Flow rate of particles through apertures obtained from self-similar density and velocity profiles

Janda, A. (Álvaro); Zuriguel-Ballaz, I. (Iker); Maza-Ozcoidi, D. (Diego)

Autor(es):

Janda, A. (Álvaro)

Zuriguel-Ballaz, I. (Iker)

Maza-Ozcoidi, D. (Diego)

Palabras clave :

Materias Investigacion: Física

Fecha de publicación :

2012

ISSN :

1079-7114 (online)

Otros identificadores :

0031-9007 (print)

Cita:

Janda-Galán, Á. (Álvaro), Zuriguel-Ballaz, I. (Iker), Maza-Ozcoidi, D. (Diego Martín). Flow rate of particles through apertures obtained from self-similar density and velocity profiles. Physical Review Letters PRL 108, 248001 (2012): 012202/1-012202/5

Resumen

‘‘Beverloo’s law’’ is considered as the standard expression to estimate the ﬂow rate of particles through apertures. This relation was obtained by simple dimensional analysis and includes empirical parameters whose physical meaning is poorly justiﬁed. In this Letter, we study the density and velocity proﬁles in the ﬂow of particles through an aperture. We ﬁnd that, for the whole range of apertures studied, both proﬁles are self-similar. Hence, by means of the functionality obtained for them the mass ﬂow rate is calculated. The comparison of this expression with the Beverloo’s one reveals some differences which are crucial to understanding the mechanism that governs the ﬂow of particles through oriﬁces.

URI :

https://hdl.handle.net/10171/29385

Aparece en las colecciones:

DA - Ciencias - Física - Artículos de Revista

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