Bunting-Redditch has supplied an eddy current separator, drum magnet and an electrostatic separator to an undisclosed Middle Eastern aluminium dross processing plant. The separation equipment was designed and built by Bunting at its Redditch plant, one of the company’s two European manufacturing facilities – the other being at Berkhamsted, also in the UK.

Aluminium dross is a by-product of the aluminium smelting process.  After crushing, mechanical separation enables the recovery of residual aluminium from the aluminium oxide.  The first stage of the project involved Bunting conducting controlled material separation tests on three samples at its recently opened Customer Experience Centre. Each sample had different particle size ranges.  The tests, undertaken on a range of laboratory-scale separators, confirmed the amount of aluminium that could be recovered by using three different types of equipment.

The trials confirmed that a three-stage separation process effectively recovered the metal from the dross.  The first stage of separation focused on removing magnetic particles with a high-intensity rare earth drum magnet. Magnetics accounted for approximately 1%.  Removing the magnetics is beneficial to subsequent processing.

The Rare Earth Drum has a stationary permanent magnetic element mounted within a rotating non-metallic shell.  A vibratory feeder delivers an even and controlled flow of material onto the shell and into the magnetic field.  Magnetic particles are attracted to the surface and deposited in a collection area underneath the drum.  Non-magnetics flow in a normal trajectory and are recovered separately.

The second step focused on separating small pearls of aluminium from the dross.  An eccentric eddy current separator recovered 14% aluminium from the dross.

The eccentric Eddy Current Separator has a high-strength magnetic rotor mounted in the top corner of a non-metallic shell.  The rotor, with a series of alternating magnetic poles, spins at high speeds.  When aluminium enters the changing magnetic field, a current is induced into the particle.  This creates a magnetic field, which is in opposition to the rotating magnetic field, forcing the particle to repel and enable separation from unaffected non-metallic material.

For the finer sized fractions, the remaining material was passed through an electrostatic separator.  Separation occurs by induced an electrostatic charge into a conductive dry-liberated particle such as aluminium.  The ElectroStatic Separator recovered a further 6% of aluminium. The tests concluded that approximately 15% of aluminium could be recovered from the dross using a combination of the three separators.

The production-scale equipment was sized to handle approximately 3 tonnes per hour of 1.5-20mm aluminium dross.  The particle-size range of the feed would be controlled to maximise separation performance.

“As with many of our projects, we worked closely with the customer to understand and then confirm the separation capabilities of our equipment,” explained Adrian Coleman, general manager of Bunting-Redditch.  “The combination of established and new separation technology has maximised the level of aluminium recovery.  The drive for most recycling companies is to recover as much clean metal as possible and with new technology, such as our electrostatic separator, we are able to provide a complete separation solution.” www.bunting-redditch.com
 

Bunting electrostatic separator

 

(Below) Bunting’s metal separation module

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