更新日期:2025.04.10

|
姓 名: |
都喜东 |
|
职称职务: |
讲师 |
|
学 位: |
博士 |
|
电 话: |
18875208247 |
|
电子邮箱: |
xidongdu@126.com |
|
研究方向: |
二氧化碳地质封存、非常规油气勘探与开发、岩石力学 |
2个人概况: |
都喜东,工学博士、特聘副教授、硕士生导师,主要从事二氧化碳地质封存、非常规油气资源勘探与开发等方面的科学研究工作。主持云南省自然科学基金面上项目、江西省自然科学基金青年项目、云南省基础研究计划项目、云南省“兴滇英才支持计划”青年人才专项项目、云南省教育厅科学研究基金项目等纵向科研项目20余项;参与国家重点基础研究计划(973计划)项目、国家自然科学基金面上/地区项目、云南省科技厅重大专项项目等多项科研项目。以第一作者发表SCI/EI论文15篇,以通讯(非第一)作者发表SCI论文7篇,其中,中科院1区SCI论文5篇、2区SCI论文7篇、ESI高被引论文1篇,总被引次数600余次。《Energy》、《Chemical Engineering Journal》、《Fuel》、《Applied Energy》、《Physics of Fluids》等多个主流期刊审稿人。入选云南省“兴滇英才支持计划”青年人才,昆明理工大学高层次引进人才。
2009/09–2013/06,河南理工大学,能源科学与工程学院,本科
2013/09–2018/06,重庆大学,资源及环境科学学院,博士(硕博连读)
2018/07–2021/08,东华理工大学,地球科学学院采矿工程系,讲师
2021/09–至今,昆明理工大学,国土资源工程学院资源开发工程系,特聘副教授
[1] 云南省“兴滇英才支持计划”青年人才专项项目,深部页岩储层CO2-水-岩反应机理及其对碳封存的影响研究,2024.01-2028.12,主持
[2] 江西省自然科学基金青年项目,超临界CO2与页岩气储层相互作用对其动态驱替特性的影响机制-以江西修武盆地下寒武统荷塘组为例,2020.01-2021.12,主持
[3] 云南省教育厅科学研究基金项目,深部含水页岩储层CO2地质封存机制及其吸附特性响应规律研究,2022.03-2023.02,主持
[4] 国家能源陆相砂岩老油田持续开采研发中心开放基金项目,稠油多元热复合驱CO2传质规律及增采机理研究,2022.09-2023.11,主持
[5] 煤矿安全高效开采省部共建教育部重点实验室开放基金项目,液氮冷冲击效应下煤岩体孔隙结构及吸附/解吸特性响应机制研究,2020.09-2022.08,主持
[6] 江西省数字国土重点实验室开放基金项目,复杂环境下地质灾害变形监测预警预报技术研究,2020.01-2021.12,主持
[1] 都喜东(4/9),“教-研-赛-创”一体多维的地矿安全类人才培养模式探索与实践,昆明理工大学,研究生教育教学成果奖,一等奖,2024.(王光进,赵冰,王蓉,都喜东,陈刚,阿发友,王宇栋,孔祥云,李保珠)
[1] 都喜东、张昕伟、周军平、王光进、贾云中、张登峰、尚德磊、侯振坤、程玉刚、王辉、刘振建、王志留、武腾飞、王小磊、李路航、黄凯波,一种高比表面积氢氧化钙生产的智能消化器,2024-08-16,中国,CN202411125532.8
[2] 都喜东、王光进、张宇航、侯振坤、程玉刚、刘振建、周强、王辉、衡献伟、黄凯波,一种用于生产纳米钙、镁、锶丝碳化塔,2024-08-30,中国,CN202211436268.0
[1] 都喜东, 王小磊*, 周军平, 王光进, 贾云中, 张登峰, 光文峰, 尚德磊, 侯振坤, 程玉刚. 煤层纳米孔结构中CO2吸附与扩散行为: 三维表面粗糙度的影响. 煤炭学报, 2025, DOI:10.13225/j.cnki.jccs.DM24.1321.
[2] Du Xi-Dong, Cheng Yu-Gang*, Liu Zhen-Jian, Yin Hong, Wu Teng-Fei, Huo Liang, Shu Cou-Xian. CO2 and CH4 adsorption on different rank coals: A thermodynamics study of surfacepotential, Gibbs free energy change and entropy loss. Fuel, 2021, 283: 118886.
[3] Du Xi-Dong, Pang Dong-Dong*, Cheng Yu-Gang, Zhao Yuan, Hou Zhen-Kun, Liu Zhen-Jian, Shu Cou-Xian. Adsorption of CH4, N2, CO2 and their mixture on montmorillonite with implications for enhanced hydrocarbon extraction by gas injection. Applied Clay Science, 2021, 210: 106160.
[4] Du Xi-Dong, Guang Wen-Feng*, Cheng Yu-Gang, Hou Zhen-Kun, Liu Zhen-Jian, Yin Hong, Huo Liang, Lei Rui-De, Shu Cou-Xian. Thermodynamics analysis of the adsorption of CH4 and CO2 on montmorillonite. Applied Clay Science, 2020, 192: 105631.
[5] Du Xi-Dong, Wang Wei*, Zhou Jun-Ping, Wang Guang-Jin, Zhang Deng-Feng, Jia Yun-Zhong, Duan Min-Ke, Cheng Yu-Gang, Wang Hui. Zeng Meng-Ru. Water vapor adsorption on the mixtures of swelling and non-swelling clays. Physics of Fluids, 2024, 36, 096623.
[6] Du Xi-Dong, Gu Min*, Hou Zhen-Kun, Liu Zhen-Jian, Wu Teng-Fei. Experimental study on the kinetics of adsorption of CO2 and CH4 in gas-bearing shale reservoirs. Energy & Fuels, 2019, 33: 12587-12600.
[7] Du Xi-Dong, Gu Min*, Liu Zhen-Jian, Zhao Yuan, Sun Fu-Long, Wu Teng-Fei. Enhanced shale gas recovery by the injections of CO2, N2, and CO2/N2 mixture gases. Energy & Fuels, 2019, 33: 5091-5101.
[8] Du Xi-Dong, Pang Dong-Dong*, Zhao Yuan, Hou Zhen-Kun, Wang Hang-Long, Cheng Yu-Gang. Investigation into the adsorption of CO2, N2 and CH4 on kaolinite clay. Arabian Journal of Chemistry, 2022, 15: 103665.
[9] Du Xi-Dong, Cheng Yu-Gang*, Liu Zhen-Jian, Hou Zhen-Kun, Wu Teng-Fei, Lei Rui-De, Shu Cou-Xian. Study on the adsorption of CH4, CO2 and various CH4/CO2 mixture gases on shale. Alexandria Engineering Journal, 2020, 59: 5165-5178.
[10] Du Xi-Dong, Gu Min*, Duan Shuo, Xian Xue-Fu. The influences of CO2 injection pressure on CO2 dispersion and the mechanism of CO2-CH4 displacement in shale. Journal of Energy Resources Technology, 2018, 140: 012907-1-012907-9.
[11] Du Xi-Dong, Gu Min*, Duan Shuo, Xian Xue-Fu. Investigation of CO2-CH4 displacement and transport in shale for enhanced shale gas recovery and CO2 sequestration. Journal of Energy Resources Technology, 2017, 139: 012909-1-012909-9.
[12] Du Xi-Dong, Wang Hai-Tao, Zhong Jin-Pan, Wang Guang-Jin, Zhang Deng-Feng, Liu Zhen-Jian*, Huang Kai-Bo, Wang Zhi-Liu. Adsorption behavior and thermodynamics of water on deep reservoir and its influence on CO2 sequestration. Journal of Taibah University for Science, 2023, 17(1): 2226490.
[13] Du Xi-Dong, Liu Ping, Wang Guang-Jin*, Zhang Deng-Feng, Cheng Yu-Gang, Wang Zhi-Liu, Huang Kai-Bo, Wu Teng-Fei, Qin Chao. Comparative study for water vapor adsorption thermodynamics in different clays. Energy & Fuels, 2023, 37(18), 13810-13828.
[14] Wang Xiao-Lei, Du Xi-Dong*, Guang Wen-Feng, Zhou Jun-Ping, Wang Guang-Jin, Zhang Deng-Feng, Abbas Naeem, Jia Yun-Zhong, Cheng Yu-Gang, Wang Hui, Zeng Meng-Ru. Effect of three-dimensional surface roughness on CH4 adsorption and diffusion in coal nanopores. Physics of Fluids, 2024, 36: 112033.
[15] Liu Zhen-Jian, Du Xi-Dong*, Long Kun, Yin Hong, Heng Xian-Wei. Effects of supercritical CO2 exposure on diffusion and adsorption kinetics of CH4, CO2 and water vapor in various coals. Arabian Journal of Chemistry, 2023, 16(2): 104454.
[16] Huang Kai-Bo, Du Xi-Dong*, Li Ke-Gang, Zhou Jun-Ping, Zhang Deng-Feng, Abbas Naeem, Cheng Yu-Gang, Wu Teng-Fei, Liu Guo-Jun, He Chong. Competitive adsorption of CO2/CH4 on coal: Insights from thermodynamics. Alexandria Engineering Journal, 2024, 97: 114-126.