Ultra Fine Separator  Model MP

This is THE ONE for challenges in the submicron range


Principle

  • The supplied material powder drawn from the apex of the cone is in an extremely low cohesive, dispersed state in the dispersion zone and then carried to  the separate zone.
  • In the classification zone, air current entering from the louverswirls up along the upper wall, changes to a downward flow at the apex of cone and then is exhausted from the center.
  • In this downflow area, the intense vortex air flow zone where the circulation speed is the highest in the classification zone, such that the material supplied from the apex of cone is immediately subject to centrifugal force. Coarse particles are separated during down ward circulation and carried up to the apex of the particles passing through the intense vortex air flow zone repeatedly.
  • The airflow carries fine particles away from the center and they are caught by the bag filter, while coarse particles are collected in the hopper at the bottom from the slit under the louver.

Features

  • Submicron classification possible.
  • Easy cut size adjustment (0.5 - 10μm).
  • Very small maximum particle size of the fine powder.
  • Very low level of adhesion to the inside.
  • Simple structure and easy maintenance.

Specifications

Model

Comp. air consumption

[Nm³/min]

Air flow

[m³/min]

Blower power

[kW]

Comp. air supply port diameter

[-]

Exhaust port diameter

[-]

Weight

[kg

MP-150

(For LABO)

0.06 1.5 3.7 6A×2 place

400

(Unit size)

MP-250 0.24 8.0 7.5 8A×2 place 65A ferrule 54
MP-360 0.96 15.0 30 8A×2 place 100A ferrule 132
MP-460 2.16 30.0 55 8A×2 place 150A ferrule 160
Mp-600 3.11 60.0 132 10A×4 place

360A 

JIS5K flange

650

Optional Specifications

1. Antifriction specification High hardness or elastic resin-based surface treatment is available for the part in contact with the power.
2. Adhesion resistant specification With low coefficient friction material, surface coatings available on part with powder.
3.

High throughput specifications

Possible to create a super strong centrifugal field using compressed gas.

Application Examples

Alumina particle size distribution
Silica particle size distribution

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