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姓名:薄天利
职称:副教授
职务:
专业: 工程力学
所在系、所:土木工程与力学学院
通讯地址:甘肃省 兰州市天水南路222号 兰州大学土木工程与力学学院,730000
电子信箱:btl@lzu.edu.cn
主要学历:
2003/09–2010/01,兰州大学,土木工程与力学学院,博士
1999/09–2003/07,兰州大学,土木工程与力学学院,学士
主要学术经历:
2011/02–至今,兰州大学,西部灾害与环境力学教育部重点实验室,任副教授
主要研究方向:
工程力学、环境力学、流体力学
主要讲授课程:
1.概率论与数理统计
2. 计算力学
主要学术成就、奖励及荣誉:
主要科研项目及角色:
[1] 甘肃民勤风沙灾害与沙化治理技术研究及示范(国家科技支持计划项目),骨干成员
[2] 复杂环境与介质相互作用的非线性力学(创新研究群体科学基金),主要成员
[3] 风沙流/沙尘暴流场特性及其湍流结构的测量与分析(国家自然科学基金重点项目),骨干成员
[4] 沙漠边缘时空演化过程跨尺度模型及其仿真研究(国家青年自然科学基金项目),主持
[5] 风沙环境下高雷诺数壁湍流结构及其演化机理研究(国家自然科学基金重大项目),骨干成员
代表性论著:
[1] Bo T L, Zhang H, Zheng X J. Charge-to-mass Ratio of Saltating Particles in Wind-Blown Sand[J]. Scientific reports, 2014, 4.
[2] Fu L T, Bo T L, Zheng X J. Lift-off parameters of saltating particles on Mars[J]. Icarus, 2014, 234: 91-98.
[3] Zhang H, Zheng X J, Bo T L. Electric fields in unsteady wind-blown sand[J]. The European Physical Journal E, 2014, 37(2): 1-12.
[4] Bo T L, Zheng X J. A new expression describing the migration of aeolian dunes[J]. CATENA, 2014, 118: 1-8.
[5] Zhang H, Zheng X J, Bo T. Electrification of saltating particles in wind‐lown sand: Experiment and theory[J]. Journal of Geophysical Research: Atmospheres, 2013, 118(21): 12,086-12,093.
[6] Bo T L, Zhang H, Hu W W, et al. The analysis of electrification in windblown sand[J]. Aeolian Research, 2013, 11: 15-21.
[7] Liu H Y, Bo T L, Wang G H, et al. The Analysis of Turbulence Intensity and Reynolds Shear Stress in Wall-Bounded Turbulent Flows at High Reynolds Numbers[J]. Boundary-Layer Meteorology, 2014, 150(1): 33-47.
[8] Fu L T, Bo T L, Gu H H, et al. Incident Angle of Saltating Particles in Wind-Blown Sand[J]. PloS one, 2013, 8(7): e67935.
[9] Zheng X J, Fu L T, Bo T L. Incident velocity and incident angle of saltating sand grains on Mars[J]. New Journal of Physics, 2013, 15(4): 043014.
[10] o T L, Zhang H, Zhu W, et al. Theoretical prediction of electric fields in wind‐lown sand[J]. Journal of Geophysical Research: Atmospheres, 2013, 118(10): 4494-4502.
[11] Bo T L, Zheng X J. Collision behaviors of barchans in aeolian dune fields[J]. Environmental Earth Sciences, 2013, 70(7): 2963-2970.
[12] Bo T L, Fu L T, Zheng X J. Modeling the impact of overgrazing on evolution process of grassland desertification[J]. Aeolian Research, 2013, 9: 183-189.
[13] Bo T L, Zheng X J. Wind speed-up process on the windward slope of dunes in dune fields[J]. Computers & Fluids, 2013, 71: 400-405.
[14] Bo T L, Zheng X J. Numerical simulation of the evolution and propagation of aeolian dune fields toward a desert–oasis zone[J]. Geomorphology, 2013, 180: 24-32.
[15] Bo T L, Zheng X J. A field observational study of electrification within a dust storm in Minqin, China[J]. Aeolian Research, 2013, 8: 39-47.
[16] Bo T L, Zheng X J. The formation and evolution of aeolian dune fields under unidirectional wind[J]. Geomorphology, 2011, 134(3): 408-416.
[17] Bo T L, Zheng X J. Bulk transportation of sand particles in quantitative simulations of dune field evolution[J]. Powder Technology, 2011, 214(2): 243-251.
[18] Zheng X J, Bo T L, Zhu W. A scale-coupled method for simulation of the formation and evolution of aeolian dune field[J]. International Journal of Nonlinear Sciences and Numerical Simulation, 2009, 10(3): 387-396.
[19] Zheng X J, Bo T L, Xie L. DPTM simulation of aeolian sand ripple[J]. Science in China Series G: Physics, Mechanics and Astronomy, 2008, 51(3): 328-336.
[20] Bo T L, Xie L, Zheng X J. Numerical approach to wind ripple in desert[J]. International Journal of Nonlinear Sciences and Numerical Simulation, 2007, 8(2): 223-228.
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