The role of the particle aspect ratio in the discharge of a narrow silo

The time evolution of silo discharge is investigated for different granular materials made of spherical or elongated grains in laboratory experiments and with discrete element model (DEM) calculations. For spherical grains, we confirm the widely known typical behavior with constant discharge rate (e...

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Detalhes bibliográficos
Autores: Pongó, T. (Tivadar)|||/items/6b211eb5-dee1-4291-b76a-f7d333b74f0b, Fan, B. (Bo)|||/items/b896e180-9ae7-4a54-b631-cd680bf8d385, Hernández-Delfín, D. (Dariel)|||/items/28d98f8b-567b-4e79-8a92-bf9c2c5f88a8, Torok, J. (János)|||/items/e612a794-0a64-4e76-8f00-e06f70098ede, Stannarius, R. (Ralf)|||/items/a1f67756-b106-4163-a853-9af7c919c3da, Cruz-Hidalgo, R. (Raúl)|||/items/9dc5d3bb-aa37-43bb-abf1-f155894c3d46, Börzsönyi, T. (Tamás)|||/items/24520f8c-5a95-42c2-84ab-ad675f6ea70d
Tipo de documento: artigo
Data de publicação:2022
País:España
Recursos:Universidad de Navarra
Repositório:Dadun. Depósito Académico Digital de la Universidad de Navarra
Idioma:inglês
OAI Identifier:oai:dadun.unav.edu:10171/64863
Acesso em linha:https://hdl.handle.net/10171/64863
Access Level:Acceso aberto
Palavra-chave:Granular flow
Silo flow
Granular dynamics
Granular materials
Descrição
Resumo:The time evolution of silo discharge is investigated for different granular materials made of spherical or elongated grains in laboratory experiments and with discrete element model (DEM) calculations. For spherical grains, we confirm the widely known typical behavior with constant discharge rate (except for initial and final transients). For elongated particles with aspect ratios between 2 < L/d < 6.1, we find a peculiar flow rate increase for larger orifices before the end of the discharge process. While the flow field is practically homogeneous for spherical grains, it has strong gradients for elongated particles with a fast-flowing region in the middle of the silo surrounded by a stagnant zone. For large enough orifice sizes, the flow rate increase is connected with a suppression of the stagnant zone, resulting in an increase in both the packing fraction and flow velocity near the silo outlet within a certain parameter range.