Separation of coarse and medium fractions
The 12-pole and 36-pole separators are ideal for separating coarse and medium fractions, respectively. They are commonly used in Municipal Solid Waste (MSW), construction and demolition, wood recycling, plastic recycling, and more.
12 Pole is suitable for particles larger than 25mm*
36 Pole is suitable for particles between 5 and 30mm*
ECCENTRIC EDDY CURRENT – 12 and 36 pole
Separation of coarse and medium fractions
Our eccentric setups are specialized systems designed for efficient magnetic induction and separation applications. A 12-pole configuration typically focuses on moderate field intensity, offering a balanced performance for separating non-ferrous materials like aluminum or copper. In contrast, a 36-pole configuration provides a higher number of alternating magnetic fields, ideal for finer separations, especially in small particles or challenging material streams.
12 Pole is suitable for particles larger than 25mm*
36 Pole is suitable for particles between 5 and 30mm*
ECCENTRIC EDDY CURRENT – for fines
Separating ultra fine fractions
Our Eccentric Eddy Current machine is specifically designed and engineered for separating fine materials such as bottom ashes and small metal fractions from electronic waste, this machine features a high-speed magnetic rotor with an unmatched 104 poles—the highest on the market. Operating at 3,600 RPM, the 104-pole rotor generates an impressive field frequency of 1.56 kHz, ensuring exceptional separation efficiency.
Leading 1.56kHz field frequency
Designed and engineered for fractions ranging from 0 to 8mm*
EDDY CURRENT WORKING PRINCIPLE
Key feature: self-cleaning mechanism of the magnetic rotor
A key feature of the eccentric setup in the Eddy Current system is its self-cleaning magnetic rotor, which reduces wear and minimizes machine downtime. The large diameter of the eccentric rotor ensures a wide angle of magnetic influence, delivering optimal separation results despite its eccentric design.
This design reduces rotor wear, leading to less machine downtime. The large diameter of the eccentric rotor ensures a wide angle of magnetic influence, providing optimal separation results despite its eccentric configuration.
Self-cleaning mechanism of the magnetic rotor
Less downtime due to belt damage
Large angle of magnetic influence
Optimal separation results