The main technical parameters of an electromagnetic dry powder magnetic
separator include the following aspects, which directly affect the performance,
application range, and work efficiency of the equipment:
1. Magnetic Field Intensity
-Unit: Tesla (T) or Gauss (Gs)
-Range: Typically between 0.5T and 2.0T, depending on the device model and
application scenario. The higher the magnetic field strength, the better the
sorting effect, which is suitable for processing materials with weak
magnetism.
2. Processing Capacity
-Unit: ton/hour (t/h)
-Scope: The processing capacity of different models of magnetic separators
varies greatly, usually ranging from a few tons to tens of tons per hour. The
processing capacity is affected by factors such as material properties,
equipment specifications, and magnetic field strength.
3. Power
-Unit: Kilowatt (kW)
-Scope: The power of electromagnetic dry powder magnetic separators generally
ranges from several kilowatts to tens of kilowatts, depending on the magnetic
field strength and equipment size. The higher the power, the stronger the
magnetic field, but at the same time, the energy consumption also increases
accordingly.
4. Magnetic Separation Width
-Unit: Millimeter (mm)
-Scope: Magnetic separation width refers to the width of the magnetic field
area of the magnetic separator, usually between 500mm and 1500mm. The larger the
magnetic separation width, the more material can be sorted in a single
operation.
5. Coil Current of Electromagnetic Coil
-Unit: Ampere (A)
-Scope: The electromagnetic coil current determines the magnetic field
strength, which can usually be changed by adjusting the current. The current
range varies depending on the device design and application requirements.
6. Material Size Range
-Unit: Millimeter (mm)
-Scope: Typically suitable for processing dry powder materials with particle
sizes between 0.1mm and 10mm, suitable for magnetic separation of fine and
ultrafine powders.
7. Operating Temperature
-Unit: Celsius (° C)
-Scope: The operating temperature of the equipment is usually between 0 ° C
and 40 ° C, and excessively high or low temperatures may affect the performance
of the electromagnetic coil and the lifespan of the equipment.
8. Cooling Method
-Type: air-cooled, water-cooled, or oil cooled
-Description: The cooling method determines the stability of the equipment
during high-intensity operation. Different cooling methods are suitable for
different working environments and magnetic field strength requirements.
9. Separation Efficiency
-Unit: Percentage (%)
-Scope: The sorting efficiency is usually between 80% and 95%, and the
specific efficiency depends on factors such as material properties, magnetic
field strength, and feed uniformity.
10. Dimensions
-Unit: Millimeter (mm)
-Scope: The external dimensions include the length, width, and height of the
equipment, usually designed based on the equipment's processing capacity and
magnetic field strength, which affects the equipment's footprint and
installation space requirements.
11. Weight
-Unit: Kilogram (kg)
-Scope: The weight of the equipment depends on its specifications and
materials, typically ranging from a few hundred kilograms to several tons. The
heavier the weight, the stronger the structure of the equipment, and it can
adapt to heavy load working environments.
12. Feeding Method
-Type: vibration feeding, belt feeding, etc
-Description: Different feeding methods affect the uniformity and sorting
efficiency of materials. Appropriate feeding methods can improve the sorting
efficiency and stability of equipment.
13. Discharging Method
-Type: Mechanical unloading, automatic unloading, etc
-Description: The unloading method affects the continuous operation
capability and operational convenience of the equipment. The higher the degree
of automation, the easier the operation.
14. Power Supply Voltage
-Unit: Volt (V)
-Scope: Usually 380V (three-phase AC), but there are also different voltage
levels customized according to user needs.
15. Applicable Material Type
-Description: The types of applicable materials, such as iron ore, metal
oxides, non-metallic minerals, etc., determine the application field of the
equipment.
These technical parameters directly determine the performance and scope of
application of the electromagnetic dry powder magnetic separator, and
comprehensive consideration should be given to actual needs when selecting
equipment.