| Name | Lanhao Zhao | Gender | Male | Date of Birth | 1980.5 |
Position | Professor | Graduated Institution | Hohai University | |||
Major | Hydraulic Structure Engineering | Degree | PhD | |||
Telephone Number | 13914733646 | zhaolanhao@hhu.edu.cn | ||||
Research Interests | 1. Fluid-structure coupling: landslide and impulse wave inreservoirs; FSI simulation of offshore wind turbines; FSI and vibration simulation of pump & power plants; flow-induced vibration of hydraulic machineries and hydraulic gates; vortex-induced vibration 2. CFD-FEM-DEM: computational fluid dynamics; discrete element method; coupled computational fluid dynamics (CFD)-finite element (FEM)-discrete element (DEM) numerical simulation 3. Large-scale and high-performance parallel computing: MPI distributed parallel computing; explicit and implicit overlapping domain decomposition algorithm; multi-grid method 4. Earthquake resistance of hydraulic structures: dynamic damage; dynamic contact; seismic input | |||||
Awards & Honors | National Science and Technology Progress Award,2020 Provincial and Ministerial Awards, 2011,2012,2013,2016,2018,2020 | |||||
Achievements | Publish around 200 papers in academic journals, including 52 retrieved by SCI. Publish 3 monographs, authorize 15 invention patents and 4 software copyrights. Several representative papers are listed as follows. [1]Zhao L, Zhang H, Mao J, et al. An ICLS-based method for solving two-phase seepage free surface considering compressible gas in porous media[J]. Computers and Geotechnics. 2022.(TOP,IF=5.218) [2]Zhao L, Zhang L, Mao J, et al. An elastoplastic damage model of concrete under cyclic loading and its numerical implementation[J]. Engineering Fracture Mechanics, 2022. (IF=4.898) [3]Mu K, Mao J, Zhao L*, et al. A simple Chimera grid method with an implicit Dirichlet/Neumann coupling scheme for flows with moving boundaries[J]. Journal of Computational Physics, 2022.(TOP,IF=4.645) [4]Liu Z, Zhang L, Zhao L*, et al. A damage model of concrete including hysteretic effect under cyclic loading[J]. Materials, 2022. (IF=3.748) [5]Shao L, Mao J, Zhao L*, et al. A three-dimensional deformable spheropolyhedral-based discrete element method for simulation of the whole fracture process[J]. Engineering Fracture Mechanics, 2022.(IF=4.898) [6]Zhao L, Shao L, Mao J, et al. A fracture model for the deformable spheropolygon-based discrete element method[J]. Granular Matter, 2022. (IF=3.01) [7]Zhao L, Shao L, Mao J, et al. A deformable spheropolygon-based discrete element method[J]. Archive of Applied Mechanics, 2022.(IF=2.467) [8]Di Y, Zhao L*, Mao J, et al. A resolved CFD-DEM-IBM algorithm for water entry problems[J]. Ocean Engineering, 2021.(TOP,IF=4.372) [9]Di Y, Zhao L*, Mao J. A resolved CFD-DEM method based on the IBM for sedimentation of dense fluid-particle flows[J]. Computers & Fluids, 2021. (IF=3.077) [10]Mao J, Zhao L*, Liu X, et al. A resolved CFDEM algorithm based on the immersed boundary for the simulation of fluid-solid interaction[J]. Powder Technology, 2020.(TOP,IF=5.64) [11]Mao J, Liu X, Zhang C, Jia G, Zhao L*. Runout prediction and deposit characteristics investigation by the distance potential-based discrete element method: the 2018 Baige landslides, Jinsha river, China[J]. Landslides, 2020.(TOP,IF=6.153) [12]Mao J, Zhao L*, Di Y, et al. A resolved CFD-DEM approach for the simulation of landslides and impulse waves[J]. Computer Methods in Applied Mechanics and Engineering, 2020.(TOP期刊,IF=6.588) [13]Mao J, Zhao L*, Liu X, et al. A resolved CFDEM method for the interaction between the fluid and the discontinuous solids with large movement[J]. International Journal for Numerical Methods in Engineering, 2020.(cover paper,IF=3.021) [14]Zhao L, Liu X, Mao J, et al. Three-dimensional distance potential discrete element method for the numerical simulation of landslides[J]. Landslides, 2020.(TOP,IF=6.153) [15]Zhang H, Zhao L*, Mao J, Liu X. An efficient 3D iterative interface-correction reinitialization for the level set method[J]. Computers & Fluids. 2020.(IF=3.077) | |||||
Projects | Hold 2 National Key Research & Development Projects, 2 National Natural Science Funds, 1 sub-project of National Science & Technology Support Plan, 1 sub-project of National 863 Project, 1 public welfare industry special project sub-project of the Ministry of Water Resources, 1 Fund of Fok Ying Tung Education Foundation, and host or participate in more than 70 other projects. | |||||
Personal Website | https://www.researchgate.net/profile/Zhao-Lanhao | |||||
Address: No.1 Xikang Road,Nanjing,Jiangsu | Postcode: 210098 , TEL:025-83786511 | Email:sdxy@hhu.edu.cn
