DE3318064A1 - Process and apparatus for the separation of a solid-liquid mixture - Google Patents

Abstract

In a process for the separation of a solid-liquid mixture in the centrifugal field of a solid bowl screw centrifuge into an essentially liquid-containing and an essentially solids-containing component, it is proposed that the previously dewatered solids-containing component is deflected in the centrifugal field and is subjected to a subsequent dewatering. An apparatus provided for this comprises a solid bowl screw centrifuge (1) with a discharge portion formed with at least two conical cascade-like steps consisting of solid bowl parts (6,11). <IMAGE>

Description

Annex to the patent application by

Klöckner-Humboldt-Deutz Aktiengesellschaft dated May 16, 1983 proceedings and apparatus for separating a solid-liquid mixture The invention relates to a method and a device for separating a solid-liquid mixture in the centrifugal field of a solid bowl screw centrifuge into an essentially liquid-containing and one-essentially solid-containing component.

As is well known, difficult and complex drainage problems arise in the case of solid-liquid mixtures, if the solid is, for example, colloidal Form. Also mixtures with low solids content in the liquid on the one hand and small differences in density of the phases to be separated on the other hand is extremely difficult to separate in a centrifugal field.

Mixtures with such properties are, for example, sewage sludge municipal sewage works. In order to achieve extensive dewatering of the solids content For example, to achieve an almost solid consistency, became already proposed a discontinuous centrifuge serving for pre-dewatering downstream working filter presses to thicken the sludge solids that it can be deposited.

For example, in DE-AS 24 33 375 a method and a device for sludge dewatering of large quantities of municipal and industrial plants Solid-liquid mixtures are described, the sludge being subjected to centrifugal dewatering is subjected and then subjected to a press and / or fulled dewatering.

The machine equipment required for this is on the one hand complex and laborious. On the other hand, a quantitative and qualitative coordination is the difficult with both different dewatering methods and machines. Furthermore Such methods and devices have the disadvantage that they are in proportion at a relatively high cost of investment, operation and maintenance only provide relatively low throughput.

The invention is based on the object of a method for separation of a solid-liquid mixture in the centrifugal field of a solid bowl screw centrifuge and a solid bowl screw centrifuge suitable for this purpose far to improve and perfect so that it succeeds with a minimum of economic effort a difficult-to-treat solid-liquid mixture dewater to the extent that it is while avoiding the existing state of the art Difficulties and technical limits up to the problem-free landfill capability respectively to allow further treatment steps in the reprocessing without any problems Condition is thickened.

The object is achieved according to the invention in that the pre-drained, solids-containing component is deflected in the centrifugal field and a subsequent drainage .is undergone.

As a result of the deflection, difficult-to-dehydration becomes thixotropic with advantage Sludges, which essentially contain colloidal solids, jelly or gels, liquefied, so that if the centrifugal field persists, subsequent dewatering takes place. Because the deflection in the centrifugal field occurs spontaneously in a cascade and takes place under the action of sudden changes in pressure, is in particular thixotropic sludges offer optimal liquefaction with a minimum of effort expended energy reached.

This is achieved through almost lossless implementation of the Energy in the desired change of state of the solid-containing component of est in liquid in an embodiment of the method according to the invention, that the deflection of the solids-containing component by transferring it from one Zone of the centrifugal field with lower energy in a zone of the centrifugal field takes place with higher energy.

This is advantageously achieved in that the solids-containing component in the direction of their transport movement of a substantially right-angled change of direction is subjected.

The effect is particularly lasting because the solids-containing Component with advantage immediately after a double change of direction is subjected.

In the case of sludge that is particularly difficult to dewater, optimal drainage results achieved by the fact that in the pre-drainage of the Solid-liquid mixture the components in cocurrent, and in the post-dewatering the solid-containing component solid and liquid in countercurrent to one another be guided.

Here it is possible with in direct current. in calmed flow the onset of sedimentation to intensify this by using a flocculant. The resulting solids, which agglomerate into flakes, are taken from the centrate neatly separated. A center that is largely clean of impurities is obtained.

On the other hand, however, the pre-flocculation promotes the formation of a gelatinous and / or gel-like, thixotropic pre-thickened sludge, its further dewatering in the centrifugal field in the previously usual manner in a second mechanical drainage stage had to be made where against the subsequent drainage by redirecting accordingly the teaching of the invention in Zentrifugalfe.ld in.

surprisingly up to a much higher degree of thickening succeed.

It is advantageously provided that the liquid-containing components on the one hand the pre-drainage and on the other hand the post-drainage at different Digits from the solid bowl screw centrifuge.

Particular advantages result from the application of the invention on pre-flocculated solid-liquid mixtures, which for the first time has an extensive Separation are made accessible.

A device for separating a solid-liquid mixture in the centrifugal field of a solid bowl screw centrifuge into an essentially liquid-containing and an essentially solid-containing component, in particular for carrying out the method according to claims 1 to 6, is characterized in that that the solid bowl screw centrifuge with at least two conical, solid bowl parts existing stages is formed, and that each of these stages has an outlet for each has a liquid-containing component.

In comparison with multi-stage drainage systems according to the Prior art, the device according to the invention is uncomplicated, compact and requires much less effort. These advantages result from while the device according to the invention successive dewatering stages in are integrated into a single device.

It is provided that the taper of the steps of the discharge part runs in the same direction.

This is the case with a concurrent arrangement, as well as with a counter-rotating arrangement Arrangement of the steps of the discharge part achieved in that they are in the transport direction rejuvenate the solid.

Further advantages arise in the treatment of difficult to dehydrate Sludge by the fact that additional -E-built-in in the deflection area of the post-drainage part the solid bowl centrifuge are arranged.

Such internals can be designed, for example, as a stirring body be that at. the inner wall of the preferably last discharge part or on the outer wall of the screw body are arranged ers.

It is further provided that in the direction of transport of the solids are located one behind the other Shell parts of the solid bowl centrifuge by at least one radial connecting element, preferably a disc, are held in their mutual position, un that the Outlet for the liquid-containing component of the post-drainage in the outer area - this Disc is arranged-.

In the following, the invention and its advantages will be explained with the aid of an exemplary embodiment explained in more detail in the drawing.

The figure shows a full jacket screw centrifuge 1. One shaft 2, their storage and drive elements are not shown for reasons of clarity are, carries a radial cover plate 3 firmly connected to it, on the means a first flange connection 5, a cylindrical one Full jacket part 4 is attached. At this is by means of a second flange connection 7- the conical Solid jacket discharge part 6 is arranged. At its.tapered end 8 is a.radiales Connecting element 9 attached in the form of an annular disc. This takes A second conical discharge part 11 via a third flange connection 10. Its tapered end 12 is also of a radial connecting element in Supported in the form of a disk 13 which is connected to the shaft 15. The cylindrical Solid jacket part 4 and the two conical solid jacket discharge parts 6 and 11 form a rigid, rotationally symmetrical body mounted in shafts 2 and 15 and is provided with a drive, not shown. In it is, also by means of Shaft parts 36, 37 are rotatably mounted in a known manner and a screw body 16 is arranged and driven with a differential speed compared to the solid jacket of the centrifuge 1. The screw body 16 has a first cylindrical part 18 with a adjoining conical Au strägschneckteil 19 and one with this over a flange connection 20 arranged second cylindrical part 21. On the circumference of the screw body 16 and the screw body parts 18, 19, 21 is a continuous Conveyor screw 17, 17 'arranged.

In the cylindrical part 18 of the screw body 16 is a conical he Acceleration body 23 arranged. In these opens the mixture inlet pipe 22. The solid-liquid mixture 38 entering there is indicated by the arrows 39 deflected, evenly accelerated and through the .openings 24 in the area of the pond between the cylindrical full jacket part 4 and the cylindrical Screw body part 18 discharged. The mixture migrates through it in cocurrent the clarification zone 25. In the centrifugal field there is a separation into essentially one liquid-containing and an essentially solid-containing component instead. The essentially liquid-containing component, the centrate, is made according to the arrow 26 discharged through return channels 27 from the clarification zone 25, while the pre-thickened essentially solids-containing component 29 from the screw conveyor 17 to the end 30 of the first discharge part 6 is promoted. From there, the solids-containing Component 29 is thrown off into the starting area 31 of the second conical discharge part 11. There is an extremely intensive movement of the solid-containing component 29 instead of. Because when it is centrifuged into the initial area 31, the pre-thickened one arrives Component of a zone of the centrifugal field with lower energy as a result spontaneous increase in diameter in a zone of the centrifugal field with a higher Energy. There is an enormous jump in pressure and acceleration at the same time in the circumferential direction. As a result, there is a strong one Move with considerable energy input, which leads to the fact that the conical discharge part as a thixotropic mass, sludge-like material sedimented into a liquid state This takes place in the second conical discharge part 11 under action of the centrifugal field and the transport work of the screw part 17 'is another Drainage takes place in countercurrent. Solid is in the direction of the end region 32 of the Discharge part conveyed with further thickening and through discharge openings 33 centrifuged as a solid 39. The resulting liquid centrate in countercurrent is centrifuged through the drainage openings 35 according to arrow 34.

With the device according to the invention succeeds due to the centrifugal field carried out diversion a thickening rate previously not thought possible colloidal sludge in a single, multi-stage full bowl centrifuge the invention-.

Due to their compact design and in relation to the thickening result relatively little energy is used with extremely economical means set object of the invention fulfilled in an ideal manner.

List of reference symbols 1. Solid bowl screw centrifuge 2. Shaft 3. radial cover washer-4. cylindrical shell part 5. flange connection 6. conical Discharge part 7. flange connection 8. tapered end 9. radial connecting element annular disk 10. flange connection 11. second formed as a solid jacket conical discharge part 12. tapered end 13. radial disc 14. flange connection 15. Shaft 16. Screw body 17. Conveyor screw 18. Cylindrical part of the screw body 1.9. conical screw part 20. Flange connection 21. cylindrical part d.

Screw body 22. Inlet pipe 23. Conical acceleration body 24. Openings 25. Clarification zone 26. Centra.t 27. Return channel 28. Openings (26) carried 29. Pre-thickened component containing solids 30. End of the first discharge part (6) 31. Initial area 32. End area 33. Discharge openings 34. Centrate (second) 35. Drain opening 36. Shaft part 37. Shaft part - blank page -

Claims (1)

Claims ½) Method for separating a solid-liquid mixture in the centrifugal field of a solid bowl screw centrifuge into an essentially liquid-containing and an essentially solid-containing component, thereby characterized in that the pre-drained solids-containing component in the centrifugal field is diverted and subjected to subsequent drainage. 2. The method according to claim 1, characterized in that the deflection the solids-containing component by transferring it from a zone of the centrifugal field takes place with lower energy in a zone des'Zentrifugalfeldes with higher energy. 3. - Method according to one of claims 1 or 2, characterized in that that the solids-containing component in the direction of its transport movement in is subjected to substantial right-angled change of direction. Method according to one of Claims 1 to 3, characterized in that that the solids-containing component immediately one after the other a double change in direction is subjected. 5. Procedure according to one of the. Claims 1 to 4, characterized in that that in the pre-dewatering of the solid-liquid mixture, the components in cocurrent, and in the dewatering of the solids-containing component solids and liquid are fed in countercurrent to one another. 6. The method according to any one of claims 1 to 5, characterized in that that the liquid-containing components of the pre-drainage on the one hand and the post-drainage on the other hand, at different points from the full-bodied screw centrifuge be discharged. 7. The method according to any one of claims 1 to 6, characterized by its application to pre-flocculated solid-liquid mixtures. 8. Device for separating a solid-liquid mixture in the centrifugal field of a solid bowl screw centrifuge into an essentially liquid-containing and one essentially solid-containing component, in particular according to claims 1 to 7, characterized in that the solid bowl screw centrifuge (1) with at least two conical, cascade-shaped parts consisting of solid jacket parts (6, 11) Stages is formed, and that each of these stages has an outlet for one liquid-containing Has component. 9. Apparatus.nach claim 8, characterized in that the conicity.der Full jacket parts (6, 11) runs in the same direction. 10. Device according to one of claims 8 or 9, characterized in that that the conical full jacket parts (6, 11) in the direction of transport of the solid rejuvenate. il. Device according to one of Claims 8 to 10, characterized in that that additional internals (not shown). in the deflection area (31) of the in the transport direction. last full jacket part (11) the solid bowl centrifuge are arranged. 12. Device according to one of claims 8 to 11, characterized in that that casing parts (6, 11) the solid bowl centrifuge (1) by at least one radial Connecting element (9), preferably a disk, are held in their mutual position, and that the outlet (35) for the liquid-containing component (34) of the post-drainage is arranged in the outer region of this disc (9).