Guohua Wang

Personal Information
Name: Guohua Wang
Major: Engineering Mechanics
Phone+86-13893313357
E-mail:guohwang@lzu.edu.cn
Address: College of Civil Engineering and Mechanics, Lanzhou University, Lanzhou, 730000, China
Education Background:
?2007.09—2014.06, Ph.D in Engineering Mechanics, College of Civil Engineering and Mechanics, Lanzhou University, China.
?2003.09—2007.06, B.S in Theoretical and Applied Mechanics, College of Civil Engineering and Mechanics, Lanzhou University, China.
Appointments:
?2016.11—present, lecturer, College of Civil Engineering and Mechanics, Lanzhou University, China.
?2014.07—2016.10, postdoc,, College of Engineering, Peking University, China.
Appointments:
l 2016.11—present, lecturer, College of Civil Engineering and Mechanics, Lanzhou University, China.
l 2014.07—2016.10, postdoc,, College of Engineering, Peking University, China.
Research Interests:
High-Reynolds Number Wall Turbulence
Multiphase Fluid Dynamics
Mechanics of Wind-blown Sand Movements
Research Grants:
2018-2020 Effect of sand/dust particles on the turbulent kenetic energy and spatial scale of the large and very-large scale motions in the Atmospheric surface layer. NSFC, PI
2015-2019 Turbulent Structure and Dynamical Mechanisms of Wind-Blown Sand Movement at High Reynolds Number. NSFC, Co
2013-2017 Measurement and analysis of flow features and turbulent structures in wind-blown sand flows / sandstorms. NSFC, Co
2014-2017 Nonlinear-mechanics of complex structures or matter trasportations at extereme envorionment. NSFC,Co
2017-2018 Experimental study on the evolution of very large scale motions in turbulent boundary layer. Fundamental Research Funds for the Central Universities, PI
 
Publications:
1.   Wang, G., Zheng, X., & Tao, J. (2017). Very large scale motions and pm10 concentration in a high-re boundary layer. Physics of Fluids, 29(6), 1-28.
2.   Liu, H., Wang, G., & Zheng, X. (2017). Spatial length scales of large-scale structures in atmospheric surface layers. Physical Review Fluids, 2(6).
3.   Wang, G., & Zheng, X. (2016). Very large scale motions in the atmospheric surface layer: a field investigation. Journal of Fluid Mechanics, 802, 464-489.
4.   Zheng, X., Wang, G., Bo, T., & Zhu, W. (2015). Field observations on the turbulent features of the near-surface flow fields and dust transport during dust storms. Procedia Iutam, 17, 13-19.
5.   Wang, G., Bo, T., Zhang, J., Zhu, D., & Zheng, X. (2014). The critical frequency of the large-scale vortices and the background tur  bulence in desert area. Atmospheric Research, 143(24), 293-300.
6.   Wang, G., Bo, T., Zhang, J., Zhu, W., & Zheng, X. (2014). Transition region where the large-scale and very large scale motions coexist in atmospheric surface layer: wind tunnel investigation. Journal of Turbulence, 15(3), 172-185.
7.   Liu, H., Bo, T., Wang, G., & Zheng, X. (2014). The analysis of turbulence intensity and reynolds shear stress in wall-bounded turbulent flows at high reynolds numbers. Boundary-Layer Meteorology, 150(1), 33-47.
8.   Zheng, X., Zhang, J., Wang, G., Liu, H., & Zhu, W. (2013). Investigation on very large scale motions (vlsms) and their influence in a dust storm. Science China (Physics,Mechanics & Astronomy), 56(2), 306-314.
9.   Wang, G., Jia, S. & Zheng, X. (2012). Distortion of wind field induced by meteorological observation masts. Journal of Lanzhou University, 48(5), 71-78. (In Chinese)
10.  Xu, X., Wang, G., Zheng, X., & Bo, T. (2015). Numerical analysis of the distortion of the horizontal flow field induced by a meteorological tower. Journal of Lanzhou University, 51(3), 426-434. (In Chinese)