李兴洵,男,博士,副教授,博士研究生导师,中国石油大学(北京)校青年拔尖人才,化学工程与环境学院-重质油全国重点实验室科教英才,化学工程系副主任。英国爱丁堡大学获博士学位、英国伦敦帝国理工学院获高级化学工程硕士学位(Distinction)。致力于天然气水合物、油气开发与物性、CCUS、界面特性、微流控技术、流体相平衡、热力学及动力学等化工与能源领域相关研究。近年来主持并参与国家级科研项目、课题及企事业单位委托横向项目共10余项。目前科研成果在Chemical Engineering Science、IECR、Energy、Fuel、Energy&Fuels等化工与能源领域期刊共发表论文60余篇。
主持多项国家级项目及课题:国家自然科学基金-面上项目、国家自然科学基金-青年基金项目、国家自然科学基金-联合基金重点支持项目课题等。承担多项企事业单位委托横向项目。
科研成果在Chemical Engineering Science、IECR、Energy、Fuel、Energy&Fuels等化工与能源领域期刊共发表论文60余篇。近年20篇代表性论文:
1.Xingxun Li*, Cunning Wang, Qingping Li, Weixin Pang, Guangjin Chen, Changyu Sun, Experimental observation of formation and dissociation of methane hydrate in a micromodel, Chemical Engineering Science, 2022; 248: 117227
2.Xingxun Li*, Longyan Gao, Shuang Liang, Xuesong Li, Guangjin Chen, Changyu Sun, Experimental investigation on CO2 hydrate formation and growth in a liquid CO2 droplet system for hydrate-based CO2 sequestration, Chemical Engineering Science2026, 326, 123550
3.Xingxun Li*, Bo Zhao, Cunning Wang, Huaxu Kang, Xuesong Li, Guangjin Chen, Changyu Sun, Investigation on the gaseous/liquid CO2 hydrate formation, growth and dissociation in micro-pores of microfluidic chip, Chemical Engineering Science 2026, 320, 122568
4.Xingxun Li*, Xueming Tian, Longxi Gao, Weixin Pang, Bei Liu, Guangjin Chen, Changyu Sun, Molecular insight into the effect of wettability of solid surface on the methane hydrate formation and dissociation, Chemical Engineering Science 2025, 304, 121050.
5.Xingxun Li*, Cunning Wang, Shuang Liang, Xuqiang Guo, Qiang Sun, Experimental visualization of cyclopentane hydrate dissociation behavior in a microfluidic chip, Chemical Engineering Science2020; 227: 115937.
6.Xingxun Li*, Rucheng Wei, Qingping Li, Weixin Pang, Guangjin Chen, Changyu Sun, Application of infrared thermal imaging technique in in-situ temperature field measurement of hydrate-bearing sediment under thermal stimulation, Energy2023; 265: 126321.
7.Cunning Wang, Xingxun Li*, Shuang Liang, Qingping Li, Weixin Pang, Bo Zhao, Guangjin Chen, Changyu Sun, Modeling on effective thermal conductivity of hydrate-bearing sediments considering the shape of sediment particle, Energy2023; 285: 129338.
8.Shuang Liang, Xingxun Li*, Cunning Wang, Xuqiang Guo, Xu Jiang, Qingping Li, Guangjin Chen, Changyu Sun, Effect of asphaltenes on growth behavior of methane hydrate film at the oil-water interface, Energy2024; 288:129734.
9.Xingxun Li*, Xueming Tian, Xuesong Li, Guangjin Chen, Changyu Sun, Microscopic investigation on hydrate formation and decomposition on silica surface under the condition of direct contact between bulk gas and solid phases by molecular dynamics, Colloids and Surfaces A: Physicochemical and Engineering Aspects 2026, 731, 139153
10.Xingxun Li*, Ming Liu, Qingping Li, Weixin Pang, Guangjin Chen, Changyu Sun, Visual study on methane hydrate formation and depressurization-induced methane hydrate dissociation processes in a micro-packed bed reactor, Fuel 2023; 332:125980.
11.Cunning Wang, Xingxun Li*, Yang Ge, Weixin Pang, Qingping Li, Zhenbin Xu, Guangjin Chen, Changyu Sun, Experimental study of effective thermal conductivity of methane hydrate-bearing sediments in gas-rich and water-rich systems, Fuel2025, 381, 133537.
12.Xingxun Li*, Guohu Wang, Xing Huang, Xuesong Li, Guangjin Chen, and Changyu Sun, Visual Investigation on Formation and Deposition Characteristics of Natural Gas Hydrates in a Vertical Wellbore, Energy & Fuels 2025, 39 (32), 15288-15299
13.Xingxun Li*, Rucheng Wei, Qingping Li*, Weixin Pang, Qi Fan, Guangjin Chen, Changyu Sun, Experimental investigation on the effective thermal conductivities of different hydrate-bearing sediments, Petroleum Science2023; 20, 4: 2479-2487.
14.Xingxun Li*, Ming Liu, Qingping Li, Weixin Pang, Guangjin Chen, Changyu Sun, TBAB hydrate formation and growth in a microdevice under static and dynamic conditions, Petroleum Science 2024; 21, 2: 1396-1404.
15.Cunning Wang, Xingxun Li*, Qingping Li, Guangjin Chen, Changyu Sun, Thermal conductivity of hydrate and effective thermal conductivity of hydrate-bearing sediment, Chinese Journal of Chemical Engineering2024; 73, 176-188.
16.Xingxun Li*, Pengcheng Chi, Xuqiang Guo, Qiang Sun, CO2-induced asphaltene deposition and wettability alteration on a pore interior surface, Fuel 2019; 254: 115595.
17.Xingxun Li*, Pengcheng Chi, Xuqiang Guo, Qiang Sun, Effects of asphaltene concentration and asphaltene agglomeration on viscosity, Fuel 2019; 255: 115825.
18.Xingxun Li, Yunmei Guo, Qiang Sun, Wenjie Lan, Aixian Liu, Xuqiang Guo*, 2018, Experimental study for the impacts of flow rate and concentration of asphaltene precipitant on dynamic asphaltene deposition in microcapillary medium, Journal of Petroleum Science and Engineering, 162, 333-340
19.Xingxun Li, Yunmei Guo, Qiang Sun, Wenjie Lan, Xuqiang Guo*, 2018, Effect of Nanoparticles on Asphaltene Aggregation in a Microsized Pore, Industrial & Engineering Chemistry Research, 57, 9009-9017
20.Xingxun Li, Yunmei Guo, Edo S. Boek, Xuqiang Guo*, 2017, Experimental Study on Kinetics of Asphaltene Aggregation in a Microcapillary, Energy Fuels, 31, 9006-9015
