Abstract
Abstract An analytical solution is sought for a wind-driven circulation in the inviscid limit in a linear barotropic channel model of the Antarctic Circumpolar Ocean in the presence of a bottom ridge. There is a critical height of the ridge, above which all geostrophic contours in the channel are blocked. In the subcritical case, the Sverdrup balance does not apply and there is no solution in the inviscid limit. In the supercritical case, however, the Sverdrup balance applies and an explicit form for the zonal transport in the channel is obtained. In the case with a uniform wind stress, the transport in the β-plane channel is independent of the width of the ridge, linearly proportional to the wind stress and the length of the channel, while inversely linearly proportional to the ridge height. In the f plane with β = 0, the transport is even independent of the width of the channel. In the case with a nonuniform wind stress τx = τ0(1-−cosπy/D), the Sverdrup flow driven by the vorticity input always induces ...
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