Effect of static stability on the pattern of three-dimensional baroclinic lee wave across a meso scale elliptical barrier

Summary

In this paper, an attempt has been made to examine the effect of static stability on the pattern of three dimensional (3-D) baroclinic lee wave across a meso-scale elliptical barrier. For this purpose first a 3-D meso scale lee wave model has been developed. Then the model is applied to the Western Ghats (WG) using real time radio sonde data of Santacruz (19°7′N, 72°51′E) (here after SCZ), a station on the windward side of WG, on the days when dynamic and thermodynamic conditions of the atmosphere were favourable to generate lee waves.

It is found that the pattern of 3-D baroclinic lee wave is very much sensitive to the value of the static stability parameter N². It is found that during southwest monsoon season trapped lee waves are convergent type (contours of perturbation vertical velocity w′ are crescent shaped convex down wind) and during winter they are divergent type (contours of w′ are crescent shaped concave down wind). The study shows that for a given profile of wind, the value of N² must exceed certain threshold value to obtain divergent type lee wave, otherwise convergent type lee waves are found.

It is also found that in the southwest monsoon season, when atmosphere is neutrally stratified, a single divergent lee wave corresponds to a single transverse lee wave, whereas in the winter season, when atmosphere is strongly stratified, a single divergent lee wave corresponds to a number of transverse lee wave. Furthermore, in the former case long (or short) divergent lee wave corresponds to short (or long) transverse lee wave, whereas in the later case long (or short) divergent lee wave, in general, corresponds to long (or short) transverse lee wave.