SE470493B - Centrifugal separator with elongated carrying elements arranged in a dispensing chamber - Google Patents

Description

The described collision between the separated liquid and the free liquid surface, or between the liquid and a wing, results in splashes which entail a great risk that air or gas, which is radially inside the free liquid surface in the outlet chamber, is involved. in the separated liquid which flows radially outwards towards the inlet of the outlet duct and further towards the outlet. The locally high liquid velocity which arises next to the free liquid surface in the layers in which the liquid flows radially outwards in the liquid body also entails a great risk of such an admixture of air or gas.

In order to reduce the high liquid velocities in the layers in which the liquid flows radially outwards, it has been proposed, as shown in WO 89/03250 A1, that the means which are to carry the liquid in the outlet chamber in the rotation of the rotor are designed as at least one connected to the rotor and with this concentric disc. In this way, the outwardly directed liquid flow in the outlet chamber is distributed over several layers with a total large cross-sectional area, whereby the flow velocities in the layers and thus the risk of air mixing become smaller. However, the disc or discs according to the proposed known solution are not able to sufficiently reduce the air mixture and at the same time satisfactorily bring the separated liquid into the rotation of the rotor. The object of the present invention is to provide a centrifugal separator of the type initially described, in which the risk of air mixing in discharged separated liquid is less than in hitherto known centrifugal separators of this kind with a corresponding ability to carry the separated liquid into the outlet chamber.

This is achieved according to the present invention in that the means for carrying the separated liquid present in the dispensing chamber during operation of the rotor comprise a plurality of elongate elements distributed around the axis of rotation and rotating with the rotor, which form axially extending flow spaces. , radially and in the circumferential direction of the rotor.

In a preferred embodiment of the invention, the elongate elements are straight and regularly oriented in a substantially axial direction, but they may alternatively be radially directed.

In another embodiment of the invention, the elongate elements are irregularly oriented and abut ably against each other.

In a special embodiment of the invention, the elongate elements can be supplemented with at least one wing fixedly connected to the rotor, which extends radially and axially in the outlet chamber, so that a more efficient entrainment of the liquid in the outlet chamber is obtained.

The invention is described in more detail below with reference to the accompanying drawings, in which Fig. 1 schematically shows an axial section through a part of a centrifugal separator according to the invention, Fig. 2 shows a view of a detail in a centrifugal separator according to the invention, and Fig. 3 shows a section along the line III-III in Figure 2.

The part of a centrifugal separator shown in figure 1 comprises a rotor, which has a lower part 1 and an upper part 2, which are held together by a locking ring 3. Inside the rotor an axially movable valve slide 4 is arranged. This valve slide defines together with the upper part 2 a separation chamber 5 and is arranged to open and close an outlet passage between the separation chamber 5 and outlet openings 6 for intermittent discharge of a component which has been separated from a rotor supplied mixture and collected in the separation chamber. the periphery of the chamber. The valve slide 4 delimits together with the lower part 1 a closing chamber 7, which is provided with an inlet and a throttled outlet for a closing liquid.

These inlets and outlets are not shown in the figure.

Inside the separation chamber 5 a disc set 8 consisting of a number of conical separation discs is arranged between a distributor 9 and the upper part 2. The upper part 2 forms at its upper end shown in the figure an outlet chamber 10, to which a mixture of liquid supplied from the rotor can flow from the separation chamber 5 via a passage 11 and in the outlet chamber 10 form a rotating liquid body with a radially inwardly facing free liquid surface at a certain radial level. The outlet chamber 10 is delimited by two axial end walls 12, 13 and a circumferential wall 14, which extends between them.

Centrally through the outlet chamber 10 is arranged a stationary inlet pipe 15, which opens into the interior of the distributor 9. Around this inlet pipe 15, a stationary outlet pipe 16 is arranged for the specifically lighter liquid in the supplied mixture. The outlet pipe 16 extends into the outlet chamber 10.

Inside the outlet chamber 10 a stationary discharge means 17 is arranged around the inlet pipe 15. The discharge means 17 extends from the rotating liquid body radially inwards to the inlet pipe 15 and forms inside at least one outlet channel 18, one end of which has a peripheral inlet mouth 19 and the other end of which in the interior of the outlet pipe 16. In the outlet chamber 18, means 20 are arranged fixedly connected to the end walls 12 and 13. These means 20 are arranged to carry during operation the liquid present in the outlet chamber 10 in the rotation of the rotor and allow flow thereof radially outwards towards the inlet 19 of the outlet channel 18.

Figures 2 and 3 show in more detail the design of said means 20. According to this embodiment of the invention, the means 20 comprises an annular circular disc 21 which is fixedly connected to an end wall 12 or 13 concentrically with the axis of rotation. On the axial side of the disc facing the stationary discharge member 17, a plurality of elongate elements 22 are distributed around the axis of rotation and form between them flow spaces which extend axially radially and in the circumferential direction of the rotor. In the embodiment shown, the elongate elements 22 are fixedly connected to each other via the disc 21 and are directed axially. The flow spaces between the elongate elements 22 are open in the direction of the stationary discharge means 17.

In order to increase the carrying capacity of the means, the means 20 shown as an example also comprises three wings 23 fixedly connected to the disc 21, which extend radially and axially in the outlet chamber 10.

A centrifugal separator designed according to the invention operates as follows: When starting the centrifugal separator, the rotor is caused to rotate and the separation chamber 5 is closed by supplying a closing liquid 7 to the closing chamber 7 through an inlet (not shown). After the separation chamber 5 is closed, the liquid mixture to be centrifuged can be supplied to the separation chamber 5 through the inlet pipe 15 and the distributor 9. Eventually the separation chamber 5 is filled, the rotor obtains operating speeds and the conditions are stabilized inside the separation chamber. The components contained in the liquid mixture are separated under the influence of the same centrifugal forces.

The separation takes place mainly in the spaces between the conical discs included in the disc set 8. During the separation, the specifically heavier component is thrown radially outwards and accumulates in the radially outermost part of the separation space, while a specifically lighter liquid flows radially inwards into these spaces.

The specifically heavier component is removed intermittently during operation by causing the valve slide 4 to expose the peripheral outlet openings 6 for periods of time.

The specifically lighter liquid flows out of the separation chamber 5 through the passage 11 to the outlet chamber 10, in which it forms a rotating liquid body with a radially inwardly facing free liquid surface. The liquid present in the outlet chamber 10 is discharged through the outlet channel 18 in the stationary discharge means 17 via its inlet 19. The entrainment of the liquid component present in the outlet chamber 10 takes place gently by the means 20 rotating with the rotor and by other inner surfaces of the outlet chamber walls. The liquid closest to the discharge means 17 is braked by the contact with the outer surfaces of the discharge means 17. Different parts of the liquid volume present in the outlet chamber 10 thereby obtain different rotational speeds. The contact between the liquid and the outer surfaces of the discharge means 17 causes a circulating flow to be generated in the outlet chamber 10, the liquid flowing radially inwards along the outer surfaces of the discharge means 17 and radially outwards in layers extending along and connecting the elongate elements 22 and along the inner surfaces 10 of the outlet frame 10. In the case where the said means also comprises a wing 23, the liquid flows radially outwards also in layers along it.

This flow radially outwards is distributed over relatively large layers. The local maximum flow velocities can thereby be kept low, which is especially important next to the free liquid surface due to the fact that the risk of air mixing is particularly great there.

If the passage 11 is arranged at substantially the same radius as the radius at the inlet 19 of the outlet duct 18, the radial outward flow is to be attributed to the internal circulation in the outlet chamber 10.

Sometimes, however, it is necessary to place the passage 11 radially inside said inlet 19 in order to be able to keep the different liquid levels inside the separation chamber 5 at desired radii. In this case, there is the radially outward flow which this location of the passage 11 gives rise to.

Claims (9)

10 15 20 25 30 A centrifugal separator comprising a rotor which forms an inlet chamber for a liquid mixture of components, a separation chamber (5) connected to the inlet chamber, and an outlet chamber (10) which communicates with the separation chamber via a passage (11). for receiving one in the separation chamber ~ | (5) liquid separated during operation and which is designed such that liquid present therein forms a rotating liquid body with a radially inwardly facing free liquid surface, a stationary discharge means (17), which extends from said liquid body radially inwards to a central outlet and in which is formed at least one outlet channel (18), one end of which has an inlet (19) located in said liquid body and the other end of which opens into an outlet connected to the discharge means, and means (20) connected to the rotor, which are arranged to carry during the operation of the rotor the separated liquid present in the outlet chamber (10) in the rotation of the rotor and to simultaneously allow flow of such liquid in the outlet chamber (10) radially outwards towards the inlet (19) of the outlet duct (18), characterized in that means (20) comprise a plurality of elongate elements f (22) distributed around the axis of rotation and rotating with the rotor which between them form flow spaces which extend axially, radially and in the circumferential direction of the rotor. O * 10 15 20 25 30 Centrifugal separator according to Claim 1, characterized in that the elongate elements (22) are fixedly connected to one another. Centrifugal separator according to claim 1 or 2, characterized in that the elongate elements (22) are straight and substantially regularly oriented. A centrifugal separator according to claim 2 or 3, characterized in that at least a part of the elongate elements (22) are substantially axially directed. A centrifugal separator according to claim 2 or 3, characterized in that at least some of the elongate elements (22) are substantially radially directed. Centrifugal separator according to claim 1 or 2, characterized in that the elongate elements (22) are substantially irregularly oriented. Centrifugal separator according to Claim 6, characterized in that the elongate elements (22) abut one another. Centrifugal separator according to any one of the preceding claims, characterized in that said means also comprises at least one wing (23) fixedly connected to the rotor, which extends radially and axially in the outlet chamber (10). A centrifugal separator according to any one of the preceding claims, characterized in that said flow spaces are open in the direction of the stationary discharge means (17).