Mine Classification Polyurethane Cyclone
Mine Classification Polyurethane Cyclone Product Profile
The hydrocyclone is a classification device that uses centrifugal force to accelerate the sedimentation of ore particles. It occupies a small area, is cheap, has a large processing capacity, and has high classification efficiency, and can obtain very fine overflow products, which are mostly used for classification equipment in the second stage of closed-circuit grinding.
Mining Separator Hydrocyclone Application
Hydrocyclones are used for grading, desliming and concentration. For pulverized coal and dense metal minerals, it can sometimes be used for sorting. When referring to heavy media, the cyclone can be used for pre-selection or rough selection of ore.
Mining Separator Hydrocyclone Advantage
The way of involute feeding through the inlet branch reduces the turbulence of the burst emanative flow when materials entry, makes a smooth movement of liquid inside cyclone, therefore gives a sharp classification.
The rational length proportion of column and cone and reasonable insert depth of vortex finder
Wear -resistant rubber as liners prolongs the service life by 2-4 times
Mining Separator Hydrocyclonet Work Principle
The working principle of our hydrocyclone is centrifugal sedimentation, when two phases (or three phases) mixed liquid is fed into hydrocyclone by a certain pressure liquid and produces strong three-dimensional-elliptic rotational movement. Due to the different density of particles, the centrifugal force, the centripetal buoyancy and drag force is different. So most coarse particles (or heavy phase) are discharged from cyclone underflow outlet, and the fine particles (or light phase) from the overflow tube, so as to achieve separation.
Working modes of our hydrocyclone includes classification, condensation, dehydration, desliming, sand removing sand, washing, ultrafine classification etc.
Mining Separator Hydrocyclone Specification
Specification |
Capacity
(m3 /h) |
Separation Particle Size
(μm) |
Diameter of Overflow Outlet
(mm) |
Diameter of Spigot
(mm) |
Inlet Pressure
(MPa) |
150 | 10-23 | 25-74 | 30-50 | 8-22 | 0.060-0.15 |
200 | 17-38 | 28-80 | 40-65 | 16-32 | 0.060-0.15 |
250 | 24-53 | 30-82 | 65-100 | 16-40 | 0.060-0.15 |
300 | 40-100 | 36-90 | 65-120 | 20-40 | 0.060-0.15 |
350 | 56-118 | 40-100 | 80-120 | 30-70 | 0.060-0.15 |
375 | 74-157 | 42-105 | 90-135 | 30-70 | 0.060-0.15 |
450 | 90-192 | 44-110 | 100-150 | 30-70 | 0.060-0.15 |
500 | 128-300 | 50-115 | 130-220 | 35-100 | 0.060-0.15 |
610 | 200-468 | 57-125 | 160-260 | 65-110 | 0.060-0.15 |
660 | 237-524 | 60-130 | 180-280 | 80-150 | 0.060-0.15 |