propanedione. Industrial and Engineering Chemistry Research. 2019, [20] 王均凤. Pebax with Liquid Nanoparticle Organic Hybrid Materials as Blended Membranes for CO2 Separation. Journal of Membrane Science. 2019, [21] 王均凤, 聂毅, 王斌琦, 康召青, 周乐, 潘凤娇, 张香平. 离子液体法再生纤维素纤维制造技术及发展趋势. 化工学报[J]. 2019, 70(10): 3836-3846, http://lib.cqvip.com/Qikan/Article/Detail?id=7003100686.
[22] Wang Junfeng, Wu Xiaowang, Zhang Suojiang. Development of a thermodynamic model for the Li2CO3-NaCl-Na2SO4-H2O system and its application. The Journal of Chemical Thermodynamics. 2018, 123: 62-73, http://dx.doi.org/10.1016/j.jct.2018.03.027.
[23] Wu, Huanhuan, Shen, Fei, Wang, Junfeng, Wan, Yinhua. Membrane fouling in vacuum membrane distillation for ionic liquid recycling: Interaction energy analysis with the XDLVO approach. JOURNAL OF MEMBRANE SCIENCE[J]. 2018, 550: 436-447, http://dx.doi.org/10.1016/j.memsci.2018.01.018.
[24] Sun, Xianfeng, Xu, Hongxiang, Wang, Junfeng, Ning, Kejia, Huang, Gen, Yu, Yuexian, Ma, Liqiang. Kinetic research of quinoline, pyridine and phenol adsorption on modified coking coal. PHYSICOCHEMICAL PROBLEMS OF MINERAL PROCESSING[J]. 2018, 54(3): 965-974, https://www.webofscience.com/wos/woscc/full-record/WOS:000442776200034.
[25] Wang, Junfeng, Wu, Xiaowang, Zhang, Suojiang. Development of a thermodynamic model for the Li2CO3-NaCl-Na2SO4-H2O system and its application. JOURNAL OF CHEMICAL THERMODYNAMICS[J]. 2018, 123: 62-73, http://dx.doi.org/10.1016/j.jct.2018.03.027.
[26] Ning, Kejia, Wang, Junfeng, Xu, Hongxiang, Sun, Xianfeng, Huang, Gen, Liu, Guowei, Zhou, Lingmei. Effects and mechanistic aspects of absorbing organic compounds by coking coal. WATER SCIENCE AND TECHNOLOGY[J]. 2017, 76(9): 2280-2290, https://www.webofscience.com/wos/woscc/full-record/WOS:000415638000003.
[27] 王均凤. Ah-Hyung Alissa Park. Simultaneous Measurement of CO2 Sorption and Swelling of Phosphate-based Ionic Liquid. Green Engineering and Environment. 2016, [28] Wang, Junfeng, Petit, Camille, Zhang, Xiangping, Park, AhHyung Alissa. Simultaneous measurement of CO2 sorption and swelling of phosphate-based ionic liquid. GREEN ENERGY & ENVIRONMENT[J]. 2016, 1(3): 258-265, http://dx.doi.org/10.1016/j.gee.2016.11.004.
[29] Xu, Hongxiang, Li, Haoran, Wang, Junfeng. Density prediction of pyridinium, imidazolium, pyrrolidinium, ammonium, and phosphonium-based ionic liquids using an equation of state. FLUID PHASE EQUILIBRIA[J]. 2016, 427(NOV): 406-413, http://dx.doi.org/10.1016/j.fluid.2016.07.027.
[30] Wang, Junfeng, Luo, Jianquan, Feng, Shicao, Li, Haoran, Wan, Yinhua, Zhang, Xiangping. Recent development of ionic liquid membranes. GREEN ENERGY & ENVIRONMENTnull. 2016, 1(1): 43-61, https://doaj.org/article/6b663c0534ae46f6bc0e2cc787a54558.
[31] Wu, Huanhuan, Shen, Fei, Wang, Junfeng, Luo, Jianquan, Liu, Lixia, Khan, Rashid, Wan, Yinhua. Separation and concentration of ionic liquid aqueous solution by vacuum membrane distillation. JOURNAL OF MEMBRANE SCIENCE[J]. 2016, 518(NOV): 216-228, http://dx.doi.org/10.1016/j.memsci.2016.07.017.
[32] Wang, Junfeng, Petit, Camille, Zhang, Xiangping, Cui, Shian. Phase Equilibrium Study of the AlCl3-CaCl2-H2O System for the Production of Aluminum Chloride Hexahydrate from Ca-Rich Flue Ash. JOURNAL OF CHEMICAL AND ENGINEERING DATA[J]. 2016, 61(1): 359-369, http://www.irgrid.ac.cn/handle/1471x/1047825.
[33] Wang, Junfeng, Luo, Jianquan, Zhang, Xiangping, Wan, Yinhua. Concentration of ionic liquids by nanofiltration for recycling: Filtration behavior and modeling. SEPARATION AND PURIFICATION TECHNOLOGY[J]. 2016, 165(JUNE): 18-26, http://dx.doi.org/10.1016/j.seppur.2016.03.042.
[34] 王均凤. Phase Equilibrium Study of the AlCl3−CaCl2−H2O System for the. Journal of Chemical & Engineering Data. 2015, [35] Wang, Junfeng, Li, Zhibao, Park, AhHyung Alissa, Petit, Camille. Thermodynamic and kinetic studies of the MgCl2-NH4Cl-NH3-H2O system for the production of high purity MgO from calcined low-grade magnesite. AICHE JOURNAL[J]. 2015, 61(6): 1933-1946, http://www.irgrid.ac.cn/handle/1471x/975511.
[36] Nie, Huiqin, Xu, Ruyin, Zhang, Feng, Zhou, Zheng, Zhang, Zhibing, Yang, Gaodong. Thermodynamic and kinetic studies on alkoxylation of camphene over cation exchange resin catalysts. AICHE JOURNAL[J]. 2015, 61(6): 1925-1932, https://www.webofscience.com/wos/woscc/full-record/WOS:000355141100012.
[37] Wang, Junfeng, Li, Zhibao. Measurement and Modeling of Vapor-Liquid Equilibria for Systems Containing Alcohols, Water, and lmidazolium-Based Phosphate Ionic Liquids. JOURNAL OF CHEMICAL AND ENGINEERING DATA[J]. 2013, 58(6): 1641-1649, http://ir.ipe.ac.cn/handle/122111/13472.
[38] Sun, Shunping, Wang, Junfeng, Li, Zhibao. Solubility and Self-Consistent Modeling of Aniline Hydrochloride in H-Mg-Na-Ca-Al-Cl-H2O System at the Temperature Range of 288-348 K. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH[J]. 2012, 51(9): 3783-3790, http://www.irgrid.ac.cn/handle/1471x/735709.
[39] Wang, Junfeng, Li, Zhibao. Crystallization and Agglomeration Kinetics of Hydromagnesite in the Reactive System MgCl2-Na2CO3-NaOH-H2O. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH[J]. 2012, 51(23): 7874-7883, http://www.irgrid.ac.cn/handle/1471x/779001.
[40] Wang, Junfeng, Sun, Shunping, Li, Zhibao. Modeling of Solid-Liquid Equilibrium for the HAECl-MgCl2-H2O System. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH[J]. 2011, 50(13): 8314-8322, http://www.irgrid.ac.cn/handle/1471x/735756.
[41] 王均凤. Measurement and modeling of solubility for calcium sulfate dihydrate and calcium hydroxide in NaOH/KOH solutions. Fluid Phase Equilibria. 2010, [42] Yuan, Tiechui, Wang, Junfeng, Li, Zhibao. Measurement and modelling of solubility for calcium sulfate dihydrate and calcium hydroxide in NaOH/KOH solutions. FLUID PHASE EQUILIBRIA[J]. 2010, 297(1): 129-137, http://dx.doi.org/10.1016/j.fluid.2010.06.012.
[43] 王均凤. A molecular thermodynamic model for calculating vapor liquid equilibrium of ionic liquid containing systems. Science China. 2010, [44] 宋红艳, 王均凤, 沈冲, 赵瑾, 何静, 李春喜. 计算离子液体溶液汽液相平衡的分子热力学模型. 中国科学：化学[J]. 2010, 1297-1303, http://lib.cqvip.com/Qikan/Article/Detail?id=34807703.
[45] Wang, Junfeng, Wang, Daoguang, Li, Zhibao, Zhang, Fan. Vapor Pressure Measurement and Correlation or Prediction for Water, 1-Propanol, 2-Propanol, and Their Binary Mixtures with MMIMDMP Ionic Liquid. JOURNAL OF CHEMICAL AND ENGINEERING DATA[J]. 2010, 55(11): 4872-4877, http://www.irgrid.ac.cn/handle/1471x/735803.
[46] Wang, Junfeng, Li, Zhibao, Li, Chunxi, Wang, Zihao. Density Prediction of Ionic Liquids at Different Temperatures and Pressures Using a Group Contribution Equation of State Based on Electrolyte Perturbation Theory. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH[J]. 2010, 49(9): 4420-4425, http://www.irgrid.ac.cn/handle/1471x/779005.
[47] Wang, Junfeng, Li, Chunxi, Shen, Chong, Wang, Zihao. Towards understanding the effect of electrostatic interactions on the density of ionic liquids. FLUID PHASE EQUILIBRIA[J]. 2009, 279(2): 87-91, http://dx.doi.org/10.1016/j.fluid.2009.02.011.
[48] 王均凤, 李志宝. 二水硫酸钙和氢氧化钙在高浓NaOH-KOH-H 2 O体系中的溶解度和稳定性. 化工进展. 2009, 413-413, http://lib.cqvip.com/Qikan/Article/Detail?id=1003865543.
[49] 王均凤, 李志宝. 二水硫酸钙和氢氧化钙在高浓NaOH-KOH-H_2O体系中的溶解度和稳定性. 中国化工学会2009年年会暨第三届全国石油和化工行业节能节水减排技术论坛会议论文集（下）null. 2009, 1-, http://www.irgrid.ac.cn/handle/1471x/717326.
[50] 王均凤, 李志宝. 二水硫酸钙和氢氧化钙在高浓NaOH-KOH-H_2O体系中的溶解度和稳定性. 化工进展[J]. 2009, 413-, http://www.irgrid.ac.cn/handle/1471x/857229.
[51] Wang, Ruijie, Li, Chunxi, Meng, Hong, Wang, Junfeng, Wang, Zihao. Ternary Liquid−Liquid Equilibria Measurement for Benzene + Cyclohexane +N-Methylimidazole, orN-Ethylimidazole, orN-Methylimidazolium Dibutylphosphate at 298.2 K and Atmospheric Pressure. Journal of Chemical & Engineering Data[J]. 2008, 2170-2174, http://www.irgrid.ac.cn/handle/1471x/725601.
[52] Wang, Ruijie, Wang, Junfeng, Meng, Hong, Li, Chunxi, Wang, Zihao. Liquid−Liquid Equilibria for Benzene + Cyclohexane + 1-Methyl-3-methylimidazolium Dimethylphosphate or + 1-Ethyl-3-methylimidazolium Diethylphosphate. Journal of Chemical & Engineering Data[J]. 2008, 1159-1162, http://www.irgrid.ac.cn/handle/1471x/725602.
[53] 王均凤, 张锁江, 陈慧萍, 李闲, 张密林. 离子液体的性质及其在催化反应中的应用. 过程工程学报. 2003, 3(2): 177-185, http://lib.cqvip.com/Qikan/Article/Detail?id=7870413.

   

（ 1 ） 基于非原始平均球近似理论的离子液体体系相平衡模型, 主持, 国家级, 2013-01--2015-12
（ 2 ） 以离子液体为介质制备无水氯化镁新方法的基础研究, 主持, 国家级, 2011-01--2013-12
（ 3 ） 利用卤水MgCl2固定CO2温室气体：MgCl2-CO2-NH3-H2O三相体系MgCO3反应动力学, 主持, 国家级, 2009-01--2013-12
（ 4 ） 利用氯化钙及碱渣和钾长石生产氯化钾绿色新工艺的千吨级工业性试验, 主持, 省级, 2012-09--2015-09
（ 5 ） 以盐湖氯化镁制备高附加值镁铝尖晶石新工艺的基础研究, 主持, 国家级, 2015-01--2017-12