Separation Systems
Separation Systems
At Batte-Re, we offer a comprehensive line of separation machines which are designed to optimize the crucial third step of battery recycling.
🔬With our tailored separation expertise, we ensure precise extraction of valuable components from various battery types, optimizing the resource recovery process in battery recycling. Whether you’re managing lithium-ion, lead-acid, NMC (Nickel-manganese-cobalt), or LFP (Lithium-iron-phosphate) batteries, our separation machines are designed to extract valuable components with precision and efficiency.
🌐 Our Separation Systems are designed to be adapted to your specific operational needs, seamlessly integrating into your battery recycling process. We recognize the unique requirements of each recycling operation. The Separation System is fully customizable, adapting seamlessly to your facility’s specific needs and harmonizing with your existing recycling processes.
Batte-Re offers different separation systems such as Eddy Current Separator, Magnetic Separator, ZigZag Separator, Ultrasonic Sieve.
Eddy Current Separator:
An Eddy Current Separator is a device that utilizes a rotating magnetic field to induce electrical currents in conductive materials. This generates a repelling force that causes non-ferrous metals, such as aluminum, to be propelled away from the material stream. This separator is highly effective in separating aluminum from shredded battery materials.
Magnetic Separation:
Magnetic Separators use powerful magnets to attract and separate ferrous metals from the material stream. They are efficient in removing materials containing iron or steel, which could be present in battery recycling processes.
ZigZag Separator:
Also known as an Air Classifier, uses air currents to separate materials based on density, size, and shape differences. It’s particularly effective in separating materials with varying characteristics. In battery recycling, it can be used to separate copper and black mass components.
Ultrasonic Sieve:
An Ultrasonic Sieve employs ultrasonic vibrations to enhance the separation of fine particles from bulk materials. It’s often used to achieve precise particle size separation and can help improve the efficiency of material classification.