The Plymouth Student Scientist
Document Type
Geography, Earth and Environmental Sciences Article
Abstract
Landslides are an ever-present natural hazard and understanding factors such as propagation are vital for the management of such events. This natural hazard has increased in frequency in recent history which further highlights the importance of the research. This study aims to determine which parameters contribute to large rock avalanche propagation using an experimental approach within a laboratory environment. The experiment was designed to simulate a granular flow event using equipment formed of an inclined slope and a flat horizontal plane with a confined zone. A range of material flow combinations and two different slope inclinations were used throughout. The experiment enabled the collection of data such as runout distance; maximum height and length of a flow deposit and further calculated data including the Fahrboschung angle and the velocity of different flows in order to determine the relationship between the runout and a host of parameters. By conducting this investigation, it was determined that certain parameters such as angle of slope inclination and bidisperse material all heavily contributed to a further runout of a flow. It was also concluded that having a material combination of 15% fine material and 85% coarser material provided the furthest runout distance of all the material combinations.
Publication Date
2021-12-24
Publication Title
The Plymouth Student Scientist
Volume
14
Issue
2
First Page
225
Last Page
252
ISSN
1754-2383
Deposit Date
December 2021
Embargo Period
2024-07-08
URI
http://hdl.handle.net/10026.1/18505
Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.
Recommended Citation
Wood, Taylor
(2021)
"Parameters controlling large landslide propagation,"
The Plymouth Student Scientist: Vol. 14:
Iss.
2, Article 4.
Available at:
https://pearl.plymouth.ac.uk/tpss/vol14/iss2/4
