徐大海. 1989. 多尺度大气湍流的扩散及扩散率[J]. 气象学报, 47(3):302-311, doi:10.11676/qxxb1989.040 |
多尺度大气湍流的扩散及扩散率 |
THE DIFFUSION IN MULTI-SCALING ATMOSPHERIC TURBULENCE |
投稿时间:1988-03-03 修订日期:1988-05-05 |
DOI:10.11676/qxxb1989.040 |
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中文摘要: |
本文首先将大气湍流多尺度化,而将不同尺度的脉动量的Monte Carlo关系转换为Lange-vin方程,在平稳及均匀条件下可得一高阶常系数Lagrange自相关函数的常微分方程。其通解恰为一组衰减实指数函数的线性组合,系数为各尺度湍能对总湍能的比。以此可通过Taylor[1]积分对野外实测扩散参数作出尺度分解。并可方便地将扩散参数表达为湍流参数的函数使其物理意义明确。 |
英文摘要: |
In this paper the high order ordinary differential equation of auto-correlation function is obtained on the basis of the Langevian equation group that comes from the Monte Carlo relations between each order fluctuation and the next order in the steady, homogeneous atmospheric turbulence multiscaled with various averaging time. The general solution of the auto-correlation equation is a sum of series exponential functions with different time scale and coefficients that indicate the ratio of each scaling turbulence energy to the total energy of the turbulence. The eddy diffusion parameter accordingly can be divided into several parts that present the contributions made by different time scale autocorrelation in the Taylor's integration. For e!cample the Pasquill-Gifford experimental diffusion parameter (D) could be represented as a sum of three terms respectively with time scale 4,35 and 240 seconds when travel time is up to 400 second. The longer the plume travel tune, the longer the time scale occur in the sum. The analysis in this paper also points out that the large time scale eddies contribute much more to the eddy transfer coefficients than small one in the long travel time. According to the multi-scaling concept the diffusion parameters can be easily represented as a function of atmospheric turbulence parameters which have more physical significance. |
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