A nonlinear, steady-state model of the North Water (NOW), the Arctic's
largest polynya, is presented. The model follows in the spirit of the
recently developed latent and sensible heat polynya model of Mysak an
d Huang, but extends it in several important ways: finite amplitude di
splacements of the upper-layer thickness are allowed; the channel wall
s diverge to the south; the sensible-heat flux from the lower layer is
physically well defined in terms of a vertical entrainment velocity;
and the free-drifting frazil ice to the north of the NOW ice edge is a
llowed to move to the fight of the northerly winds. An important resul
t found here is that with the exception of late spring, the asymptotic
southern ice edge position of the NOW can be simulated in terms of a
latent heat model alone. In this case, the observed equatorward curvat
ure of the ice edge in the region adjacent to the west Greenland coast
can be produced by a combination of a channel that widens in the equa
torward direction, together with free-drift frazil ice motion that is
to the fight of the northerly winds. However, in late spring, when the
heat loss to the atmosphere is reduced, the sensible heat flux plays
an important role in determining the position and shape of the ice edg
e, particularly in the region adjacent to the west Greenland coast.