An empirical formula for the height of the coastal internal boundary layer

This paper examines the assumptions and derivations that govern commonly used methods of estimating the height of the thermal internal boundary layer (TIBL) that occurs near shorelines. We show that nearly all these methods require inputs that can be defined only in the very limited context of the d

A model for the time and space variation of the internal boundary-layer height over a land area with an irregular coastline is presented. It is based on the analytical model of the boundary-layer height proposed by Gryning and Batchvarova (1990) and Batchvarova and Gryning (199 1). The model account

## Abstract A model of near‐neutral and convective steady‐state internal boundary layer evolution is presented. the model deals with the internal boundary layer that forms over land in coastal and lake areas during onshore winds. Near the ground, the growth of the internal boundary layer is control

In unstable conditions, the set of equations defining the aerodynamic resistance to sensible heat transfer, rar cannot be solved analytically. An iterative technique must be used to obtain r, exactly, but this is cumbersome and time consuming. In this paper, a new, empirical equation is presented re