2007.09-2011.07 中国石油大学(华东)应用化学 学士
2011.09-2014.07 中国石油大学(华东)油气田开发工程 硕士
2014.09-2018.08 加拿大阿尔伯塔大学 石油工程 博士
2018.10-2021.09 中国石油大学(华东)石油工程 师资博士后
2021.10-2023.6 中国石油大学(北京)油气田开发工程 副教授
2023.7 - 中国石油大学(北京)油气田开发工程 教授
电子邮箱:sdliuyueliang@163.com;yueliang@cup.edu.cn
联系电话:13910726916
研究领域: 1.二氧化碳提高油气采收率与地质封存协同理论与技术
2.油藏地质体二氧化碳多相体系相平衡机制
3.油藏地质体二氧化碳运移演化机理与封存机制
代表性学术论文(第一或通讯作者):
[1] Liu Yueliang, Rui Zhenhua*, A Storage-Driven CO2 EOR for Net-zero Emission Target, Engineering, 2021, In Press.
[2] Liu Yueliang, Rui Zhenhua*, Birol Dindoruk, Tao Yang, Using Propanol as an Additive to CO2 for Improving CO2 Utilization and Storage in Oil Reservoirs, 2021, Applied Energy, 311: 118640.
[3] Liu Yueliang, Jin Zhehui*, Li Huazhou, Comparison of Peng-Robinson Equation of State with Capillary Pressure Model with Engineering Density-Functional Theory in Describing the Phase Behavior of Confined Hydrocarbons, SPE Journal, 2018, 23 (05): 1784-1797.
[4] Liu Yueliang, Hou Jian, Wang Chen*, Absolute Adsorption of CH4 on Shale with the Simplified Local-Density Theory, SPE Journal, 2020, 25 (01): 212-225.
[5] Liu Yueliang, Li Huazhou*, Tian Yuanyuan, Jin Zhehui, Deng Hucheng, Determination of Absolute Adsorption-Desorption Isotherms of CH4 and n-C4H10 on Shale from a Nanopore-Scale Perspective, Fuel, 2018, 218: 67-77.
[6] Liu Yueliang*, Ma Xiaomin, Li Huazhou, Hou Jian, Competitive Adsorption Behavior of Hydrocarbon(s)/CO2 Mixtures in a Double-nanopore System using Molecular Simulations, Fuel, 2019, 252: 612-621.
[7] Liu Yueliang, Li Huazhou*, Okuno Ryosuke. Measurements and Modeling of Interfacial Tension of CO2-CH4-brine System at Reservoir Conditions, Industrial & Engineering Chemistry Research, 2016, 55 (48): 12358-12375.
[8] Liu Yueliang*, Hou Jian. Selective Adsorption of CO2/CH4 Mixture on Clay-rich Shale using Molecular Simulations, Journal of CO2 Utilization, 2020, 39: 101143.
[9] Liu Yueliang*, Xianfeng Peng**, Hongde Chen, Jianhua He, Influence of Natural Fractures on Propagation of Hydraulic Fractures in Tight Reservoirs during Hydraulic Fracturing: A Laboratory Perspective, Marine and Petroleum Geology, 2022, 138:105505.
[10] Liu Yueliang, Li Huazhou*, Okuno Ryosuke, Phase Behavior of N2/n-C4H10 in a Partially Confined Space Derived from Shale Sample, Journal of Petroleum Science and Engineering, 2018, 160: 442-451.
[11] Liu Yueliang, Wang Chen*, Determination of the Absolute Adsorption Isotherms of CH4 on Shale with Low-field Nuclear Magnetic Resonance, Energy & Fuels, 2018, 32 (2): 1406-1415.
[12] Liu Yueliang, Ma Xiaomin, Hou Jian*, Comparing the Effectiveness of SO2 with CO2 for Replacing Hydrocarbons from Nanopores, Energy & Fuels, 2019, 33 (6): 5200-5207.
[13] Liu Yueliang**, Hou Jian*, Investigation on the Potential Relationships between Geophysical Properties and CH4 Adsorption in a Typical Shale Gas Reservoir, Energy & Fuels, 2019, 33: 8354-8362.
[14] Liu Yueliang, Li Huazhou*, Application of Novel Hyper-branched Polymer Fracturing Fluid System in Low-permeability Heavy Oil Reservoir, SPE Production & Operations, 2016, 31 (4): 325-336.
[15] Li Xue, He Wenhao, Liu Zilong*, Zhang Xiao, Li Zhao, Hou Xiaonan, Liu Yueliang*, Zhu Jianwei, Li Xiaofang, Zhang Suian, Sun Weichao, Xie Enze, Lu Guiwu. Highly selective CO2/C2H2 separation with porous g-C9N7 nanosheets by charge and strain engineering, Chemical Engineering Journal, 2022, 435:134737.
[16] Wang Chen, Liu Yueliang*, Gao Yuan, Heavy-Oil Recovery by Combined Geothermal Energy and Cosolvent/Water Flooding, Energy, 2021, 228: 120681.
[17] Kong Shaoqi, Feng Gan, Liu Yueliang*, Potential of Dimethyl Ether as an Additive in CO2 for Shale Oil Recovery, Fuel, 2021, 296: 120643.
[18] Huang Xing; Gu Lijun.; Li Shuaishuai; Du Yifan; Liu Yueliang*. Absolute adsorption of light hydrocarbons on organic-rich shale: An efficient determination method. Fuel, 2022, 308: 121998.
[19] Zhao Jinsheng, Li Tiantai, Shi Yu, An Chongqing, Liu Yueliang*, A New Sinking Agent used in Water-control Fracturing for Low-permeability-Bottom-water Reservoirs: Experimental Study and Field Application, Journal of Petroleum Science and Engineering, 2019, 177: 215-223.
[20] Wang Chen, Liu Yueliang*, Yuan Gao. Comparison of the Absolute Adsorption of CH4, n-C4H10 and CO2 on Shale, Energy & Fuels, 2020, 34(4): 4466-4473.
[21] Zhang Yeyu, Zhang Shaonan, Wang Zhicheng, Deng Hucheng, Qi Minghui, Peng Xianfeng, Liu Yueliang*, Determination of the absolute CH4 adsorption using simplified local density theory and comparison with the modified Langmuir adsorption model, RSC Advances, 2018, 8: 41509-41516.
[22] Huang Xing, Li Ang, Li Xiang, Liu Yueliang*, Influence of Typical Core Minerals on Tight Oil Recovery during CO2 Flooding using the Nuclear Magnetic Resonance Technique, Energy & Fuels, 2019, 33: 7147-7154.(Corresponding author)
[23] Wang Chen, Kong Shaoqi, Liu Yueliang*, Yuan Gao. Measurement and Modeling of the Adsorption/Desorption Behavior of Light Hydrocarbons on Shale, Energy & Fuels, 2020, 34(4): 4579-4586.(Corresponding author)
[24] Li Zhenquan, Hou Jian, Liu Yueliang*, Investigation on Multi-molecular Mixed Polymer Flooding for Heavy Oil Recovery, Journal of Dispersion Science and Technology, 2021, 1878902.
[25] Liu Yueliang, Li Huazhou, Okuno Ryosuke. Phase behavior of fluid mixtures in a partially confined space. Paper SPE 181716, to be presented at the SPE Annual Technical Conference and Exhibition to be held 26-28 September 2016 in Dubai, UAE.
[26] Liu Yueliang, Li Huazhou. Application of novel hyper-branched polymer fracturing fluid system in low-permeability heavy oil reservoir. Paper SPE 174461, presented at the SPE heavy oil conference-Canada, Calgary, Alberta, Canada, June 11-13, 2015.
[27] Liu Yueliang, Jin Zhehui, Li Huazhou. Comparison of PR-EOS with capillary pressure model with engineering density functional theory on describing with the phase behavior of confined hydrocarbons. Paper SPE 187405, presented at the SPE Annual Technical Conference and Exhibition to be held 9-11 October 2017 in San Antonio, USA.
[28] Liu Yueliang, Jin Zhehui, Li Huazhou. Determination of the absolute adsorption isotherms of C1/C2 mixtures with the simplified local density (SLD) theory. presented at The 10th Jubilee Interpore Conference to be held 12-17 May 2018 in San Antonio, USA.
[29] Liu Yueliang, Hou Jian. Adsorption of CO2/CH4 Mixture on Clay-rich Shale with the Implications for CH4 Recovery and CO2 Sequestration. presented at 2020 International Conference on Energy Science & Technology be held 23-24 March 2020 in Kuala Lumpur, Malaysia.
代表性科研项目:
[1] 国家自然科学基金(面上),特低-超低渗油藏CO2驱油与封存动态协同及碳迁移演化机制,负责人
[2] 国家自然科学基金(青年),页岩油藏基质-裂缝系统内注CO2多尺度相变机制与原油动用机理,负责人
[3] 科技部高端外国专家引进计划,特低渗-超低渗油藏CO2驱油与地质封存动态协同关键科学问题研究,负责人
[4] 国家重点研发计划子课题,稠油/降粘剂/水三元相变特征及热力学相平衡模型,负责人
[5] 博士后国际交流计划引进项目,富页岩油纳米孔隙内注烟道气相态演化机制研究,负责人
[6] 中国博士后科学基金特别资助,致密油储层注CO2多尺度相变机制与开发机理研究,负责人
[7] 中国博士后科学基金面上一等资助,考虑流体-岩石作用机制的页岩油-CO2体系相变规律研究,负责人
[8] 博士后国际交流计划学术交流项目,页岩储层CO2提高采收率与埋存机理,负责人
[9] 山东省自然科学基金,致密油注CO2开发相平衡规律及热力学模拟研究,负责人
[10] 山东省博士后创新项目,致密储层页岩油-CO2体系相变规律研究,负责人
[11] 青岛市博士后资助项目,考虑流固作用的烟道气-页岩油体系相变规律研究,负责人
[12] 中石油页岩油气富集机理与有效开发国家重点实验室开放基金,页岩油藏注CO2多尺度相变机制与原油渗流机理研究,负责人
代表性发明专利:
[1] 一种利用二甲基醚辅助CO2驱实现稠油油藏高效开发的方法,CN 110552671A.
[2] 基于压裂液返排数据的页岩油气藏裂缝参数反演方法,CN 114169263B.
[3] Method for obtaining formation parameters of gas hydrate reservoir through well testing interpretation. US10815778B1, 2020.10.27.
[4] Method for Correcting Permeability Model of Porous Medium in Dissociation Process of Gas Hydrate, and Method and System for Determining Permeability of Hydrate-bearing Porous Medium. US10969514B1, 2021.04.06.
学术兼职及荣誉情况:
[1] Advanced Materials Scientist Award,Sweden, 2022
[2] 山东省高层次人才,2021
[3] 博士后国际交流计划引进项目资助,2018
[4] 中国博士后科学基金特别资助,2020
[5] Mitacs Globalink Research Award,Canada,2015
[6] 中国石油和化工自动化应用协会科技进步二等奖(1/9),2021
[7] 中国石油和化学工业联合会科技进步一等奖(12/15),2021
[8] 第八届中国国际“互联网+”大学生创新创业大赛北京赛区二等奖、三等奖,指导教师,2022
[9] 《Applied Energy》(IF:11.446)客座主编
[10] 《Applied Sciences》客座主编
[11] 《Geofluids》编委
[12] 《石油学报》首届青年编委
[13] 《石油科学通报》执行编委
[14] 《Petroleum Science》青年编委
[15] SPE Production and Facilities Advisory Committee
[16] SPE Scholarship Committee
[17] 2021年全球计算与信息科学学术会议分会场主席
[18] 山东省高等学校“青创人才引育计划”团队带头人
