Quasi-trajectory analysis of a sea-breeze front

## Abstract Idealized three‐dimensional numerical simulations are used to investigate the influence of sea breezes on the evolution of multicell thunderstorms in the Tropics. The study is motivated by a desire to understand a particular type of severe storm system that occurs occasionally over the

## Abstract Land‐ and sea‐breeze circulations are simulated in a mathematical model, using a stably stratified atmosphere as a basic state. The results show that the land‐breeze is weaker than the sea‐breeze even although the heat contrast at the coast is identical in both cases. This is consistent

## Abstract A primitive equation model is formulated and integrated numerically to study the sea breeze. The formulation is an extension of an atmospheric boundary‐layer model previously developed for a homogeneous terrain. External gravity‐wave type solutions are suppressed by a modelling assumpti

## Abstract The equations of heating and motion are averaged vertically, assuming vertical distributions of velocity and temperature. A non‐linear partial differential equation of hyperbolic type is found to be satisfied by the surface velocity of the sea breeze. Numerical solutions are given for v