Working Principle of Horizontal Fluidized Bed Jet Mill
MQW jet mill is a Fluidised Bed Opposed Jet Mill, with built-in horizontal classifying wheels (single wheel or multiple wheels). After the compressed air is filtered and dried, it is sprayed into the grinding chamber through the Laval nozzle at high speed. At the intersection of multiple high-pressure airflows, the materials are repeatedly collided, rubbed, and sheared to be crushed. The ground materials rise with the suction force of the fan. The airflow moves to the classifying area, under the strong centrifugal force generated by the high-speed rotating classifying turbine, the coarse and fine materials are separated, the fine particles that meet the particle size requirements enter the cyclone separator and dust collector through the classifying wheel, and the coarse particles descend to the grinding area to continue grinding.
Technical Advantages of Horizontal Fluidized Bed Jet Mill
- The grinding process is completed by the collision of the material itself, completely self-grinding, with minimal wear on the equipment, suitable forgrinding of various hardness materials.
- The grinding form of fluidized bed collision can better maintain the shape of particles.
- Low temperature and medium-free grinding, suitable for heat-sensitive, low-melting, sugar-containing, and volatile materials.
- High-temperature and high-pressure grinding to achieve higher injection speed, lower dynamic viscosity, and highergrinding fineness and efficiency.
- Inner, classifying wheels, nozzles and other key components can be protected by wear-resistant materials such as alumina, zirconia, and silicon carbide, and organic materials to avoid contact with metal during the entire grinding process and obtain high-purity products.
- The grading wheel is installed horizontally, which can better control the fineness of products with low density and produce finer products.
- Inert gas closed-circuit cycle/explosion-proof design, which can meet the grinding of flammable, explosive, easy to oxidize, and easy to absorb moisture materials.
Grinding Material
Aluminum Hydroxide
Cellulose and celluloid
Ceramic pigments
Chemical Salts
Chemically derived fibers
Dyestuff
E-PVC
Fertilizer
Magnesium Hydroxide
Synthetic Resin
Tire Pyrolysis
Wax
Aluminum silicate
Bentonite
Catalysts
Kaolin
Mineral powders
Rare earths (magnetic raw materials)
Refractories
Zinc oxide
Zircon sand
Activated Carbon
Silica
Metallic Compounds
Color Mixtures
Metallic Powders
Quartz – Silica
Abrasives
Calcium Carbonate
Kaolin
Magnesium Hydroxide
Pigments
Silica
Wax
Zinc Oxide
Tungsten carbide
Technical Parameters of Horizontal Fluidized Bed Jet Mill
| parameter/ Model | MQW03 | MQW06 | MQW010 | MQW20 | MQW30 | MQW40 | MQW60 | MQW80 | MQW120 | MQW160 | MQW240 |
|---|---|---|---|---|---|---|---|---|---|---|---|
| Feeding Size(mm) | <1 | <2 | <2 | <3 | <3 | <3 | <3 | <3 | <3 | <3 | <3 |
| Production Capacity(kg/h) | 0.3~10 | 10~150 | 20~300 | 40~600 | 100~900 | 200~1200 | 500~2000 | 800~3000 | 1500~6000 | 2000~8000 | 4000~12000 |
| Particle size(D97:μm) | 3~45 | 3~45 | 3~45 | 3~45 | 3~45 | 3~45 | 3~45 | 3~45 | 3~45 | 3~45 | 3~45 |
| Classifier motor (kw) | 2.2 | 3 | 5.5/7.5 | 7.5/11 | 11/15 | 15/7.5x3 | 7.5x3 | 11x3 | 15x3 | 15x4 | 15x6 |
| Air consumption(m³/min) | 3 | 6 | 10 | 20 | 30 | 40 | 60 | 80 | 120 | 160 | 240 |
| Air pressure(Mpa) | 0.6~1 | 0.6~1 | 0.6~1 | 0.6~1 | 0.6~1 | 0.6~1 | 0.6~1 | 0.6~1 | 0.6~1 | 0.6~1 | 0.6~1 |
