Vertical sorting in collisional layer of bimodal sediment transport

Title:

Vertical sorting in collisional layer of bimodal sediment transport

Creator:

Zrostlík, Štěpán and Matoušek, Václav

Identifier:

https://cdk.lib.cas.cz/client/handle/uuid:8208ccf2-09f0-4677-8cbd-09cfe1e5faa4
uuid:8208ccf2-09f0-4677-8cbd-09cfe1e5faa4
doi:10.2478/johh-2020-0003

Subject:

grain segregation, bimodal mixture, granular flow, sheet flow, and sediment transport

Type:

model:article and TEXT

Format:

počítač and online zdroj

Description:

Intense collisional transport of bimodal sediment mixture in open-channel turbulent flow with water as carrying liquid is studied. The study focusses on steep inclined flows transporting solids of spherical shape and differing in either size or mass. A process of vertical sorting (segregation) of the two different solids fractions during the transport is analyzed and modelled. A segregation model is presented which is based on the kinetic theory of granular flows and builds on the Larcher-Jenkins segregation model for dry bimodal mixtures. Main modifications of the original model are the carrying medium (water instead of air) and a presence of a non-uniform distribution of sediment across the flow depth. Testing of the modified model reveals that the model is applicable to flow inclination slopes from 20 to 30 degrees approximately, making it appropriate for debris flow conditions. Changing the slope outside the specified range leads to numerical instability of the solution. A use of the bimodal mixture model is restricted to the grain size ratio 1.4 and no restriction is found for the grain mass ratio in a realistic range applicable to natural conditions. The model reveals trends in the vertical sorting under variable conditions showing that the sorting is more intense if flow is steeper and/or the difference in size or mass is bigger between the two sediment fractions in a bimodal mixture.

Language:

Slovak

Rights:

http://creativecommons.org/publicdomain/mark/1.0/
policy:public

Coverage:

92-98

Source:

Journal of hydrology and hydromechanics | 2020 Volume:68 | Number:1

Harvested from:

CDK

Metadata only:

false