Differential equation for the flow rate of discharging silos based on energy balance
Date
2020-05
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Abstract
Since the early work of Hagen in 1852 and Beverloo et al. in 1961, the flow rate of granular material
discharging through a circular orifice from a silo has been described by means of dimensional analysis
and experimental fits, and explained through the “free fall arch” model. Here, in contrast with the
traditional approach, we derive a differential equation based on the energy balance of the system.
This equation is consistent with the well known Beverloo rule thanks to a compensation of energy
terms. Moreover, this new equation can be used to explore new conditions for silo discharges. In
particular, we show how the effect of friction on the flow rate can be predicted. The theory is
validated using discrete element method simulations.
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Keywords
Numerical simulations, Flow rate, Energy balance
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