Prof. WANG Wen-quan
Email:wqwangkm@126.com
Academic Qualifications
1996.9 – 2000.6, BS, Wuhan University of Hydraulic and Electric Engineering, Hydraulic Engineering
2003.9 – 2005.6, MSc. Kunming University of Science and Technology, Engineering Mechanics
2005.9 – 2008.6, Ph.D. Kunming University of Science and Technology, Engineering Mechanics
Working Experience
2012.8 To date,Professor,Department of EngineeringMechanics, Kunming University of Science and Technology, China.
2016.7 – 2017.7,Visiting scholar, Department of Aerospace and Engineering Mechanics,University of Cincinnati, USA.
2014.11 – 2015.4,Visiting scholar, School of Information and Engineering Technology,University of New South Wales, Australia.
2010.8 – 2012.7,AssociateProfessor,Department of EngineeringMechanics, Kunming University of Science and Technology, Chin
2008.7 – 2010.7,AssistantProfessor,Department of EngineeringMechanics, Kunming University of Science and Technology, China.
2006.9 – 2007.2,Visiting student,College, CityUniversity of Hong Kong, China.
Research Fields
1. Computational multi-physics interaction and application
2. Fluid dynamics and application in renewable energy
3. Bio-fluid Mechanics
Part-time Academic Job
1. Editor for Mechanics of Coupled Systems, An international Journal (MCS)
2. Editor for Journal of Fluid dynamics
3. Editor for Journal of Acoustics and Vibration
4.Reviewer for Applied Mathematical Modelling, Nonlinear Vibration and Control, International Journal for Numerical method in Fluid, Meccanica, etc.
Research Fundings
1. “Research on the hydrodynamic and power output performance of a marine current turbine based on immersed boundary method”, 2015-2018,No:51479085, Granted by NSFC, Preside.
2. “Research on the three dimension hydraulic transient characteristics of Francis turbine based on the theory of fluid structure interaction”, 2013-2016,No:11262008, Granted by NSFC, Preside.
3. “Research on the Mechanism of Tip Clearance Flow in Runner of Francis Turbine”, 2010-2013,No: 11002063,Granted by NSFC, Preside.
4. “Research on interaction mechanism of fluid structure in hydraulic transients of pump hydraulic turbines”, 2014/03-2017/09,No:141120,Granted byFok Ying Tung Education Foundation, Preside.
5. “Young and middle-aged academic and technical leaders in Yunnan Province”, 2013/8-2016/8, Preside.
6. “Study on flow-machinery-electricity coupling in hydropower system”, 2009-2012,No: 50830003,Granted by NSFC, Participate.
Honors and Awards
[1] Winners:Lixiang Zhang, Yakun Guo, Ke Yang, Hongming Zhang, Wenquan Wang;Project name:Research on the theory and numerical methods of fluid structure interaction in using of water energy;Presentation official organization:The People's Government of Yunnan Province;Award categories:Natural science award;Award level:First prize;Award year:2008.
[2] Winners:Lixiang Zhang, Wenquan Wang, Hongming Zhang;Project name:high head and large flow Francis turbine blade flow-induced vibration mechanism analysis of Francis turbine blade under high head and large flow;Presentation official organization:The People's Government of Yunnan Province;Award categories:Natural science award;Award level: Second prize;Awards year:2012.
[3] Winners:Wenquan Wang;Project name: Excellent Doctoral Dissertation Award in Yunnan Province,Awards year:2011
Academic Achievements
Papers:
[1] Wen-Quan Wang, Yan Yan, Fang-Bao Tian, A simple and efficient implicit direct forcing immersed boundary model for simulations of complex flow, Applied Mathematical Modelling 43(1): 287–305, 2017.
[2] Fang-BaoTian, Wenquan Wang, Jian Wu, Yi Sui, Swimming performance and vorticity structures of a mother–calf pair of fish, Computers and Fluids, 124(1): 1–11, 2016.
[3] Yan Yan, *Wenquan Wang, Axisymmetric vibration of SWCNTs in water with arbitrary chirality based on nonlocal anisotropic shell model, Applied Mathematical Modelling, Applied Mathematical Modelling, 39(10-11): 3016–3023, 2015.
[4] Yan Yan, Weizhong Li, *Wenquan Wang, The effect of wettability on the dynamical behaviors of single-walled carbon nanotube, Advances in Mechanical Engineering, Volume 2015, Article ID 138249.
[5] Wenquan Wang, Yin Rui, Dongwei Hao, Yan Yan, Modeling and Simulation of Fish-Like Swimming in a Straight-Line Swimming State Using Immersed Boundary Method, Advances in Mechanical Engineering, Volume 2014, Article ID 489683.
[6] Tao Guo, Lixiang Zhang, WenquanWang, Zhumei Luo, Rotating Turbulent Flow Simulation with LES and Vreman Subgrid-Scale Models in Complex Geometries, Volume 2014, Article ID 570189.
[7] Yan Yan, Weizhong Li, *Wenquan Wang. The Environmental Effect on the Dynamical Behaviors of Single-Walled Carbon Nanotube in Water, Volume 2014, Article ID 980154.
[8] Yan Yan, *Wenquan Wang, Lixiang Zhang, Free vibration of the fluid-filled single-walled carbon nanotube based on a double shell-potential flow model, Applied Mathematical Modelling, 36(12): 6146-6153, 2012.
[9] Wenquan Wang, Lixiang Zhang, Yan Yan, Yakun Guo, Combined multi-predict-correct iterative method for interaction between pulsatile flow and large deformation structure, Coupled Systems Mechanics, 1(4): 361-379, 2012.
[10] Wenquan Wang, Lixiang Zhang, Yan Yan, Yakun Guo, Finite Element Analysis of Turbulent Flows Using LES and Dynamic Subgrid-Scale Models in Complex Geometries,Mathematical Problems in Engineering, Volume 2011, Article ID 712372.
[11] Yan Yan, *Wenquan Wang, Lixiang Zhang, Applied multiscale method to analysis of nonlinear vibration for double-walled carbon nanotubes, Applied Mathematical Modelling, 35(5): 2279–2289, 2011.
[12] Yan Yan, Lixiang Zhang, *Wenquan Wang,XiaoqiaoHe, CMWang, Dynamical behaviors of fluid-filled multi-walled carbon nanotubes, International Journal of Modern Physics B, 24(24): 4727-4739, 2010.
[13] Wenquan Wang, Yan Yan, Strongly coupling of partitioned fluid–solid interaction solvers using reduced-order models, Applied Mathematical Modelling, 34(12): 3817-3830, 2010.
[14] Wenquan Wang, Lixiang Zhang, Xiaoqiao He, Yakun Guo, Large eddy simulation of hydroelastic vibration using the finite element method, International Journal of Modern Physics B, 24(24): 4683-4706, 2010.
[15] Yan Yan, *Wenquan Wang, Lixiang Zhang, Nonlocal effect on axially compressed buckling of triple-walled carbon nanotubes under temperature field, Applied Mathematical Modelling, 34(11): 3422–3429, 2010.
[16] Yan Yan, *Wenquan Wang, Lixiang Zhang, Study on the nonlinear vibration of SWCNTs with initial axial stress based on the bifurcation theory of dynamical systems, Modern Physics Letter B, 24(18): 1979-1986, 2010.
[17] Wang Wenquan, Zhang Lixiang, Guo yakun, Turbulent flow simulation using LES with dynamical mixed one-equation subgrid models in complex geometries, International Journal for Numerical Methods in Fluids, 63(5): 600–621, 2010.
[18] Yan Yan, *Wenquan Wang, Lixiang Zhang, Noncoaxial vibration of fluid-filled multi-walled carbon nanotubes, Applied Mathematical Modelling, 34(1): 122–128, 2010.
[19] Lixiang Zhang, Yakun Guo, Wenquan Wang, FEM simulation of turbulent flow in a turbine blade passage with dynamical fluid-structure interaction, International Journal for Numerical Methods in Fluids, 61(12):1299-1330, 2009.
[20] Yan Yan, *Wenquan Wang, Lixiang Zhang, Nonlinear vibration characteristic of fluid-filled double-walled carbon nanotubes, Modern Physics Letter B, 23(22): 2625-2636, 2009.
[21] Wenquan Wang, Xiaoqiao He, Lixiang Zhang, KM Liew, Yakun Guo, Strongly coupled simulation of fluid-structure interaction in a Francis hydroturbine, International Journal for Numerical Methods in Fluids, 60(5): 515–538, 2009.
[22] Yan Yan, *Wenquan Wang, Lixiang Zhang, Dynamical behaviors of fluid-conveyed multi-walled carbon nanotubes, Applied Mathematical Modelling, 33(3):1430–1440, 2009.
[23] Wang Wenquan, Zhang Lixiang, Yan Yan, Numerical simulation of flow with large-amplitude oscillation of solid boundaries by penalty finite element formulations, International Journal of Modern Physics B, 22(24): 4205-4216, 2008.
[24] Yan Yan, Lixiang Zhang, Wenquan Wang, Dynamical mode transitions of simply supported DWCNTs based on an elastic shell model, Journal of Applied Physics, 103: 113523, 2008.
[25] Yan Yan, Lixiang Zhang, Wenquan Wang,CMWang, Dynamical properties of multi-walled carbon nanotubes based on a nonlocal elasticity model, International Journal of Modern Physics B, 22(28): 4975-4986, 2008.
[26] Yan Yan, Wenquan Wang, Lixiang Zhang, Small scale effect on the free vibration of multi-walled carbon nanotubes, Modern Physics Letter B, 22(28): 2769-2777, 2008.
[27] Lixiang Zhang, Wenquan Wang, Yakun Guo, Numerical simulation of flow features and energy exchange physics in near-wall region with fluid-structure interaction, International Journal of Modern Physics B, 22(6): 651-669, 2008.
[28] KM Liew, Wenquan Wang, Lixiang Zhang, Xiaoqiao He, A computational approach for predicting hydroelasticity of flexible structures based on the pressure Poisson equation, International Journal for Numerical Methods in Engineering, 72(13): 1560-1583, 2007.
[29] Lixiang Zhang, Yakun Guo, Wenquan Wang, Large eddy simulation of turbulent flow in a true 3D Francis hydro turbine passage with dynamical fluid-structure interaction, International Journal for Numerical Methods in Fluids, 54: 517-541, 2007.
[30] Wenquan Wang, Lixiang Zhang, Yan Yan, Yakun Guo, Study on turbulence features near an oscillating curved wall, Journal of Hydrodynamics, Ser. B, 19(3): 255-263, 2007.
[31] Wenquan Wang, Lixiang Zhang, Yan Yan, Yakun Guo, Large-eddy simulation of turbulent flow considering inflow wakes in a Francis turbine blade passage, Journal of Hydrodynamics, Ser. B, 19(2): 201-209, 2007.
[32] Lixiang Zhang, Wenquan Wang, Yakun Guo, Intrinsic features of turbulent flow in strongly 3-D skew blade passage of a Francis turbine, Journal of Hydrodynamics, Ser. B, 19(1): 92-99, 2007.
[33] Lixiang Zhang, Wenquan Wang, LES of turbulent flow in 3D skew blade passage of a reacting hydro turbine, Modern Physics Letters B, 19(28&29): 1487-1490, 2005.
Monograph:
[1] Wang Wenquan, Zhang Lixiang, Computational fluid structure coupling mechanics and it’s applications, China Water&Power Press, 2015.
[2] Yan Yan, Wang Wenquan. Study on the dynamic characteristics of multi-walled carbon nanotubes conveying fluid, China Science Press, 2016.
Patent:
[1] Wang Wenquan, Yan Yan, Zhang Lixiang, Zeng Yun, Li Ze, Yang Xijie, Yang Yang, Guo Tao. A method for predicting the dynamic characteristics of thin-walled structures based on staggered iterative coupling technique. 2015.11, China, ZL 201310117206.8.
[2] Zeng Yun, Zhang Lixiang, Xu Tianmao, Wu Liang, Wang Wenquan, Yan Yan, Li Ze, Yao zhen. Dynamic monitoring method of water turbine internal energy loss, 2011.12, China, ZL 200910095006.
[3] Zeng Yun, Zhang Lixiang, Li Ze, Yao Zhen, Wu Liang, Wang Wenquan, Yan Yan. A simulation method for low frequency oscillation signals of power. 2012.5, China, ZL 200910094991.3.
[4] Wang Wenquan, Yan Yan. A computational method for flow field based on the consistent boundary condition for fluid solid interface, 2017, China, 201410148564x.
[5] Wang Wenquan, Yan Yan. A new method of velocity correction for projection immersed boundary method, 2017, China, 201502366074.