The Impact of Surface Temperature Heterogeneity on Near-Surface Heat Transport

Autor: Chad W. Higgins, Marc Calaf, S. A. Drake, T. Morrison, Eric R. Pardyjak, A. O. Perelet
Rok vydání: 2021
Předmět:
Zdroj: Boundary-Layer Meteorology. 180:247-272
ISSN: 1573-1472
0006-8314
Popis: Experimental closure of the surface energy balance during convective periods is a long-standing problem. With experimental data from the Idealized horizontal Planar Array experiment for Quantifying Surface heterogeneity, the terms of the temperature-tendency equation are computed, with an emphasis on the total derivative. The experiment occurred at the Surface Layer Turbulence and Environmental Science Test facility at the U.S. Army Dugway Proving Ground during the summer of 2019. The experimental layout contained an array of 21 flux stations over a 1 km $$^2$$ grid. Sensible heat fluxes show high spatial variability, with maximum variability occurring during convective periods. Maximum variability in the vertical heat flux is 50–80 W m $$^{-2}$$ (median variability of 40%), while in the horizontal flux, it is 200–500 W m $$^{-2}$$ (median variability of 48% for the streamwise and 40% for the spanwise fluxes). Ensemble averages computed during convective afternoon periods show large magnitudes of horizontal advection (48 W m $$^{-3}$$ or 172 K h $$^{-1}$$ ) and vertical flux divergence (13 W m $$^{-3}$$ or 47 K h $$^{-1}$$ ). Probability density functions of the total derivative from convective cases show mean volumetric heating rates of 43 W m $$^{-3}$$ (154 K h $$^{-1}$$ ) compared to 13 W m $$^{-3}$$ (47 K h $$^{-1}$$ ) on non-convective days. A conceptual model based on persistent mean flow structures from local-surface-temperature heterogeneities may explain the observed advection. The model describes the difference between locally-driven advection and advection driven by larger-scale forcings. Of the cases examined, 83% with streamwise and 81% with spanwise advection during unstable periods are classified as locally driven by nearby surface thermal heterogeneities.
Databáze: OpenAIRE
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