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A Primer on the Vertical Lagrangian‐Remap Method in Ocean Models Based on Finite Volume Generalized Vertical Coordinates

Stephen M. Griffies, Alistair Adcroft, Robert Hallberg

2020Journal of Advances in Modeling Earth Systems99 citationsDOIOpen Access PDF

Abstract

Abstract This paper provides a primer on the mathematical, physical, and numerical foundations of ocean models that are formulated using finite volume generalized vertical coordinate equations and that use the vertical Lagrangian‐remap method to evolve the ocean state. We consider the mathematical structure of the governing ocean equations in both their strong formulation (partial differential equations) and weak formulation (finite volume integral equations), thus enabling an understanding of their physical content and providing a physical‐mathematical framework to develop numerical algorithms. A connection is made between the Lagrangian‐remap method and the ocean equations as written using finite volume generalized vertical budgets. Thought experiments are offered to exemplify the mechanics of the vertical Lagrangian‐remap method and to compare with other methods used for ocean model algorithms.

Topics & Concepts

Finite volume methodLagrangianVolume (thermodynamics)Lagrangian and Eulerian specification of the flow fieldApplied mathematicsComputer scienceMathematicsMechanicsPhysicsEulerian pathQuantum mechanicsOceanographic and Atmospheric ProcessesOcean Waves and Remote SensingClimate variability and models
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