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DH/DHC
Shenzhou
the disc stack separator separates solids and one or two liquid phases from each other in one single continuous process, using extremely high centrifugal forces. When the denser solids are subjected to such forces, they are forced outwards against the rotating bowl wall, while the less dense liquid phases form concentric inner layers. The area where these two different liquid phases meet is called the interface position. This can be easily varied in order to ensure that the separation takes place with maximum efficiency. Inserting special plates (the "disc stack") provides additional surface settling area, which contributes to speeding up the separation process dramatically. It is the particular configuration, shape and design of these plates that make it possible for a disc stack centrifuge to undertake the continuous separation of a wide range of different solids from either one or two liquids. The concentrated solids phase formed by the particles can be removed continuously, intermittently or manually, depending on centrifuge type and the amount of solids involved in the specific application.
The separated material enters into the heart of the machine, that is, the inside of the bowl. Under the action of strong centrifugal force, the material passes through a set of disc bundle separation intervals. With the neutral holes of the disc as the interface, the liquid with larger specific gravity moves along the disc wall towards the outside the neutral hole, where heavy slag accumulates in the sediment area, and the heavy phase liquid flows upward to the centripetal pump; the lighter liquid with a smaller specific gravity moves along the disc wall into the neutral hole and converges to the lower centrifugal pump. The light and heavy liquid phases are discharged by the lower centrifugal pump and the upper centripetal pump respectively; the heavy slag is regularly discharged; continuous production is implemented.
Model | Treatment Capacity per hour | Presure (MPa) | Ourlint Pressure (MPa) | Motor Power (Kw) | Weight (Kg) | Out-Line Dimension (mm) |
DSZ 204 | 1000- 1500 | 0.05 | 0.1-0.2 | 4 | 520 | 810 *850* 1350 |
DSZ 360 | 2000- 5000 | 0.05 | 0.1-0.35 | 7.5 | 1200 | 1530 *1150* 1500 |
DSZ 470 | 5000- 10000 | 0.05 | 0.1-0.4 | 15 | 1600 | 1800 *1200* 1750 |
DSZ 550 | 10000- 20000 | 0.05 | 0.1-0.4 | 22 | 2300 | 1950 *1550* 1960 |
DSZ 616 | 25000- 35000 | 0.1 | 0.3 | 37 | 3000 | 2185 *1728* 2082 |
Disc Separator is a high-speed, stable, airtight, high-efficiency and automatic slagging three-phase separation equipment, widely used for oil, mud and water separation. All wearing parts are made of high-grade stainless steel, which effectively reduce the chemical action of the separated material and the surface of the wet-touch parts. The separated light and heavy phase materials are respectively output by two centripetal pumps of different sizes. The machine adopts the upper feeding form, and the inlet pressure for the material is low. The power transmission adopts hydraulic coupling and a pair of spiral speed increasing gears or belt driven, which can achieve stable speed increase and overload protection.
the disc stack separator separates solids and one or two liquid phases from each other in one single continuous process, using extremely high centrifugal forces. When the denser solids are subjected to such forces, they are forced outwards against the rotating bowl wall, while the less dense liquid phases form concentric inner layers. The area where these two different liquid phases meet is called the interface position. This can be easily varied in order to ensure that the separation takes place with maximum efficiency. Inserting special plates (the "disc stack") provides additional surface settling area, which contributes to speeding up the separation process dramatically. It is the particular configuration, shape and design of these plates that make it possible for a disc stack centrifuge to undertake the continuous separation of a wide range of different solids from either one or two liquids. The concentrated solids phase formed by the particles can be removed continuously, intermittently or manually, depending on centrifuge type and the amount of solids involved in the specific application.
The separated material enters into the heart of the machine, that is, the inside of the bowl. Under the action of strong centrifugal force, the material passes through a set of disc bundle separation intervals. With the neutral holes of the disc as the interface, the liquid with larger specific gravity moves along the disc wall towards the outside the neutral hole, where heavy slag accumulates in the sediment area, and the heavy phase liquid flows upward to the centripetal pump; the lighter liquid with a smaller specific gravity moves along the disc wall into the neutral hole and converges to the lower centrifugal pump. The light and heavy liquid phases are discharged by the lower centrifugal pump and the upper centripetal pump respectively; the heavy slag is regularly discharged; continuous production is implemented.
Model | Treatment Capacity per hour | Presure (MPa) | Ourlint Pressure (MPa) | Motor Power (Kw) | Weight (Kg) | Out-Line Dimension (mm) |
DSZ 204 | 1000- 1500 | 0.05 | 0.1-0.2 | 4 | 520 | 810 *850* 1350 |
DSZ 360 | 2000- 5000 | 0.05 | 0.1-0.35 | 7.5 | 1200 | 1530 *1150* 1500 |
DSZ 470 | 5000- 10000 | 0.05 | 0.1-0.4 | 15 | 1600 | 1800 *1200* 1750 |
DSZ 550 | 10000- 20000 | 0.05 | 0.1-0.4 | 22 | 2300 | 1950 *1550* 1960 |
DSZ 616 | 25000- 35000 | 0.1 | 0.3 | 37 | 3000 | 2185 *1728* 2082 |
Disc Separator is a high-speed, stable, airtight, high-efficiency and automatic slagging three-phase separation equipment, widely used for oil, mud and water separation. All wearing parts are made of high-grade stainless steel, which effectively reduce the chemical action of the separated material and the surface of the wet-touch parts. The separated light and heavy phase materials are respectively output by two centripetal pumps of different sizes. The machine adopts the upper feeding form, and the inlet pressure for the material is low. The power transmission adopts hydraulic coupling and a pair of spiral speed increasing gears or belt driven, which can achieve stable speed increase and overload protection.