- Title
- Effect of screw design on hopper drawdown of spherical particles in a horizontal screw feeder
- Creator
- Fernandez, Justin W.; Cleary, Paul W.; McBride, William
- Relation
- Chemical Engineering Science Vol. 66, Issue 22, p. 5585-5601
- Publisher Link
- http://dx.doi.org/10.1016/j.ces.2011.07.043
- Publisher
- Elsevier
- Resource Type
- journal article
- Date
- 2011
- Description
- Screw feeders are used to remove material from hoppers and bins at a controlled rate. The evenness of the flow in the bin depends on the drawdown pattern, which in turn depends on the screw and hopper design, shape of the particles and wall friction effects. A key design requirement is to ensure that a progressive increase in the screws volumetric capacity is achieved along the entire length of the hopper's opening so as to produce even drawdown. If this is not achieved then compositional variations in the outgoing stream and other operational problems (such as caking) can be created. Screw designs to date have been generally based on analytical models and at times the predicted flow pattern is not achieved. In this study, the Discrete Element Method (DEM) is used to predict particle transport in a horizontal screw feeder system for a range of conventional screw designs including a variable screw pitch, variable screw flight outside diameters and variable core diameters. The influence of screw choice on the particle mass flow rate, the evenness of particle drawdown from the hopper, power consumption, screw wear and wall friction variations are all investigated. Important features captured by DEM that are not accounted for by the analytic model and which vary strongly between competing screw designs, include the particle circulation in the hopper, shearing of the particle bed in the trough just outside the screw and the spatially varying particle force along the hopper which leads to non-uniform drawdown and to the existence of large stagnant or slow moving zones. The screw design and consequent flow patterns also strongly affect the power draw with variations up to a factor of three and screw wear with large changes in their distribution and magnitude. Finally, the surface frictional properties of the screw are shown to strongly influence the rate of bed compaction within and along the screw leading to strong variation in mass flow rate, uniformity of drawdown and power draw.
- Subject
- screw feeder; hopper drawdown; screw design; DEM; particle flow; flow uniformity
- Identifier
- http://hdl.handle.net/1959.13/937117
- Identifier
- uon:12501
- Identifier
- ISSN:0009-2509
- Language
- eng
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