| Customization: | Available |
|---|---|
| Type: | Centrifuge |
| Object: | Cosmetic |
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LW (Mining Decanter) series decanter centrifuge is designed for mining and construction mud treatment. The high-performance decanter centrifuge is capable to work for a wide variety of mud, tunneling mud, mining and mineral mud, dredging slurry, and fluid recovery, bored pile, Hydrovac Slurry treatment applications. The reliable performance for un-hindered continuous processing is very important for such application. The high performance LW series decanter centrifuge is the ideal choice for dewatering, fluids recovery for tunneling and mining industry.
For high solids content mixtures, decanter centrifuges are unsurpassed. These solid-shell scroll centrifuges, or decanters, stand apart from chamber filter presses by maintaining a seamless continuous operation. The finely distributed solid particles are meticulously separated by the potent centrifugal forces, ensuring exceptional clarity of the end product.
Decanters find their indispensable utility across a diverse spectrum of industries globally. Tailored precisely for specific applications, these centrifuges excel in a variety of tasks-from sludge dewatering and intricate classification to the adept sorting of solids, they are vital assets across numerous sectors.
For achieving the best possible outcomes, solid bowl decanter centrifuges should be custom-engineered, precisely aligned with the unique demands of each separation process.
The Ingenious Working Principle of Decanter Centrifuges
A decanter centrifuge thrives on the principle of buoyant separation. Within a mixture, a denser component naturally sinks, while a less dense one rises. In a decanter centrifuge, continuous spinning magnifies settling speed, generating extreme g-forces ranging from 1000 to 4000 G's. This innovation reduces settling times drastically, transforming hours-long processes into mere seconds, delivering fast and manageable separation results.
Imagine a decanter as a cylindrical sedimentation tank rotating around an axis. In this setup, denser solid particles gravitate to the bottom, forming a solid phase sediment. In a centrifuge, however, centrifugal acceleration takes the lead. Denser particles are propelled outward in the rotating bowl, forming a sediment along the inner wall. The rapid application of centrifugal forces, approximately 3000 g, ensures separation occurs exponentially faster than in a gravitational field.
| Bowl ID (mm) |
Bowl Speed (rpm) |
L / D | G - Force | Capacity (m3/h) |
Solids Removal (m3/h) |
Primary Motor (Kw) |
Weight (Kg) |
Dimension (mm) |
| 250 | 4500~4600 | 3.0~5.0 | 2000~3500 | 3~5 | 0.4 | 11 | 760 | 1600×1100×850 |
| 300 | 4000~4600 | 3.0~5.0 | 2000~3500 | 3~15 | 0.8 | 11~15 | 1500 | 2470×1230×850 |
| 360 | 3200~4200 | 3.0~5.0 | 2000~3500 | 5~20 | 1.2 | 5~22 | 2000 | 2790×1300×880 |
| 400 | 3200~3900 | 3.0~4.8 | 2000~3500 | 5~30 | 2 | 18.5~30 | 2600 | 2950×1400×850 |
| 450 | 3000~3700 | 3.0~5.0 | 2000~3500 | 5~45 | 2.5 | 22~37 | 3200 | 3300×1500×920 |
| 500 | 2700~3450 | 3.0~5.0 | 2000~3500 | 10~80 | 5 | 30~55 | 5200 | 3730×1600×1100 |
| 550 | 2600~3300 | 3.0~5.0 | 2000~3500 | 10~90 | 6 | 45~75 | 6900 | 4000×1400×1600 |
| 600 | 2500~3200 | 3.0~5.0 | 2000~3500 | 20~95 | 7 | 37~90 | 7900 | 4200×1800×1350 |
| 650 | 2400~3100 | 3.0~5.0 | 2000~3500 | 20~105 | 8 | 37~90 | 8200 | 4300×1900×1350 |
| 750 | 2200~2900 | 3.0~5.0 | 2000~3500 | 30~120 | 12 | 55~135 | 12000 | 5000×2500×1500 |
| 900 | 1800~2600 | 3.0~5.0 | 2000~3500 | 40~180 | 16 | 75~160 | 18000 | 6500×2700×150 |
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