姓名:郭旭洋
职称:副教授/博导
教育与工作经历:
2009-2013 中国石油大学(北京)石油工程专业 本科
2013-2015 德克萨斯A&M大学石油工程专业 硕士
2015-2018 德克萨斯A&M大学石油工程专业 博士
2018-2019 中国石油大学(北京)石油工程学院 教师
2019-2023 中国石油大学(北京)克拉玛依校区石油学院石油工程系 教师
2023-至今 中国石油大学(北京)石油工程学院 教师
个人主页:faculty.cup.edu.cn/guoxuyang
电子邮箱:xguo@cup.edu.cn
所在系所:油气井工程系
研究方向:岩石力学、储层地质力学
教学情况:《工程力学I》、《钻井工程》、《岩石力学基础》
科研与教学论文:
[1] Guo X, Jin Y, Chen M, et al. Coupled wellbore-reservoir-geomechanics modeling of parent well depletion-induced stress evolutions and its impact on infill well fracturing optimization in shale oil reservoirs[C]. The 58th U.S. Rock Mechanics / Geomechanics Symposium.
[2] Guo X, Li J. Investigation of Parent-Child Well Fracturing Interference in Depleted Shale Oil Reservoirs in a Faulted Region with Strong Tectonic Stresses[C]. Unconventional Resources Technology Conference, 2024.
[3] Guo X, Jin Y, Zi J, et al. A 3D modeling study of effects of heterogeneity on system responses in methane hydrate reservoirs with horizontal well depressurization[J]. Gas Science and Engineering, 2023: 115.
[4] 郭旭洋,金衍,卢运虎等.海域天然气水合物降压开采诱发储层力学性质劣化及沉降规律建模研究[J].钻探工程,2023,50(06):27-36.
[5] 陈华勇,蔺敬旗,龚洁等.利用横波反射技术定量计算水平井储层边界[J].测井技术,2023,47(06):710-716.
[6] Guo X, Jin Y, Zi J, et al. Numerical Investigation of Depressurization through Horizontal Wells in Methane-Hydrate-Bearing Sediments Considering Sand Production[J]. Journal of Marine Science and Engineering, 2022, 10(11): 1777.
[7] 郭旭洋,金衍,林伯韬等.南海天然气水合物水平井降压开采诱发沉积物力学响应规律[J].中国石油大学学报(自然科学版),2022,46(06):41-47.
[8] Wang L, Li Y, Xu D, et al. Evolution of Near-Well Damage Caused by Fluid Injection through Perforations in Wellbores in Low-Permeability Reservoirs: A Case Study in a Shale Oil Reservoir[J]. Lithosphere, 2022:3824011.
[9] Wang Z, Guo X, Zheng G, et al. Effects of parent well spacing on the poroelastic behaviors in the infill zone in shale oil reservoirs: A case study in Jimsar Shale Oil, China[J]. Energy Science & Engineering, 2022, 10(4):1043-1054.
[10] Guo X, Huang L, Jin Y, et al. An experimental study of the rock mechanical properties in highly heterogeneous reservoir rocks of tight sandy conglomerates[C]. ARMA/DGS/SEG International Geomechanics Symposium, 2021.
[11] Guo X, Jin Y, Zi J, et al. Numerical investigation of the gas production efficiency and induced geomechanical responses in marine methane hydrate-bearing sediments exploited by depressurization through hydraulic fractures[J]. Energy & Fuels, 2021, 35(22):18441-58.
[12] Zhi D, Guo X, Wang W, et al. Fracturing and production analysis of the efficacy of hydraulic fracture stage reduction in the improvement of cost‐effectiveness in shale oil development: A case study of Jimsar shale oil, China[J]. Energy Science & Engineering, 2021, 9(9):1337-1348.
[13] 郭旭洋,金衍,黄雷等.页岩油气藏水平井井间干扰研究现状和讨论[J].石油钻采工艺,2021,43(03):348-367.
[14] 承宁,郭旭洋,魏璞等. 水平井分段分簇压裂缝间干扰和段间干扰建模 ——以昌吉油田吉7井区八道湾组油藏为例[J]. 新疆石油地质,2021,42(4):437-443.
[15] 郭旭洋,黄雷.基于仿真数值模拟平台的石油工程专业材料力学课程教学改革探索[J].科教文汇(中旬刊),2021,(32):89-92.
[16] 郭旭洋.基于油田现场工程案例的教学模式改革——以本科“石油工程岩石力学基础”课程为例[J].科教导刊,2021,(31):107-109.
[17] 郭旭洋,金衍,林伯韬.页岩油立体开发诱发的储层地应力动态响应特征[J].石油钻采工艺,2020,42(06):738-744.
[18] Guo X, Ma J, Wang S, et al. Modeling interwell interference: A study of the effects of parent well depletion on asymmetric fracture propagation in child wells[C]. SPE Asia Pacific Oil and Gas Conference and Exhibition, 2020.
[19] Tang J, Li J, Tang M, et al. Investigation of multiple hydraulic fractures evolution and well performance in lacustrine shale oil reservoirs considering stress heterogeneity[J]. Engineering Fracture Mechanics, 2019, 218:106569.
[20] Guo X, Wu K, An C, et al. Numerical investigation of effects of subsequent parent-well injection on interwell fracturing interference using reservoir-geomechanics-fracturing modeling[J]. SPE Journal, 2019, 24(04):1884-1902.
[21] Guo X, Wu K, Killough J, et al. Understanding the mechanism of interwell fracturing interference with reservoir/geomechanics/fracturing modeling in eagle ford shale[J]. SPE Reservoir Evaluation & Engineering. 2019, 22(03):842-860.
[22] Yoon HC, Guo X, Kim J, et al. Flexible and practical parallel implementation for coupled elastoplastic geomechanics and non-isothermal flow[J]. International Journal of Rock Mechanics and Mining Sciences, 2019, 120:96-107.
[23] Guo X, Du L, Sun P, et al. An integrated approach to sustainable heat recovery in a sedimentary geothermal reservoir considering surface energy demands[J]. ENERGY PROCEDIA, 2019.
[24] Tang J, Ehlig-Economides C, Li J, et al. Investigation of Multiple Hydraulic Fracture Propagation for Low-Pressure Tight Sandstone Reservoirs in Northern Ordos Basin of Changqing Oilfield, China[J]. SPE International Hydraulic Fracturing Technology Conference and Exhibition, 2018.
[25] An C, Guo X, Killough J. Impacts of Kerogen and Clay on Stress-Dependent Permeability Measurements of Shale Reservoirs[C]. Unconventional Resources Technology Conference, 2018.
[26] Guo X, Wu K, Killough J. Investigation of production-induced stress changes for infill-well stimulation in Eagle Ford Shale[J]. SPE Journal, 2018, 23(04):1372-1388.
[27] Tang J, Wu K, Zeng B, et al. Investigate effects of weak bedding interfaces on fracture geometry in unconventional reservoirs[J]. Journal of Petroleum Science and Engineering, 2018, 165:992-1009.
[28] Guo X, Song H, Wu K, et al. Pressure characteristics and performance of multi-stage fractured horizontal well in shale gas reservoirs with coupled flow and geomechanics[J]. Journal of Petroleum Science and Engineering, 2018, 163:1-5.
[29] Guo X, Song H, Killough J, et al. Numerical investigation of the efficiency of emission reduction and heat extraction in a sedimentary geothermal reservoir: a case study of the Daming geothermal field in China[J]. Environmental Science and Pollution Research, 2018, 25:4690-706.
[30] Chen R, Niu C, Wang Q, et al. Sequence Stratigraphic Characteristics of Fluvial Facies in the Guantao Formation of South Gentle Slope Belt, Huanghekou Sag[C]. SPE Annual Technical Conference and Exhibition, 2017.
[31] Guo X, Kim J, Killough JE. Hybrid MPI-OpenMP scalable parallelization for coupled non-isothermal fluid-heat flow and elastoplastic geomechanics[C]. SPE Reservoir Simulation Conference, 2017.
[32] Guo X, Wang Y, Killough J. The application of static load balancers in parallel compositional reservoir simulation on distributed memory system[J]. Journal of Natural Gas Science and Engineering, 2016, 28:447-60.
授权专利和著作权:
[1] 针对地层的井壁稳定性分析方法、装置、介质及设备[P].CN113356843B.
[2] 一种页岩油水平井网老井水力裂缝注液量的确定方法[P].CN112836442B.
[3] 一种安全帽佩戴智能检测方法、系统、终端及介质[P].CN113688709B.
[4] 非常规油气藏开采过程中的地应力动态预测软件V1.0.2023SR0097137.
科研项目:
[1] 国家自然科学基金青年基金,页岩气井工厂模式下加密井水力裂缝密切割机理研究,主持
[2] 油气资源与探测国家重点实验室课题,基于有限元方法的页岩气储层流固耦合机理研究,主持
[3] 页岩油气富集机理与有效开发国家重点实验室课题,考虑井间应力干扰的复杂水力缝网造缝及导流能力机理研究,主持
[4] 中国石油科技创新基金,考虑立体开发动态地应力作用的水力压裂建模研究,主持
[5] 国家自然科学基金重大项目,天然气水合物储层力学特征及多场耦合工程响应机制,参与
[6] 美国能源部项目,Advanced Simulation and Experiments of Strongly Coupled Geomechanics and Flow for Gas Hydrate Deposits: Validation and Field Application,参与
奖励情况:
[1] 超深碳酸盐岩储层智能酸压技术与应用,中国石油和化学工业联合会科技进步一等奖
[2] 含煤岩系产层组穿层压裂机理与控制技术,中国石油和化工自动化应用协会技术发明二等奖
[3] 《石油科学(英文版)》第一届优秀青年编委
[4] 2023年国际石油工程师协会(SPE)杰出技术编辑奖
[5] 2022年国际石油工程师协会(SPE)杰出技术编辑奖
[6] 全国石油工程设计大赛科技创新优秀指导教师
学术兼职:
[1] 中国岩石力学与工程学会会员
[2] 国际石油工程师协会(SPE)会员
[3] 《石油科学通报》执行编委
[4] 《石油科学(英文版)》青年编委
[5] 中国岩石力学与工程学术年会工作委员会成员
[6] 亚洲岩石力学大会秘书处成员
[7] 昆士兰大学博士答辩委员会成员
石工
设计