薄天利 - 宁夏大学 - 物理与电子电气工程学院

个人简介

薄天利，副教授，博士，硕士生导师。2003年毕业于兰州大学物理学院，2010年毕业于兰州大学土木工程与力学学院，分别获理学学士和博士学位。2008年入职兰州大学。2019年调入宁夏大学。2013年获全国百篇优秀博士论文提名。主要社会兼职有全国基金委环境力学专委会理事和甘肃省力学学会第九届理事会理事。

研究领域

从事风沙物理学与环境力学相关的研究工作

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Liu L,BoT L*. A study on the initiation of saltation in the model of wind-blownsand transport considering the effect of turbulence[J]. Granular Matter, 2019,21(3): 78. Mei A,BoT L*. Spatial Variation of Statistical and Spectral Properties of theStream Wise and Wall-Normal Velocity Fluctuations in the Near-NeutralAtmospheric Surface Layer[J]. Boundary-Layer Meteorology, 2019, 173(2):223-242. Liu L,BoT*. Effects of checkerboard sand barrier belt on sand transport and duneadvance[J]. Aeolian Research, 2020, 42: 100546. Zhang X,Yang S,Bo T*. Experimental study on the space charge properties in hazeevents[J]. Journal of Environmental Sciences, 2020, 87: 361-376. Li XB,BoTL*.An application of Quadrant and Octant Analysis to the AtmosphericSurface Layer [J].Journal of Wind Engineering & Industrial Aerodynamics,2019. Li XB,BoTL*. Statistics and spectra of turbulence under different roughness in theatmospheric surface layer [J].Earth Surface Processes and Landforms,2019. Han, G. W.,Liu, L.,Bo, T. L., & Zheng, X. J. (2019). A Predictive Model forthe Streamwise Velocity in the Near‐neutral AtmosphericSurface Layer.Journal of Geophysical Research: Atmospheres. Zhang XB, LiDF,Bo TL*.The variation of the vertical electric field (Ez) with heightduring dust storms and the effects of environmental variables on Ez[J].Granular Matter, 2018. Yang H,BoT*. Scaling of Wall-Normal Turbulence Intensity and Vertical EddyStructures in the Atmospheric Surface Layer[J]. Boundary-Layer Meteorology,2018, 166(2): 199-216. Han G, ZhengX J,Bo T*. Experimental investigation of turbulent transport ofmomentum and heat in the atmospheric surface layer[J]. Journal of Atmosphericand Solar-Terrestrial Physics, 2017, 164: 18-28. Huang H J,BoT L*, Zhang R. Exploration of splash function and lateral velocity based onthree-dimensional mixed-size grain/bed collision[J]. Granular Matter, 2017,19(4): 73. Bo T L,Fu L T, Liu L, Zheng X*. An improved numerical model suggests potentialdifferences of wind‐blown sand between on Earth andMars[J].Journal of Geophysical Research: Atmospheres, 2017, 122(11):5823-5836. Liu H Y,BoT L*, Liang Y R. The variation of large-scale structure inclination anglesin high Reynolds number atmospheric surface layers[J]. Physics of Fluids, 2017,29(3): 035104. Zhang H,BoT L, Zheng X*. Evaluation of the electrical properties of dust storms bymulti-parameter observations and theoretical calculations[J].Earth andPlanetary Science Letters, 2017, 461: 141-150. Zheng X*,Wang G,Bo T, et al. Field Observations on the Turbulent Features of theNear-surface Flow Fields and Dust Transport During Dust Storms[J]. ProcediaIUTAM, 2015, 17: 13-19. Bo T L,Ma P, Zheng X J*. Numerical study on the effect of semi-buried strawcheckerboard sand barriers belt on the wind speed[J]. Aeolian Research, 2015,16: 101-107. Bo T L,Li Z, Zheng X J*. Sand particle dislodgement in windblown sand[J].ActaMechanicaSinica, 2014, 30(6): 910-916. Huang H J,BoT L*, Zheng X J. Numerical modeling of wind-blown sand on Mars[J].TheEuropean Physical Journal E, 2014, 37(9): 80. Bo T L,Zhang H, Zheng X J*. Charge-to-mass ratio of saltating particles in wind-blownsand[J].Scientific reports, 2014, 4. Wang G,BoT, Zhang J, Zhang J*. The critical frequency of the large-scale vorticesand the background turbulence in desert area[J].Atmospheric Research,2014, 143: 293-300.