EP0698415A1 - Centrifuge for solid-liquid separation - Google Patents

Abstract

A centrifuge drum on a powered shaft separates liquids from solids. The drum is sealed during rotation, producing a filter cake on the inner drum surface. An outlet is opened for the subsequent removal of the filtrate. The novelty is that before the filter cake (36) is removed, a pressurised fluid (20) is introduced into the centrifuge drum and which displaces any residual filtrate (36). The displacement may be effected in either rotational or static condition.

Description

The invention relates to a centrifuge for solid-liquid separation of a suspension with a driven shaft, on which a centrifuge drum is arranged, the outer peripheral region of which is remote from the shaft is closed, at least during the centrifuging process, so that a filter cake can form in the outer peripheral region , and an outlet is provided on the centrifuge drum through which a filtrate can be removed.

Centrifuges of this type are used, for example, for thickening sludge or for clarifying turbidity. A certain amount of a suspension is fed into a centrifuge drum via an inlet, in which centrifugal force separates the solids from the liquid. The solids accumulate during the centrifuging process in the outer area of the interior of the centrifuge drum and form a so-called filter cake or solid cake. Due to the lower mass of the liquid particles, an almost solid-free liquid layer forms on the filter cake.

Since the layer of the cloud-free liquid, also known as filtrate or clear, forms in the radial direction further inside in the centrifuge drum, the filtrate can be discharged via an outlet located radially on the inside of the filter drum.

The suspension is fed during the rotation of the centrifuge drum at least until a fill level is reached at which the filtrate exits through the outlet of the centrifuge drum. The suspension feed must be stopped at the latest when the filter cake reaches the filtrate outlet.

The problem here is that when the solid layer reaches the filtrate outlet there is often still a residual liquid on part of the filter cake surface. This is particularly the case if, due to the shape of the centrifuge drum, a process-related depression forms in the surface of the filter cake, in which residual liquid can collect.

In order to avoid contamination of the filtrate by filter cake parts, which could escape through the filtrate outlet at the end of the centrifuging process, the suspension feed in some centrifuges is stopped at a time when there is still a residual liquid layer on the filter cake. This residual liquid is discharged with the filter cake after completion of the centrifugation process, as a result of which the residual liquid is moistened again. This residual liquid thus worsens the degree of dehumidification of the filter cake and also reduces the proportion of the filtrate recovered.

The invention has for its object to provide a centrifuge for solid-liquid separation, in which a particularly good dehumidification of the filter cake or a particularly high proportion of filtrate can be achieved.

The object is achieved in that a displacement means can be introduced into the interior of the centrifuge drum before the filter cake is discharged. The displacement means can be introduced during the centrifugation process or at the end when the centrifuge drum is at a standstill. The expanding fluid displaces the residual liquid on the filter cake and drives it out to the outlet. In addition, the displacement means exerts additional pressure on the filter cake, which causes an additional squeezing effect.

An advantageous development of the invention consists in that the displacement means is a fluid which can be introduced under pressure into the interior of the centrifuge drum. The fluid can be a gas, in particular compressed air, or a liquid, for example a low-viscosity solvent. By means of a fluid, the entire residual liquid can be expelled from the centrifuge drum regardless of the shape of the filter cake formed.

Another advantageous development of the centrifuge according to the invention is that the displacement means is a displacement body which can be changed in shape and which can be increased in volume to expel residual liquid. By means of a fixed displacement body, a precisely defined space can be occupied within the centrifuge drum and thus a precisely defined amount of residual liquid can be displaced. In addition, an expandable displacement body can generate additional high pressure on the filter cake. After the residual liquid has been displaced, the displacer can assume its smaller shape again. To change the shape of the displacement body, for example, a lever mechanism can be provided within the displacement body.

It is a particularly advantageous development of the invention that the displacement body has a cover, that the cover is arranged along the shaft in the interior of the centrifuge drum and that the cover is inflatable by a pressure medium. The cover consists of a tear-resistant, pressure-tight material, which can have a bellows structure, for example. The pressure medium is a fluid which can be introduced into the shell, for example, via pressure channels along the shaft to increase the volume. When using compressed air as the pressure medium, it can be released to the ambient air through a valve after the volume has been increased. On the other hand, if hydraulic fluid is used as the pressure medium, it is in a closed circuit via supply and discharge channels.

The displacement body is precisely matched in its outer shape to the expected filter cake formation, so that it can essentially fill the entire space between the filter cake and the shaft inside the centrifuge drum. This displaces all of the residual liquid.

In a further embodiment of the invention, it is advantageous that the sleeve consists of an elastic material, in particular rubber. The cover can adapt particularly flexibly to different filter cake surface shapes and sizes. In addition, compressed air introduced into the casing can be pressed out by the casing pressure without an additional pumping device.

Another advantageous development of the invention consists in that after the suspension supply has ended, a displacement fluid flows into the suspension inlet Interior of the centrifuge can be introduced and that in addition a shape-changing displacement body is arranged in the interior of the centrifuge. This double use of displacement agents means that the residual liquid can be removed from the surface of the filter cake in a particularly extensive manner. Depending on the expediency, either the displacement fluid or the displacement body can be introduced first, or both displacement means can be used simultaneously.

In a further embodiment of the invention, it is advantageous that the centrifuge drum has two drum halves and that at least one drum half is axially displaceable on the shaft to form an opening gap. The drum halves are held in a collapsed position during the centrifugation process to form a closed centrifuge drum. To discharge, in particular to eject, the filter cake after centrifugation has been completed, one or the two drum halves are moved in the axial direction in order to form an opening gap. Through this opening gap, the filter cake falls out of the drum under the influence of gravity or is spun out by rotating the two drum halves.

According to the invention, it is advantageous here that the drum halves have conical inner walls which widen towards the opening gap. This inclination of the inner walls of the drum halves makes it easier to eject the filter cake from the centrifuge drum. The inner walls can also have other rotationally symmetrical shapes that widen outward in the radial direction.

An advantageous development of the invention is that the axially displaceable drum half can be moved by means of a hydraulic device. Double-acting hydraulic cylinders in particular can be used here.

In another embodiment according to the invention, it is advantageous that the displaceable drum half has an annular recess adjoining the shaft, which is divided into two pressure spaces by an annular shoulder of the shaft, and that hydraulic channels are provided in the shaft, which lead to the pressure spaces. By loading one or the other pressure chamber with a hydraulic fluid, the displacement movement of one drum half on the shaft can be carried out. The sliding surface of the shaft shoulder at the turn of the drum half is sealed pressure-tight in the usual way with a seal. A separate hydraulic cylinder for moving the drum half on the shaft is not necessary.

An advantageous development of the invention consists in that a filter cake collecting chamber is assigned to the opening gap and a filtrate collecting chamber is assigned to the filtrate outlet. The two chambers are arranged next to each other and each surround the opening gap or the filtrate outlet in the entire circumferential direction. Common conveying devices, such as pumps or screw conveyors, are located within the two chambers and transport the filtrate and filter cake out of the centrifuge.

In another embodiment according to the invention, it is advantageous that at least the process space of the centrifuge is surrounded by a closed housing. The process chamber essentially has the centrifuge drum, the filter cake collecting chamber and the filtrate collecting chamber. Only through openings for supply and disposal lines are provided in the housing. The shaft bearings and the rotary drive are also expediently accommodated outside the housing.

Fig. 1

eine schematische Querschnittsansicht einer erfindungsgemäßen Zentrifuge am Ende eines Zentrifugiervorganges und

Fig. 2

eine stark schematisierte Querschnittsansicht der Zentrifuge von Fig. 1 mit auseinandergefahrenen Zentrifugenhälften

zeigt.The invention is explained in more detail below with the aid of a drawing. The drawing shows in a highly schematic manner a preferred embodiment of a centrifuge according to the invention, wherein

Fig. 1

is a schematic cross-sectional view of a centrifuge according to the invention at the end of a centrifugation process and

Fig. 2

a highly schematic cross-sectional view of the centrifuge of Fig. 1 with the centrifuge halves moved apart

shows.

A centrifuge 10 according to the invention is shown in FIG. 1, which has a shaft 14 with a centrifuge drum 11. In this embodiment, the centrifuge drum 11 essentially consists of a fixed drum half 12 and a displaceable drum half 13. The fixed drum half 12 has a filtrate outlet 24 on its closed end face, which comprises several through bores.

The filtrate outlet 24 extends from the interior of the centrifuge drum 11 outwards into a filtrate collecting chamber 17. A filter cake collecting chamber 16 is arranged next to the filtrate collecting chamber 17. The two collecting chambers 16 and 17 form a closed housing 15 around the filter drum 11. The other essential components of the centrifuge 10, such as the bearings 18 and 19 and the drive (not shown), are arranged outside the housing 15 in a maintenance-friendly manner. The housing 15 and the bearings 18 and 19 are arranged in a frame 33.

Within the centrifuge drum 11, a displacement body 20 is arranged along the shaft 14, which has a sleeve 21 which is attached to the shaft 14 by means of a sleeve attachment 26. A pressure medium can be introduced into the displacement body 20 via a pressure channel 22 in the shaft 14.

In the operating position of the centrifuge 10 shown in FIG. 1, the displacement body 20 has assumed a volume-enlarged form in order to displace residual liquid 36, which still remained in the centrifuge drum 11 at the end of centrifuging. The fill level 25 at the end of a centrifugation process is shown schematically with a dotted line. The boundary layer 34 between a filter cake 35 formed and a residual liquid 36 is shown by a dash-dot line.

In terms of function, the displacement body 20 expands into the area of the residual liquid 36, displaces it and presses the residual liquid out of the centrifuge drum 11 through the filtrate outlet 24.

The displacement of the residual liquid 36 in this embodiment according to the invention is further increased by the fact that compressed air can also be introduced into the centrifuge drum 11 through a suspension inlet 23 running in the shaft 14 with radial inlet channels 38. In this way, any remaining liquid 36 can be displaced from the centrifuge drum 11. The radial inlet channels 38 have an inclined position and merge flush into a distribution surface 39 on the displaceable drum half 13. This ensures that the suspension runs in as swirl-free as possible. For the effective use of the compressed air, the inlet channels 38 are arranged in an area of the centrifuge drum 11 which is remote from the filtrate outlet.

The displaceable drum half 13 has, in its area remote from the interior of the centrifuge drum 11, a recess 29 which adjoins the shaft 14. A shoulder 37 of the shaft 14 projects into the recess 29 and divides the recess 29 pressure-tightly into two separate pressure chambers 30 and 31.

The two pressure chambers 30 and 31 are connected to a hydraulic device via hydraulic channels 32, wherein the drum half 13 can be displaced on the shaft 14 by acting on one 30 or the other pressure chamber 31. The hydraulic device, not shown, is coupled to the suspension inlet, the rotary drive and the loading of the displacement body via a conventional control in order to ensure a safe functional sequence.

FIG. 2 shows the centrifuge 10 from FIG. 1 in an operating position in which the drum halves 12 and 13 have moved apart to discharge the filter cake. In this operating position, the displacement body 20 assumes its smaller shape, the tubular, elastic sleeve 21 lying closely against the shaft 14.

By moving the two drum halves 11 and 13 apart, an opening gap 27 is formed, through which the filter cake is thrown into the filter cake collecting chamber 16 when the centrifuge drum 11 rotates. In order to facilitate the discharge of the filter cake, conical inner walls 28 are provided on the drum halves 12 and 13. The diameter of the drum halves 12 and 13 widens towards the opening gap 27.

The embodiment shown makes it clear that by using a displacement agent according to the invention, remaining liquid can still be expelled after completion of the actual centrifuging process, as a result of which a better degree of dehumidification of the filter cake and a higher recovery rate on the filtrate can be achieved.

Claims (12)

Centrifuge for solid-liquid separation of a suspension with a driven shaft, on which a centrifuge drum is arranged, the outer peripheral region of which is remote from the shaft is closed, at least during the centrifuging process, so that a filter cake can form in the outer peripheral region, and on the Centrifuge drum an outlet is provided through which a filtrate can be removed,
characterized,
that a displacement means can be introduced into the interior of the centrifuge drum (11) before the filter cake (35) is discharged. Centrifuge according to claim 1,
characterized,
that the displacement means is a fluid which can be introduced under pressure into the interior of the centrifuge drum (11). Centrifuge according to claim 1,
characterized,
that the displacement means is a shape-changing displacement body (20) which can be increased in volume to expel residual liquid (36). Centrifuge according to claim 3,
characterized,
that the displacement body (20) has a casing (21),
that the sleeve (21) is arranged along the shaft (14) in the interior of the centrifuge drum (11) and that the sleeve (21) is inflatable by a pressure medium. Centrifuge according to claim 4,
characterized,
that the sheath (21) consists of an elastic material, in particular rubber. Centrifuge according to one of claims 1 to 5,
characterized,
that after the suspension supply has ended, a displacement fluid can be introduced into the interior of the centrifuge drum (11) via a suspension inlet (23) and
that an additionally variable displacement body (20) is arranged in the interior of the centrifuge drum (11). Centrifuge according to one of claims 1 to 6,
characterized,
that the centrifuge drum (11) has two drum halves (12, 13) and
that at least one drum half (13) is axially displaceable on the shaft (14) to form an opening gap (27). Centrifuge according to claim 7,
characterized,
that the drum halves (12, 13) have conical inner walls (28) which widen towards the opening gap (27). Centrifuge according to claim 7 or 8,
characterized,
that the axially displaceable drum half (13) can be moved by means of a hydraulic device. Centrifuge according to one of claims 7 to 9,
characterized,
that the displaceable drum half (13) has an annular recess (29) adjacent to the shaft (14), which is divided into two pressure chambers (30, 31) by an annular shoulder (37) of the shaft (14) and
that in the shaft (14) hydraulic channels (32) are provided which lead to the pressure chambers (30, 31). Centrifuge according to one of claims 7 to 10,
characterized,
that the opening gap (27) is associated with a filter cake collecting chamber (16) and the filtrate outlet (24) is a filtrate collecting chamber (17). Centrifuge according to one of claims 1 to 11,
characterized,
that at least the process chamber of the centrifuge (10) is surrounded by a closed housing (15).

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