杨珺导师简介
发布时间: 2023-09-05 访问次数: 821
研究生导师基本情况简介表
姓名 | 杨珺 | 性别 | 男 | 出生年月 | 1990.12 | 职称 | 讲师 | ||
单位 | 永利集团88304官网集团 | 政治面貌 | 群众 | ||||||
所属学位点 | 石油与天然气工程/油气田开发工程、 资源与环境 | ||||||||
研究方向 | 非牛顿流体渗流行为与机理 | ||||||||
微纳米流体力学 | |||||||||
非常规油气资源开发、利用和提高采收率 | |||||||||
学校及 社会兼职 | 国际石油工程师协会(SPE)会员、美国化学工程师学会(AIChE)会员;Fuel、Geoenergy Science and Engineering、Transport in Porous Media期刊审稿人 | ||||||||
研究生导师简介: 杨珺,陕西西安人,博士,讲师,硕士生导师。 工作邮箱:JunYang@cczu.edu.cn 学术主页:https://scholar.google.com/citations?user=nMnlQ9sAAAAJ&hl=en 教育经历: (1) 2017.10-2022.1,里贾纳大学,石油系统工程系,博士 (2) 2014.9-2017.9,里贾纳大学,石油系统工程系,应用科学硕士 (3) 2009.9-2013.6,中国石油大学(华东),石油工程系,工学学士 工作经历:
(2) 2015.1-2022.1,里贾纳大学,工程与应用科学学院,助研 (3) 2015.9-2020.4,里贾纳大学,工程与应用科学学院,助教 主要科研项目: (1) 国家自然科学基金青年科学基金项目:耦合泡沫油成核-生长行为的非平衡油气微观渗流机理研究,2024-2026,主持 (2) 江苏省基础研究计划自然科学基金青年基金项目:稠油冷采过程中非平衡油基泡沫体系的气泡动力学行为研究,2023-2026,主持 (3) 加拿大信息技术与综合系统数学组织(Mitacs)Accelerate项目:Evaluation of CO2 sequestration opportunities in Lloydminster post-CHOPS heavy oil reservoirs and underlying aquifers,2021-2023,参与 (4) 加拿大信息技术与综合系统数学组织(Mitacs)Accelerate项目:Study of cyclic solvent injection (CSI) process with carbon dioxide/methane/propane mixture solvent, 2017-2019,参与 代表性论著: (1) Zhao, J., Yang, J., & Zeng, F. (2023). Complex displacement behavior during foaming gas drainage in 2D microfluidic networks. Fuel, 344(15 July), 128071. (2) Yang, J., Zhao, J., & Zeng, F. (2023). Modeling foam propagation in pore network with designated pressure constraints. Fuel, 331(P1, 1 January), 125772. (3) Zhao, J., Torabi, F., & Yang, J. (2022). The role of emulsification and IFT reduction in recovering heavy oil during alkaline surfactant-assisted CO2 foam flooding: An experimental study. Fuel, 313(1 April), 122942. (4) Zhao, J., Torabi, F., & Yang, J. (2021). Role of viscous forces in foam flow in porous media at the pore level. Industrial & Engineering Chemistry Research, 60(7): 3156–3173. (5) Zhao, J., Torabi, F., & Yang, J. (2021). The synergistic role of silica nanoparticle and anionic surfactant on the static and dynamic CO2 foam stability for enhanced heavy oil recovery: An experimental study. Fuel, 287(1 March), 119443. (6) Zhao, J., Torabi, F., & Yang, J. (2020). Pore network investigation of gas trapping and mobility during foam propagation using invasion percolation with memory. Transport in Porous Media, 134: 195-230. (7) Yang, J., Wang, X., Peng, X., Du, Z., & Zeng, F. (2019). Experimental studies on CO2 foam performance in the tight cores. Journal of Petroleum Science and Engineering, 175(April 2019): 1136–1149. (8) Yang, J., Wang, X., Yang, Y., Peng, X., & Zeng, F. (2019). An empirical model to estimate sweep efficiency of a surfactant-alternating-gas foam process in heterogeneous reservoirs. Journal of Energy Resources Technology, 141(12): 1–12. 论著之外的代表性研究成果: (1) J. Yang, J. Zhao, Y. He, F. Zeng. Microscale evaluation on the feasibility of foam-assisted CO2 sequestration in the absence and presence of oleic phase: an integrated microfluidic experimental and pore network modeling study, SPE Annual Technical Conference and Exhibition2023, 圣安东尼奥,德克萨斯州,2023.10,国际石油工程师协会年会报告 (2) Z. Gao, Y. Su, Z. Geng, W. Liu, B. Huang; F. Zeng, J. Yang. Numerical simulation study of complex fracture type extra high condensate gas reservoir in Bohai sea, AIChE Annual Meeting 2020, 旧金山,加利福尼亚州, 2020.11,美国化学工程师学会年会报告 (3) C. Du, F. Zeng, J. Yang. Production capacity evaluation method of condensate gas reservoir considering the influence of stress sensitivity and condensate oil, AIChE Annual Meeting 2020, 旧金山,加利福尼亚州, 2020.11,美国化学工程师学会年会报告 (4) A. Fahrner, L. Rooney, M. Swalm, T. Hu, J. Yang, K. McNutt. Young professionals and their aspirations for their industry, Williston Basin Petroleum Conference 2019, 里贾纳,萨斯喀彻温省, 2019.5,北美地区学术会议报告 (5) J. Yang, X. Wang, S. Wang, R. Gao, Y. Zhang, Y. Yang, F. Zeng. A theoretical model for dynamic performance prediction of air-foam flooding in heterogeneous reservoirs, International Petroleum Technology Conference, 曼谷, 泰国,2016.11,国际石油技术会议报告 (6) X. Wang, S. Wang, R. Gao, Y. Yang, F. Zeng, J. Yang, Y. Zhang. Estimation of oil recovery in foam flooded hydrocarbon reservoirs, 2017.6, US14/977,923, 美国专利及商标局注册专利 |