DE2907318A1 - Centrifuge drum with cylindrical and conical zones - where worm profile is designed for efficient sepn. of solids from liquids, esp. from liquids with high viscosity - Google Patents

Abstract

The drum contains a worm possessing a single- or multi-start helical blade. The cylindrical zone of the drum is used as a clarification zone, in which the blade forms a belt worm, where the flank height (h) is smaller than the distance(s) between the internal wall of the drum and the outer edge of the overflow (8). The belt worm is pref. fixed on the outer edge of several, and at least three, radial plates (10) aligned in the axial direction and fixed on the core of the worm; and plates (10) pref. contain holes (12) in the inlet zone. The pitch of the worm pref. increases towards the conical zone of the drum. Provides rapid and simple sepn. of the liq. and solids in a suspension where the solids settle only slowly.

Description

Solid bowl screw centrifuge with

Adapted screw helix The invention relates to a Votlmantel nachneckentrifuge with a conical-cylindrical drum and a single or multi-flight screw. Such centrifuges are described in numerous versions in the literature (see e.g. DE-OS 23 21 653, DE-GBM 1 760 883, US-PS 3 285 507). A common task solids separation is solved with full-jacket sonic centrifugation rs a suspension. A distinction is made between suspensions with specifically lighter, i.e. floating solids and suspensions with a specific heavier, i.e. sedimenting solid. Most suspensions contain sedimenting solids toffteilohen.

Suspensions, their solid particles because of their small size or because of their density, which is only slightly higher than that of the liquid, or because of their high viscosity The liquid sediment only slowly, can often also in solid bowl screw centrifuges cannot be completely separated. The insufficient deposition is mainly due to this caused that the inflowing suspension when hitting the inside the drum rotating liquid ring must be accelerated, so that secondary currents that prevent the particles from settling. The clarification continues deteriorated by the fact that the liquid flowing to the overflow through the helical Channel between two screw flanks - with the usual two-flight design correspondingly through both channel walls - with a relatively low layer height with a high one Speed at right angles to the sediment transport (about one to two meters per Second) and in doing so takes the solid particles with it at a slow rate of descent.

The invention is based on the object of a solid bowl screw centrifuge to develop a quick and easy separation of solid and liquid Phase allowed for suspensions with slowly sedimenting solids.

According to the invention, this object is achieved in that the screw is designed as a belt screw in the cylindrical clarifier, the flank height of which h is lower than the distance s between the inner drum wall and the outer overflow edge .

The belt screw on the outer edge of several, at least However, 3 radial, axially extending sheets attached to the screw core are appropriate.

Since the sediment flow to be transported is very low near the overflow is and in the direction of the inlet; d. H. towards the conical part of the drum, increases, the screw flanks can be lower and lower with the same gradient to the overflow h: Ln will. This means that there is a sufficient free cross-section in the decisive area of clarification for an axial fluid guide with one compared to the usual designs 5 to 10 times larger flow cross-section available. You can see the snail flanks also keep it low in the entire clarification section, if you move towards the conical part, the screw pitch or the number of gears or both are increased.

It is therefore essential that the conveying characteristics of the screw in the Clear part is not constant, but rather the changing sediment volume flow along the drum is adapted.

In order to achieve a defined suspension inflow, both Sides of the inlet bores of the liquid inlet parallel, radially extending Bridges attached. In addition, the radial plates that carry the screw conveyor are see with breakthroughs so that the inflowing suspension quickly over the can distribute the entire scope.

Due to the measures according to the invention one achieves a substantial. Improvement of the separation effect with slowly sedimenting suspensions. The improved Deposition is essentially due to the reduction of the flow velocity in the clarification section and the extensive separation of sediment and liquid streams due to the variable funding characteristics in clarification ii.

In the following are Ausführungsbeispieb the invention based on a Drawing explained in more detail. FIG. 1 shows the overall view of a solid bowl screw centrifuge with a partial section and a section A-B at the level of the inlet holes and figure 2 an embodiment in which the conveyor screw has a variable pitch and speed also has a section A-B at the level of the inlet port.

The solid bowl centrifuge according to FIG. 1 consists of the one on a core 1 attached, two-flight screw 2 and the drum shell surrounding the screw 2 3 (housing).

The drum 3 and the screw 2 are rotatably mounted and can be driven at different speeds. In the clarifying section are drum and Cylindrical screw and conical in the dehumidifying part.

The suspension to be clarified is filtered in through the feed pipe 4 and occurs approximately at the boundary between the cylinder core and the conical drum part Bores 5 of the screw core 1 in the centrifuge drum 3.

As a result of the centrifugal force, the heavier solid becomes after centrifuged on the outside and conveyed by the screw 2 to the solids outlet 6. The lighter liquid flows to the other side via the end plate 7 through the overflows 8 from. At least in the BerelSh of the clarifying section, the screw 2 is a ribbon screw 9 trained. The worm belt is on radially and axially extending metal sheets 10 attached, which is attached to the cylindrical core 1 distributed evenly over the circumference are (see also Figure 2). The suspension to be clarified flows through from inlet 4 the openings 5 each between the radial plates 10. To with unevenly distributed To bring about a rapid flow equalization, the radial plates 10 provided with openings 12 in the area of the liquid level 15. On both sides parallel, radially extending webs 13 are attached to the inlet bores 5.

As a result, the inflowing suspension flow is maintained until it is immersed in the rotating liquid ring 14 is also guided laterally. The vastly improved Separation of slowly sedimenting solids is carried out here by a special Dimensioning of the screw helix achieved in the clarifying section. The ff overflows 8 and the screw conveyor 9 are attached or dimensioned so that the flank height h is smaller than the distance s between the inner drum wall and the outer overflow edge at the liquid outlet 8. Here, h means the height of the screw flanks on the outer, the edge of the clarifying section adjacent to the overflow 8 h is constant in the clarification section and then increases accordingly in the conical dehumidification section to the growing sediment flow. This takes into account the fact that the sedimer.tstrom to be transported is close to the run 8 very much is low and only from about the emergence from the liquid level (15) of the entire sediment flow is to be transported. The liquid flow to the overflow 8 can now take place axially and largely independently of the sediment transport. The inner liquid cylinder rotates with the peripheral speed of the radial one Support or guide plates 10, while the deposited on the drum inner surface Sediment rotates roughly at its peripheral speed. This results in a speed gradient, which is around 0.5 m / s, i.e. a third of the previously usual value.

The sediment flow increasing from left to right in FIG Adapted conveying characteristics of the screw can alternatively also be achieved in this way be that the pitch of the screw increases in the clarifying section towards the dehumidifying section. Another alternative is that one additional shortly before the inflow Attaches coils to the core and thus also increases the ease of movement (see Figure 2). By the increase in screw pitch and speed can change the speed difference between drum 3 and screw 2 and thus also the speed gradient continues be reduced. This measure also comes from the dehumidification of the sediment benefit in the conical part.

The solid bowl centrifuge according to the invention has been met with great success used for the separation of solids from highly viscous liquids. That The same system can of course also be used to separate a suspension that are made up of two non-mutually soluble liquids are more different Density and a sedimenting solid consists.

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Claims (7)

Patent claim 1. Solid bowl centrifuge with a conical cylindrical Drum and a single or multi-start screw, characterized in that the The screw in the cylindrical clarifying section is designed as a ribbon screw (9), the flank height of which h is lower than the distance s between the inner drum wall and the outer overflow edge (8th). 2. Volimantel centrifuge according to claim 1, characterized in that the conveyor screw on the outer edge of several, but at least 3 radial, in sheet 10 extending in the axial direction is attached, that is attached to the screw core are. 3. Solid bowl centrifuge according to claim 1 and 2, characterized in that that the height of the screw flanks increases towards the conical drum part. 4. Solid bowl centrifuge according to claim 1 to 2, characterized in that that the pitch of the screw 2 increases towards the conical drum part. 5. Solid bowl centrifuge according to claim 1 to 2, characterized in that that the mobility of the screw 2 increases towards the conical drum part. 6. Solid bowl centrifuge according to claim 1 to 5, characterized in that that on both sides of the inlet bores 5 parallel, radially extending webs 13 are appropriate. 7. Full-jacket sonic corner centrifuge according to claim 1 to 6, characterized in that that the radial metal sheets 10 have openings 12 in the inlet area.