Title of article
Energy conservation issues in sigma-coordinate free-surface ocean models
Author/Authors
Marsaleix، نويسنده , , Patrick and Auclair، نويسنده , , Francis and Floor، نويسنده , , Jochem Willem and Herrmann، نويسنده , , Marine Julie and Estournel، نويسنده , , Claude and Pairaud، نويسنده , , Ivane and Ulses، نويسنده , , Caroline، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2008
Pages
29
From page
61
To page
89
Abstract
This paper focuses on the energy conservation properties of a hydrostatic, Boussinesq, coastal ocean model using a classic finite difference method. It is shown that the leapfrog time-stepping scheme, combined with the sigma-coordinate formalism and the motions of the free surface, prevents the momentum advection from exactly conserving energy. Because of the leapfrog scheme, the discrete form of the kinetic energy depends on the product of velocities at odd and even time steps and thus appears to be possibly negative when high-frequency modes develop. Besides, the study of the energy balance clarifies the numerical choices made for the computation of mixing processes. The time-splitting technique used to reduce the computation costs associated to the resolution of surface waves leads to the well-known external and internal mode equations. We show that these equations do not conserve energy if the coupling of these two modes is forward in time. Even if non-linear terms are negligible, this shortcoming can be significant regarding the pressure gradient term ‘frozen’ over a baroclinic time step. An alternative energy-conserving time-splitting technique is proposed in this paper. Discussion and conclusions are conducted in the light of a set of numerical experiments dedicated to surface and internal gravity waves.
Keywords
free surface , gravity waves , Energy conserving , Sigma coordinate
Journal title
Ocean Modelling
Serial Year
2008
Journal title
Ocean Modelling
Record number
2281576
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