An Equivalent Spherical Particle System to Describe Characteristics of Flow in a Dense Packing of Non-spherical Particles

Autor:	Peijun Guo, Dieter Stolle, Shannon X. Guo
Rok vydání:	2019
Předmět:	Pressure drop Particle system General Chemical Engineering Isotropy 0207 environmental engineering Reynolds number 02 engineering and technology Mechanics Radius 01 natural sciences Catalysis 010305 fluids & plasmas symbols.namesake 0103 physical sciences symbols Particle 020701 environmental engineering Shape factor Porosity
Zdroj:	Transport in Porous Media. 129:253-280
ISSN:	1573-1634 0169-3913
DOI:	10.1007/s11242-019-01286-y
Popis:	Effective characteristics, such as the effective particle diameter and hydraulic radius, are usually used to determine the pressure loss associated with single-phase flow through an isotropic, dense non-spherical granular packing. These quantities can be considered as those of an equivalent spherical particle system. This paper reviews different methods to select effective particle diameters taking into account the effect of particle shape. A new method is proposed to determine an equivalent spherical particle system with both the hydraulic radius and the pressure loss equivalent to those in the actual non-spherical particle packing. This equivalent system can be used to determine the characteristics of flow in the actual system. The analyses provide theoretical justification for adoption of proper effective particle diameters and porosity as well as the dependency of Ergun–Kozeny constant on the shape factor of particles. It is also shown theoretically that the critical Reynolds number for Darcian flow depends on the porosity and the shape factor of particles.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_________::40c09e5d09573c838a89f152e2208ade https://doi.org/10.1007/s11242-019-01286-y Zobrazit plný text záznamu Full text from SpringerLink