东晓虎

教育经历 2009-09至2014-09， 中国石油大学（北京）， 油气田开发， 博士研究生 2005-09至2009-06， 中国石油大学（北京）， 石油工程， 大学本科 个人概况 姓名：东晓虎 职称：副教授、博导 教育与工作经历： 2005-2009 中国石油大学（北京） 本科 2009-2014 中国石油大学（北京） 博士研究生 2014-2016 University of Calgary 博士后 2016-现在 中国石油大学（北京）教师 个人主页： https://www.researchgate.net/profile/Xiaohu_Dong 电子邮箱： dongxh@cup.edu.cn 联系电话： 13466794958 所在系所： 油气田开发工程系 研究方向： 稠油热力采油技术、非常规油气藏开发、煤炭地下气化等 教学情况：《石油工程热工学》、《复杂结构井开发与开采》、《石油工程英语科技论文写作》等 发表论文： [1]. 高含水层油砂SAGD相似物理模拟实验研究. 石油学报， 2021. （EI） [2]. 微-纳尺度孔隙不同类型流体的赋存状态数学模型. 中国石油大学学报（自然科学版）, 2021, 45(02): 87-95. （EI） [3]. n-decane diffusion in carbon nanotubes with vibration, The Journal of Chemical Physics, 2021, 154, 074505. (SCI, EI) [4]. Pore-Scale Movability Evaluation for Tight Oil EOR methods Based on Miniature Core Test and Digital Core Constructure. Industrial & Engineering Chemistry Research. 2021, 60(6): 2625-2633. (SCI, EI)（封面论文） [5]. A novel experimental investigation on the occurrence state of fluids in microscale pores of tight reservoirs. Journal of Petroleum Science and Engineering, 2021, 196, 107656. (SCI, EI) [6]. Steam Conformance along Horizontal Well with Different Well Configurations of Single Tubing: An Experimental and Numerical Investigation, SPE Production & Operations, 2020, 35(3): 549 - 563. SPE-195799-PA. (SCI, EI) [7]. Experimental Investigation on the Steam Injection Profile along Horizontal Wellbore, Energy Reports, 2020, 6, 264-271. (SCI, EI) [8]. Enhanced Oil Recovery Techniques for Heavy Oil and Oilsands Reservoirs after Steam Injection. Applied Energy, 2019, 239, 1190-1211. (SCI, EI) （ESI高被引） [9]. 吉木萨尔凹陷芦草沟组孔隙结构定量表征. 新疆石油地质. 2019, 40(3), 284-289. [10]. CNOOC studies steam recovery in offshore Bohai heavy oil field. Oil & Gas Journal, 2018,116.4, 46-51. (SCI, EI) [11]. An Empirical Correlation to Predict the SAGD Recovery Performance. Journal of Computational Methods in Sciences and Engineering. 2017, 17, 333-345. (EI) [12]. Performance of Multiple Thermal Fluids Assisted Gravity Drainage Process in Post SAGD Reservoirs. Journal of Petroleum Science and Engineering. 2017, 154, 528-536. (SCI, EI) [13]. Mathematical Modeling of heat transfer and pressure drops in single- and dual-pipe horizontal well. Journal of Thermal Science and Engineering Applications. 2017, 9(1), 011016-10. (SCI, EI) [14]. 非凝析气与蒸汽混注水平井井筒流动传热特征. 中国石油大学学报(自然科学版). 2016, 40(2), 105-114. (EI) [15]. Study of the confined behavior of hydrocarbons in organic nanopores by the potential theory. Fluid Phase Equilibria. 2016, 429, 214-226. (SCI, EI) [16]. The effect of capillary condensation on the phase behavior of hydrocarbon mixtures in the organic nanopores. Petroleum Science and Technology. 2016, 34(17-18), 1581-1588. (SCI, EI) [17]. Polymer-Enhanced Foam Injection Process: An Improved- Oil-Recovery Technique for Light Oil Reservoirs after Polymer Flooding. Energy Sources, Part A: Recovery, Utilization, and Environmental Effects. 2016, 38(3): 354-361. (SCI, EI) [18]. Phase Equilibria of Confined Fluids in the Nanopores of Tight and Shale Rocks Considering the Effect of Capillary Pressure and Adsorption Film. Industrial & Engineering Chemistry Research. 2016, 55 (3), 798-811. (SCI, EI) [19]. Multi-thermal Fluid Assisted Gravity Drainage Process: A New Improved-Oil-Recovery Technique for Thick Heavy Oil Reservoir. Journal of Petroleum Science and Engineering. 2015, 133, 1-11. (SCI, EI) [20]. Experimental investigation of miscible gas injection with different gases in petroleum reservoirs. International Journal of Oil, Gas and Coal Technology. 2015, 9(3), 280-295. (SCI, EI) [21]. Flow and Heat Transfer Characteristics of Multi-thermal Fluid in a Dual-String Horizontal Well. Numerical Heat Transfer, Part A: Application. 2014, 66(2), 185-204. (SCI, EI) [22]. The flow and heat transfer characteristics of multi-thermal fluid in horizontal wellbore coupled with flow in heavy oil reservoirs. Journal of Petroleum Science and Engineering. 2014, 122, 56-68. (SCI, EI) [23]. Simulation Modeling and Kinetics for Low-Temperature Oxidation of Light Crude Oil. Chemistry and Technology of Fuels and Oils. 2013, 49(1), 16-24. (SCI, EI) [24]. Non-Newtonian flow characterization of heavy crude oil in porous media. Journal of Petroleum Exploration and Production Technology. 2013, 3(1), 43-53. (EI) [25]. Air-Foam Injection Process: An Improved–Oil-Recovery Technique for Waterflooded Light-Oil Reservoirs. SPE Reservoir Evaluation & Engineering. 2012, 15 (4), 436-444. SPE-163044-PA. (SCI, EI) [26] Gasification chamber evolution and recovery performance of underground coal gasification in deep coal seam: A numerical simulation study. 2021 SPE/AAPG/SEG Asia Pacific Unconventional Resources Technology Conference, URTEC 208271. (EI) [27] Vapor-liquid Equilibria and Diffusion of CO2/n-dacane Mixture in the Nanopores Of Shale Reservoirs. 2020 SPE Annual Technical Conference and Exhibition, SPE 201269. (EI) [28] Confined Behavior of Hydrocarbon Fluids in Heterogeneous Nanopores By the Potential Theory. 2020 SPE Annual Technical Conference and Exhibition, SPE 201774. (EI) [29]. Steam Conformance along Horizontal Well with Different Well Configurations: An Experimental and Numerical Investigation. 2019 SPE Annual Technical Conference and Exhibition, SPE 195799. (EI) [30]. Confined Behavior of CO2/Hydrocarbon System in Nanopores of Tight and Shale Rocks. 2019 Unconventional Resources Technology Conference, URTeC 116. (EI) [31]. EOR Potential in the Post Steam Injection Era: Current and Future Trends. 2018 SPE Improved Oil Recovery Conference, SPE 190195. (EI) [32]. Polymer-Enhanced Foam (PEF) Injection Technique to Enhance the Oil Recovery for the Post Polymer-flooding Reservoir. 2016 SPE Western Reginal Meeting, SPE 180426. (EI) [33]. Phase Behavior of Hydrocarbon Mixtures in the Organic Nanopores of Unconventional Gas Condensate Reservoirs. 2016 Unconventional Resources Technology Conference, URTEC 2460485. (EI) [34]. The Thermal Recovery Methods and Technical Limits of Bohai Offshore Heavy Oil Reservoirs: A Case Study. 2015 Offshore Technology Conference Brazil, OTC 26080. (EI) [35]. Feasibility of the Steam-Assisted-Gravity-Drainage Process in Offshore Heavy Oil Reservoirs with Bottom Water. 2014 Offshore Technology Conference Asia, OTC 24763. (EI) [36]. Flexibility Research of Hot-Water Flooding followed Steam Injection in Heavy Oil Reservoirs. 2011 SPE Enhanced Oil Recovery Conference, SPE 144012. (EI) 学术专著： [1] Dong X., Liu H., Chen Z. Hybrid Enhanced Oil Recovery Processes for Heavy Oil Reservoirs. Developments in Petroleum Science, Elsevier, 2021. [2] Jia X., Dong X., Xu J., Chen Z. Multiphase Fluid Flow and Reaction in Heterogeneous Porous Media for Enhanced Heavy Oil Production, John Wiley & Sons Ltd. 2018, 319-351. 科研教学奖励： [1] 中国石油大学（北京）石油工程学院首届教学成果一等奖，2021. [2] 中国石油大学（北京）校级教学成果二等奖，2021. [3] 前1%高倍引论文（2018-2019）, Applied Energy, 2020. [4] 近五年前1%高倍引作者（2015-2019）, Industrial & Engineering Chemistry Research, 2020. [5] 教育部科技进步二等奖，排名2/15，2019. [6] 中国石油大学（北京）科技创新优秀指导教师，2018. [7] 中国石油大学（北京）优秀博士论文，2016. [8] 中国石油和化学工业联合会科技进步一等奖，排名12/15，2013. 发明专利： [1] 油砂SAGD技术的物理模拟实验系统、装置及方法, 授权，2021 [2] 孔隙流体初始赋存状态的获取方法及其装置，授权，2021. [3] 用于稠油热采的同心双管注采水平井物理模拟装置，授权，2020. [4] 一种稠油油藏热采可视化物理模拟装置，授权，2018. [5] 多功能注蒸汽热采三维物理模拟实验装置，授权，2017. [6] 稠油热采水平井段沿程变质量流动模拟实验装置，授权，2017. 承担科研项目： [1] 国家自然科学基金，企业创新发展联合基金，课题3：多元多相非等温渗流规律研究，2021-2024，项目负责人. [2] 国家自然科学基金，青年基金，页岩微纳尺度非均性孔隙流体相变机制研究，2021-2023，项目负责人. [3] 北京市自然科学基金，面上基金，页岩油藏纳米级孔隙流体的限域行为与传输机制研究，2021-2023，项目负责人. [4] 北京市自然科学基金，青年基金，致密-页岩储层微纳米限域空间内的流体赋存机制及相变规律研究，2018-2019，项目负责人. [5] 中海油研究总院有限责任公司，海上不同井型不同热介质吞吐产能评价方法研究，2021-2022，项目负责人. [6] 中国石油集团廊坊科学技术研究院，气化效果的影响因素模拟研究，2021-2022，项目负责人. [7] 中国石油集团廊坊科学技术研究院，气化煤块的孔渗变化分析，2020-2021，项目负责人. [8] 中国石油大学（北京）引进人才科研启动基金： 基于多因素耦合的非常规储层流体相态特征研究，2017-2019，项目负责人. [9] “十三五”国家科技重大专项，油砂SAGD开发物理模拟实验研究，2016-2020，主研人员. 社会与学术兼职： [1] SPE会员 [2] Petroleum Science 副主编 [3] Frontiers in Earth Science 客座主编 (2021) [4] Geofluids (2018, 2021), Fluids(2021)客座编辑 [5] 期刊审稿人: Nature Communications, Energy, Engineering, Fuel, Energy & Fuels, Fluid Phase Equilibria, SPE J, SPE REE, JPSE, IECR等 [6] Elsevier出版社图书同行评审专家 [7] 国家自然科学基金项目通讯评议专家