曲鴻雁，博士，博士生導師（學術博導、工程博導），研究員，校青年拔尖人才。

聯系方式：hongyan.qu@cup.edu.cn

個人簡介

曲鴻雁，博士，博士生導師，研究員，校青年拔尖人才。2006年本科畢業于中國石油大學（華東），保送研究生，2009年國家公派留學，2014年博士畢業于西澳大學石油工程專業。2015年被評為中國石油大學（北京）校青年拔尖人才。針對新疆、長慶等國內典型致密/頁巖油氣開展壓裂增產提采物理模擬與數值模擬研究。主持國家自然科學基金項目2項（面上基金、青年基金）、國家重點實驗室自主課題3項、校級基金2項，參與國家科技重大專項、國家重點研發計劃項目專項、中石油科技部及油田橫向課題多項。發表論文40余篇，SCI及EI收錄30余篇，授權發明專利35項，獲省部級一等獎4項、創新團隊獎1項?，F為SPE、EAGE和ISRM會員，擔任多個SCI/EI期刊審稿人。

研究方向 非常規（致密/頁巖）油氣藏壓裂增產提采理論與技術

1. CCUS：CO₂前置壓裂提采機理及CO₂封存機制

2. 蓄能壓裂：壓前蓄能巖石微觀損傷機制及滲吸提采機理

3. 壓裂診斷評估：壓裂優化設計及壓后效果智能評估

4. 整體壓裂：地質工程一體化建模及油藏數值模擬、應力重構及演化

5. 重復壓裂：超低滲/致密油氣藏蓄能及重復改造機理

6. 油氣田開發：儲層物性及滲流特性評價、生產動態分析及產能預測

教育經歷

2002.9-2006.7  中國石油大學（華東）信息與計算科學 學士

2006.9-2009.7  中國石油大學（華東）應用數學 碩士 （保送研究生）

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

2011.2-2012.2  澳大利亞聯邦科學與工業研究院（CSIRO）非常規能源中心，聯合培養

工作經歷

2013.09~2015.06  中國石油大學（北京）非常規天然氣研究院 助理研究員

2015.08          中國石油大學（北京）校青年拔尖人才

2015.06~2023.06 中國石油大學（北京）非常規油氣科學技術研究院 副研究員

2023.07至今     中國石油大學（北京）非常規油氣科學技術研究院 研究員

科研項目

1.國家自然科學基金—面上基金，超低滲透、致密儲層蓄能重復壓裂增能機理研究，2022-2025，項目負責人

2.國家自然科學基金—青年基金，高溫高壓致密氣藏基質--裂縫系統傳質與流動規律實驗研究，2017-2019，項目負責人

3.國家重點研發計劃項目“政府間國際科技創新合作”專項，深部含煤巖系超臨界CO2穿層壓裂-驅替-封存評價技術研究，2024-2026，研究骨干

4.中石油戰略合作科技專項，準噶爾盆地瑪湖中下組合和吉木薩爾陸相頁巖油高效勘探開發理論及關鍵技術研究，2019-2024，子課題副課題長、專題長

5.中國石油大學（北京）自主課題，基于機器學習的智能壓裂診斷與評估方法，2020-2023，項目負責人

6.中石油新疆油田項目，頁巖油前置二氧化碳注入工藝參數優化，2023-2023，項目負責人

7.中石油新疆油田項目，轉向蓄能重復壓裂工藝適應性及優化研究，2022-2023，蓄能壓裂負責人

8.中石油長慶油田項目，超低滲透油藏典型井組改善開發效果潛力評價及工藝優化研究，2020-2021，項目負責人

9.中國石油大學（北京）青年拔尖人才資助項目及引進人才科研啟動基金，頁巖基質滲透率室內準確測量及影響因素分析，2014-2018，項目負責人

10.油氣資源與探測國家重點實驗室自主課題，頁巖儲層基質滲透率及其影響因素研究，2014-2015，項目負責人

11.煤炭資源與安全開采國家重點實驗室開放課題，煤與瓦斯共采儲層滲透特性演化實驗研究，2015-2016，項目負責人

12.巖土力學與工程國家重點實驗室開放課題，頁巖儲層滲透率建模及室內實驗研究，2015-2016，項目負責人

13.低滲透油氣田勘探開發國家工程實驗室開放課題，致密儲層體積壓裂減阻劑減阻機理研究，2015-2016，第二負責人

14.中國石油天然氣集團公司項目，井筒工作液基礎理論關鍵技術研究，2015-2016，子課題第二負責人

15.石油公司橫向項目，南哈氣田地質特征與有利富氣目標預測評價及勘探井部署設計—子課題南哈氣藏改造及提高測試產能研究，2016-2017，子課題第二負責人

16.塔里木油田橫向項目，迪西1氣藏儲層改造工藝優化研究，2018-2018.，研究骨干

17.國家科技重大專項課題外協項目，復雜碳酸鹽巖油氣藏無級次轉向酸壓技術研究，2017-2019，研究骨干

發表論文

SCI收錄

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收錄論文

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.曲鴻雁, 彭巖, 劉繼山, 陳掌星, 吳克柳, 周福建，張柯. 2018. 氣體吸附對頁巖裂縫表觀滲透率和頁巖氣采收率的影響. 中國科學: 技術科學, 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, Zhou，Yanpeng, Xue，Hongyan, Qu，Xiaolun, Qin，2015. The contributing factors of stimulation design to incremental and long- term productivity in bakken play，SPE 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.達引朋, 薛小佳, 劉明, 史佩澤, 曲鴻雁, 周福建. 超低滲油田蓄能重復壓裂增能機理[J]. 科學技術與工程，2021，21（33）.

2.周生田, 曲鴻雁. 水平井筒壓降及其對產能影響的研究[J]. 科學技術與工程, 2009.

授權專利

第一完成人

1.基質-裂縫系統氣體流動模擬裝置與方法， ZL 201910353949.2

2.確定儲層應力敏感程度的方法、裝置及存儲介質，ZL 201910713289.4

3.基質與裂縫間竄流形狀因子確定方法、裝置及系統，ZL 202010319134.5

4.一種致密儲層壓裂效果評價方法及裝置. ZL202010816332.2.

5.一種研究水化對壓裂蓄能效率影響的實驗方法及實驗裝置. ZL202111235934.X.

6.一種表征裂縫向基質深度增能的實驗裝置及方法. ZL202111234389.2.

7.一種壓裂蓄能一體化實驗方法及實驗裝置. ZL202111235936.9.

其他完成人（部分）

1.一種致密砂礫巖儲層縫網支撐改造新方法，ZL 201811220709.7

2.模擬纖維轉向劑暫堵水力裂縫的可視化實驗裝置，ZL 201510409668.6

3.三孔巖心釜、超低滲儲層液體傷害評價實驗裝置及方法， ZL 201610003898.7

4.在線加入球形轉向材料的自動化控制裝置，ZL 201510408974.8

5.暫堵轉向材料輔助水平井進行拖動式水力噴射改造的方法，ZL 201510408745.6

6.納米乳液壓裂液的評價方法，ZL 201811640479.X

7.一種沿天然裂縫劈裂的巖心劈裂裝置及其劈裂方法，ZL201910107551.0

8.一種兼備暫堵和支撐作用的轉向劑及其制備方法，ZL 201810697026.4

9.一種利用原位微生物提高致密稠油壓裂效果的方法，ZL

10.一種非常規儲層油氣井的水力壓裂改造方法，ZL 201510408965.9

11.纖維制品及其制備方法和應用以及暫堵射孔炮眼的方法，ZL 201910975240.6

科研獎勵

1.中國石油和化學工業聯合會科技進步獎，2019，一等獎

2.中國石油和化學工業聯合會技術發明獎，2022，一等獎

3.石油與化工自動化行業協會科學技術獎，2021，一等獎

4.中國石油和化學工業聯合會創新團隊獎，2018，創新團隊獎

5.山東高等學校優秀科研成果自然科學獎2015，一等獎

學術兼職

國際石油工程師協會(SPE)會員

歐洲地學家與工程師學會（EAGE）會員

國際巖石力學協會（ISRM）會員