Sergiy Antonyuk scite author profile

The discrete modelling and understanding of the particle dynamics in fluidized bed apparatuses, mixers, mills and others are based on the knowledge about the physical properties of particles and their mechanical behaviour during slow, fast and repeated stressing. In this paper model parameters (modulus of elasticity, stiffness, yield pressure, restitution coefficient and strength) of spherical granules ( γ -Al 2 O 3 , zeolites 4A and 13X, sodium benzoate) with different mechanical behaviour have been measured by single particle compression and impact tests. Starting with the elastic compression behaviour of granules as described by Hertz theory, a new contact model was developed to describe the force-displacement behaviour of elastic-plastic granules. The aim of this work is to understand the energy absorption during compression (slow stressing velocity of 0.02 mm/s) and impact (the impact velocity of 0.5-4.5 m/s) of granules. For all examined granules the estimated energy absorption during the impact is found to be far lower than that during compression. Moreover, the measured restitution coefficient is independent of the impact velocity in the examined range and independent of the load intensity by compression (i.e. maximum compressive load). In the case of repeated loading with a constant load amplitude, the granules show cyclic hardening with increasing restitution coefficient up to a certain saturation in the plastic deformation. A model was proposed to describe the increase of the contact stiffness with the number of cycles. When the load amplitude is subsequently increased, further plastic deformation takes place and the restitution coefficient strongly decreases.

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Influence of liquid layers on energy absorption during particle impact

Antonyuk

et al. 2009

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Breakage behaviour of spherical granulates by compression

Antonyuk

Tomas

Heinrich

et al. 2005

Chemical Engineering Science

190

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DEM–CFD modeling of a fluidized bed spray granulator

Fries

Antonyuk

Heinrich

et al. 2011

Chemical Engineering Science

202

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Impact breakage of spherical granules: Experimental study and DEM simulation

Antonyuk

Khanal

Tomas

et al. 2006

Chemical Engineering and Processing: Process Intensification

153

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Sergiy Antonyuk

Energy absorption during compression and impact of dry elastic-plastic spherical granules

Influence of liquid layers on energy absorption during particle impact

Breakage behaviour of spherical granulates by compression

DEM–CFD modeling of a fluidized bed spray granulator

Impact breakage of spherical granules: Experimental study and DEM simulation

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