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Warranty: | 1 Year |
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The Tricanters/ 3 phase decanters are used for the clarification and simultaneous separation of fluids of different densities; solid-liquid-liquid separation and two non-mixable liquids of different densities.
Areas Of Application For Tricanters (3 Phase Decanters)
Tricanters respectively 3 phase decanters (respectively separation decanters) are used for the clarification and simultaneous separation of fluids of different densities.
The tricanters / three phase decanters perform a 3 phase separation (solid-liquid-liquid separation) of dispersions of solid
material and two non-mixable liquids of different densities.
TYPICAL AREAS OF APPLICATION FOR TRICANTERS ARE THUS
* Treatment of sludges containing oil
* Separation of oil-water emulsions contaminated by solid materials
* Extraction of animal and plant oils and fat
* Furthermore * Fish press water from the fishmeal industry
* Manufacturing starch
* Olive oil
Separation Range
A. When the liquid viscosity is small and the solid particle size is large, the specific gravity difference between solid, liquid and liquid is required to be ≥ 0.05g/cm3 (solid weight and liquid light).
B. When the liquid viscosity is small and the specific gravity difference between solid and liquid is large (specific gravity difference ≥ 1g / cm3), the solid particle is required to be ≥ 0.005mm and the specific gravity difference between liquid and liquid is required to be ≥ 0.05g/cm3.
C. When the liquid viscosity is large or the specific gravity of solid-liquid is small and the solid particles are very fine, the separation effect will be affected or even not applicable.
D. When the solid particles are easy to be damaged, the separation effect will also be affected.
The 3-phase centrifuge is mainly composed of a driving part, a rotating cylinder, and a screw conveyor. lts operation is based on the principle of sedimentation. When the material enters a high-speed rotating drum, it rotates synchronously with the drum. Due to different specific gravity, the material is subjected todifferent centrifugal forces, with larger solid particles being subjected to centrifugal forces, followed bywater and the smallest amount of dirty oil. In this way, a concentric solid layer and two liquid layers are formed from the outside to the inside according to the magnitude of the centrifugal force. The solid ispushed out by the screw conveyor, and the liquid is discharged from the respective guide ports. lt is capableof solid-liquid separation.
This centrifuge can clarify, separate and dehydrate 0.002-3mm materials,or classify 1um-5um solid particles. lt has the characteristics of wide application range, continuous operation, large processing capacity, low cost, and convenient maintenance, making it the best equipment for solid-liquid separation. Widely used in industries such as chemical, light industry, medicine, food, papermaking, mining, etc.
TECHINICAL CHARACTERISTICS
*High torque involute planetary gear differential.
*The entire machine is equipped with various safety overload protection devices.
*Ordinary type and explosion-proof type, depending on the situation.
*Large aspect ratio, high rotational speed, and multi angle rotating drum cone structure.
*The rack is designed as low center of gravity, high bracket, or mobile according to user needs.
*With BD plate spiral structure, it is suitable for the concentration and dehydration of activated sludge and materials that are difficult to separate.
*According to actual requirements, it can be matched with a dual frequency conversion and intelligent fully automatic control system.
FLEXIBLE FOR DIFFERENT LIQUID PHASE PROPOTION
An adjustable impeller discharges the "heavy" liquid phase. Furthermore, the operator can use the adjustable impeller to adjust the pond depth of the heavy liquid without difficulty during ongoing operation. According to the Proportion of two different phase, An adjustment mechanism causes the position of the impeller to change, thus changing the separation line of the liquids. The process engineering results can thus be influenced so as to achieve the required separation result.
Model |
Diameter |
Length |
Max Speed (R/Min) |
L/D Ratio |
G-Force (G) |
Capacity |
Main Motor Power |
Weight |
Dimension (L*W*H) |
(Mm) |
(Mm) |
(M3/H) |
(Kw) |
(Kg) |
(Mm) |
||||
LWS355*1160 |
355 |
1160 |
3600 |
3.3 |
2576 |
2-8 |
15 |
1400 |
2470*1350*830 |
LWS355*1460 |
355 |
1460 |
3600 |
4 |
2576 |
2-10 |
15 |
1800 |
2750*1350*830 |
LWS450*1800 |
450 |
1800 |
2800 |
4 |
1976 |
4-25 |
37 |
2500 |
3320*1700*1130 |
LWS500*2000 |
500 |
2000 |
2500 |
4 |
1750 |
5-35 |
45 |
4000 |
3520*1800*1170 |
LWS520*2080 |
520 |
2080 |
3200 |
4 |
3154 |
3-35 |
55 |
5000 |
4510*1410*1170 |
LWS550*2000 |
550 |
2000 |
2800 |
4 |
2414 |
6-40 |
55 |
5700 |
4570*1380*1600 |
LWS650*1950 |
650 |
1950 |
2200 |
3 |
1761 |
6-45 |
75 |
5000 |
4840*1510*1720 |
LWS650*2600 |
650 |
2600 |
2000 |
4 |
1456 |
6-65 |
90 |
6000 |
5490-1510*1720 |