The Departure from Mixed-Layer Similarity During the Afternoon Decay of Turbulence in the Free-Convective Boundary Layer: Results from Large-Eddy Simulations
Permanent link
https://hdl.handle.net/10037/30559Date
2023-06-21Type
Journal articleTidsskriftartikkel
Peer reviewed
Author
Elguernaoui, Omar; Reuder, Joachim; Li, Dan; Maronga, Bjørn; Bakhoday Paskyabi, Mostafa; Wolf, Tobias; Esau, IgorAbstract
This study analyses the departure of the velocity-variances profiles from their quasi-steady
state described by the mixed-layer similarity, using large-eddy simulations with different
prescribed shapes and time scales of the surface kinematic heat flux decay. Within the descriptive frames where the time is tracked solely by the forcing time scale (either constant or
time-dependent) describing the surface heat flux decay, we find that the normalized velocityvariances profiles from different runs do not collapse while they depart from mixed-layer
similarity. As the mixed-layer similarity relies on the assumption that the free-convective
boundary layer is in a quasi-equilibrium, we consider the ratios of the forcing time scales
to the convective eddy-turnover time scale. We find that the normalized velocity-variances
profiles collapse in the only case where the ratio (r) of the time-dependent forcing time
scale to the convective eddy-turnover time scale is used for tracking the time, supporting
the independence of the departure from the characteristics of the surface heat flux decay.
As a consequence of this result, the knowledge of r is sufficient to predict the departure of
the velocity variances from their quasi-steady state, irrespective of the shape of the surface
heat flux decay. This study highlights the importance of considering both the time-dependent
forcing time scale and the convective eddy-turnover time scale for evaluating the response
of the free-convective boundary layer to the surface heat flux decay.
Publisher
Springer NatureCitation
Elguernaoui, Reuder, Li, Maronga, Bakhoday Paskyabi, Wolf, Esau. The Departure from Mixed-Layer Similarity During the Afternoon Decay of Turbulence in the Free-Convective Boundary Layer: Results from Large-Eddy Simulations. Boundary-Layer Meteorology. 2023;188:259-284Metadata
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