Abstract: | This paper discusses the results of numerical experiments on the generation of a large-scale circulation in the sea carried out in the framework of a multilayer quasi-isopycnic model. The role played by wind vorticity, non-uniformity of the heat flux through the sea surface, and the fluxes of mass, salt, and heat across the liquid lateral boundaries is studied separately. It is shown that wind with cyclonic vorticity induces cyclonic vorticity in the upper layers of the sea and anticyclonic vorticity in the lower layer. A uniform wind having even a non-uniform heat flux does not give rise to a cyclonic circulation in the sea. Within the period calculated (410 years), the heat, mass, and salt fluxes through the lateral boundaries also do not result in a cyclonic circulation; this is apparently connected with the fact that the solution has not reached steady-state conditions in this period.Translated by Mikhail M. Trufanov. |