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MQL Fluidized Bed Jet Mill

MQL Fluidized Bed Jet Mill

After the compressed air is filtered and dried, it is sprayed into the crushing chamber at high speed through the Laval nozzle. At the intersection of multiple high-pressure air streams, the materials are repeatedly collided, rubbed and sheared. The crushed materials move to the classification area with the rising air stream under the pumping force of the fan. Under the strong centrifugal force generated by the high-speed rotating classification turbine, the coarse and fine materials are separated, The fine particles meeting the particle size requirements enter the cyclone separator and dust collector through the grading wheel for collection, and the coarse particles drop to the crushing area for further crushing.

 

Product Size:D50:1~45μm

 

Application area:It is widely used in chemical industry, minerals, metallurgy, abrasives, ceramics, refractories, medicine, food, health products, new materials and other industries.

 

After the compressed air is filtered and dried, it is sprayed into the crushing chamber at high speed through the Laval nozzle. At the intersection of multiple high-pressure air streams, the materials are repeatedly collided, rubbed and sheared. The crushed materials move to the classification area with the rising air stream under the pumping force of the fan. Under the strong centrifugal force generated by the high-speed rotating classification turbine, the coarse and fine materials are separated, The fine particles meeting the particle size requirements enter the cyclone separator and dust collector through the grading wheel for collection, and the coarse particles drop to the crushing area for further crushing.

Working principle

Fluidized bed jet mill works with feeding device, cyclone, bag filter and suction fan to form a complete grinding line. Compressed air flow after filtration and drying would go into milling chamber from nozzles and meet in the center area, where material would be impacted, milled and sheared.

Milled powder would go up to classifying area by airflow. The high-speed rotation of classifier wheel would separate oversize powder and fine powder. Qualified fine powder would go through the wheel impeller and output cyclone or bag filter, while oversize powder would fall to milling area to be milled again.

Technical parameter

Technical Parameters
Parameters/specifications MQL03 MQL06 MQL10 MQL20 MQL40 MQL60 MQL80 MQL120
Feed Size (mm) <5 <5 <5 <5 <5 <5 <5 <5
Product Size (d97:μm) 8~150 8~150 8~150 8~150 10~150 10~150 10~150 10~150
Production Capacity (kg/h) 5~100 10~200 20~400 50~800 150~1500 300~2000 400~6000 600~10000
Air consumption (m3/min) 3 6 10 20 40 60 80 120
Air Pressure (Mpa) 0.7~0.85 0.7~0.85 0.7~0.85 0.7~0.85 0.7~0.85 0.7~0.85 0.7~0.85 0.7~0.85
Installed Power (kW) 26~37 46~68 68~106 145~184 276~310 402~427 520~600 720~900
Note: The production capacity is closely related to the particle size, specific gravity, hardness, moisture and other indicators of the raw materials. The above is only for selection reference.

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