Абстракт
Purpose. The study consists in analyzing the energy flows between the currents of different scales in the eastern and western parts of the Black Sea. Methods and Results. The energy balance components were determined based on the results of numerical calculation of current fields in the Black Sea performed using a two-layer eddy-resolving model subjected to a forcing of a wind with cyclonic vorticity. A complete non-stationary large-scale sea circulation was represented conventionally as a sum of mean currents and mesoscale eddies. Conversions between the kinetic and available potential energy, as well as the energy flows between the mean currents and the mesoscale eddies were calculated separately for the eastern and western parts of the Black Sea. Besides, the advective energy flows across the meridional boundary between two parts of the sea were also calculated.
Conclusions. The main contribution to the potential energy advective transfer from the eastern part of the Black Sea to its western part is made by the mesoscale eddies...
Ключевые слова
BLACK SEA, LARGE-SCALE CIRCULATION, MEAN CURRENTS, MESOSCALE EDDIES, ENERGY BALANCE, ENERGY FLOW, β-EFFECT, ROSSBY WAVES