DE9208156U1 - Cyclone separator - Google Patents

Description

Cyclone separator

The innovation relates to a cyclone separator with an at least partially conical housing, with a tangential or spiral feed nozzle for the solid-fluid mixture, a discharge opening for the separated solid arranged in the smallest diameter of the conical housing part and, if necessary, a substantially axially arranged dip tube.

Aerocyclones and hydrocyclones are used to separate solids from a fluid or to classify solids. The fluid-solid mixture is fed tangentially or spirally into the upper part of a cyclone. The solids are partly separated in the lower part of the cyclone. The fluid leaves the cyclone with fine solid particles through the dip tube (if present). An external descending vortex and an ascending inner vortex form in the cyclone. Turbulence forms in the boundary area between the outer and inner vortex, which leads to a high pressure loss and to a disruption in the solids separation. The inner vortex with its high fluid speeds also leads to high pressure losses.

The aim of the innovation is to reduce the pressure loss and improve the separation behavior.

This objective is achieved by a guide device provided below the immersion tube, by means of which the fluid inside the cyclone can be sucked off tangentially and immediately afterwards diverted from the tangential to the axial direction of the immersion tube.

Advantageous further developments of the subject matter of the innovation can be found in the dependent claims.

One or more inlet spirals with one or more slots can be provided below the immersion tube, through which the fluid (gas) can enter. The flow direction is diverted from the tangential to the axial direction by at least one guide plate. The guide plate(s) have a smaller angle of attack at the front, which increases towards the rear. The spirals can be open or closed inside. The inlet spiral can also be open at the bottom, closed with a disk.

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closed or additionally provided with a closed cone. In addition, the inlet spiral can be cylindrical, conical or a mixture of cylindrical and conical.

Alternatively, it is possible to provide the already mentioned inlet spiral with one or more inlet slots below the immersion tube, whereby the fluid is diverted by a series of smaller plates that have a smaller angle of attack at the front of the slot and increase towards the rear. The number of plates and the gradation of the angle of attack can be varied.

Tangential suction can alternatively be achieved using a channel that has an increasing gradient and merges into the immersion tube or cyclone cover. The channel can be unlined, cylindrical or conically lined.

The innovation is shown using an example in the drawing and is described as follows. Shown are:

Figure 1 - Cyclone separator with an inlet spiral designed as a guide device

Figures 2 and 3 - different cross sections through the inlet spiral

Figure 4 - Cyclone separator with an inlet spiral designed as a guide device, whereby the flow is redirected by a large number of sheets

Figure 5 - Cyclone separator with a channel designed as a guide device.

Figure 1 shows a cyclone separator 1, which in its upper area contains a cylindrical housing section 2 and in its lower area a conical housing section 3. The smallest area of the conical housing section in terms of diameter, which is only indicated, serves as the outlet area 4 for the separated solids. A dip tube 5 is provided within the cyclone separator 1, which is approximately

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Axis 6 of the cyclone 1. Below the immersion tube 5, a guide device 7 is provided, which in this case is formed by an inlet spiral 8. The inlet spiral 8 is open at the bottom, with a conical end 8' also indicated by dashed lines. At least one guide plate 9,10 is arranged within the inlet spiral 8, through which the upwardly rising fluid is sucked in tangentially and deflected in the axial direction of the immersion tube 5. For this purpose, the guide plate 9,10 has a smaller angle of attack at the front than at the back.

Figures 2 and 3 each show a cross section through the inlet spiral 8, with Figure 2 showing an internally open cross section 11 and Figure 3 showing an internally closed cross section 12.

Figure 4 shows, as an alternative, a cyclone separator 1 with a guide device 13 that is also designed as an inlet spiral, with a plurality of slots 14 being provided here that interact with corresponding smaller plates 15 that have a smaller angle of attack at the front of the slot 14 than at the rear.

As a further alternative, Figure 5 shows a cyclone separator 1 with a channel 17 designed as a guide device 16, which has a gradient increasing from bottom to top and ends in the dip tube 5. The channel 17 can, as shown, be unlined, although alternatively it is also possible to line it cylindrically or conically.

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Claims (14)

Protection claims 1. Cyclone separator with an at least partially conical housing, with a tangential or spiral-shaped feed nozzle for the solid-fluid mixture, a discharge opening (4) for the separated solid arranged in the smallest diameter of the conical housing part (3), optionally a substantially axially arranged immersion tube (5) and a guide device (7, 13, 16) provided below the immersion tube (5), by means of which the fluid in the interior of the cyclone (1) can be sucked off tangentially and immediately afterwards diverted from the tangential to the axial direction of the immersion tube (5). 2. Cyclone separator according to claim 1, characterized in that below the immersion tube (5) at least one inlet spiral (7, 13) connected thereto is provided. 3. Cyclone separator according to claims 1 and 2, characterized in that the inlet spiral (13) is provided with several slots (14) for fluid intake and guidance. 4. Cyclone separator according to claims 1 to 3, characterized by at least one guide plate (9, 10) for changing the flow direction with an angle of attack that increases from front to back. 5. Cyclone separator according to one of claims 1 to 4, characterized in that the inlet spiral (7) has an open cross-section (11) on the inside. 6. Cyclone separator according to one of claims 1 to 4, characterized in that the inlet spiral (7) has a closed cross-section (12) on the inside. 7. Cyclone separator according to claims 1 to 6, characterized in that the inlet spiral (7, 13) is open at the bottom. PAT6143AP -C- 8. Cyclone separator according to claims 1 to 6, characterized in that the inlet spiral (7) is designed to be closed at the bottom. 9. Cyclone separator according to claims 1 to 6, characterized in that the lower region of the inlet spiral (7) is separated by a
closed cone (8 ¹ ) is formed. 10. Cyclone separator according to claims 1 to 9, characterized in that the inlet spiral (7, 13) is cylindrical, conical or cylindrical and conical. 11. Cyclone separator according to claims 1 to 10, characterized by small guide plates (15) provided in the area of the slots (14), which have a smaller angle of attack at the front of the respective slot (14) than at the rear. 12. Cyclone separator according to claim 1, characterized in that a guide channel (17) is provided below the immersion tube (5), which
has an increasing gradient. 13. Cyclone separator according to claim 12, characterized in that the channel (17) is unlined. 14. Cyclone separator according to claim 12, characterized in that the channel (17) is provided with a cylindrical or a conical casing. PAT6143AP