The Martian Planetary Boundary Layer: Turbulent kinetic energy and fundamental similarity scales

被引:0
|
作者
G. M. Martínez
F. Valero
L. Vázquez
H. M. Elliott
机构
[1] University of Michigan,Department of Atmospheric, Oceanic, and Space Sciences
[2] Universidad Complutense de Madrid,Facultad de Física
[3] Universidad Complutense de Madrid,Facultad de Informática
来源
Solar System Research | 2013年 / 47卷
关键词
Turbulent Kinetic Energy; Large Eddy Simulation; Planetary Boundary Layer; Solar System Research; Planetary Boundary Layer Height;
D O I
暂无
中图分类号
学科分类号
摘要
We review selected in situ measurements and models aimed at the study of the Martian Planetary Boundary Layer (PBL). We also discuss critically the advantages and limitations of applying similarity theories to the Martian PBL and calculate the fundamental scales predicted by these theories. Finally, we obtain values of the turbulent kinetic energy (TKE) and address its budget by weighting the significance of the different terms involved in it. In situ measurements taken by the Viking and Pathfinder missions along with similarity theories conveniently adapted to Mars are used to obtain the fundamental scales, the TKE and its budget.
引用
收藏
页码:446 / 453
页数:7
相关论文
共 50 条
  • [31] Inhomogeneous vertical turbulent convection in the planetary boundary layer
    Chanda, Amitabha
    Das, J.
    Mechanics Research Communications, 26 (03): : 371 - 377
  • [32] Monin-Obukhov similarity functions of the structure parameter of temperature and turbulent kinetic energy dissipation rate in the stable boundary layer
    Hartogensis, OK
    De Bruin, HAR
    BOUNDARY-LAYER METEOROLOGY, 2005, 116 (02) : 253 - 276
  • [33] Effect of wall temperature on the kinetic energy transfer in a hypersonic turbulent boundary layer
    Xu, Dehao
    Wang, Jianchun
    Wan, Minping
    Yu, Changping
    Li, Xinliang
    Chen, Shiyi
    JOURNAL OF FLUID MECHANICS, 2021, 929
  • [34] Contribution of flow topology to the kinetic energy flux in hypersonic turbulent boundary layer
    Xu, Dehao
    Wang, Jianchun
    Yu, Changping
    Li, Xinliang
    Chen, Shiyi
    PHYSICS OF FLUIDS, 2022, 34 (04)
  • [35] Effects of shear in the convective boundary layer: analysis of the turbulent kinetic energy budget
    Pino, David
    De Arellano, Jordi Vila-Guerau
    ACTA GEOPHYSICA, 2008, 56 (01) : 167 - 193
  • [36] Effects of shear in the convective boundary layer: analysis of the turbulent kinetic energy budget
    David Pino
    Jordi Vilà-Guerau De Arellano
    Acta Geophysica, 2008, 56 : 167 - 193
  • [37] TIME SCALES AND CORRELATIONS IN A TURBULENT BOUNDARY-LAYER
    BLACKWELDER, RF
    KOVASZNAY, LS
    PHYSICS OF FLUIDS, 1972, 15 (09) : 1545 - +
  • [38] IMPROVING THE EDDY KINETIC-ENERGY MODEL FOR PLANETARY BOUNDARY-LAYER DESCRIPTION
    THERRY, G
    LACARRERE, P
    BOUNDARY-LAYER METEOROLOGY, 1983, 25 (01) : 63 - 88
  • [39] Amplification of turbulent kinetic energy and temperature fluctuation in a hypersonic turbulent boundary layer over a compression ramp
    Guo, Tongbiao
    Zhang, Ji
    Tong, Fulin
    Li, Xinliang
    PHYSICS OF FLUIDS, 2023, 35 (04)
  • [40] Study of the overturning length scales at the Spanish planetary boundary layer
    Lopez, Pilar
    Cano, Jose L.
    NONLINEAR PROCESSES IN GEOPHYSICS, 2016, 23 (02) : 75 - 82
12345