Entrainment into a Stratocumulus Layer with Distributed Radiative Cooling

Abstract

It is shown that the radiative cooling of a cloud layer strongly influences the turbulent flux profiles and the entrainment rate, and that the radiative cooling should be modeled as acting inside the turbulent layer. Numerical experiments demonstrate that a cloud-topped mixed-layer model, similar to that of Lilly (1968), is quite sensitive to δp_R, the depth of the radiatively cooled layer near cloud top. As δp_R increases, the model’s sensitivity to the entrainment assumption is markedly heightened. More specifically, for large δp_R the cloud top and cloud base rise dramatically as the entrainment parameter k is increased, while for small δp_R an increase in k has almost no effect. The model is most sensitive to Δp_R precisely for the cold-water, strong-divergence regime of greatest interest.