Direct determination of granular pressure in liquid fluidized bed using a DEM-based simulation approach

Abbasfard, Hamed; Evans, Geoffrey; Moreno-Atanasio, Roberto

Title: Direct determination of granular pressure in liquid fluidized bed using a DEM-based simulation approach
Creator: Abbasfard, Hamed; Evans, Geoffrey; Moreno-Atanasio, Roberto
Relation: 5th International Conference on Particle-Based Methods. Fundamentals and Applications (PARTICLES 2017). 5th International Conference on Particle-based Methods. Fundamentals and Applications: PARTICLES 2017 (Hannover, Germany 26-28 September, 2017) p. 309-320
Relation: http://congress.cimne.com/particles2017/frontal/default.asp
Publisher: International Center for Numerical Methods in Engineering (CIMNE)
Resource Type: conference paper
Date: 2017
Description: In this paper, the fluidization of 8 mm glass particles in water has been simulated using a new methodology developed within the DEM framework. In this methodology, random liquid fluctuating velocities are used as direct input into the drag model. The specific aim of this study is to directly compute the granular pressure in a liquid fluidized bed. The granular pressure is defined using the particle-wall collision frequency and the corresponding particle momentum transport during the collision. Initially, we validated our model by comparing the relationship between superficial fluid velocity and bed expansion against the well-known Richardson-Zaki [1] equation. The results demonstrated a good agreement of our model. The granular pressure and temperature, as well as the particle-wall collision frequency, in the liquid fluidized bed were determined for superficial fluid velocities in the range between 0.08 and 0.32 m/s. The granular pressure exhibited a maximum (between 0.3-0.4 solid fraction) that matched the experimental measurements of Zenit et al. [2] for high inertia particles. The granular temperature also revealed a peak at a solid concentration of around 0.2 which is in line with the experimental measurements of Zivkovic et al. [3] and the model of Gervin et al. [4]. The set of the results presented in this study suggests that the approach used here is valid for obtaining the granular pressure and temperature for a wide range of volume fractions in liquid fluidized beds.
Subject: fluidized bed; DEM; granular pressure; fluctuating velocity
Identifier: http://hdl.handle.net/1959.13/1396820
Identifier: uon:34130
Identifier: ISBN:9788494690976
Language: eng
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