您现在的位置: 首页- 师资队伍- 储层改造与开发工程研究所

曲鸿雁 研究员 博导 油气田开发工程/石油与天然气工程/智能压裂

4de4dcdc9fea136dcd6b2ad25d62dbe.jpg

曲鸿雁,博士,博士生导师(学术博导、工程博导),研究员,校青年拔尖人才。

联系方式:hongyan.qu@cup.edu.cn


个人简介

曲鸿雁,博士,博士生导师,研究员,校青年拔尖人才。2006年本科毕业于中国石油大学(华东),保送研究生,2009国家公派留学2014年博士毕业于西澳大学石油工程专业。2015年被评为中国石油大学(北京)校青年拔尖人才。针对新疆、长庆等国内典型致密/页岩油气开展压裂增产提采物理模拟与数值模拟研究。主持国家自然科学基金项目2(面上基金、青年基金)国家重点实验室自主课题3、校级基金2项,参与国家科技重大专项、国家重点研发计划项目专项、中石油科技部及油田横向课题多项。发表论文40余篇,SCIEI收录30余篇,授权发明专利35项,获省部级一等奖4项、创新团队奖1项。现为SPEEAGEISRM会员,担任多个SCI/EI期刊审稿人。


研究方向 非常规(致密/页岩)油气藏压裂增产提采理论与技术

1. CCUSCO2前置压裂提采机理及CO2封存机制

2. 蓄能压裂:压前蓄能岩石微观损伤机制及渗吸提采机理

3. 压裂诊断评估:压裂优化设计及压后效果智能评估

4. 整体压裂:地质工程一体化建模及油藏数值模拟、应力重构及演化

5. 重复压裂:超低渗/致密油气藏蓄能及重复改造机理

6. 油气田开发:储层物性及渗流特性评价、生产动态分析及产能预测


教育经历

2002.9-2006.7  中国石油大学(华东)信息与计算科学 学士

2006.9-2009.7  中国石油大学(华东)应用数学 硕士 (保送研究生)

2009.8-2013.8  University of Western Australia (西澳大学) 石油工程 博士 (公派留学)

2011.2-2012.2  澳大利亚联邦科学与工业研究院(CSIRO)非常规能源中心,联合培养


工作经历

2013.09~2015.06  中国石油大学(北京)非常规天然气研究院 助理研究员

2015.08          中国石油大学(北京)校青年拔尖人才

2015.06~2023.06 中国石油大学(北京)非常规油气科学技术研究院 副研究员

2023.07至今     中国石油大学(北京)非常规油气科学技术研究院 研究员


科研项目

1.国家自然科学基金面上基金,超低渗透、致密储层蓄能重复压裂增能机理研究,2022-2025,项目负责人

2.国家自然科学基金青年基金,高温高压致密气藏基质--裂缝系统传质与流动规律实验研究,2017-2019,项目负责人

3.国家重点研发计划项目“政府间国际科技创新合作”专项,深部含煤岩系超临界CO2穿层压裂-驱替-封存评价技术研究,2024-2026,研究骨干

4.中石油战略合作科技专项,准噶尔盆地玛湖中下组合和吉木萨尔陆相页岩油高效勘探开发理论及关键技术研究,2019-2024,子课题副课题长、专题长

5.中国石油大学(北京)自主课题,基于机器学习的智能压裂诊断与评估方法,2020-2023,项目负责人

6.中石油新疆油田项目,页岩油前置二氧化碳注入工艺参数优化,2023-2023,项目负责人

7.中石油新疆油田项目,转向蓄能重复压裂工艺适应性及优化研究,2022-2023,蓄能压裂负责人

8.中石油长庆油田项目,超低渗透油藏典型井组改善开发效果潜力评价及工艺优化研究,2020-2021,项目负责人

9.中国石油大学(北京)青年拔尖人才资助项目及引进人才科研启动基金,页岩基质渗透率室内准确测量及影响因素分析,2014-2018,项目负责人

10.油气资源与探测国家重点实验室自主课题,页岩储层基质渗透率及其影响因素研究,2014-2015,项目负责人

11.煤炭资源与安全开采国家重点实验室开放课题,煤与瓦斯共采储层渗透特性演化实验研究,2015-2016,项目负责人

12.岩土力学与工程国家重点实验室开放课题,页岩储层渗透率建模及室内实验研究,2015-2016,项目负责人

13.低渗透油气田勘探开发国家工程实验室开放课题,致密储层体积压裂减阻剂减阻机理研究,2015-2016,第二负责人

14.中国石油天然气集团公司项目,井筒工作液基础理论关键技术研究,2015-2016子课题第二负责人

15.石油公司横向项目,南哈气田地质特征与有利富气目标预测评价及勘探井部署设计子课题南哈气藏改造及提高测试产能研究,2016-2017子课题第二负责人

16.塔里木油田横向项目,迪西1气藏储层改造工艺优化研究,2018-2018.,研究骨干

17.国家科技重大专项课题外协项目,复杂碳酸盐岩油气藏无级次转向酸压技术研究,2017-2019研究骨干


发表论文

SCI收录

1.Hongyan Qu, Yan Peng, Jiaxi Huang, Zhejun Pan, Fujian Zhou. 2023. Modelling of the impact of stress concentration on permeability in porous medium based on machine learning method. 224: 211655.

2.Qu, HY; Zhang, JL; Zhou, FJ; Peng, Y; Pan, ZJ; Wu, XY. 2023. Evaluation of hydraulic fracturing of horizontal wells in tight reservoirs based on the deep neural network with physical constraints. Petroleum Science. 20: 1129-1141.

3.Hongyan Qu, Yan Peng, Zhejun Pan, Xiangdong Xu and Fujian Zhou. 2023. Numerical study on the impact of water-rock interactions on the propagation of water-flooding induced fracture. Frontiers in Earth Science. 11: 1129913.

4.Hongyan Qu, Yan Peng, Zhejun Pan, Zhangxin Chen, Fujian Zhou. 2019. A Fully Coupled Simulation Model for Water Spontaneous Imbibition into Brittle Shale. Journal of Natural Gas Science and Engineering, 66:293-305.

5.Hongyan Qu, Fujian zhou. Yan Peng, Zhejun Pan. 2019. ESRV and production optimization for the naturally fractured Keshen tight gas reservoir. Proceedings of the International Field Exploration and Development Conference 2017, pp.1576-1595.

6.Yan Peng, Jishan Liu, Zhejun Pan, Hongyan Qu, Luke Connell. 2018. Evolution of shale apparent permeability under variable boundary conditions. Fuel, 215: 46-56.  doi.org/10.1016/j.fuel.2017.11.024.

7.Hongyan Qu, Jishan Liu, Zhejun Pan, Fujian zhou, Yan Peng. 2017. Simulation of coal permeability under non-isothermal CO2 injection. International Journal of Oil, Gas and Coal Technology, 15: (2), 190-215.

8.Yan Peng, Jishan Liu, Zhejun Pan, Luke Connell. Zhongwei Chen, Hongyan Qu. 2017. Impact of coal matrix strains on the evolution of permeability. Fuel, 189, 270-283.

9.Zhiyu Liu, Fujian Zhou, Hongyan Qu, et al. Impact of the Microstructure of Polymer Drag Reducer on Slick-Water Fracturing. Geofluids, 2017(1):1-8.

10.Tianbo Liang, Zhao Yang, Fujian Zhou, Zhiyu Liu, Hongyan Qu, et al. 2017. A new approach to predict field-scale performance of friction reducer based on laboratory measurements. Journal of Petroleum Science and Engineering, 159: 927-933.

11.Hongyan Qu, Zhejun Pan, Yan Peng, Fujian Zhou. 2016. Controls on matrix permeability of shale samples from Longmaxi and Niutitang formations, China. Journal of Natural Gas Science and Engineering, 33: 599-610. doi:10.1016/j.jngse.2016.05.054.

12.Hongyan Qu, Jishan Liu, Zhejun Pan, Luke Connell. 2014. Impact of Matrix Swelling Area Propagation on the Evolution of Coal Permeability under Coupled Multiple Processes. Journal of Natural gas Science and Engineering, 18: 451-466.  

13.Hongyan Qu, Jishan Liu, Zhongwei Chen, Jianguo Wang, Zhejun Pan, Luke Connell, Elsworth, Derek. 2012. Complex evolution of coal permeability during CO2 injection under variable temperatures. International journal of greenhouse gas control 9, (0), 281-293.

14.Hongyan Qu, Jishan Liu, Zhongwei Chen, Zhejun Pan, Luke Connell. 2012. A Fully Coupled Gas Flow, Coal Deformation and Thermal Transport Model for the Injection of Carbon Dioxide into Coal Seams. CO2 Storage in Carboniferous Formations and Abandoned Coal Mines, Balkema, 69-93.

15.Hongyan Qu, Jishan Liu, Zhejun Pan, Luke Connell. 2011. Simulation of Thermal Effect on coal Permeability during CO2 Injection into coal seams. GP040 GeoProc2011: Cross Boundaries through THMC Integration.

16.Jishan Liu, Zhongwei Chen, Derek Elsworth, Hongyan Qu, Dong Chen. 2011. Interactions of multiple processes during CBM extraction: A critical review. International journal of Coal Geology 87, 175-189.

17.Wancheng Zhu, Jishan Liu, Hongyan Qu, Derek Elsworth. 2011. A model of coal-gas interaction under variable temperatures. International journal of Coal Geology 86, (2-3), 213-221.

18.Hongyan Qu, Jishan Liu, Luke Connell, Zhejun Pan. Impact of thermal processes on CO2 injectivity into a coal seam. 2010 IOP Conf. Ser.: Mater. Sci. Eng. 10 012090.

EI收录论文

1.Qu, Hong-yan; Zhang, Jian-long; Zhou, Fu-jian. 2022. Application of NARX Neural Networks in the Prediction of Hydraulic Fracturing Treating Pressure. Springer Series in Geomechanics and Geoengineering-11th International Field Exploration and Development Conference, IFEDC 2021.

2.Hongyan Qu, Hao Lang, Xiaojia Xue, Yinpeng Da, Fujian Zhou, Xingyang Liu. 2022. The comprehensive effect of group fracturing and depletion on stress redistribution in low permeable reservoir. 56th U.S. Rock Mechanics/Geomechanics Symposium.

3.Wang, Y.C.; Zhou, F.J.; Zhang, L.F.; Wang, J.; Qu, H.Y.; Yao, E.D.. 2021. Experimental Investigation on Stress Sensitivity Behavior for Tight Naturally Fractured Sandstone Reservoirs. 55th U.S. Rock Mechanics/Geomechanics Symposium.

4.Hongyan Qu, Jiawei Hu, Fujian Zhou, Yuechen Zhong, 2021. Effect of Successional Reservoir Stimulation on the Production in Tight Gas Reservoir. Springer Series in Geomechanics and Geoengineering, 3185-3195, 2021, 10th International Field Exploration and Development Conference, IFEDC 2020.

5.曲鸿雁, 彭岩, 刘继山, 陈掌星, 吴克柳, 周福建,张柯. 2018. 气体吸附对页岩裂缝表观渗透率和页岩气采收率的影响. 中国科学: 技术科学, 48:(8), 91-900. doi: 10.1360/N092017-00196.

6.Hongyan Qu, Jiawei Hu, Fujian Zhou, Yan Peng, Zhejun Pan. 2020. Laboratory study of the petrophysical effect of natural fractures on gas flow through naturally fractured tight cores, Springer Series in Geomechanics and Geoengineering, 1290-1297, 2020, Proceedings of the International Field Exploration and Development Conference, IFEDC 2018.

7.Hongyan Qu, Fujian Zhou, Yuechen Zhong, Zheng Li, Yan Peng, Zhejun Pan. 2020. Optimization of the Multi-stage Hydraulic Fracture Geometry for the Tight Carbonate Reservoir, Springer Series in Geomechanics and Geoengineering, 669-676, 2020, Proceedings of the International Field Exploration and Development Conference, IFEDC 2019.

8.Hongyan Qu, Fujian Zhou, Jiawei Hu, Yan Peng, Yuechen Zhong. 2020. The effect of natural fractures on the hysteresis of stress-dependent permeability in Keshen tight gas reservoirs, ISRM 2019, 3368-3374, 2020.

9.Hongyan Qu, Fujian Zhou, Jiawei Hu, Yan Peng, Yuechen Zhong, Zhejun Pan. 2019. Effect of Natural Fractures on the Stress-Dependent Permeability and Long-Term Gas Production for the Naturally-Fractured Tight Sandstone in Tarim Basin, China, SPE/IATMI Asia Pacific Oil & Gas Conference and Exhibition, 2019, SPE-196238-MS.

10.Hongyan Qu, Peng Yan, Zhou Fujian, Hu Jiawei, Pan Zhejun, Zhong Yuechen. 2019. Experimental study of the effect of stress on permeability for the naturally fractured tight gas reservoir, 81st EAGE Conference and Exhibition 2019.

11.Yan Peng, Hongyan Qu, Jishan Liu, Zhejun Pan, Keliu Wu, Xiaohu Dong and Zhouyuan Zhu. 2018. Impact of Fluid Adsorption on Geomechanical Properties of Shale Gas Reservoir and Shale Gas Recovery Rate. 52ndUS Rock Mechanics / Geomechanics Symposium held in Seattle, Washington, USA, 17-20 June 2018.

12.Yan Peng, Jishan Liu, Hongyan Qu, Zhejun Pan. 2017. Advances in Geomechanics of Coal-gas Interactions. 51th American Rock Mechanics/Geomechanics Symposium.

13.Hongyan Qu, Fujian Zhou, Zhejun Pan, Yanpeng Xue. 2015. Experimental Study of Controlling Factors of the Continental Shale Matrix Permeability in Ordos Basin. SPE Asia Pacific Unconventional Resources Conference and Exhibition. SPE-176853-MS. doi:10.2118/176853-MS.

14.Fujian, ZhouYanpeng, XueHongyan, QuXiaolun, Qin2015. The contributing factors of stimulation design to incremental and long- term productivity in bakken playSPE Asia Pacific Unconventional Resources Conference and Exhibition. doi:10.2118/176846-MS.

15.Hongyan Qu, Lihui Zheng. 2015. Coal Wellbore Stability Controlling for Horizontal Wells in Qinshui Basin. 13th ISRM International Congress of Rock Mechanics, v 2015- MAY, p 1-12, 2015, 13th ISRM International Congress of Rock Mechanics.

16.Hongyan Qu, Fujian Zhou, Zhenxue Jiang, Zhejun Pan, Yan Peng. 2015. Laboratory study of shale matrix permeability and the affecting factors for Yanchang shale gas production. ISRM Regional Symposium, EUROCK 2015, p 683-688.

17.Hongyan Qu, Jishan Liu, Zhejun Pan, Luke Connell. 2014. Experimental verification of a fully coupled THMC model for the evolution of coal permeability under the influence of gas adsorption. Proceedings of the 11th World Congress on Computational Mechanics (WCCM XI)ECFD 2014, p 4605-4616.

18.Hongyan Qu, Jishan Liu, Zhejun Pan, Luke Connell. 2012. Impact of Boundary Conditions on the Evolution of Coal Permeability during CO2 Injection under Variable Temperatures. 46th U.S. Rock Mechanics/Geomechanics Symposium 2012, v 4, p 2302-2310.

19.Yan Peng, Jishan Liu, Hongyan Qu, Wancheng Zhu and Derek Elsworth. 2012. Impact of Common Assumptions on the Accuracy of Coal Permeability Models. 7th Asian Rock Mechanics Symposium.

20.Jishan Liu, Zhongwei Chen, Hongyan Qu. Multiphysics of Coal-Gas Interactions: the Scientific Foundation for CBM Production and CO2 Storage in Coal. 2010 SPE 133015.

中文核心

1.达引朋, 薛小佳, 刘明, 史佩泽, 曲鸿雁, 周福建. 超低渗油田蓄能重复压裂增能机理[J]. 科学技术与工程,20212133.

2.周生田, 曲鸿雁. 水平井筒压降及其对产能影响的研究[J]. 科学技术与工程, 2009.


授权专利

第一完成人

1.基质-裂缝系统气体流动模拟装置与方法, ZL 201910353949.2

2.确定储层应力敏感程度的方法、装置及存储介质,ZL 201910713289.4

3.基质与裂缝间窜流形状因子确定方法、装置及系统,ZL 202010319134.5

4.一种致密储层压裂效果评价方法及装置. ZL202010816332.2.

5.一种研究水化对压裂蓄能效率影响的实验方法及实验装置. ZL202111235934.X.

6.一种表征裂缝向基质深度增能的实验装置及方法. ZL202111234389.2.

7.一种压裂蓄能一体化实验方法及实验装置. ZL202111235936.9.

其他完成人(部分)

1.一种致密砂砾岩储层缝网支撑改造新方法,ZL 201811220709.7

2.模拟纤维转向剂暂堵水力裂缝的可视化实验装置,ZL 201510409668.6

3.三孔岩心釜、超低渗储层液体伤害评价实验装置及方法, ZL 201610003898.7

4.在线加入球形转向材料的自动化控制装置,ZL 201510408974.8

5.暂堵转向材料辅助水平井进行拖动式水力喷射改造的方法,ZL 201510408745.6

6.纳米乳液压裂液的评价方法,ZL 201811640479.X

7.一种沿天然裂缝劈裂的岩心劈裂装置及其劈裂方法,ZL201910107551.0

8.一种兼备暂堵和支撑作用的转向剂及其制备方法,ZL 201810697026.4

9.一种利用原位微生物提高致密稠油压裂效果的方法,ZL

10.一种非常规储层油气井的水力压裂改造方法,ZL 201510408965.9

11.纤维制品及其制备方法和应用以及暂堵射孔炮眼的方法,ZL 201910975240.6


科研奖励

1.中国石油和化学工业联合会科技进步奖,2019,一等奖

2.中国石油和化学工业联合会技术发明奖,2022,一等奖

3.石油与化工自动化行业协会科学技术奖,2021,一等奖

4.中国石油和化学工业联合会创新团队奖,2018,创新团队奖

5.山东高等学校优秀科研成果自然科学奖2015,一等奖


学术兼职

国际石油工程师协会(SPE)会员

欧洲地学家与工程师学会(EAGE)会员

国际岩石力学协会ISRM)会员