168 / 2023-03-31 08:55:24

Dissimilarity of Turbulent Transport of Momentum and Heat under Unstable Conditions Linked to Convective Circulations

Momentum-scalar transport dissimilarity,Coherent structure,Convective circulation,Quadrant analysis,Unstable boundary layer

The dissimilarity between the turbulent transport of momentum and heat under unstable conditions and its physical mechanisms are investigated in this study, based on the multiple-level turbulence observation from Tianjin 255-m meteorological tower. The transport dissimilarity is observed from the surface layer to the lower part of mixed layer as atmospheric instability increases. Although the transport dissimilarity is accompanied by the development of plumes and thermals under unstable conditions, plumes and thermals can produce intense transport both of momentum and heat simultaneously. It is convective circulations induced by vigorous thermals that cause transport dissimilarity. The horizontal divergence generated by convective circulations imposes a dominant large-scale reduction in the along-wind velocity component near the surface, which is related to increased counter gradient transport of momentum, while the temporal variations in temperature mainly reflect the role of plumes and thermals and thus the transport of heat is predominantly down-gradient. This difference in respective physical processes subsequently leads to dissimilar transport between momentum and heat under unstable conditions. Therefore, it is of great interest to represent the influence of convective circulations on the momentum-flux estimation in future investigations, aiming to improve the boundary-layer parameterization schemes for mesoscale numerical weather models.