A new approach for calculating the mass flow rate of entrained air in a freefalling material stream

Esmaili, A. A.; Donohue, T. J.; Wheeler, C. A.; McBride, W. M.; Roberts, A. W.

Title: A new approach for calculating the mass flow rate of entrained air in a freefalling material stream
Creator: Esmaili, A. A.; Donohue, T. J.; Wheeler, C. A.; McBride, W. M.; Roberts, A. W.
Relation: Particulate Science and Technology Vol. 31, Issue 3, p. 248-255
Publisher Link: http://dx.doi.org/10.1080/02726351.2012.715617
Publisher: Taylor & Francis
Resource Type: journal article
Date: 2013
Description: This article presents the outcomes from a series of physical experiments to measure the air entrainment rates encountered within a stream of freefalling particles. The experimental work presented spans a range of particle parameters and hopper geometries. From these results a new theory for the prediction of air entrainment is developed and presented. This new method was developed specifically to facilitate a better understanding in the area of fugitive dust control associated with material handling systems, which are driven by the air entrainment during freefalling. From the work presented in this article, a better prediction capability of freefalling bulk materials in either constrained, or unconstrained systems, will allow for the optimization of either passive or active dust control strategies. This article presents several distinct sections that detail the experimental work used to determine the freefall stream parameters that were conducted to allow the development of the entrainment equations.
Subject: freefalling stream; induced air
Identifier: http://hdl.handle.net/1959.13/1301313
Identifier: uon:20253
Identifier: ISSN:0272-6351
Language: eng
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