工学博士，武汉大学教授、博士生导师

电子邮箱：luyu.wang@whu.edu.cn

学术主页：https://orcid.org/0000-0003-2882-3503

研究领域及招生方向：

研究方向：（1）岩土介质渗流与破坏及其多场耦合效应；（2）计算岩土力学；（3）数据-物理机制融合的岩土体稳定性分析方法

招生专业：水利水电工程、水工结构工程、智慧水利

招生类型：学术学位博士、专业学位硕士、学术学位硕士

研究内容包括但不限于水工岩土力学、岩土工程、先进数值方法，以及人工智能跨学科应用等前沿领域。诚挚欢迎有志攻读硕士/博士学位的优秀学子报考，诚邀优秀青年学者开展博士后合作研究。

教育背景和工作经历：

2021年毕业于中国科学院武汉岩土力学研究所，获岩土工程博士学位；2019-2021年在荷兰代尔夫特理工大学应用数学系博士联合培养。取得博士学位后，获欧洲“地平线2020”计划EURAD项目全资资助，2021-2022年在法国国家科学研究中心GeoRessources Lab开展博士后研究；2022-2025年在香港理工大学土木与环境工程系继续从事科研工作。2026年1月加入。

代表性科研项目：

1. 国家高层次青年人才项目，裂隙岩体多场耦合渗流与破坏特性，主持

2. 香港理工大学，Centrally Funded Postdoctoral Fellowship，主持

3. 欧洲原子能共同体，EURAD: European Joint Programme on Radioactive Waste Management，参与

4. 荷兰应用科学研究组织，NWO-ViDi Grant: Large-Scale Energy Storage In Geological Formations，参与

5. 香港研究资助局，Machine Learning-Aided Multiscale Approach for Recycled Solid Waste Mixtures Composed of Easily Crushable Rigid Aggregates and Highly Deformable Soft Aggregates，参与

6. 香港研究资助局，Investigation of grain breakage and seepage erosion in carbonate sand based on a multi-scale hydro-mechanical approach，参与

7. 国家自然科学基金重大项目，不良地质段跨海隧道的渐进变形破坏机理与长期性能设计方法，结题，参与

8. 国家自然科学基金面上项目，强震作用下洞口软硬岩层接触带隧道震害机理研究，结题，参与

9. 国家自然科学基金面上项目，高放废物地质处置库备选黏土岩温度-渗流-应力耦合长期力学特性研究，结题，参与

学术兼职：

1. Rock Mechanics Bulletin编委

2. Geohazard Mechanics青年编委

3. Deep Underground Science and Engineering青年编委

4. 《水利水电技术（中英文）》青年编委

5. International Journal of Energy Research等4个国际期刊的客座编辑

6. 多个学术会议的专题召集人和分会场主持，在国内外学术会议中多次作口头报告

7. 长期担任本领域国际主流期刊审稿人：Rock Mechanics Rock Engineering、Journal of Rock Mechanics and Geotechnical Engineering、Acta Geotechnica、International Journal of Mechanical Sciences、Tunnelling and Underground Space Technology、SPE Reservoir Evaluation and Engineering、Bulletin of Engineering Geology and the Environment等

代表性学术成果：

主要从事水工岩土力学及工程应用方面的研究，结合数值仿真与深度学习等学科交叉方法，探索前沿科学问题，服务国家重大工程建设。重点关注如下主题：探究岩土介质渗流与破坏特性及多物理场耦合效应；发展融合数据科学方法与经典岩土力学原理的岩土体稳定性评估与预测方法；研发高保真高性能的多场耦合数值仿真方法。部分成果列举如下：

1. Wang Luyu*, Fabrice Golfier, Tinet Anne-Julie, Chen Weizhong, Vuik Cornelis, 2022. An efficient adaptive implicit scheme with equivalent continuum approach for two-phase flow in fractured vuggy porous media. Advances in Water Resources 163:104186.（代表作）

2. Wang Luyu, Chen Weizhong*, 2025. A 3D peridynamic model for thermal-induced cracking in fractured geological media with multiple fractures. Rock Mechanics and Rock Engineering 58:6763-6789.（代表作）

3. Wang Luyu, Yin Zhen-Yu*, Chen Weizhong, 2025. Insights into 3D particle crushing under dynamic conditions using an improved variable bond force peridynamic model. Canadian Geotechnical Journal 62:1-22.（代表作）

4. Wang Luyu, Yin Zhen-Yu*, 2024. Modelling finite deformation and progressive failure of hyperelastic solid with implicit BA-NOSB-PD. Computer Methods in Applied Mechanics and Engineering 431:117260.（代表作）

5. Wang Luyu, Yin Zhen-Yu*, 2025. Peridynamic modelling of time-dependent behaviour and creep damage in hyper-viscoelastic solids with pre-cracks. Computer Methods in Applied Mechanics and Engineering 433 (Part A):117512.

6. Wang Luyu, Chen Weizhong*, Vuik Cornelis, 2025. A 3D framework for geological media with multiple intersected fractures: Coupled Darcy flow and Fickian diffusion. Journal of Rock Mechanics and Geotechnical Engineering 17(10):6293-6307.（代表作）

7. Wang Luyu, Chen Weizhong*, Sui Qun, 2024. Study of hydro-mechanical behaviours of rough rock fracture with shear dilatancy and asperities using shear-flow model. Journal of Rock Mechanics and Geotechnical Engineering 16(10):4004-4016.

8. Wang Luyu, Yin Zhen-Yu*, 2023. Fluid flow and mass transport in fractured media with curved fractures and varying apertures: A 3D modeling approach. International Journal for Numerical Methods in Engineering 124(19):4311-4338.（代表作）

9. Wang Luyu*, Wang Yuhang, Vuik Cornelis, Hadi Hajibeygi, 2022. Accurate modeling and simulation of seepage in 3D heterogeneous fractured porous media with complex structures. Computers and Geotechnics 150:104923.（代表作）

10. Wang Luyu, Yin Zhen-Yu*, Chen Weizhong, 2024. Characteristics of poroelastic deformation and dissipation of heat and pore pressure in fluid-saturated porous strata. Computers and Geotechnics 167:106046.

11. Wang Luyu, Yin Zhen-Yu*, Han Gang, Yu Meilu, 2023. Toward temporal evolution of consolidation in fluid-saturated poroelastic media with various permeable conditions. Computers and Geotechnics 156:105273.

12. Wang Luyu, Yin Zhen-Yu*, Chen Weizhong, 2024. Peridynamic modelling of dynamic damage and fragmentation of cracked solids during impact contact. Engineering Fracture Mechanics 295:109784.

13. Wang Luyu*, Vuik Cornelis, Hadi Hajibeygi, 2022. A stabilized mixed-FE scheme for frictional contact and shear failure analyses in deformable fractured media. Engineering Fracture Mechanics 267:108427.

14. Wang Luyu, Chen Weizhong*, Yang Jianping, 2019. The impact of various crack geometrical parameters on stress field over tip under different mixed loading conditions and inclination angles. Theoretical and Applied Fracture Mechanics 102:239-254.

15. Wang Luyu, Yin Zhen-Yu*, Chen Weizhong, 2024. Characteristics of crack growth in brittle solids with the effects of material heterogeneity and multi-crack interaction. International Journal of Fracture 246(1):77-99.

16. Wang Luyu, Chen Weizhong*, Tan Xianjun, Yang Jianping, Yang Diansen, Zhang Xi, 2020. Numerical investigation on the stability of deforming fractured rocks using discrete fracture networks: a case study of underground excavation. Bulletin of Engineering Geology and the Environment 79:133-151.

17. Wang Luyu*, Chen Weizhong, Vuik Cornelis, 2022. Hybrid-dimensional modeling for fluid flow in heterogeneous porous media using dual fracture-pore model with flux interaction of fracture-cavity network. Journal of Natural Gas Science and Engineering 100:104450.

18. Wang Luyu*, Chen Weizhong, Zhang Yanjun, Zhang Xiaodong, Vuik Cornelis, 2023. Investigating effects of heterogeneity and fracture distribution on two-phase flow in fractured reservoir with adaptive time strategy. Transport in Porous Media 149(1):175-203.

19. Wang Luyu*, Zhang, Y., 2024. Interpreting correlations in stress‐dependent permeability, porosity, and compressibility of rocks: A viewpoint from finite strain theory. International Journal for Numerical and Analytical Methods in Geomechanics 48(8):2000-2019.（代表作）

20. Wang Luyu, Yin Zhen-Yu*, 2025. A unified bond-based peridynamic model with insights into high-frequency elastodynamic problems in geotechnical and structural engineering. International Journal for Numerical and Analytical Methods in Geomechanics 49:4180-4201.

发明专利：

1. 王鲁瑀，陈卫忠，杨典森，杨建平. 一种剪切试验加载装置及加载方法. (发明专利. CN107014671A)

2. 陈卫忠，杨典森，王鲁瑀，杨建平. 一种地质体节理面剪切-渗流试验系统. (发明专利. CN106769797A)

3. 杨典森，陈卫忠，王鲁瑀，杨建平. 一种岩石剪切盒密封装置. (发明专利. CN106969987B)