余涛
详细资料
姓名:余涛
岗位:讲师/特任副教授(“长大学者”青年优秀人才)
学科方向:油气田开发工程
研究领域:油气田开发理论与方法;油气藏地质建模与数值模拟;CO2地质封存与利用;机器学习、分子动力学方法在油气藏开发中的应用
联系方式:malcolmcjdx@163.com
教育经历:
2020-09 至 2023-06,中国科学院大学,岩土工程,博士
2012-09 至 2015-06,中国石油大学(华东),油气田开发工程,硕士
2007-09 至 2011-06,长江大学,石油工程,学士
科研与学术工作经历:
2024-09至今,长江大学,石油工程学院,讲师
2023-07至2024-06,中国科学院武汉岩土力学研究所,二氧化碳封存与利用学科组,助理研究员
2015-07至2020-08,中国石油青海油田,采油一厂开发地质研究所,工程师
个人简介:
湖北汉川人,博士,特任副教授(“长大学者”青年优秀人才)。在《Journal of Hydrology》、《Journal of Rock Mechanics and Geotechnical Engineering》、《Journal of Petroleum Science and Engineering》、《Gas Science and Engineering》等各类高水平期刊发表学术论文发表SCI论文15篇。主持或参与国家科技重大专项、国家自然科学基金面上项目、湖北省自然科学基金创新群体项目、内蒙古自治区科技重大专项等纵向课题与企业委托横向课题10项。
科研项目:
[1] 华能陇东基地CO2地质封存诱发煤矿安全风险管控技术研究与工程应用,华能煤业公司煤炭技术公司,2023.01-2024.12,主研
[2] 恩平15-1油田水层封存地质油藏监测方法研究,中海油深圳分公司,2022.01-2023.12,主研
[3] 宁夏二氧化碳地质封存调查评价及示范工程,宁夏回族自治区水文环境地质调查院,2021.06-2023.05,主研
[4] 胜利油田百万吨CO2现场监测,中石化胜利油田,2021.01-2022.08,主研
[5] 地质封存体二氧化碳泄漏与断层活化监测方法与技术,内蒙古自治区科技重大专项(2021ZD0034-1),2021.06-2023.05,参与
[6] 生物质CCS 潜力与示范可行性,国家重点研发计划(2022YFE0115800),2022.5-2025.4,参与
[7] CO2封存储层岩石的破裂过程与渗透作用机制研究,国家自然科学基金面上项目(41872210),2019.01-2022.12,参与
[8] 尕斯N1-N21油藏下盘南区注采井网调整研究,中石油青海油田,2019.1-2019.12,主持
[9] 尕斯N1-N21油藏下盘南区低产低效井综合治理方案研究,中石油青海油田,2018.1-2018.12,主持
[10] 尕斯库勒油田N1-N21油藏上盘Ⅲ层系精细油藏描述,中石油青海油田,2017.1-2017.12,主持
代表性论文:
[1] Yu T, Hu H, Li Q, Tan Y, Xu L, Cao X. CO2 gas stripped off membranous residual oil from pore surfaces: Effects of temperature, pressure and wettability. Journal of Rock Mechanics and Geotechnical Engineering 2023;15(12):3209-20.
[2] Yu T, Li Q, Tan Y, Chen B, Hu H. Effect mechanism of wettability on CO2 replacement brine in nanopores. Journal of Hydrology 2023;625:130165.
[3] Yu T, Li Q, Tan Y, Hu H, Xu L, Li X, et al. Characterization of the effects of wettability and pore pressure on the interfacial behavior of CO2 interacting with oil-water two-phase on pore walls. Geoenergy Science and Engineering 2023;231:212329.
[4] Yu T, Li Q, Hu H, Tan Y, Xu L. Molecular dynamics simulation of the interfacial wetting behavior of brine/sandstone with different salinities. Colloids and Surfaces A: Physicochemical and Engineering Aspects 2022;632:127807.
[5] Yu T, Li Q, Hu H, Tan Y, Xu L. Residual oil retention and stripping mechanism of hydrophilic pore surfaces during CO2 and N2 combined gas flooding. Journal of Petroleum Science and Engineering 2022;218:110989.
[6] Yu T, Li Q, Tan Y, Xu L. Molecular dynamics simulation of CO2-N2 dissolution and stripping of oil films on pore walls based on intermolecular interaction energy. Chemical Engineering Science 2022;262:118044.
[7] Yu T, Li Q, Xiaochun L, Hu H, Tan Y, Xu L. Synergistic effects of CO2 density and salinity on the wetting behavior of formation water on sandstone surfaces: Molecular dynamics simulation. Journal of Natural Gas Science and Engineering 2022;105:104714.
[8] Wen Y, Yu T, Xu L, Zeng P, Gao W, Hou Y, et al. Molecular dynamics and experimental study of the effect of pressure on CO2 foam stability and its effect on the sequestration capacity of CO2 in saline aquifer. Chemical Engineering Science 2023.
[9] Tan Y, Li Q, Xu L, Xu L, Yu T, Cao X. CO2–Brine–rock interaction and sequestration capacity in carbonate reservoirs of the Tahe Oilfield, Xinjiang, China. Greenhouse Gases: Science and Technology 2022;12(5):642-60.
[10] Tan Y, Li Q, Xu L, Onyekwena CC, Yu T, Xu L. Effects of SiO2 nanoparticles on wettability and CO2–brine–rock interactions in carbonate reservoirs Implications for CO2 storage. Energy & Fuels 2023.
[11] Chen B, Li Q, Tan Y, Yu T, Li X, Li X. Experimental measurements and characterization models of caprock breakthrough pressure for CO2 geological storage. Earth-Science Reviews 2024;252.
[12] Chen B, Li Q, Tan Y, Zhang Y, Yu T, Ma J, et al. Caprock sealing integrity and key indicators of CO2 geological storage considering the effect of hydraulic-mechanical coupling: X field in the Bohai Bay Basin, China. Engineering Geology 2024;342.
[13] Chen B, Li Q, Tan Y, Zhang Y, Yu T, Zhong Y, et al. Key indicators of caprock sealing assessment with consideration of faults in potential CO2 geological storage sites in Subei Basin, China. Gas Science and Engineering 2024;129.
[14] Tan Y, Li Q, Chen B, Xu L, Yu T, Cao X. Experimental investigation of SiO2 nanoparticle–assisted CO2 flooding in carbonate saline aquifers. Energy 2024;305.
[15] 余 涛,李 琦, 谭永胜, 陈博文, 胡海翔. 基于分子动力学方法的致密砂岩储层CO2驱油研究进展. 天然气工业 2024;44(4):146-59.
专利:
谭永胜,李琦,徐亮,徐丽风,余涛。一种水平井二氧化碳注入剖面评价方法。发明专利,专利号:CN 113982546 B。
(2025年3月更新)
