Estimating Momentum, Heat and Moisture Fluxes from Structure Parameters

Abstract

A theory is developed for obtaining the vertical fluxes of momentum, heat and moisture in a quasi-steady, locally-homogeneous surface layer from measurements of the structure parameters of velocity, temperature and humidity. The momentum flux is shown to be generally more sensitive to measurement errors in the structure parameters and to uncertainties in certain turbulence parameters than are the heat and moisture fluxes. The structure parameters can, in principle, be obtained from path-averaged wave propagation measurements; for example, the temperature structure parameter C_T², is readily obtained from optical scintillations. It is estimated that in the case of C_T² a path-averaged optical measurement requires about 1% of the averaging time of a conventional measurement of C_T² under typical conditions.