Titel
Simulation of slow geomorphic flows with r.avaflow
Verfasser
Martin Mergili
Andreas Kellerer-Pirklbauer
Christian Bauer
Jan-Thomas Fischer
Erscheinungsort
Vienna
Verlag
EGU
Erscheinungsjahr
2022
Seiten
1 S.
Material
Sonderdruck
Digitales Dokument
Standardsignatur
12974S
Datensatznummer
40003191
Quelle
EGU General assembly; EGU2022-3509
Abstract
GIS-based open-source simulation tools for extremely rapid mass flow processes such as snow avalanches, rock avalanches, or debris flows are readily available, covering a broad range of complexity levels – e.g., from single-phase to multi-phase. However, these tools are not suitable for slower types of mass flows characterized by high viscosities. The conventionally used momentum balance equations for rapid flows often appear numerically unstable for high viscosities, leading to the immediate reversion of flow direction or stopping, without appropriate
numerical treatment. GIS-based simulation efforts of slow geomorphic flows are reported in the literature, and open source tools are available for specific phenomena such as glaciers, but no comprehensive and readily usable simulation tools have been proposed yet.