arXiv:1001.2850 Abstract | arXiv Analytics

arXiv:1001.2850 [math.AP]Abstract References Reviews Resources

Derivation and analysis of a new 2D Green-Naghdi system

Published 2010-01-16Version 1

We derive here a variant of the 2D Green-Naghdi equations that model the propagation of two-directional, nonlinear dispersive waves in shallow water. This new model has the same accuracy as the standard $2D $ Green-Naghdi equations. Its mathematical interest is that it allows a control of the rotational part of the (vertically averaged) horizontal velocity, which is not the case for the usual Green-Naghdi equations. Using this property, we show that the solution of these new equations can be constructed by a standard Picard iterative scheme so that there is no loss of regularity of the solution with respect to the initial condition. Finally, we prove that the new Green-Naghdi equations conserve the almost irrotationality of the vertically averaged horizontal component of the velocity.

DOI: 10.1088/0951-7715/23/11/009

Categories: math.AP

Keywords: 2d green-naghdi system, derivation, green-naghdi equations conserve, standard picard iterative scheme, usual green-naghdi equations

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