Wang Luyu
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- Supervisor of Doctorate Candidates
- Supervisor of Master's Candidates
- Name (English):Luyu WANG
- Name (Pinyin):Wang Luyu
- E-Mail:luyu.wang@whu.edu.cn
- School/Department:School of Water Resources and Hydropower Engineering, Wuhan University
- Education Level:With Certificate of Graduation for Doctorate Study
- Academic Titles:Professor
- Alma Mater:Chinese Academy of Sciences (Wuhan Branch)
- Discipline:Hydraulic and Hydro-Power Engineering
Hydraulic Structure Engineering
Other Contact Information
- ZipCode:430072
- PostalAddress:School of Water Resources and Hydropower Engineering, Wuhan University, No. 299 Bayi Road, Wuchang District, Wuhan 430072, P.R. China
- Email:luyu.wang@whu.edu.cn
- Scientific Research
Dedicated to addressing the challenges of national strategic projects, including hydraulic and hydropower engineering and deep underground engineering, research focuses on Hydraulic Geomechanics and its practical applications. By exploring frontier scientific questions, his work aims to serve national infrastructure development. His primary research directions include:
(1) Seepage and failure mechanisms in geomaterials and their multiphysics coupling effects
(2) Physics-informed data-driven methods for geotechnical stability assessment and prediction, integrating advanced data science with classical geomechanics principles
(3) Advanced theories in computational mechanics, with an emphasis on high-fidelity and high-performance numerical simulation for multi-field coupled systems
ORCID: https://orcid.org/my-orcid?orcid=0000-0003-2882-3503
A Previous Homepage: https://luyuwangpage.wixsite.com/mysite
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
Li Yixin, Yin Zhen-Yu, Wang Luyu, Geng Xueyu*, 2026. An improved bond-associated peridynamics for modelling elastoplastic deformation and progressive fracture in geomaterials. Computers and Geotechnics, 192, 107868.
Wang Zhongwen, Yu Meilu*, Wang Lei, Xie Haotian, Xu Ying, Wang Luyu, 2024. Strength degradation characteristics and damage constitutive model of sandstone under freeze–thaw cycles. Scientific Reports, 14(1):22674.
Yu Meilu*, Wang Zhongwen, Xu Ying, Wang Yating, Wang Luyu, Wen Jinhao, 2025. Study on mechanical properties and energy evolution characteristics of excavation unloading rock under freeze–thaw temperature range. Engineering Fracture Mechanics, 325:111293.
Sui Qun, Chen Weizhong*, Wang Luyu, Li Hui, 2025. Investigation on hydro-mechanical coupling shear creep properties of jointed rock masses. Tunnelling and Underground Space Technology, 165:106880.
Wang Zhongwen, Yu Meilu*, Zuo Jianping*, Xu Ying, Ma Ding, Ge Jinjin, Wang Luyu, 2025. Fracture Characteristics and Evolution Mechanism of Freeze-Thaw Rock under Mixed Mode I/II Loading. Theoretical and Applied Fracture Mechanics, 139:105105.
Zhang Yanjun*, Zou Yi, Zhang Yang, Wang Luyu, Liu Dunqing, Sun Jian, Ge Hongkui, Zhou Desheng, 2022. Experimental study on characteristics and mechanisms of matrix pressure transmission near the fracture surface during post-fracturing shut-in in tight oil reservoirs. Journal of Petroleum Science and Engineering, 219:111133.
Tan Xianjun, Chen Weizhong*, Liu Hongyuan, Wang Luyu, Ma Wei, Chan Andrew Hin Cheong, 2018. A unified model for frost heave pressure in the rock with a penny-shaped fracture during freezing. Cold Regions Science and Technology, 153:1-9.
Yu Hongdan, Lu Chen, Chen Weizhong*, Wang Luyu, Yuan Jingqiang, 2022. Research on the thermo-hydraulic response characteristics of pore-fissure media using mixed finite volume method. Case Studies in Thermal Engineering, 37:102232.
Sui Qun, Chen Weizhong*, Wang Luyu, 2022. Investigation of nonlinear flow in discrete fracture networks using an improved hydro-mechanical coupling model. Applied Science, 12(6):3027.
Yu Hongdan*, Lu Chen, Chen Weizhong, Wang Luyu, Li Honghu, Lu Haifeng, 2022. Law of Nuclide Migration in Clayey Rocks considering Diffusion and Fluid Transport. Frontiers in Earth Science, 10:927232.
Wang Luyu, Chen Weizhong, Yang Diansen, and Yang Jianping. A loading device and method for shear testing. (Invention Patent, CN107014671A).
Chen Weizhong, Yang Diansen, Wang Luyu, and Yang Jianping. A coupled shear-seepage testing system for geological structural planes. (Invention Patent, CN106769797A).
Yang Diansen, Chen Weizhong, Wang Luyu, and Yang Jianping. A sealing device for rock shear boxes. (Invention Patent, CN106969987B).
Chen Weizhong*, Wang Luyu, Tan Xianjun, Yang Diansen, Yuan Jingqiang, and Yang Jianping, 2021. Development trends in the stability research of underground engineering in fractured rock masses. Chinese Journal of Rock Mechanics and Engineering, 40(10): 1945-1961. (in Chinese)
Chen Weizhong*, Sui Qun, Wang Luyu, and Xie Peiyao, 2021. Development and application of a coupled stress-seepage shear rheology testing system for rock joints. Chinese Journal of Rock Mechanics and Engineering, 40(9): 1729-1738. (in Chinese)
Yu Meilu*, Wang Zhongwen, Liu Yu, Li Chunyuan, Li Zhengdai, and Wang Luyu, 2024. The mechanical mechanism of key strata fracturing under different water pressure of the fourth aquifer in loose layers. Journal of Mining and Strata Control Engineering, 6(5): 053025. (in Chinese)