Statistics of the fine structure of turbulent velocity and temperature fields measured at high Reynolds number

Carl H. Gibson; Gilbert R. Stegen; Robert Bruce Williams

doi:10.1017/S0022112070000551

Abstract

Derivatives of velocity and temperature in the wind over the ocean were found to be quite variable. Probability distribution functions of squared derivatives were consistent with lognormality predictions by Kolmogoroff, Obukhoff and Yaglom. Kurtosis values for velocity derivatives ranged from 13 to 26 and from 26 to 43 for temperature derivatives. Universal inertial subrange constants were evaluated from dissipation spectra and were found to be 40 to 300% larger than most values reported previously. Evidence for local anisotropy of the temperature field is provided by non-zero values of the measured derivative skewness.

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Statistics of the fine structure of turbulent velocity and temperature fields measured at high Reynolds number

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This article has been cited by the following publications. This list is generated based on data provided by Crossref.

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Statistics of the fine structure of turbulent velocity and temperature fields measured at high Reynolds number

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