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Lynch, Peter
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Lynch, Peter
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Lynch, Peter
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- PublicationLaplace transform integration of the shallow-water equations. Part 2: Lagrangian formulation and orographic resonanceIn this paper we combine the Laplace transform (LT) scheme with a semi- Lagrangian advection scheme, and implement it in a shallow water model. It is compared to a reference model using the semi-implicit (SI) scheme, with both Eulerian and Lagrangian advection. We show that the LT scheme is accurate and computationally competitive with these reference schemes. We also show, both analytically and numerically, that the LT scheme is free from the problem of orographic resonance that is found with semi-implicit schemes.
207Scopus© Citations 6 - PublicationLaplace transform integration of the shallow-water equations. Part 1: Eulerian formulation and Kelvin wavesA filtering integration scheme is developed, using a modification of the contour used to invert the Laplace transform (LT). It is shown to eliminate components with frequencies higher than a specified cut-off value. Thus it is valuable for integrations of the equations governing atmospheric flow. The scheme is implemented in a shallow water model with an Eulerian treatment of advection. It is compared to a reference model using the semi-implicit (SI) scheme. The LT scheme is shown to treat dynamically important Kelvin waves more accurately than the SI scheme.
323Scopus© Citations 8