刘建斌,讲师
电子邮箱:jianbin@xsyu.edu.cn;deleap@163.com 电话:15601335033
通讯地址:西安市雁塔区电子二路东段18号
教育经历:
2018.09 至 2022.06:中国石油大学(北京), 油气田开发工程, 博士
2016.09 至 2018.07:中国石油大学(北京), 油气田开发工程, 硕士(硕博连读)
2010.09 至 2014.07:西安石油大学, 石油工程, 学士
工作经历:
2022.08 至今:西安石油大学, 石油工程学院, 讲师
2014.07至2015.05:川庆钻探工程有限公司长庆钻井总公司,钻井助理工程师
研究方向:
致密储层描述与渗吸增产;稠油油藏化学复合驱油机理;孔隙介质多相微观渗流理论;高性能乳化驱油;分子动力学模拟;高温高压封堵/调剖/暂堵工艺技术。
代表性论著:
第一/通讯作者:
[1] Ultra-low Interfacial Tension Anionic/Cationic Surfactants System with Excellent Emulsification Ability for Enhanced Oil Recovery. J MOL LIQ, 2023.
[2] Study on the Emulsification Characteristics of Heavy Oil During Chemical Flooding. Physics of Fluids, 2023.
[3] Porous Media Flooding Mechanism of Nanoparticle-Enhanced Emulsification System. Physics of Fluids, 2023.
[4] Influence of Emulsification Characteristics on the Pressure Dynamics during Chemical Flooding for Oil Recovery. Energy & Fuels, 2023.
[5] A Gel System with Long Term High Temperature Stability for Deep Profile Modification of High‐Temperature Oil and Gas Reservoirs. J APPL POLYM SCI, 2023.
[6] Experimental Study on Fluid Flow Behaviors of Waterflooding Fractured-Vuggy Oil Reservoir Using Two-Dimensional Visual Model. Physics of Fluids, 2023.
[7] Study on an Anti-adsorption Micromaterial Tracer System and Its Application in Fracturing Horizontal Wells of Coal Reservoirs. ACS omega, 2023.
[8] 胜利油田金17块稠油-水乳化特性及其对乳化驱油的影响.油气地质与采收率, 2023.
[9] Experimental Study of Produced Fluid Emulsification During Water/Steam Flooding for Heavy Oil Recovery. Energy & Fuels, 2022.
[10] W/O Emulsions Generated by Heavy Oil in Porous Medium and Its Effect on Re-emulsification. Fuel, 2022.
[11] A Collaborative Emulsification System Capable of Forming Stable Small Droplets of Oil-in-water Emulsions for Enhancing Heavy Oil Recovery. J MOL LIQ, 2022.
[12] High-efficiency Emulsification Anionic Surfactant for Enhancing Heavy Oil Recovery. Colloids and Surfaces A, 2022.
[13] Investigation of a High Temperature Gel System for Application in Saline Oil and Gas Reservoirs for Profile Modification. J PETROL SCI ENG, 2021.
[14] Pore-Scale Dynamic Behavior and Displacement Mechanisms of Surfactant Flooding for Heavy Oil Recovery. J MOL LIQ, 2021.
[15] Laboratory Evaluation of Fluidity of Heavy Oil Emulsions in Formation Pores Medium. ACS Omega, 2021.
[16] High-Temperature Performance and Cross-Linking Mechanism of Different Types of Gel Systems in Saline Environment. J APPL POLYM SCI, 2021.
[17] Subsurface Sludge Sequestration in Cyclic Steam Stimulated Heavy Oil Reservoir in Liaohe Oilfield. SPE Journal, 2020.
[18] Investigation of a High Temperature Gel System for Application in Saline Oil and Gas Reservoirs for Profile Modification. J PETROL SCI ENG, 2020.
[19] Study on the Re-emulsification Process of Water in Heavy Oil Emulsion with Addition of Water-soluble Viscosity Reducer Solution. Energy & Fuels, 2019.
合著作者:
[1] Investigation on enhanced oil recovery and CO2 storage efficiency of temperature-resistant CO2 foam flooding, Fuel, 2024.
[2] Pore-Scale Transport Dynamic Behavior of Microspheres and Their Mechanisms for Enhanced Oil Recovery, Energy & Fuels, 2024.
[3] 适用于新型体积压裂的暂憋剂性能影响因素研究. 特种油气藏,2024
[4] Investigation of Polymer-Assisted CO2 Flooding to Enhance Oil Recovery in Low-Permeability Reservoirs, Polymers, 2023.
[5] Waterflood Efficiency Assessment Using Injection-Production Relationship Analysis Method. MATH GEOSCI, 2022.
[6] Mechanistic Study on the Decrease in Injectivity during Salt-Resistant Polymer Flooding. ACS Omega, 2022.
[7] Design Method and Application of Accurate Adjustment Scheme for Water Injection Wells Around Adjustment Wells[J]. J PET EXPLOR PROD TE, 2022.
[8] 苏桥储气库高温高压气井纳米凝胶暂堵技术.石油钻采工艺, 2022.
[9] 旅大27-2油田稠油油藏采出液流动特性. 日用化学工业, 2020.
[10] 旅大27-2油田稠油油藏流体流动性影响因素. 科学技术与工程, 2020.
[11] 中深层稠油油藏蒸汽-氮气复合吞吐技术. 新疆石油地质, 2019.
[12] 中深层特稠油重力泄油模拟实验. 石油科学通报, 2019.
国际会议:
[1] Experimental Study on the Influence of Hydraulic Fracturing on Hydrogen Sulfide Generation in Longxi Block of Daqing Oilfield. ASME 41st International Conference on Ocean, Offshore and Arctic Engineering, 2022.
[2] Investigation on Insulated Tubing Corrosion in Nanbu 35-2 Multi-Thermal Fluid Project. International Petroleum Technology Conference, D012S045R092, 2022.
[3] Study on Flow Characteristics of Produced Fluid in Bohai Oilfield Cycle Steam Stimulated Heavy Oil Reservoir. International Conference on Environmental Engineering and Energy, 2021.
[4] Synergistic Flooding and Gravity Drainage by Steam and Gas. Paper IPTC-20017-MS presented at International Petroleum Technology Conference (IPTC), 2020.
[5] Subsurface Sludge Sequestration in Cyclic Steam Stimulated Heavy Oil Reservoir in Liaohe Oilfield. Paper SPE 195415-MS presented at the SPE Symposium: Asia Pacific Health, Safety, Security, Environment and Social Responsibility, 2019.
代表性成果:
一种交联聚合物微球及其制备方法与应用(国家发明专利:CN202010972852.2)
一种稠油乳状液储层动态粘度的测试方法(国家发明专利:CN202310205435.9)
一种阴非离子型乳化驱油剂及其制备方法和应用(国家发明专利:CN202211547281.3)
一种乳化驱油剂和原油混合方法及其装置(国家发明专利:CN202211529353.1)
一种基于渗吸剂的渗吸-布酸协同采油方法以及渗吸剂(国家发明专利:CN202310949783.7)
一种实验室量化渗透流动能力的装置及其实验方法(国家发明专利:CN202310638801.X)
一种自组装复合凝胶暂憋剂制备及其憋压造缝方法(国家发明专利:CN202310742982.0)
一种自降解暂憋剂及其制备方法(国家发明专利:CN202310742983.5)
注汽井电加热后井下干度计算软件(登记号:2021SR1239696)
科研课题:
国家自然科学基金青年项目,地下复杂结构孔隙中稠油多重乳化机理与粒径预测,2024-2026,在研,主持。
国家科技重大专项-油气重大专项,海上稠油热采调剖工艺及配套技术研究,2016-2020,结题,主研。
中石油煤层气有限公司,水平井压裂液微量物质示踪剂产出剖面测试研究,2022,结题,主研。
中石化胜利油田分公司勘探开发研究院,多孔介质中驱油剂驱油性能测试,2021,结题,主研。
中海石油(中国)有限公司天津分公司,蒸汽吞吐中后期注热参数优化及增效工艺技术研究, 2018-2020,结题,主研。
学术兼职:
SPE会员、ACS会员
《油气地质与采收率》首届青年编委
《特种油气藏》首届青年编委
《东北石油大学学报》首届青年编委
《Polymers》特约主编
中国石油大学(北京)校外沐光导师
Applied Energy、Energy、Fuel、Physis of Fluids、Journal of Molecular Liquids、Energy & Fuels、Colloids and Surfaces A、Petroleum Science、Geoenergy Science and Engineering、石油勘探与开发、油气地质与采收率等学术期刊审稿人。
各类荣誉:
中国石油大学(北京)优秀博士论文
北京市优秀博士论文