EP2958678A2

EP2958678A2 - Separator disc package

Info

Publication number: EP2958678A2
Application number: EP14704591.8A
Authority: EP
Inventors: Kathrin Quiter; Julian KÖNIG; Thomas Bathelt
Original assignee: GEA Mechanical Equipment GmbH
Current assignee: GEA Mechanical Equipment GmbH
Priority date: 2013-02-20
Filing date: 2014-02-14
Publication date: 2015-12-30
Anticipated expiration: 2034-02-14
Also published as: WO2014128063A2; RU2661587C2; US20160001302A1; WO2014128063A3; CN105188946A; CN105188946B; US9687858B2; ES2635144T3; EP2958678B1; DK2958678T3; DE102013101654A1; RU2015133371A

Abstract

A separator disc package for a rotatable drum (1) of a centrifuge, in particular a separator or a solid bowl screw centrifuge, which has axially stacked conical separator discs (3, 3'), disc gaps being formed between adjacent separator discs. In one or more of the axially adjacent separator discs (3) are formed one or more labyrinth-like flow channels (16) in which, during operation, the direction of flow of a product which is flowing through and from which solid materials are to be removed changes two or more times by at least 120° each time.

Description

Separator disc package

The invention relates to a separator plate package according to the preamble of claim 1.

A centrifuge with a separator plate package is disclosed for example in DE 10 2008 051 867 A1. Separator plates are commonly made of metal. Usually, tabs in the form of webs or points are formed on the separating plate, which on the one hand ensure the spacing of the plates in the axial direction and which, on the other hand, define flow paths. The technological background should also DE 610 987 PS, DE 195 37 268 C1, US 3,133,880 A, US 3,335,946 and DE 17 69 636, which disclose each separation plate with a variety of tab assemblies. One aim of the development is to design the separating plates of a plate pack of a separator or another centrifuge such that the clarification of a product of solids achieves the best possible clarifying effect.

Achieving this goal is the object of the invention.

The invention achieves this object by the subject matter of claim 1 and provides the subject matter of claims 20 and 21. It further provides a separator drum with a separator disk package according to one or more of claims 1 to 21.

Through the separating plates with a labyrinthine channel course with at least two or more diversion of the product to web-like tabs by more than 120 °, preferably more than 150 °, particularly preferably in each case substantially 180 °, a guided flow is achieved, which is a better utilization of the clarification surface of the separation plate allows.

It is structurally particularly simple if the flow channels or the flow channels are limited by elevations in the form of one or molded or attached tabs, in particular web-like tabs of the separation plate.

Then it is advantageous if each separating plate preferably divided by first tabs in the circumferential direction into a plurality of circumferentially distributed angle segments is so that in the operation of the centrifuge with rotating drum in the circumferential direction little or no liquid can flow from tray to tray segment. It is particularly advantageous if the web-like tabs of the separating plates are distributed on the separating plate, in particular within the angular segments, that a product to be processed initially radially from outside to inside, then radially from inside to outside (first deflection to quasi or substantially 180 °) and then again radially from outside to inside (second deflection by substantially or quasi 180 °). In this way, a particularly good utilization of the clarification surface is achieved because a product remains in the disk gap for a relatively long time before it is discharged to the center as a clarified phase. In this way, a very advantageous flow behavior is achieved in a flow channel which can also be designated as a Z-shaped or S-shaped.

In this case, it is once again particularly advantageous with regard to the separation behavior when the flow channel (s) are configured in such a way that at least part of a product entering in the outer radial third in at least one riser channel of the separation plate stack flows in the radial direction between the separation plates is then deflected radially outwardly and then deflected radially inwardly again, where it exits at the radial inner edge of the separator plate package from this. Due to the entry radially outward and the outlet radially inwardly the path of the part of the product that flows along this entire path, particularly advantageously very long.

It is precisely a redirection of a product portion which initially flows radially inward outwards, e.g. in DE 610 987 PS or in the US

3,133,880 not held. According to a variant and also independently to be considered further invention is between two radially or substantially radially extending tabs, in particular between the second tab of a tray segment and the first tab of the next circumferential plate in the circumferential direction a further (preferably fourth) tab is provided which, in any case, has a smaller radial height than the spacers which also serve as spacers. see, so that between the vertical top of this further tab and the underside of the axially next upper plate a cross-sectional reduction or a gap in the flow channel is formed, can flow through the product (in particular solid particles) to the outside of the disk package.

The invention will be described in more detail with reference to the drawing with reference to several embodiments. Show it:

Fig. 1 is a perspective view of a schematically illustrated

Separating disc;

Fig. 2 is a schematic diagram of a nozzle separator, which is suitable for use of the separation plate of Figure 1;

3 shows a plan view of a segment of a second separating plate;

4 shows a plan view of a segment of a third separating plate;

Fig. 5a is a perspective view of a fourth separating plate; and

Fig. 5b is a view of an edge portion of the fourth separation plate

Fig. 5a in the direction of arrow F in relation to FIG. 5a enlarged view.

2 shows a centrifuge designed as a separator, here as a nozzle separator, with a drum 1 rotatable about a rotation axis D, into each of which a separation plate package 2 of stacked or stacked separation plates 3, 3 'is inserted. The function of such separators with an inlet 4, a solids chamber 5 and processes 6, 7 for solids discharge and liquid phase (s) discharge has long been well known and therefore needs no further explanation. The axis of rotation D is vertically aligned here and the drum 2 is preferably biconical. It enables continuous processing, in particular clarification, of a product to be processed. In addition, a separation of the product into two liquid phases of different density can take place. For emptying of solids preferably nozzles (drain 6) or closable by piston valves openings in the drum are used (not shown). FIG. 1 shows a schematic representation of a separating plate 3 of the separating plate stack 2, which preferably consists of a metal sheet.

The respectively adjacent separating plates 3 and 3 'are arranged axially spaced from each other so that a gap, a so-called plate gap, is formed between them.

The separating plate 3 has a conical basic shape 9 (see FIG. 1), so that a sequence of several separating plates 3, 3 'also forms a substantially conical separating plate packet 2.

In this case, the separation plate 3 has a radial Au ßenrand 1 0 and a radial inner edge 1 1. At the separation plates 3 solids are separated from a liquid to be clarified.

On the conical basic shape 9 of the separating plate 3 elevations are formed by tabs 1 2, 1 3, 14, which can be preferably formed by a stamping process but also by placing appropriate webs on the plate. In Figs. 1, 3, 4 and 5a, the tabs are indeed shown in dashed lines, but this is the easier recognizability for detecting the tabs, the Shen by impressing, Aufschwei or the like. Can be made and protrude axially from the plate.

These tabs 1 2, 13, 14 serve as spacers and influence the flow. On the underside of the separation plate preferably no tabs are provided. The separation plates 3 are there smooth or have a microstructure, which is compared to the axially preferably a few tenths mm protruding tabs 1 2 to 14 axially very low. The tabs 1 2 to 14 preferably form a tab pattern, as can be seen in Fig. 1.

First, the upper side of the separating plates 3, preferably each separating plate 3, is subdivided into a plurality of circumferentially distributed angular segments 1 5a, b, c,... By first tabs 12 in the circumferential direction. The first tabs 12 extend radially. They preferably extend over at least 90-100% of the radial length of the separation plates, preferably from the outer edge 10 to the inner edge 11 or right up to these edges. In the circumferential direction preferably no liquid from plate-angle segment 15a to plate-angle segment 15b, etc. flow.

In conjunction with the further tabs 13, 14, a labyrinth-like flow channel 16 is formed which ensures at least a single, but preferably double or even triple or multiple deflection by at least 120 °, preferably in each case substantially 180 °.

This will be explained in more detail below. In addition to the first tabs 12 is spaced circumferentially and in the direction of rotation D of the centrifuge drum or offset each angular segment 15 a, b, c, ... preferably each formed a second tab 13 which also extends radially, preferably directly from the outer edge 10 radially inwardly, preferably from the outer edge 10 by 50% to 80% of the radial extent of the separation plate 3 inwards.

Then, each angle segment 15 a, b, c, ... preferably a third tab 14 is present. This has, according to the embodiment of FIGS. 2 and 3 in a plan view of the separating plate 3, an L-shape with two legs 14a and 14b which are angled at an angle, in particular at right angles. The third tab 14 preferably passes directly into the first tab 12 or sets directly to this.

Preferably, one of the legs 14a also extends radially. In the direction of rotation relative to the second lug 13, this leg 14a is spaced between the second lug 13 and the first lug 12 of the next or adjacent tray segment 15b. The leg 14a preferably extends over more than 50% of the radial extent of the separation plate 3, wherein it is arranged approximately centrally between the outer edge 10 and the inner edge 1 1. He has in particular to the outer edge 10 at a radial distance, the we- at least 5%, preferably at least 10% of the radial extent of the separating plate 3

The radially inner end of this leg 14a is over a preferably in the circumferential direction or perpendicular or substantially perpendicular to the

Leg 14a and the first tab 1 2 extending legs 14b connected to the first tab 1 2. This leg 14b is preferably located in the circumferential direction directly adjacent to the inner edge 1 1st Such a labyrinth-like flow channel 1 6 is preferably formed in each tray segment in the tray 1 5a, b, c ..., which extends between the tabs and a liquid twice by quasi or substantially 180 ° (or quasi 1 80 ° ) redirects. In an inflow zone 1 6a between the tabs 1 2, 1 3 radially from the outside Shen in the plate gap inflowing product first flows radially inward, is then deflected around the inner end of the second tab 1 3 around, then flows in a second zone 1 6b of the channel 1 6 radially outward Shen and is finally deflected by the externa ßere end of the third tab 14 radially inwardly into a zone 1 6c. In this case, preferably occur at the radially outer ßeren end of the zone

16b solids radially outward Shen from the Trenntellerpaket, so there is a flow to the outside Shen.

Essentially, the clarified product then flows between the third tray 14 and the first lug 1 2 of the tray 1 5b next in the direction of rotation in the third zone 1 6c of the channel 1 6 radially inward over the inner edge 11 and is discharged there. This arrangement is preferably repeated in the circumferential direction. Through the labyrinth-like channel course with at least one or preferably at least twice deflection of the product in directions P1, P2, P3 by more than 1 20 °, in particular more than 1 50 °, preferably substantially 1 80 °, a guided flow is achieved, which is a better utilization of the clarification area allows. FIGS. 3 and 4 also show that the separating plates 3, according to a variant of the invention discussed so far, and also as an independently contemplated invention distributed in the circumferential direction, can alternately have regions 17, 18 of different outside diameters.

Shown is a plan view of one of the angle segments 15. In the regions 17 slightly smaller or larger outer diameter (preferably, the outer diameter is here by 1 to 10 mm larger or smaller than in the areas 18) should preferably be the entry into the first zone 16a of the flow - Channel 16 are located. In the areas 18 smaller or larger diameter, however, should be the radial outlet for the solid particles. In this way, the path of the product in the plate gap is further extended and the clarification effect optimized. The separating plate 3 can optionally have openings or recesses which, in interaction with another separating plates 3 'in the mounted state, form a rising channel (not shown). Preferably, however, it is formed without a rising channel, since it is particularly advantageous to utilize the fact that product or material to be centrifugally injected radially from the outside into the plate package 2 is deflected several times on its way radially inward between the separating plates. If riser channels are provided, they are preferably located in the outer radial third of the separator plate package so that a relatively long path is still traveled radially inwards from the fluid material to be processed, which is still to be processed. In the area between the tabs, the surface of the conical separating plates is preferably not tiered or wavy, as shown in US 3,133,880 but - apart from u.U. existing microscopic structures on the plate surface, smooth surface.

Fig. 4 shows how Fig. 3 is a plan view of a single tray segment, preferably in the circumferential direction join more equally shaped tray segments.

4, the first and second tabs 12, 13 are configured and aligned radially in the manner of FIG. 1. According to Fig. 4, the third tab 14 'but not L-shaped but at an acute angle - preferably at an angle between 30 ° and 60 ° - to the first tab 12 aligned third tab 14' is formed, which extends obliquely from the inner edge 1 1 to the outside in that its radially outer free end projects radially outwards (and in the circumferential direction) beyond the radially inner end of the second lug 13. Also such a double deflection is achieved by 180 °. The oblique arrangement of the tab 14 'allows a good sliding of the solids at this third tab 14' radially outward. It is clear that it is very possible to put the invention into practice by means of tab patterns of various kinds.

According to Fig. 5 is provided as an option, in the circumferential direction between the second tab 13 of a disk segment and the first tab 12 of the next disk segment - preferably immediately before or on the outer edge 10 - provide a fourth tab 19. This fourth tab 19 has - see Fig. 5b - but a lower radial height than the rest as well as spacers of the plate in the disk package einenden tabs 12, 13, 14 a, b. In this way, between the upper side of this fourth tab 19 and the lower side of the axially next upper plate (indicated in FIG. 5 by a dashed line T, a cross-sectional reduction or (usually only one or very few tenths of mm) axially extending) gap 20 formed in the flow channel, through which the flow conditions are so positively influenced that the solids can well leave the plate package to the outside, while the main flow of the product is positively supported on the inside.

REFERENCE CHARACTERS

Drum 1

Separator plate package 2

Separation plate 3, 3 ',

Inlet 4

Solid space 5

Processes 6, 7

Basic form 9

Outer rim 10 inner rim 1 1

Tabs 12, 13,

Leg 14a, b

Angular segments 15a, b,

Flow channel 16

Zones 16a, b,

Areas 17, 18

Tab 19

Gap 20

Arrows F, S

Directions Product flow P1, P2

Claims

claims

1 . Trenntellerpaket for a rotatable drum (1) of a centrifuge, in particular a separator or a solid bowl centrifuge for processing a flowable product in continuous operation, which axially stacked conical separation plates (3, 3 '), wherein between adjacent separation plates each plate gaps are formed, characterized in that one or more labyrinth-like flow channels (16) are formed on one or more or all or all of the axially adjacent separation plates (3), in which the flow direction of a flowing product to be clarified by solids in operation twice or more times by at least 120 ° changes.

2. Trenntellerpaket according to claim 1, characterized in that the one or more flow channels (16) are designed such that they deflect the product to be processed twice by in each case substantially 180 °.

3. Trenntellerpaket according to claim 1 or 2, characterized in that the one or more flow channels (16) by elevations in the form of one or molded or attached tabs (12, 13, 14) of the separation plate and each of two adjacent separation plates (3, 3 ') are limited.

4. Trenntellerpaket according to claim 1, 2 or 3, characterized in that the tabs (12, 13, 14) of the separation plate (3) are web-like.

5. Trenntellerpaket according to any one of the preceding claims, characterized in that the one or more flow channels (16) in surveys in the form of one or molded or attached tabs (12, 13, 14) on the separation plates or the separation plate (3) are limited.

6. Trenntellerpaket according to any one of the preceding claims, characterized in that the separating plates (3) have a radial outer edge (10) and a radial inner edge (1 1) and that the surface of the separation plate (3) by first tabs (12) in the circumferential direction divided into a plurality of circumferentially distributed angle segments (15a, b, c, ...) is divided, so that in operation of Centrifuge with rotating drum in the circumferential direction preferably no liquid flows from angle segment to angle segment.

7. Trenntellerpaket according to any one of the preceding claims, characterized in that the web-like tabs (12, 13, 14) of the separation plate (3) are distributed on the separation plates, in particular within the angle segments (15) that a product to be processed completely or partially initially radially from outside to inside, then radially from the inside to the outside and then again radially from outside to inside.

8. Trenntellerpaket according to claim 7, characterized in that the one or more flow channels (16) are configured such that at least a part of the outer periphery in the Trenntellerpaket (2) at the outer edge in the gap between the separation plates (3) entering product first radially after flows inside, then is deflected radially outward and then again radially inwardly deflected, where it exits at the radial inner edge of the separator plate package (2) from this.

9. Trenntellerpaket according to claim 8, characterized in that the one or more flow channels (16) are designed such that at least a part of the outer radial third in at least one riser channel of Trenntellerpakets in column between the separation plates (3) entering product first radially after flows inside, then is deflected radially outwards and then deflected radially inwardly again, where it exits at the radial inner edge of the separator plate package (2) from this.

10. Trenntellerpaket according to any one of the preceding claims, characterized in that in addition to the first tabs (12) in the circumferential direction of the centrifuge drum spaced a second tab (13) is formed, which extends radially.

1 1 .Trenntellerpaket according to any one of the preceding claims, characterized in that the second tab (13) extends over 50% to 80% of the radial width of the separation plate (3).

12. Trenntellerpaket according to any one of the preceding claims, characterized in that a third tab (14) is provided.

1 3. Trenntellerpaket according to any one of the preceding claims, characterized in that the third tab (14 ') attaches to the first tab (1 2) and is aligned at an acute angle to this, so that its radially outer ßeres free end radially outward ßen over the inner end of the second tab (1 3) protrudes.

14. Trenntellerpaket according to any one of the preceding claims, characterized in that a third tab (14) is provided, which has an L-shape with two mutually angled, in particular at right angles, aligned legs (14a and 14b).

1 5. Trenntellerpaket according to any one of the preceding claims, characterized in that the third tab (14) adjacent to the first tab (12) or directly into the first tab (1 2) passes.

1 6. Trenntellerpaket according to any one of the preceding claims, characterized in that one of the legs (14 a) of the third tab (14) extends radially, so that this leg (14 a) in the direction of rotation to the second tab (1 3) spaced between the second tab (1 3) and the first tab (1 2) of the next direction of rotation or respectively adjacent tray segment (1 5b) is located.

1 7. Trenntellerpaket according to any one of the preceding claims, characterized in that the leg (14a) extends over more than 50% of the radial width of the separation plate (3), wherein it has to Au ßenrand (1 0) at a distance which at least 5%, preferably at least 1 0% of the radial width or extent of the separation plate (3).

1 8. Trenntellerpaket according to any one of the preceding claims, characterized in that between the radially inner end of the radial leg (14 a) and the first tab of the further leg (14 b) is formed or arranged.

19. Trenntellerpaket according to any one of the preceding claims, characterized in that it is formed steigekanalfrei.

20. Trenntellerpaket according to any one of the preceding claims or according to the preamble of claim 1, characterized in that the separating plates (3) distributed in the circumferential direction alternately regions (17, 18) have different outer diameter.

21. Trenntellerpaket according to any one of the preceding claims or according to the preamble of claim 1, characterized in that between two radially or substantially radially extending tabs, in particular between the second tab (13) of a tray segment and the first tab (12) of the next in the circumferential direction Tellersegments in the circumferential direction another (fourth) tab (19) is provided, which has a lower radial height in any case than the spacers serving as tabs (12, 13), so that between the top of this further tab (19) and the bottom of the axially next upper plate a cross-sectional reduction or a gap (20) is formed in the flow channel, can flow through the product (in particular solids) to the outside of the disk package.

22. Separator drum with a separator disk pack according to one of the preceding claims.