Effects of the Large-Scale Flow on Characteristic Features of the Sea Breeze

Abstract A two-dimensional nonlinear numerical model has been used to examine the effects of the ambient wind on the development of characteristic features of the sea breeze. The specific features that were examined were the maximum shoreward velocity component (both total and as a perturbation from the large-scale flow) anywhere in the simulation domain, the inland penetration of the sea breeze, the depth of the inflow layer at the coastline, the maximum vertical velocity anywhere in the domain, the maximum potential-temperature gradient anywhere in the domain, and the surface heat flux. Thirty-one simulators were performed, with large-scale geostrophic winds ranging from onshore (i.e., supporting) flow of 15 m s−1 to offshore (i.e., opposing) flow of 15 m s−1, at 1 m s−1 intervals. The results indicated that the sea-breeze perturbation was suppressed for onshore large-scale flow of a few meters per second or more. In contrast, a sea breeze was produced for opposing large-scale flow as strong as 11 m s−1...