于刚强 副研究员,学术及专业型硕士生导师
出生年月:1991年12月
联系电话:010-67392430
E-mail:yugq@bjut.edu.cn
通讯地址:北京市朝阳区平乐园100号环能楼
教育背景
2014.09–2019.06,北京化工大学,化学工程与技术专业,博士
2009.09–2013.06,兰州交通大学,应用化学专业,学士
工作经历
2019.07-至今 威尼斯wns.8885556 威尼斯wns.8885556,师资博士后(副研究员)
研究方向
1. 环境治理的化工过程:采用分离过程强化手段,以新型介质或材料(离子液体、低共熔溶剂等)为分离剂,针对环境治理化工过程(如气体脱水、CO2捕集、VOCs治理等)结合预测型热力学模型构建、量子化学计算、分子模拟等技术指导分离剂设计、筛选及分离过程的设计优化。
2. 高分子固废资源化:废旧轮胎、聚酯可持续降解回收等。
3. 锂资源提取与回收:盐湖提锂、废旧锂电池回收有价金属。
奖项荣誉
2020.11 第五届离子液体与绿色过程 新秀奖
2019.07 北京市优秀毕业生
2019.06 北京化工大学优秀博士论文
2019.01 北京化工大学研究生“博学论坛”口头报告优秀奖
2018.11 博士研究生国家奖学金
主要科研项目
2019.07-2021.07 全国博士后创新人才支持计划,主持
2019.07-2020.12 威尼斯wns.8885556种子基金项目,主持
2021.01-2023.12 国家自然科学基金青年项目,主持
2021.01-2021.12 朝阳区博士后科研活动项目,主持
2021.01-2023.03 企事业委托项目(40万元),主持
主要论文论著
1. 发表论文
(1) Dai, C.; Chen, M.; Mu, W.; Peng, B.; Yu, G*.; Liu, N.; Xu, R.; Wang, N.; Chen, B., Highly efficient toluene absorption with π-electron donor-based deep eutectic solvents. Separation and Purification Technology 2022, 298, 121618.
(2) Yu, G.; Wei, Z.; Chen, K.; Guo, R.; Lei, Z., Predictive molecular thermodynamic models for ionic liquids. AIChE Journal 2022, 68, (4), e17575.
(3) Yu, G.; Dai, C.; Chen, B.; Lei, Z.;* Wei, Z.; Chen, K., Thermodynamic and molecular insights into gas drying with ionic liquid − based mixed absorbents. Chemical Engineering Science 2022, 250, 117382.
(4) Chen, M.; Dai, C.; Yu, G.;* Liu, N.; Xu, R.; Wang, N.; Chen, B., Highly efficient absorption of methyl tert-butyl ether with ionic liquids. Separation and Purification Technology 2022, 282, 120108.
(5) Han, J.; Fan, Y.; Yu, G.;* Yang, X.; Zhang, Y.; Tian, J.; Li, G., Ethanol dehydration with ionic liquids from molecular insights to process intensification. ACS Sustainable Chemistry & Engineering 2021, 10(1): 441-455.
(6) Yu, G.; Xu, R.; Wu, B.; Liu, N.; Chen, B.; Dai, C.; Kuang, Y.; Lei, Z.* Molecular thermodynamic and dynamic insights into gas dehydration with imidazolium-based ionic liquids. Chemical Engineering Journal 2021, 416.
(7) Jiang, Y.; Wang, Z.; Lei, Z.; Yu, G.,* Structural effects on thermodynamic behavior and hydrogen bond interactions of water-ionic liquid systems. Chemical Engineering Science 2021, 230.
(8) Jiang, Y.; Lei, Z.; Yu, G.,* Unraveling weak interactions between fluorinated gases and ionic liquids. Chemical Engineering Science 2021, 244, 116792.
(9) Gui, C.; Zhu, R.; Li, G.; Dai, C.; Yu, G.;* Lei, Z., Natural gas dehydration with ionic-liquid-based mixed solvents. ACS Sustainable Chemistry & Engineering 2021, 9, (17), 6033-6047.
(10) Xu, R.; Dai, C.; Mu, M.; Cheng, J.; Lei, Z.; Wu, B.; Liu, N.; Chen, B.; Yu, G.* Highly efficient capture of odorous sulfur-based VOCs by ionic liquids. Journal of Hazardous Materials 2021, 402, 123507.
(11) Yu, G.; Mu, M.; Li, J.; Wu, B.; Xu, R.; Liu, N.; Chen, B.; Dai, C.,* Imidazolium-based ionic liquids introduced into pi-electron donors: highly efficient toluene capture. ACS Sustainable Chemistry & Engineering 2020, 8, (24), 9058-9069.
(12) Yu, G.; Dai, C.; Wu, B.; Liu, N.; Chen, B.; Xu, R.,* Chlorine drying with hygroscopic ionic liquids. Green Energy & Environment 2021, 6, (3), 350-362.
(13) Yu, G.; Sui, X.; Lei, Z.; Dai, C.;* Chen, B., Air-drying with ionic liquids. AIChE Journal 2019, 65, (2), 479-482.
(14) Yu, G.; Jiang, Y.; Cheng, J.; Lei, Z.,* Structural effect on the vapor-liquid equilibrium of toluene-ionic liquid systems. Chemical Engineering Science 2019, 198, 1-15.
(15) Lei, Z.; Jiang, Y.; Liu, Y.; Dong, Y.; Yu, G.;* Sun, Y.; Guo, R., Solubility and mass transfer of H-2, CH4, and their mixtures in vacuum gas oil: An experimental and modeling study. Chinese Journal of Chemical Engineering 2019, 27, (12), 3000-3009.
(16) Yu, G.; Jiang, Y.; Lei, Z.,* Pentafluoroethane dehydration with ionic liquids. Industrial & Engineering Chemistry Research 2018, 57, (36), 12225-12234.
(17) Yu, G.; Dai, C.; Lei, Z.,* Modified UNIFAC-Lei model for ionic liquid-CH4 systems. Industrial & Engineering Chemistry Research 2018, 57, (20), 7064-7076.
(18) Yu, G.; Dai, C.; Gao, H.; Zhu, R.; Du, X.; Lei, Z.,* Capturing condensable gases with ionic liquids. Industrial & Engineering Chemistry Research 2018, 57, (36), 12202-12214.
(19) Yu, G.; Dai, C.; Wu, L.; Lei, Z.,* Natural gas dehydration with ionic liquids. Energy & Fuels 2017, 31, (2), 1429-1439.
(20) Zhang, Q.; Xu, R.; Liu, N.; Dai, C.; Yu, G.; Wang, N.; Chen, B., In situ Ce-doped catalyst derived from NiCeAl-LDHs with enhanced low-temperature performance for CO2 methanation. Applied Surface Science 2022, 579, 152204.
(21) Wu, B.; Yu, G.; Liu, N.; Xu, R.; Chen, B.; Dai, C., Deciphering the sustainability of an ionic liquid-based BTX harvesting process from energetic, environmental, and economic perspectives. ACS Sustainable Chemistry & Engineering 2021, 9, (2), 863-873.
(22) Li, G.; Liu, S.; Yu, G.; Dai, C.; Lei, Z., Extractive distillation using ionic liquids-based mixed solvents combined with dividing wall column. Separation and Purification Technology 2021, 269.
(23) Taheri, M.; Zhu, R.; Yu, G.; Lei, Z., Ionic liquid screening for CO2 capture and H2S removal from gases: The syngas purification case. Chemical Engineering Science 2021, 230.
(24) Li, G.; Liu, S.; Yu, G.; Dai, C.; Lei, Z., Extractive distillation using ionic liquids-based mixed solvents combined with dividing wall column. Separation and Purification Technology 2021, 269.
(25) Lei, Z.; Kuang, Y.; Yu, G.; Dai, C.; Ding, Y.; Lu, J., Thermodynamic behavior of [OMIM]+-based ionic liquid and H2O systems: Experimental, model prediction and mechanism insights. Journal of Molecular Liquids 2020, 301.
(26) Zhao, H.; Li, Q.; Yu, G.; Dai, C.; Lei, Z., Performance analysis and quantitative design of a flow-guiding sieve tray by computational fluid dynamics. AIChE Journal 2019, 65, 65:e16563.
(27) Zhao, H.; Gao, H.; Yu, G.; Li, Q.; Lei, Z., Capturing methanol and dimethoxymethane gases with ionic liquids. Fuel 2019, 241, 704-714.
(28) Wu, B.; Dai, C.; Chen, B.; Yu, G.; Liu, N.; Xu, R., Ionic liquid versus traditional volatile organic solvent in the natural gas dehydration process: a comparison from a life cycle perspective. ACS Sustainable Chemistry & Engineering 2019, 7, (23), 19194-19201.
(29) Lei, Z.; Gao, H.; Yu, G.; Jiang, Y., Capturing volatile ester compounds from gas mixture with ionic liquids. Journal of Molecular Liquids 2019, 281, 517-527.
(30) Jiang, Y.; Taheri, M.; Yu, G.; Zhu, J.; Lei, Z., Experiments, modeling, and simulation of CO2 dehydration by ionic liquid, triethylene glycol, and their binary mixtures. Industrial & Engineering Chemistry Research 2019, 58, (34), 15588-15597.
(31) Lei, Z.; Yu, G.; Su, Y.; Dai, C., Vapor pressure measurements and predictions for the binary and ternary systems containing ionic liquid [EMIM][Tf2N]. Journal of Molecular Liquids 2017, 231, 272-280.
(32) Dai, C.; Wu, L.; Yu, G.; Lei, Z., Syngas dehydration with ionic liquids. Industrial & Engineering Chemistry Research 2017, 56, (49), 14642-14650.
(33) Han, J.; Dai, C.; Yu, G.; Lei, Z., Parameterization of COSMO-RS model for ionic liquids. Green Energy & Environment 2018, 3, (3), 247-265.
* Corresponding author
2. 申请发明专利
(1) 陈标华; 钱治港; 于刚强; 徐瑞年; 武斌; 代成娜; 刘宁; 王宁; 一种从间二异丙苯氧化产物中萃取氢过氧化物的方法, 2021-07-27, 中国, CN113173874A(专利)
(2) 陈标华; 陈敏; 于刚强; 一种利用低共熔溶剂捕集甲苯的方法, 2021-07-06, CN113069889A (专利)
(3) 雷志刚; 马维华; 代成娜; 于刚强; 一种离子液体萃取精馏同时脱除甲醇和水的方法, 2018-10-23, 中国, CN108689812A (专利),
(4) 雷志刚; 匡煜; 于刚强 ; 一种离子液体用于捕捉可凝性气体的方法, 2019-01-11, 中国, CN109173604A (专利)
(5) 雷志刚; 于刚强; 韩敬莉; 代成娜; 陈标华 ; 一种离子液体用于脱除气体中挥发性有机物的方法, 2016-05-18, 中国, CN105582786A (专利)
(6) 雷志刚; 于刚强; 代成娜; 隋晓慧; 一种离子液体用于脱除氟代化合物中HCl的方法, 2018-10-23,中国, CN108689797A (专利)
(7) 雷志刚; 程俊; 代成娜; 王梓洋; 幕明利; 于刚强; 一种离子液体用于脱除气体中二甲基硫醚、二甲基二硫醚的方法, 2019-04-05, 中国, CN109569195A (专利)
(8) 雷志刚; 于刚强; 代成娜; 隋晓慧; 一种离子液体用于脱除氟代化合物中HF的方法, 2018-11-30, 中国, CN108911946A (专利)
