◎学习与工作经历 2009.9-2013.7,中国石油大学(华东),石油工程学士; 2013.9-2016.7,中国石油大学(华东),油气田开发工程硕士; 2016.9-2019.7,里贾纳大学,石油工程博士; 2019.8-2020.5,里贾纳大学,石油工程博士后; 2020.5- ,中国石油大学(华东),石油工程学院特任副教授;
◎研究方向 (1)智能/绿色材料在钻完井和油气增产中的应用,调控机理和方法研究 (2)页岩/致密油气相态理论和相应CO2埋存机制与策略 (3)CO2埋存与井筒完整性一体化评价方法与防治机理、策略 (4)高效、智能完井与增产一体化技术
◎学术兼职 担任SPE Journal, Fuel, langmuir, Journal of Petroleum Science & Engineering, Industrial & Engineering Chemistry Research, Energy & Fuels, Fluid Phase Equilibria等多个石油工程/流体热力学著名期刊的审稿人;美国石油工程师协会(SPE)和美国化学协会(ACS)会员。
◎主讲课程 本科生: 选修课 《完井工程》 石油工程专业 选修课 《石油工程概论》 俄语专业
◎指导研究生 硕士: 2021级:熊超(协助指导); 博士: 2020级:宋丽芳(协助指导);
◎承担科研课题 1. 基于分子混合与相互作用的CO2-烃密度演化和混相机理,国家自然科学基金青年基金,2022-2024,主持 2. CO2驱组分演化中CO2与油气烃分子的微观混合机制,山东省自然科学基金青年基金,2022-2024,主持 3. 自组装/纳米SiO2热增黏聚合物及其调控超深井高密度水泥浆恒匀机理研究, 国家自然科学基金面上项目,2021-2024,技术骨干 4. 出砂冷采后期用于提高稠油采收率的烃溶剂强化蒸汽+烟道气技术研究,加拿大自然科学与工程研究委员会,合作研发项目,2019-2024,技术骨干 5. 不确定条件下致密油藏提高采收率的动态裂缝表征和集成优化,加拿大自然科学与工程研究委员会,合作研发项目,2019-2024,技术骨干 6. 纳米颗粒的传输现象及其在提高石油采收率中的应用,加拿大自然科学与工程研究委员会,合作研发项目,2018-2019,参与 7. 低渗碎屑岩气藏保护新技术及超低伤害保护液研究,国家科技重大专项,2016-2017,参与 8. 汽驱井逐次深部调剖技术推广应用,油田横向课题,2015,技术骨干 9. 致密碎屑岩储层伤害机理及储层保护与修复技术研究,国家科技重大专项,2014-2016,参与 10. 泡沫微观调驱机理研究,油田横向课题,2014,参与
◎获奖情况 1. 2015年度研究生国家奖学金; 2. 2018年度国家优秀自费留学生奖学金;
◎荣誉称号 1. 2015年,中国石油大学(华东)研究生“学术十杰”; 2. 2019年,里贾纳大学杰出研究生;
◎论文 1. Zehua Chen; Daoyong Yang*; A Tangent-Line Approach for Effective Density Used in Ideal Mixing Rule: Part I—Prediction of Density for Heavy-Oil/Bitumen Associated Systems, SPE Journal, 2020, 25(3): 1140-1154. SCI一区(石油工程顶级期刊) 2. Zehua Chen; Daoyong Yang*; A Tangent-Line Approach for Effective Density Used in the Ideal Mixing Rule: Part II—Evaluation of Mixing Characteristics of Oil/Gas Systems and Application Criteria, SPE Journal, 2020, 25(6): 3160-3185. SCI一区(石油工程顶级期刊) 3. Zehua Chen*; Zulong Zhao; Daoyong Yang*; Quantification of Phase Behavior for Solvent/Heavy-Oil/Water Systems at High Pressures and Elevated Temperatures with Dynamic Volume Analysis, SPE Journal, 2020, 25(6): 2915-2931. SCI一区(石油工程顶级期刊) 4. Chengwen Wang*, Zehua Chen*, Erding Chen, Junyi Liu, Fengfeng Xiao, Hongxiang Zhao. Ultrasonic-Assisted Removal of Undesirable Submicron-Sized Particulates To Realize Sustainable and Eco-Friendly Circulation of Drilling Fluid [J]. SPE Journal, 2021, 26(5): 2516-2526. SCI一区(石油工程顶级期刊) 5. Zehua Chen; Daoyong Yang*; Optimization of the Reduced Temperature Associated with Peng−Robinson Equation of State and Soave−Redlich−Kwong Equation of State To Improve Vapor Pressure Prediction for Heavy Hydrocarbon Compounds, Journal of Chemical and Engineering Data, 2017, 62(10): 3488-3500. SCI三区 6. Zehua Chen; Daoyong Yang*; Prediction of Phase Behaviour for n-Alkane-CO2-Water Systems With Consideration of Mutual Solubility Using Peng-Robinson Equation of State, The Journal of Supercritical Fluids, 2018, 138: 174-186. SCI二区 7. Zehua Chen; Daoyong Yang*; Correlations/Estimation of Equilibrium Interfacial Tension for Methane/CO2-Water/Brine Systems Based on Mutual Solubility, Fluid Phase Equilibria, 2019, 483: 197-208. SCI二区 8. Zehua Chen; Xiaoli Li; Daoyong Yang*; Quantification of Viscosity for Solvents−Heavy Oil/Bitumen Systems in the Presence of Water at High Pressures and Elevated Temperatures, Industrial & Engineering Chemistry Research, 2019, 58(2): 1044-1054. SCI二区 9. Zehua Chen; Daoyong Yang*; Determination of Mutual Solubility Between n-Alkanes/n-Alkylbenzenes and Water by Using Peng-Robinson Equation of State With Modified Alpha Functions and Generalized BIP Correlations, Fluid Phase Equilibria, 2018, 477: 19-29. SCI二区 10. Zehua Chen; Daoyong Yang*; Quantification of Phase Behaviour of Solvents-Heavy Oil/Bitumen Systems in the Presence of Water at High Pressures and Elevated Temperatures, Fuel, 2018, 232: 803-816. SCI一区 11. Zehua Chen; Daoyong Yang*; Prediction of Equilibrium Interfacial Tension between CO2 and Water Based on Mutual Solubility, Industrial & Engineering Chemistry Research, 2018, 57(26): 8740-8749. SCI二区 12. Zehua Chen*; Xiutai Zhao; Enhancing Heavy-oil recovery by Using Middle Carbon Alcohol-Enhanced Hot Polymer Flooding, Journal of Petroleum Science and Engineering, 2017, 149: 193-202. SCI一区 13. Zehua Chen*; Xiutai Zhao; Enhancing Heavy-Oil Recovery by Using Middle Carbon Alcohol Enhanced Waterflooding, Surfactant Flooding, and Foam Flooding, Energy Fuels, 2015, 29(4): 2153-2161. SCI三区 14. Zehua Chen*; Xiutai Zhao; Zengbao Wang; Minjie Fu; A Comparative Study of Inorganic Alkaline/Polymer Flooding and Organic Alkaline/Polymer Flooding for Enhanced Heavy Oil Recovery, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2015, 469: 150-157. SCI二区 15. Zehua Chen*; Daoyong Yang; Predicting Viscosities of Solvents/Heavy Oil/Bitumen Systems Using ANN-enhanced Correlations/Mixing Rules, Journal of Energy Resources Technology, 2021, 143(11): 113001-1-113001-10. SCI三区 16. Zehua Chen; Daoyong Yang*; Correlations of Equilibrium Interfacial Tension Based on Mutual Solubility/Density: Extension to n-Alkane-Water and n-Alkane-CO2 Binary/Ternary Systems and Comparisons With the Parachor Model, Journal of Energy and Resources Technology, 2019, 141(12): 122901-1-122901-12. SCI三区 17. 陈泽华,赵修太. 低碳醇对低质量分数α-烯烃磺酸钠溶液泡沫性能的影响 [J]. 新疆石油地质, 2015, 36(6):729-732. 中文核心 18. 陈泽华,赵修太,王增宝,马汉卿,陈文雪. 乙二胺-HPAM与NaOH-HPAM体系提高稠油采收率的对比[J]. 石油学报(石油加工), 2015, 31(5):1156-1163. EI检索 19. 陈泽华,赵修太,王增宝. 低碳醇对α-烯烃磺酸盐吸附性能的影响 [J]. 精细石油加工, 2015, 32(5):40-43. 中文核心 20. 赵修太,陈泽华*,陈文雪,马汉卿,翟东启,任增雷. 颗粒类调剖堵水剂的研究现状与发展趋势[J]. 石油钻采工艺, 2015, 37(4): 105-112. 中文核心 21. 陈泽华,赵修太,王增宝,马汉卿,陈文雪. 石油磺酸盐与非离子表面活性剂TritonX-100的相互增效作用[J]. 石油化工, 2015, 44(9):1089-1093. 中文核心 22. 陈泽华,赵修太,王增宝. 异步交联深部调剖体系的室内实验[J]. 新疆石油地质, 2015, 36(3): 317-321. 中文核心 23. 赵修太,陈泽华*,王增宝,陈文雪,马汉卿,韩光伟,冯硕,郝延征. 有机碱和无机碱对原油的乳化性质及对聚合物黏度的影响[J]. 精细石油加工, 2015, 32(3):33-38. 中文核心
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