Abstract
Abstract A pervasive issue in the analysis of clear and cloud-containing convectively mixed layers is how to predict their growth through entrainment. This paper deals largely with the definition of the interface with the upper environment, and how that definition leads to complexities in entrainment analysis. The interface is usually quite abrupt locally, but horizontally or temporally averaged properties exhibit a more gradual transition, due to fluctuation of the interface height. The data from these transition layers produce unreliable results when applied to a mixed layer model with a flat top and zeroth-order discontinuities. Several authors have developed models with first- or higher-order discontinuities, but these vary in their structure. Presented here is a return to the zeroth-order, or “sharp-edged,” model, but with allowance for a locally variable upper boundary by use of a transformation of the mixed layer equations into a coordinate scheme based on the local mixed layer height. The model is...
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