Geoscientific Model Development (Jun 2015)

Finite-Element Sea Ice Model (FESIM), version 2

  • S. Danilov,
  • Q. Wang,
  • R. Timmermann,
  • N. Iakovlev,
  • D. Sidorenko,
  • M. Kimmritz,
  • T. Jung,
  • J. Schröter

DOI
https://doi.org/10.5194/gmd-8-1747-2015
Journal volume & issue
Vol. 8, no. 6
pp. 1747 – 1761

Abstract

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The Finite-Element Sea Ice Model (FESIM), used as a component of the Finite-Element Sea ice Ocean Model, is presented. Version 2 includes the elastic-viscous-plastic (EVP) and viscous-plastic (VP) solvers and employs a flux corrected transport algorithm to advect the ice and snow mean thicknesses and concentration. The EVP part also includes a modified approach proposed recently by Bouillon et al. (2013), which is characterized by an improved stability compared to the standard EVP approach. The model is formulated on unstructured triangular meshes. It assumes a collocated placement of ice velocities, mean thicknesses and concentration at mesh vertices, and relies on piecewise-linear (P1) continuous elements. Simple tests for the modified EVP and VP solvers are presented to show that they may produce very close results provided the number of iterations is sufficiently high.