地球科学与工程学院 - 开云足球俱乐部

冀胤霖

职称：职称：准聘副教授
岗位：仅研究系列选择
联系电话：
办公地址：朱共山楼A340
电子邮件： yinlinji@nju.edu.cn
课题组链接：

个人简介

冀胤霖，2026年澳大利亚基金委优秀青年基金（DECRA：澳洲“优青”项目）获得者，江苏特聘教授。开云足球俱乐部地球科学与工程学院特聘研究员/准聘副教授，德国地学研究中心（GFZ）客座研究员（Guest Scientist）。曾担任全球最大的石油天然气公司沙特阿美（ARAMCO）项目科学顾问（Consultant），任德国亥姆霍兹联合会(Helmholtz Association)青年科学家创新团队ARES核心成员，德国地学研究中心（GFZ）博士后，博士毕业于新加坡南洋理工大学（NTU）。近年来，以非常规地质能源安全高效开采（如深地热）和存储（如二氧化碳和氢气）为背景，开展深地工程岩体界面力学和深部能源储层评估相关的研究工作。迄今共发表SCI期刊论文40余篇，其中，第一/通讯作者论文近30篇，涵盖地学领域权威期刊Geophysical Research Letters（GRL，3篇，其中1篇被美国地球物理学会评为2022年度高下载论文)、Earth and Planetary Science Letters（EPSL）、Journal of Geophysical Research: Solid Earth（JGR:SE）和Earth-Science Reviews（ESR），能源领域权威期刊Renewable and Sustainable Energy Reviews（RSER），工程地质与岩石力学权威期刊Engineering Geology（EG）、International Journal of Rock Mechanics and Mining Sciences（IJRMMS）和Rock Mechanics and Rock Engineering（RMRE）以及国内权威期刊Journal of Rock Mechanics and Geotechnical Engineering（JRMGE）和卓越高起点新刊Deep Underground Science and Engineering（DUSE，《深地科学（英文）》）。担任荷兰基金委（NWO），波兰基金委（NCN）和法国海洋开发研究院（Ifremer）深地深海相关项目的海外评审专家，和包括Nature Communications, JGR, GRL, WRR, IJRMMS, RMRE和EG等在内的权威学术期刊经常性审稿人。目前任DUSE和JRMGE科学编辑，国际地质灾害与减灾协会（ICGdR）活动断裂与诱发地震专委会成员。曾获JRMGE最佳科学编辑奖（2024），DUSE最佳青年编委奖（2024），JRMGE优秀审稿人奖（2022&2023），并获NTU土木与环境工程学院最佳博士论文奖（2021）和最佳助教奖（2019），新加坡岩石力学与工程地质协会（SRMEG）最佳报告奖（2020）等。

教育经历

2016-2020 新加坡南洋理工大学，博士（院最佳博士论文）
2013.07-2013.11 澳大利亚卧龙岗大学，本科交流（留学基金委首届优本项目）
2010-2014 中国矿业大学，学士（孙越崎学院拔尖人才培养）

工作经历

2025.03-至今开云足球俱乐部地球科学与工程学院，特聘研究员/准聘副教授
2020.11-2025.02 德国地学研究中心，助理研究员/博士后
2016.08-2020.10 新加坡南洋理工大学，助教/助研

学术兼职

Journal of Rock Mechanics and Geotechnical Engineering（JRMGE）科学编辑

Deep Underground Science and Engineering（DUSE）科学编辑

国际地质灾害与减灾协会（ICGdR）活动断裂与诱发地震专委会成员

研究方向

面向国家“深地”战略和“双碳”目标，聚焦“双碳”战略背景下的当代深地工程（如深地能源开采、二氧化碳地质封存、地下能源存储以及深部废弃矿井再利用等典型工程背景，图1）中的关键科学问题，重点研究岩体界面（裂隙与断层）的摩擦–渗流耦合机制，系统阐明其动态演化规律，并研发可对岩体界面的摩擦与渗流特性进行联合监测与调控的关键技术。

图1、面向“双碳”战略的当代深地工程

具体利用高频高精度光纤监测、声发射监测和分布式应变监测、以及多物理场跨尺度建模和参数反演等前沿技术手段，结合小尺度室内岩石力学试验、大尺度现场数据分析和多尺度数值与解析模拟+机器学习建模（图2），开展深部能源储层岩石物理力学相关的基础与应用研究，包括：

深地工程中裂隙和断层的摩擦-渗流耦合机制及其调控技术
气液注采工业活动诱发地震机理及风险评估与调控技术
二氧化碳和氢气地下存储的密封性与安全性演化机制
深部地热储层改造与热–流–固–化多场耦合机制
多场耦合下岩石物理力学实验技术研发与应用

图2、深地工程中岩体界面摩擦-渗流耦合的多尺度、多方法研究思路

开授课程

科研项目

江苏特聘教授计划，2025-2028，在研，主持

开云足球俱乐部高层次人才科研启动项目，深地岩体界面与流体，2025-2028，在研，主持

国家自然科学基金青年项目，原位法向约束下干热岩裂隙水力剪切的摩擦-渗流耦合机理与调控方法，2026-2028，在研，主持

深地工程智能建造与健康运维全国重点实验室开放基金重点项目，基于实时微震数据的深地热储层改造诱震风险-增渗效果联合评估与预测，2025-2027，在研，主持

德国亥姆霍兹国家研究中心联合会青年科学家创新团队项目，Advanced reservoir engineering concepts for the controlled utilization of deep geothermal energy in urban areas，2020-2026，在研，主持实验室尺度研究

煤炭资源与安全开采国家重点实验室开放基金，循环注水条件下低渗花岗岩裂隙剪切摩擦特性研究，2021-2022，已结题，主持

学术成果

最新中文特邀综述：

冀胤霖，张苏鹏，朱鸿鹄，张振宇，宋先知，王勤．深地工程中岩体界面的摩擦-渗流耦合机理与调控技术：综述与展望[J/OL]．采矿与岩层控制工程学报. https://doi.org/10.13532/j.jmsce.cn10-1638/td.2025-1186

Published Journal Papers (# student or postdoc; * corresponding author)

[18 as first-author; 9 as corresponding-author]

1 Ji, Y.*†, Zhang, S.†, Hofmann, H., Yeo, I. W., Li, S., Ge, S., & Zimmermann, G. (2025). Alleviating post-injection seismic hazard in enhanced geothermal systems: Insights from a multi-scale study. Earth and Planetary Science Letters. https://doi.org/10.1016/j.epsl.2025.119579 (†contributed equally to this work)

2 Ji, Y.*,Weijermars, R. (2025). Multi-Physics Interactions in Induced Seismicity Associated with Hydraulic Stimulation of Unconventional Geoenergy Reservoirs. Renewable and Sustainable Energy Reviews. https://doi.org/10.1016/j.rser.2025.116179

3 Miao, S.^#*, Zang, A., Pan, P., Ji., Y.*, Hofmann, H., Blöcher., G., Rybacki., E., & Lipus., M. (2025). Quantifying localized and delocalized rock deformation in multi-stage relaxation experiments using distributed optical fiber sensing. Journal of Geophysical Research: Solid Earth. https://doi.org/10.1029/2024JB029881

4 Zang., A., Hofmann., H., Ji., Y., Zhuang., L., Lu., G., & Bunger., A. (2025). How rock hydraulic fatigue methods from mining and petroleum industry assist in unlocking deep heat for a clean energy future. Renewable and Sustainable Energy Reviews. https://doi.org/10.1016/j.rser.2025.115683

5 Zhang, X.^#, Si, G., Ji, Y., Cao, A., & Oh, J. (2025). Experimental insights into effects of granitic course grains on hydro-seismo-mechanical responses. International Journal of Rock Mechanics and Mining Sciences. https://doi.org/10.1016/j.ijrmms.2025.106241

6 Miao, S.^#*, Zang, A., Blöcher., G., Ji., Y.*, Hofmann, H., & Pan, P. (2025). Quantifying strain localization and time-dependent deformation in granodiorite using distributed optical fiber sensing. Journal of Rock Mechanics and Geotechnical Engineering. https://doi.org/10.1016/j.jrmge.2025.04.002

7 Xiang, Z.^#, Kang, W. H., Ji, Y., Si, G., Canbulat, I., Lin, H., & Oh, J. (2025). Estimation of in-situ horizontal stresses based on cross-scale borehole breakout data via machine learning: model development and validation. Geophysical Journal International. https://doi.org/10.1093/gji/ggaf144

8 Gao, Z.^#, Zhang, C., Ji, Y., Wang, Z., Zhan, J., He, M., Li, S., Zhang, Y., Gou, Y., Chen, Y., & Yao, L. (2025). Experimental study on tensile strength anisotropy of granite: insights from horizontal stress-related microcracks. Rock Mechanics and Rock Engineering. https://doi.org/10.1007/s00603-025-04570-0

9 Ma, X.^#, Hu, D., Zhou, H., Ji, Y., Zang, A., & Ma., Y. (2025). A shear-based breakdown model for the hydraulic fracturing of hot dry rock. Engineering Fracture Mechanics. https://doi.org/10.1016/j.engfracmech.2025.111070

10 Zhang, S.^#, Ji, Y.*, Hofmann, H., Cappa, F., & Li, S. (2024). Assessing Potential Seismic Hazard in Enhanced Geothermal Systems: Insights from Comparing Gonghe and Pohang Reservoirs. Seismological Research Letters. https://doi.org/10.1785/0220240245.

11 Zhang, S.^#, Ji, Y.*, Hofmann, H., Yin, Q., Li, S., & Zhang, Y. (2024). Temporal evolution of shear-induced dilatancy of rock fractures: Controls from surface roughness and normal stress. Geophysical Journal International, 238(1): 199-213.

12 Zhang, S.^#, Ji, Y.*, Hofmann, H., Li, S., Rybacki, E., Zimmermann, G., & Zang, A. (2024). A laboratory study on fluid injection into a fault versus adjacent to a fault: Implications for injection-induced seismicity in EGS. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences, 382(2275). (Invited paper to a theme issue 'Induced seismicity in coupled subsurface systems'.)

13 Zhang, Y.^#, Ji, Y., Zhao, Y.; Deng, Q., & Wang, C. (2024). Mechanical anisotropy associated with bedding in shale under Brazilian test conditions: Insights from acoustic emission statistics. Journal of Rock Mechanics and Geotechnical Engineering. https://doi.org/10.1016/j.jrmge.2024.01.006

14 Fan, D.^#, Zhang, C., Ji, Y., Zhao, X., Zhao, Z., & He, M. (2024). Permeability evolution of rough fractures in Gonghe granite subject to cyclic normal stress at elevated temperature: Experimental measurements and analytical modelling. Rock Mechanics and Rock Engineering. https://doi.org/10.1007/s00603-024-04141-9

15 Fu, B.^#, Li, Y.*, Tang, C., Ji, Y.*, & Zang A. (2024). A micromechanical analysis of marble pulverization under quasi-static progressive cyclic loading. International Journal of Rock Mechanics and Mining Sciences.179, 105786.

16 Deng, Q.^#, Shangguan, J., Ji, Y., Cacace, M., Blöcher, G., & Schmittbuhl, J. (2024). Relating hydro-mechanical and geometric properties of a self-affine rough fracture during fracture closure. Journal of Rock Mechanics and Geotechnical Engineering. https://doi.org/10.1016/j.jrmge.2024.05.008

17 Jiang, R.^#, Duan, K., Ji, Y., Zhang, Q., Wang, L., & Zheng, Y. (2024). Impact of injection rate on smooth and rough fracture activation in granite: Laboratory-scale acoustic emission analysis. Journal of Rock Mechanics and Geotechnical Engineering. https://doi.org/10.1016/j.jrmge.2024.08.011

18 Miao, S.^#, Pan, P.*, Zang, A., Zhuang, C., Hofmann, H., Ji, Y*. (2024). Laboratory shear behaviour of tensile- and shear-induced fractures in sandstone: Insights from acoustic emission. Rock Mechanics and Rock Engineering. https://doi.org/10.1007/s00603-024-03780-2

19 Ji, Y., Zhang, W., Hofmann, H., Cappa, F., & Zhang, S. (2023).Fracture permeability enhancement during fluid injection modulated by pressurization rate and surface asperities. Geophysical Research Letters, 50(18), e2023GL104662.

20 Ji, Y., Zhang, W., Hofmann, H., Chen., Y., Kluge., C., Zang, A., & Zimmerman, G. (2023). Modelling of fluid pressure migration in a pressure sensitive fault zone subject to cyclic injection and implications for injection-induced seismicity. Geophysical Journal International, 232, 1655-1667.

21 Ji, Y., Chen, Y., Hofmann, H., Zhang, Y., Zang, A., & Zimmerman, G. (2023).The role of temperature-enhanced fault closure in triggering post-injection pressure diffusion and seismicity in Enhanced Geothermal Systems. Deep Underground Science and Engineering, 2(4): 394-405. (Invited paper)

22 Hutka., G. A.^#, Cacace, M., Hofmann, H., Zang, A., Wang, L., & Ji., Y. (2023). Numerical investigation of the effect of fluid pressurization rate on frictional strength in injection-induced fault slip experiments. Scientific Reports, 13, 4437.

23 Ji, Y., Hofmann, H., Rutter, E., & Zang, A. (2022). Transition from slow to fast injection-induced slip of an experimental fault in granite promoted by elevated temperature. Geophysical Research Letters, 49(23), e2022GL101212.

24 Ji, Y., Wang, L., Hofmann, H., Kwiatek, G., & Dresen., G. (2022). High-rate fluid injection reduces the nucleation length of laboratory earthquakes on critically stress faults in granite. Geophysical Research Letters, 49(23), e2022GL100418. (Top Downloaded Article in GRL in 2022)

25 Ji, Y., Hofmann, H., Duan, K., & Zang, A. (2022). Laboratory experiments on fault behavior towards better understanding of injection-induced seismicity in geoenergy systems. Earth-Science Reviews, 103916.

26 Ji, Y., Hofmann, H., Rutter, E. H., Xiao, F., & Yang, L. (2022). Revisiting the evaluation of hydraulic transmissivity of elliptical rock fractures in triaxial shear-flow experiments. Rock Mechanics and Rock Engineering, 55, 3781-3789.

27 Ji, Y., Kluge, C., Hofmann, H., & Blöcher, G. (2022). Effects of external temperature and dead volume on laboratory measurements of pore pressure and injected volume in a rock fracture. Journal of Rock Mechanics and Geotechnical Engineering,14(5), 1461-1469.

28 Li, Y.*, Du, X., & Ji, Y.* (2022). Prediction of the transitional normal stress of rock joints under shear. International Journal of Rock Mechanics and Mining Sciences, 159, 105203.

29 Rutter, E. H., Li, Y., Shang, J., & Ji, Y. (2022). Recent advances in mechanics and physics of rock fractures across scales, Frontiers in Earth Science, 1527. (Editorial)

30 Ji, Y., Yoon, J. S., Zang, A., & Wu, W. (2021). Mitigation of injection-induced seismicity on undrained faults in granite using cyclic fluid injection. International Journal of Rock Mechanics and Mining Sciences, 146, 104881.

31 Ji, Y., Zhuang, L., Wu, W., Hofmann, H., Zang, A., & Zimmermann, G. (2021). Cyclic water injection potentially mitigates seismic risks by promoting slow and stable slip of a natural fracture in granite. Rock Mechanics and Rock Engineering, 54, 5389-5405.

32 Ji, Y., Fang, Z., & Wu, W. (2021). Fluid overpressurization on rock fractures: experimental investigation and analytical modelling. Rock Mechanics and Rock Engineering, 54, 3039-3050.

33 Wei, M., Dai, F., Ji, Y., & Wu, W. (2021). Effect of fluid pressure gradient on factor of safety in rock stability analysis. Engineering Geology, 294, 106346.

34 Ji, Y., Wang, L., Zheng, Y., & Wu, W. (2020). Temperature-dependent abrasivity of Bukit Timah granite and implications for drill bit wear in thermo-mechanical drilling. Acta Geotechnica, 16, 885-893.

35 Ji, Y., & Wu, W. (2020). Injection-driven fracture instability in granite: mechanism and implications. Tectonophysics, 791, 228572. (Among the most cited papers published in the journal since 2020)

36 Ji, Y., Wanniarachchi, W. A. M., & Wu, W. (2020). Effect of fluid pressure heterogeneity on injection-induced fracture activation. Computers and Geotechnics, 123, 103589.

37 Rathnaweera, T. D., Wu, W., Ji, Y., & Gamage, R. P. (2020). Understanding injection-induced seismicity in enhanced geothermal systems: From the coupled thermo-hydro-mechanical-chemical process to anthropogenic earthquake prediction. Earth-Science Reviews, 103182.

38 Zou, J., Jiao, Y., Tang., Z., Ji, Y., Yan., C., & Wang., J. (2020).Effect of mechanical heterogeneity on hydraulic fracture propagation in unconventional gas reservoirs. Computers and Geotechnics, 125, 103652.

39 Ji, Y., Wu, W., & Zhao, Z. (2019). Unloading-induced rock fracture activation and maximum seismic moment prediction. Engineering Geology, 262, 105352.

40 Duan, K., Ji, Y., Xu, N., Wan, Z., & Wu, W. (2019). Excavation-induced fault instability: Possible causes and implications for seismicity. Tunnelling and Underground Space Technology, 92, 103041.

41 Duan, K., Ji, Y., Wu, W., & Kwok, C. Y. (2019). Unloading-induced failure of brittle rock and implications for excavation-induced strain burst. Tunnelling and Underground Space Technology, 84, 495-506.

42 Cheng, J., Wan, Z.*, & Ji, Y.* (2018). Shield-roof interaction in longwall panels: Insights from field data and their application to ground control. Advances in Civil Engineering, 2018, 18.

43 Ji, Y., Ren, T., Wynne, P., Wan, Z., Ma, Z., & Wang, Z. (2016). A comparative study of dust control practices in Chinese and Australian longwall coal mines. International Journal of Mining Science and Technology, 26(2), 199-208. (Best Paper Award)

44 Cheng, J., Wan, Z., Peng, S. S., Liu, S., & Ji, Y. (2015). What can the changes in shield resistance tell us during the period of shearer’s cutting and neighboring shields’ advance? International Journal of Mining Science and Technology, 25(3), 361-367.

荣誉奖励

2022 Most Downloaded Article in Geophysical Research Letters, American Geophysical Union, 2024
Excellent Scientific Editor Award, Journal of Rock Mechanics and Geotechnical Engineering, 2024
Outstanding Early Career Editorial Board Member, Deep Underground Science and Engineering,2024
Outstanding Reviewer Award, Journal of Rock Mechanics and Geotechnical Engineering, 2022 and 2023
Best Ph. D Thesis Award, School of Civil and Environmental Engineering, Nanyang Technological University, Singapore, 2021.
Best Presentation Award, Society for Rock Mechanics & Engineering Geology, Singapore, 2020.
Best Teaching Assistant Award, School of Civil and Environmental Engineering, Nanyang Technological University, Singapore, 2019.
NTU Research Scholarship (2016-2020), Nanyang Technological University, Singapore, 2016.
Excellence Student Scholarship, China University of Mining and Technology, China, 2016.
Outstanding Undergraduate International Exchange Scholarship, China Scholarship Council, China, 2013.