Article information

Article`s title

Transversal mass transfer and shear stress formation during rapid gravity flow of a granular medium

Authors

Viktor Dolgunin 1, Oleg Ivanov 2, Sergey Akopyan 3
1 - Tambov State Technical University (TSTU), Tambov,Russian Federation
2 - Administration of the Tambov region, Tambov, Russian Federation
3 - TSTU, Tambov, Russian Federation

Volume

3 (2021)

Keywords

granular medium, rapid gravity flow, shear stress, transversal mass transfer, shear rate, solid volume fraction

Abstract

The micro structural models for shear stress generation during rapid gravity flow of granular materials on a rough chute are discussed. The mechanism of the shear stress formation, taking into account the tangential impulse formed under transversal mass transfer of particles, is suggested. The analogy between granular media during rapid shear deformation and dense gases is used to develop the suggested mechanism on the basis of kinetic theory. The total shear stress is determined as the sum of the stress components induced by collisions, transversal mass transfer and contact interactions of uniform cohesionless inelastic spherical particles. The mathematical models describing the components of shear kinetic stresses are developed as the functions of particle properties, structural and kinematical gravity flow characteristics. The equations of impulse and energy conservation in the course of rapid gravity flow of uniform cohesionless particles are formulated. A variant of the formulation of boundary conditions at the flow bottom is proposed for mathematical modeling of the dynamics of rapid gravity flows of granular materials on a rough chute. The variant assumes the displacement of the area with the most intense shear rate inside the flow and into its layers adjacent to the rough chute surface.

How to Cite this article

Dolgunin VN, Ivanov OO, Akopyan SA. Transversal mass transfer and shear stress formation during rapid gravity flow of a granular medium. Journal of Advanced Materials and Technologies. 2021;6(3):204-215. DOI: 10.17277/jamt.2021.03.pp.204-215

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DOI:

https://doi.org/10.17277/jamt.2021.03.pp.204-215

🗏

204-215

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