姓名:汪洋
职称:副教授,校青年拔尖人才
教育和工作经历:
2022-至今 中国石油大学(北京),油气田开发工程,副教授
2019-2022 中国石油大学(北京),石油与天然气工程,优秀学科博士后
2015-2019 中国石油大学(北京),油气田开发工程,博士
2017-2018 The Pennsylvania State University(宾夕法尼亚州立大学),能源与矿产工程系,博士联合培养
2012-2015 中国石油大学(华东),油气田开发工程,硕士
2008-2012 长安大学,资源勘查工程(油气),本科
电子邮箱:petroyang@cup.edu.cn
个人主页:https://orcid.org/0000-0002-0349-2632
所在系所:石油工程学院 油气田开发工程系
研究方向:非常规油气藏开发、不稳定产量/压力分析(RTA/PTA)、油气井动态监测与解释、裂缝表征及模拟、人工智能与大数据
教学情况:主讲油层物理、高等气藏工程、石油工程大数据等课程
代表性论文著作:
[1] 汪洋,程时清,秦佳正,等. 超低渗透油藏注水诱导动态裂缝开发理论及实践. 中国科学:技术科学,2022, 52(4): 613-626.
[2] 汪洋,于海洋,张佳,等. 聚合物驱压裂井油水两相渗流不稳定压力分析方法[J]. 石油勘探与开发. 2023, 50(1): 160-166.
[3] 程时清,汪洋,郎慧慧,等. 致密油藏多级压裂水平井同井缝间注采可行性. 石油学报,2017, 38 (12): 1411-1419.
[4] Wang Yang, and Ayala Luis. Explicit Determination of Reserves for Variable Bottom-hole Pressure Conditions in Gas Well Decline Analysis. SPE Journal, 2020, 25(1): 369-390. SPE-195691-PA.
[5] Wang Yang, Cheng Shiqing, Zhang Fengbo, et al. Big Data Technique in the Reservoir Parameters' Prediction and Productivity Evaluation: A Field Case in Western South China Sea. Gondwana Research, 2021, 96(2021): 22-36.
[6] Wang Yang, Cheng Shiqing, Zhang Kaidi, et al. Investigation on the Transient Pressure Response of Water Injector Coupling the Dynamic Flow Behaviors in the Wellbore, Waterflood-Induced Fracture and Reservoir: Semi-Analytical Modeling and A Field Case. International Journal of Heat and Mass Transfer, 2019, 130 (2019): 668-679.
[7] Wang Yang, Cheng Shiqing, Yang Shilong, et al. Pressure Transient Characteristics of Non-Uniform Conductivity Fractured Wells in Viscoelasticity Polymer Flooding Based on Oil-Water Two-Phase Flow. Petroleum Science, 2024, 21(2024): 343-351.
[8] Wang Yang, Xie Hang, Gao Yihua, et al. Evaluation of Liquid Production and Water Injection Profiles of Horizontal Well by Pressure Transient Analysis: Field Cases. Energy & Fuels, 2023, 37: 18890-18898.
[9] Wang Yang, Wang Junling, Zhao Wanli, et al. Explicit Original Gas in Place Determination of Naturally Fractured Reservoirs in Gas Well Rate Decline Analysis. Advances in Geo-Energy Research, 2023, 9(2): 117-124.
[10] Wang Yang, Cheng Shiqing, Zhang Kaidi, et al. Semi-Analytical Modelling of Water Injector Test with Fractured Channel in Tight Oil Reservoir. Rock Mechanics and Rock Engineering, 2020, 53 (2020): 861-879.
[11] Wang Yang, Cheng Shiqing, Zhang Kaidi, et al. A Comprehensive Work Flow to Characterize Waterflood-Induced Fracture by Integrating Real-Time Monitoring, Formation Test, and Dynamic Production Analysis Applied to Changqing Oilfield, China. SPE Reservoir Evaluation and Engineering, 2019, 22 (02): 692-708. SPE-191370-PA.
[12] Wang Yang, Cheng Shiqing, Wei Cao, et al. Gas Rate Decline Analysis for Boundary-Dominated Flow with Fractal Reservoir Properties under Constant / Variable Bottom-Hole Pressure Conditions. Journal of Natural Gas Science and Engineering, 2021, 88 (2021) 103823.
[13] Wang Yang, Cheng Shiqing, Zhang Kaidi, et al. Type-Curve Analysis of Modified Two-Rate Flow Test: A Simple Yet Effective Technique to Minimize the Non-Uniqueness of Interpretation Results. Journal of Petroleum Science and Engineering, 2020, 190 (2020) 107132.
[14] Wang Yang, Cheng Shiqing, Feng Naichao, et al. Semi-Analytical Modeling for Water Injection Well in Tight Reservoir Considering the Variation of Waterflood-Induced Fracture Properties – Case Studies in Changqing Oilfield, China. Journal of Petroleum Science and Engineering, 2017, 159 (2017): 740-753.
[15] Wang Yang, Cheng Shiqing, Zhang Kaidi, et al. Pressure-Transient Analysis of Water Injectors Considering the Multiple Closures of Waterflood-Induced Fractures in Tight Reservoir: Case Studies in Changqing Oilfield, China. Journal of Petroleum Science and Engineering, 2019, 172 (2019): 643-653.
[16] Wang Yang, Cheng Shiqing, Feng Naichao, et al. The Physical Process and Pressure-Transient Analysis Considering Fractures Excessive Extension in Water Injection Wells. Journal of Petroleum Science and Engineering, 2017, 151 (2017): 439-454.
[17] Wang Yang, Cheng Shiqing, Zhang Kaidi, et al. Investigation on the Pressure Behavior of Injectors Influenced by Waterflood-Induced Fractures: Field Cases in Huaqing Reservoir, Changqing Oilfield, China. Oil & Gas Science and Technology, 2020, 75 (20): 1-17.
[18] Bai Wenpeng, Cheng Shiqing*, Cai Dingning, Guo Qiao, Guo Xinyang, Wang Yang*. Integrated Analysis of Two-Phase Production Data in Hydraulic Fractured Deep Shale Reservoirs: Coupling Multiple Fluid Transport Mechanisms. Energy & Fuels, 2024, 38(12): 10826-10840
[19] Han Xiaobing, Yu Haiyang*, Tang Huiting, Song Peng, Huang Tao, Liu Chengming, Wang Yang*. Investigation on oil recovery and countercurrent imbibition distance coupling carbonated water with surfactant in shale oil reservoirs. Fuel, 2024, 374: 132409.
[20] Zhang Lei, Yu Haiyang*, Tang Huiting, Huang Tao, Zeng Huake, Wang Yang*. Mechanisms of Imbibition Diffusion and Recovery Enhancing of Fracturing Fluids in Tight Reservoirs. Energy & Fuels, 2024, 38(14): 12684-12699
[21] Yu Haiyang*, Tang Huiting, Han Xiaobing, Song Peng, Ma Rui, Zhang Lei, Jia Haowei, Lu Jun, Wang Yang*. Enhanced Oil Recovery and CO2 Storage by Enhanced Carbonated Water Injection: A Mini Review. Energy & Fuels, 2024. 38(14): 12409-12432.
[22] Jia Haowei, Yu Haiyang*, Wang Tongbing, Song Peng, Song Jiabang, Wang Yang*. Investigation of Non-Chemical CO2 Microbubbles for Enhanced Oil Recovery and Carbon Sequestration in Heterogeneous Porous Media. Geoenergy Science and Engineering, 2024, 242, 213229.
[22] Wei Cao, Cheng Shiqing, Wang Yang*, et al. Practical Pressure-Transient Analysis Solutions for a Well Intercepted by Finite Conductivity Vertical Fracture in Naturally Fractured Reservoirs. Journal of Petroleum Science and Engineering, 204 (2021) 108768.
[23] Di Shiying, Cheng Shiqing*, Wei Cao, Shi Wenyang, Wang Yang*. Evaluation of Fracture Closure and its Contribution to Total Production for a Well with Non-Planar Asymmetrical Vertical Fracture Based on Bottom-Hole Pressure. Journal of Petroleum Science and Engineering, 205 (2021) 108864.
[24] Wei Cao, Cheng Shiqing*, Chen Gang, Shi Wenyang, Wu Jiaxin, Wang Yang*, Yu Haiyang. Parameters evaluation of fault-karst carbonate reservoirs with vertical beads-on-string structure based on bottom-hole pressure: Case studies in Shunbei Oilfield, Tarim Basin of Northwestern China. Oil & Gas Science and Technology, 2021, 76 (59): 1-16.
[25] Qi Songchao, Yu Haiyang*, Xie Feifan, Hu Mengpo, Wang Yang*. Experimental Investigation on the CO2 Effective Distance and CO2‑EOR Storage for Tight Oil Reservoir. Energy & Fuels, 2023, 37: 339-349.
[26] 贾昊卫,于海洋*,谢非矾,袁舟,徐克,汪洋*,等. CO2 微气泡溶解动力学及提高采收率机理研究[J]. 力学学报,2023, 55(3): 755-764.
[27] 何军,张玉丰,陈烨菲,罗二辉,程时清,汪洋*. 多层系边底水气藏生产动态特征及见水时间预测方法[J]. 中国科技论文,2023, 18(5): 555-561+566.
代表性会议报告:
[1] Wang Yang, Weng Zhoutian, Kadet Valeriy, et al. Mechanism and Pressure Behavior of Fracturing Flooding Wells in Tight Reservoir. GOTECH Conference held in Dubai, UAE, 7-9 May, 2024. SPE-219093-MS.
[2] Wang Yang, Cheng Shiqing, Zhang Kaidi, et al. Case Studies: Pressure-Transient Analysis for Water Injector with the Influence of Waterflood-Induced Fractures in Tight Reservoir. SPE Improved Oil Recovery Conference held in Tulsa, Oklahoma, USA, 14-18 April 2018. SPE-190264-MS.
[3] Wang Yang, Cheng Shiqing, Zhang Kaidi, et al. Impact of Shrinking Fracture Length and Decreasing Fracture Conductivity on Bottom-Hole Pressure Performance: A Semi-Analytical Model to Characterize Waterflood-Induced Fracture around Water
Injection Well. SPE Western Regional Meeting held in Garden Grove, California, USA, 22-27 April 2018. SPE-190060-MS.
[4] 汪洋. 致密油藏注水动态裂缝扩展规律与水驱方式,第五届非常规油气藏开发与油气藏动态监测技术研讨会,2024 年 6 月 5-7 日,昆明.(大会报告)
[5] 汪洋. 致密油藏水平井强化补能开发技术. 首届全国多孔介质渗吸理论与应用学术会议,2023 年 4 月 22-24 日,北京. (分会场报告)
[6] 汪洋,于海洋,程时清. 气井产量递减分析及动态储量计算新方法. 第四届非常规油气藏开发与油气藏动态监测技术研讨会,2023 年 5 月 11-13 日,苏州. (分会场报告)
[7] 汪洋,程时清,于海洋. 特低渗/致密油藏注水诱导动态裂缝诊断及反演方法. 中国石油大学会第十二届青年学术会议,2021 年 8 月 15 日,大庆. (分会场报告)
[8] 汪洋. 特低渗透油藏注水诱发裂缝试井解释方法. 非常规油气藏开发与油气藏动态监测技术国际研讨会. 2018 年 10 月 30 日-11 月 1 日,北京.(分会场报告)
[9] 汪洋,程时清,于海洋,等. 考虑注水诱发微裂缝属性参数变化的注水井不稳定压力分析. 中国力学大会-2017 暨庆祝中国力学学会成立 60 周年大会. 2017年 8 月 14-17 日,北京.(分会场报告)
[10] 汪洋,程时清,冯乃超,等. 注水诱发微裂缝物理模型及数学表征. 第五届岩土多场耦合理论及应用国际学术会议. 2016 年 10 月 28-30 日,北京.(分会场报告)
代表性专利:
[1] 于海洋,汪洋,程时清. 注水诱发微裂缝二维扩展的物理模拟实验方法. 中国,ZL201710735940.9
[2] 程时清,史文洋,汪洋,于海洋. 多层合采井储层等效边界距离的测算方法、系统. 中国,ZL201911229086.4
[3] 汪洋,杨世龙,解航,于海洋,程时清. 动态地质储量确定方法、装置、设备及介质 发明公开. 中国,CN118292843A
[4] 汪洋,杨世龙,解航,翁周田,于海洋,程时清. 异常高压气藏动态控制储量确定方法、装置、设备及介质. 中国,CN118187817A
[5] 汪洋,翁周田,杨世龙,于海洋,程时清. 气井动态储量的显式确定方法、装置及存储介质 发明公开. 中国,CN118187818A
主要科学研究项目:
[1] 国家自然科学基金面上基金,深层碳酸盐岩缝洞型油藏高压注水扩容机理,主持,2025-2028.
[2] 国家自然科学基金青年基金,致密油藏注水诱导动态裂缝扩展机理研究,主持,2022-2024.
[3] 中央高校基本科研业务费专项,非常规油气藏动态监测与反演解释方法,主持,2022-2024.
[4] 中央高校基本科研业务费专项,低渗油藏注水诱发动态裂缝机理及诊断、反演方法,主持,2020-2021.
[5] 中海石油(中国)有限公司湛江分公司,微观储层结构参数时变规律表征,主持,2023-2024.
[6] 中国石油天然气股份有限公司勘探开发研究院,水平井沿程不规则产注剖面仿真模拟及动态反演诊断方法研究,主持,2024-2025.
[7] 中国石油天然气股份有限公司长庆油田分公司勘探开发研究院,基于试井资料的致密油藏渗流特征研究,主持,2024-2025.
[8] 中国石化固井与完井重点实验室,页岩油不关井试井及多相流反演预测方法,主持,2023-2025.
[9] 中国石油天然气股份有限公司长庆油田分公司第五采气厂,苏里格气田下古生界储层岩心描述及分析,主持,2023-2024.
[10] 华美孚泰油气增产技术服务有限责任公司,考虑渗吸作用的页岩水力压裂裂缝扩展研究测试评价,主持,2023.
重要奖励与荣誉:
[1] 北京市科协“青年人才托举工程”,排名第 1
[2] 中国能源学会“能源与环境青年人才培养计划”,排名第 1
[3] 2023年中国商业联合会科技进步一等奖,排名第2.
[4] 2020年中国石油和化工自动化应用协会技术发明一等奖,排名第3.
[5] 2021年中国石油和化学工业联合会科技进步二等奖,排名第7.
[6] 2019年中国石油和化学工业联合会科技进步二等奖,排名第10.
社会与学术兼职:
[1] SCI期刊(JCR2区)Journal of Petroleum Exploration and Production Technology处理编辑
[2] Petroleum Science 期刊优秀青年编委
[3] Advances in Geo-Energy Research、东北石油大学学报、新疆石油地质、油气地质与采收率、世界石油工业期刊青年编委
[4] 第十七届全国渗流力学学术会议,组织委员会委员,油气渗流力学分会场主持人,2023,中国力学学会,中国昌平
[5] 第五届非常规油气藏开发与油气藏动态监测技术研讨会,组织委员会委员,非常规油气田开发、动态监测技术分会场主持人,2023,中国石油学会石油工程专业委员会,云南昆明
[6] 第四届非常规油气藏开发与油气藏动态监测技术研讨会,组织委员会委员,非常规油气田开发、动态监测技术分会场主持人,2023,中国石油学会石油工程专业委员会,中国苏州
[7] 首届全国多孔介质渗吸理论与应用学术会议,油气储层表征与开发综合研究分会场主持人,2023,中国力学学会渗流力学专业组,中国昌平
[8] Geofluids、Energies、Processes 期刊客座编辑(Guest Editor)
[9] SPE Journal, Applied Energy, Petroleum Science, Journal of Petroleum Science and Engineering, Langmuir, Fuel, International Journal of Hydrogen Energy, Geofluids, Arabian Journal of Geosciences, Advances in Geo-Energy Research、天然气地球科学、新疆石油地质、油气地质与采收率、东北石油大学学报、石油钻探技术、油气井测试等期刊审稿人
[10] SPE 会员
石工
设计