Recycling Industry

The recovery of metals from waste for reuse, among other purposes, is becoming increasingly important. Raw materials are becoming scarcer and the costs of dumping waste continue to rise. This results in increased market demand for the recycling of metals from waste.

Goudsmit develops magnetic separators for separating metal from waste. These are often very valuable metals, which often makes the payback period of separators for recycling short.

  • Engineering, production & service
  • 60 years of experience
  • Proven technology
  • Cost-effective and robust
  • Quality and reliability

Separating strong magnetic metals

Magnetic separators remove ferromagnetic parts such as iron and steel from waste flows intended for recycling.

We have a variety of magnet systems, each of which serves its own unique purpose in terms of:
- capacity
- particle size
- particle shape
- purity ferrous fraction
- layer thickness to be processed
- product flow humidity
- flush size
- maintenance interval
- energy consumption

Overband magnets
Scrap_iron_recycling

Separation of weakly magnetic metals

We also make magnetic separators for removing weakly magnetic metals, such as stainless steel and other steel alloys from waste flows.

High gradient magnet systems make an excellent job of this. They remove or separate:

- stainless steel rings, springs and balls from shredded plastic bottles with a pump mechanism;
- small metal particles from soil contaminants, soil or stones
- smashed pieces of stainless steel from wood recycling processes to protect shredding blades
- pieces of stainless steel from shredded WEEE and ASR fractions
- iron dust from ceramics or blasting grit
- pieces of stainless steel from cable shredder flows before the copper shredder processing step
- stainless steel needles from plastic hospital syringes.

Magnetic head pulleys
High_gradient_separated_stainless_steel_particles_

Separation of non-ferrous metals

Eddy current non-ferro separators separate non-ferro metals such as aluminium and copper from bulk flows. Many times, we use a combination of these separators, one after the other.

This is because, in terms of particle size, the fraction must lie within a certain bandwidth in order for the process to produce sufficient yield. A good breakdown is: very fine fraction 0-5 mm, fine fraction 5-20 mm, medium fraction 20-80 mm and coarse fraction >80 mm.

Eddy current separators
Non ferrous aluminium recycling

Want to find out more?

For more information, please contact our experts:

Call: +31 (0)40-2213283 or mail: info@goudsmitmagnets.com