Baroclinic stability for a family of two‐level,semi‐implicit numerical methods for the 3D shallow water equations |
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| Authors: | Francisco J Rueda Enrique Sanmiguel‐Rojas Ben R Hodges |
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| Institution: | 1. Dpto. Ingeniería Civil & Instituto del Agua, Universidad de Granada, C/Ramón y Cajal, 4, Granada 18071, Spain;2. Dpto. Ingeniería Térmica y de Fluidos, Universidad Politécnica de Cartagena, C/Dr. Fleming, s/n, Cartagena 30202, Murcia, Spain;3. Department of Civil, Architectural and Environmental Engineering, University of Texas at Austin, Austin TX 78712‐1076, U.S.A. |
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| Abstract: | The baroclinic stability of a family of two time‐level, semi‐implicit schemes for the 3D hydrostatic, Boussinesq Navier–Stokes equations (i.e. the shallow water equations), which originate from the TRIM model of Casulli and Cheng (Int. J. Numer. Methods Fluids 1992; 15 :629–648), is examined in a simple 2D horizontal–vertical domain. It is demonstrated that existing mass‐conservative low‐dissipation semi‐implicit methods, which are unconditionally stable in the inviscid limit for barotropic flows, are unstable in the same limit for baroclinic flows. Such methods can be made baroclinically stable when the integrated continuity equation is discretized with a barotropically dissipative backwards Euler scheme. A general family of two‐step predictor‐corrector schemes is proposed that have better theoretical characteristics than existing single‐step schemes. Copyright © 2006 John Wiley & Sons, Ltd. |
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| Keywords: | stability analysis baroclinic terms two‐level semi‐implicit methods 3D shallow water |
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