Eddy Current Separator / Separation Manufacturer, Supplier and Exporter

 

We are the largest producers of Eddy Current Separators in India which are often used to separate non-ferrous metals from mixed waste and other distributions. It separates aluminum, copper, copper, and other non-ferrous metals from your product line, recycling solid municipal waste, discarded waste, and other non-recyclable waste.

One of the largest and most innovative manufacturers in magnet separation technology throughout India, we produce both straight and eccentric pulse designs for efficient efficient separation processes.

The current eddy separator system is straightforward. Basically, a ball with magnetic blocks, either a standard ferrite ceramic or a rare earth magnet that is very powerful depending on the application, is spun in a large fluid to produce ‘eddy current’. This eddy current reacts with different metals, depending on their exact weight and resistance, creating a repulsive force on the charged particles. If the metal is light but conductive like aluminum, it is easily pulled out and removed from the normal flow of the product stream which makes the separation possible. The classification of stainless steel is also possible depending on the quality of the material. The particles from the flow of material can be ground to a minimum size of 3/32 "(2mm) in diameter. There is no doubt that Eddy Current Separators have made significant progress in the recycling industry. for recycling and recycling of materials, and for improving.

Eddy current dividers are very common in the rapidly growing market for beverage filtration, where they can provide precise separation of aluminum cans from waste.

One of the latest and exciting innovations in material separation is the current non-ferrous eddy separator and how it transforms waste reduction efforts and environmental damage by acquiring precious non-ferrous metals in municipal and industrial waste.

Working Principle:

On the eddy current separator, there is a short sender belt with its drive located at the end of the return and a high-speed rotor system installed at the end of the output. The magnetic field, placed inside a non-rotating metal drum, rotates at high speeds during operation while the outer drum cover rotates at the speed of the eddy currents.

As the rotor rotates at these higher speeds then electrical power is generated in the conductor. The generated electricity produces a magnetic field, which opposes the field created by the rotor, expelling the steering irons over the pre-set separating plate. Residues such as plastic, glass, and other recyclable dry matter will suddenly fall on the floor, separating them from the cast metal.

Salient Features:

• Solid structure with anti-vibration pads.
• No loss of valuable material.
• Low maintenance.
• Protected other recycling equipment.
• High yields of non-ferrous metals recovery.

Applications:

• 98% recovery of aluminum cans from commingled recyclables.
• Stainless steel, copper, aluminum, brass from shredder residue and fluff.
• Non-ferrous metal recovery in refuse streams and ash streams in Waste-to-Energy facilities.
• Separation of non-ferrous chips.
• Aluminum scrap recovery in foundry sand reclamation.
• Glass cullet recycling.
• Wood waste processing.
• Aluminum extrusion recycling.

Functions:

The eddy current effect appears if non-ferrous conductors of electricity are exposed to a magnetic alternating field. The eddy currents, in turn, generate magnetic fields whose flux are opposed to the fields generating them, thus causing repulsive forces which discharge nonferrous metals out of the material flow.