چکیده :
The dynamics of a powder flowing in a mass flow regime through a storage bin with a conical hopper, is a
well studied problem. However, many challenges remain, including quantification of the mixing that
occurs during discharge through the hopper. We have formulated a model based on the conservation
of volume of the powder and a semi-empirical expression for velocity profile, (see [1,2]), and used this
to estimate mixing parameters. We have specifically considered the case of an inflow which is disposed
in homogeneous horizontal layers as it enters the storage bin. When the powder, in successive layers,
enters the hopper, it accelerates and its velocity along the longitudinal axis of the hopper is greater than
at the walls. Portions of layers high in the hopper may overtake layers closer to the exit resulting in mixing
of the layers. Using this model we are able to quantify the percentage of each layer in a given output
volume and present results for typical hopper geometries.
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