ISMIP-HOM benchmark experiments using Underworld
Loading...
Date
Authors
Sachau, Till
Yang, Haibin
Lang, Justin
Bons, Paul D.
Moresi, Louis
Journal Title
Journal ISSN
Volume Title
Publisher
Copernicus GmbH
Abstract
Numerical models have become an indispensable tool for understanding and predicting the flow of ice sheets and glaciers. Here we present the full-Stokes software package Underworld to the glaciological community. The code is already well established in simulating complex geodynamic systems. Advantages for glaciology are that it provides a full-Stokes solution for elastic-viscous-plastic materials and includes mechanical anisotropy. Underworld uses a material point method to track the full history information of Lagrangian material points, of stratigraphic layers and of free surfaces. We show that Underworld successfully reproduces the results of other full-Stokes models for the benchmark experiments of the Ice Sheet Model Intercomparison Project for Higher-Order Models (ISMIP-HOM). Furthermore, we test finite-element meshes with different geometries and highlight the need to be able to adapt the finite-element grid to discontinuous interfaces between materials with strongly different properties, such as the ice-bedrock boundary.
Description
Keywords
Citation
Collections
Source
Geoscientific Model Development
Type
Book Title
Entity type
Access Statement
Open Access
License Rights
Creative Commons Attribution licence
Restricted until
Downloads
File
Description