Eddy Current Separator

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An Eddy Current Separator (ECS) is a machine that is used to separate and recover non-ferrous metals such as aluminium, copper and brass from non-metallic material in a waste stream[1].

Eddy Current Separator Magnet Rotor and Splitter. Image: OKAY Engineering.
Eddy Current Separator Magnet Rotor and Splitter. Image: OKAY Engineering.


Overview

An Eddy Current Separator (ECS) is a machine that is used to separate and recover non-ferrous metals such as aluminium, copper and brass from non-metallic material in a waste stream[1]. Material is fed onto the conveyor of the separator, which moves it across the magnetic rotor, situated underneath, to result in separation. The two resultant streams discharge into different bins/compartments with the aid of the splitter which divides the non-ferrous metal from the non-metallic waste such as paper, plastic, wood or automotive shredder residue (known as shredder fluff)[2]. This process is usually employed after magnetic separation has removed the bulk ferrous fraction from a scrap material stream[3].

The Magnet Rotor

The key component is the magnetic rotor, which is a series of permanent rare earth magnets mounted on a support plate attached to a shaft. The magnetic rotor is surrounded by, but not attached to, a non-metallic shell which supports the conveyor belt. This allows the rotor to spin independently and at a much higher speed than the non-metallic shell and belt[2].

Stated Benefits

  • Very high hit rates
  • Very high purity rates
  • Compact and flexible
  • Removes ranging sizes of non-ferrous metals[1]

The Process

Eddy Current Separator Diagram. All Rights Reserved.
Eddy Current Separator Diagram. All Rights Reserved.

Schematic Diagram of an Eddy Current Separator[3]		 1. The waste stream is fed onto the conveyor belt and is transported towards the magnetic rotor end.
2. When a piece of non-ferrous metal passes over the magnetic rotor, the magnets inside the shell rotate past the metal at high speed which forms eddy currents to create a magnetic field around the piece of metal.
3. The polarity of that magnetic field is the same as the rotating magnet, causing the non-ferrous metal to be repelled away from the magnet.
4. This repulsion makes the trajectory of the non-ferrous metal greater than that of the non-metallic, allowing the two material streams to be separated[2].

References

  1. 1.0 1.1 1.2 Eddy Current Separators: OKAY Engineering
  2. 2.0 2.1 2.2 Magnetic Equipment Guide - Eddy Current Separators
  3. 3.0 3.1 Eddy Current Separation
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