EP2726168A1 - Device for filtering liquids - Google Patents

Abstract

The invention relates to a device (1) for filtering liquids, comprising at least one rotor (3), which can be driven so as to rotate about a rotational axis (2) and which comprises a supporting device (4) that is fixed to said rotor for disk-shaped filter elements (5) arranged at a distance from the rotational axis (2), the disk surfaces (6) of said filter elements forming the filter surface. A plurality of the filter elements (5) are assembled together into a filter packet on a profiled tube (7) that forms a part of the supporting device (4). For this purpose, the filter elements (5) have an opening (8) through which the profiled tube protrudes. The aim of the invention is to provide improved filtration conditions. This is achieved in that the disk planes (10), preferably the central disk planes, of the filter elements (5) are arranged on the profiled tube (7) in an inclined manner about at least one axis that is perpendicular to the profiled tube axis (A) such that the disk planes (10) and the profiled tube axis (A) form an angle (α, ß) that is not equal to 90°.

Description

 Device for filtering liquids

Technical area

The invention relates to a device for filtering liquids, comprising at least one rotor rotatably driven about an axis of rotation with an attached support device for spaced from the axis of rotation disc-shaped filter elements whose disc surfaces form the filter surface, wherein a plurality of the filter elements on a part the support device forming profile tube is assembled into a filter pack.

State of the art

Such known devices (EP 577 854 B1) comprise a rotor as a stirring body whose stirring elements are formed by tubular, vertical flowed filter elements, a container, means for introducing a liquid to be filtered into the container, a container outlet for unfiltered from the container to be derived liquid and at least one rotatably drivable around the container axis rotor with a hollow shaft mounted in an end wall and an attached support for arranged with a clearance to the container axis or rotating about its own axis filter elements, the inside of the carrier and the hollow shaft from the container as a derivative for filtered Liquid discharges. This is the main problem in the membrane filtration of liquids, namely the formation of cover layers on the membrane surface and the resulting reduction of the effective filter surface and blocking of the membrane pores, prevented or reduced. These cover layers are usually formed by agglomeration of solid particles separated on the membrane pores and their concentration in the region of the membrane surface. This effect can be avoided during a continuous filtration process with such devices that turbulent cross flows and thus shearing forces are generated by the rotation of the filter elements in the container on the membrane surfaces, which cause a continuous mechanical cleaning of the filter elements and a continuous turbulence of the liquids to be filtered. The invention is intended to find use in such devices, but is not limited to use in such devices.

These devices are capable of achieving high shear rates and turbulence. The core is a sealed filter container in which one or more rotating slewing rings are driven by motors. The filtered liquids are collected in the rotor starting from tubular but also disk-shaped od. Like. Filter elements (AT 503 567 A) and discharged from the interior of the container via rotor spokes, rotor hub and the hollow shaft. The filter modules are mounted on the rotor and sealed against prevailing high pressures in the container. However, a rotation of larger horizontally oriented and impinged filter surfaces over the rotor radius leads to an extreme scattering in the overflow conditions, the transmembrane pressure and undesired shearing or pressure peaks.

For filtering, the liquid concentrates in the container during operation steadily, since the filtrate / permeate flows continuously through the filter elements and the pressure drop according to new liquid is supplied. In operation, this type of concentration can be continued until the viscosity of the solution has reached a maximum value by increasing the solids content, to which the flow rate is still economical. The suspension concentrate is then emptied through the container outlet or continuously drained during operation. In order to enable a continuous operation of the device in such devices, it has been proposed to expand the inner wall of the container peripheral jacket to form a guide for the liquid along the container axis against the container outlet (AT 503 567 A).

Presentation of the invention

The invention has for its object to provide a device of the type described, which allows simple means an improved filter performance.

The invention solves this problem in that the, preferably central, disc planes of the filter elements are arranged on at least one axis perpendicular to the profile tube axis inclined on the profile tube, that include the disc planes with the profile tube axis an angle that is not equal to 90 °.

With this measure, there are additional improvements in terms of filter performance and with respect to the flow technology of the filter system by tilting the disc-shaped filter elements from a horizontal plane. The filter discs can be inclined in or against the direction of rotation. But it is also a combination of in or against the direction of rotation inclined filter elements possible, which are associated with one or more profile tubes. In addition, there is the possibility of tilting the disc planes to or against the axis of rotation. The inclination of the filter elements causes a helical flow in a container receiving the filter pack and thus requires a flow movement in the vertical direction, which is superimposed on the rotational movement. In so-called "dynamic membrane processes", the necessary cross-flow on the filter membrane surface is achieved by movement of the membrane surface through the liquid to be filtered. Despite the turbulence of the flow necessary for the long-term function, the size-separating effect of the membrane pores leads to a concentration of certain substances close to the membrane surface. This concentration must be compensated for the continuous filtration by continuous supply and mixing with less contaminated fluid. In dynamic membrane systems with filter elements rotating about one or more axes, the centrifugal action of the rotation may result in additional concentration in the form of density-dependent phase formations. Insofar as the flow through the filter container, in which the rotating filter modules are located, is not directed longitudinally but frontally to the filter surfaces / filter discs, the concentration compensation can then be reduced by supplying less-loaded liquid. This effect can occur in particular in the interspaces of adjacent filter element pairs, the disk-shaped filter elements stacked on top of one another to form filter modules.

According to the invention, these filter elements are arranged inclined on profile tubes. By tilting the filter elements, adapted to the respective direction of rotation and speed and adapted to the disc distances, the flow through the device and the flow around the filter elements can be controlled with freshly supplied fluid or membrane surfaces remote and thus less concentrated fluid.

Preferably, the disc planes are inclined about an axis perpendicular to the profile tube axis, preferably the axis of rotation intersecting axis against the direction of rotation of the filter elements and / or inclined to the radius of rotation transversely to the direction of rotation. However, any orientation of the inclination with respect to the direction of rotation can be adjusted. Likewise, a separate rotary drive could be provided for the profile tubes. Particularly advantageous conditions arise when the disc planes are arranged at a right angle between the disc planes and the profile tube by 1 to 15, preferably to 6 °, in particular by 2 to 4 °, more preferably inclined by 3 ° on the profile tube. If the filter elements are tilted by approximately 3 °, this can cause the flow to continue into the respective next higher row of disks of the next filter module and, in the end, the flow can be conducted spirally upwards over the entire rotor row, resulting in an additional circulation effect causes the liquid to be filtered in the device. In the following embodiment, the optimum angle of inclination for helical circulation movement is described in a container with 3 °. In fact, however, this optimum of 3 °, in which the helical movement is achieved by a filter module adjacent to the next slice plane, depends in particular on the distance between the filter elements in the module and the distance between adjacent modules. The greater the distance of the discs in the module to each other and the smaller the distances between adjacent modules to each other, the steeper the optimal angle. Different viscosities of liquids, however, may require different disk spacings in the module to efficiently achieve turbulent overflow, which also changes the optimum tilt angle for helical flow.

Alternatively, the filter elements in the region of the aperture may have the function of spacers between the filter surfaces of adjacent filter elements receiving annular projections, the profile tube facing shell inner surfaces determine the inclination of the filter elements on the profile tube or the filter elements are in the region of the aperture between the filter surfaces of adjacent filter elements annular spacers associated with the profile tube facing shell inner surfaces determine the inclination of the filter elements on the profile tube. These measures can be used to achieve the desired or required adjust the slope of the filter elements on the profile tubes easily to the desired extent. In order to avoid adjusting the inclination during operation, it is recommended that the filter elements are arranged against rotation on the profile tube.

According to a development of the invention, at least two rotors are provided around the axis of rotation, optionally three or more rotatably driven rotors, wherein the individual rotors associated filter elements are arranged inclined on the profile tube so that they impart an axially parallel flow component to a filtrate and wherein the fluid may be rectified or oppositely directed by the rotors impressed flow components. The inclination of the filter elements, in particular filter discs, and their helical formation on the rotor ring or on the rotor rings, which are formed by the filter packs, leads to an axial pumping action for the liquid in the container, depending on the inclination of the filter discs and direction of rotation. When operating a filter system with two or more rotor rings can now be built on tilt of the filter discs, the directions of rotation of the rotor rings and pumping action in two (opposite) directions, even in a closed filter container, an internal circuit. When operating filter systems with a rotor ring, this internal circuit with opposite direction of flow to the helical flow of the rotor can also be achieved by internal rotor included and / or outer rotor comprising the baffles are designed so that they achieve a pumping action in this sense. This can be achieved by virtue of the fact that the burr (s) likewise have a helical shape which causes the desired effect. If necessary, these baffles can be rotationally driven for increased pumping action. An optimization of the axis-parallel pumping action is possible by forming the baffles, that the gap between the filter discs and container inner wall is reduced (WO201 1/120061 A). In order to improve the mixing and to have the most homogeneous to be filtered fluid in the filter container, can be provided in a container disposed in a device that in the region of both container end faces or in the vicinity of both container end faces at least one connection opening is provided which at least two connection openings are flow-connected to one another via a bypass line. The inclination of the filter discs and their helical formation on the rotor ring or on the rotor rings causes a pumping action for the liquid depending on the inclination of the filter discs and the direction of rotation of the rotor or the rotors to a container end face. Since this process usually takes place in a closed filter container, without corresponding relief measures as a result of the inclination of the filter discs, the direction of rotation of the rotor ring or the rotor rings and the resulting pumping action to a container end surface can lead to a congestion of the fluid and pressure increase, which is a corresponding Concentration hindered. This obstruction of the concentration exchange can be prevented by connecting the bottom and lid of the filter container with a bypass line dimensioned according to the pumping action of the helical flow. This allows a vertical flow in the container.

Optionally, at least one connection opening may be provided in the region of both container end faces or in the vicinity of both container end faces, wherein the outlet-side connection opening of one container is connected via a connecting line to the inlet-side connection opening of a further container. In addition, it is possible to interconnect at least two containers in series and to connect the outlet-side connection opening of the last container in the series again via a connecting line to the inlet-side connection opening of the first container. This can, among other things, increase the filter performance. When operating several filter systems with helical flow, this external circuit can thus be designed in such a way that several Other systems are interconnected according to their respective helical flow direction.

To regulate the fluid flow, it is also advisable if a fluid flow control valve and / or a delivery pump are arranged in the bypass pipe and / or in the connecting line.

In addition, the invention also relates to disc-shaped filter elements which have an opening forming a receptacle and whose disc surfaces form a filter surface for an aforementioned device. However, the invention is not limited to use in said devices. In the region of the aperture at least one of the function of a spacer receiving annular projection or spacer is provided, the ring axis with an, preferably central, disc plane includes an angle which is not equal to 90 °, the disc plane of a right angle between the disc plane and inner ring axis to For example, 1 to 15, preferably to 6 °, preferably by 2 to 4 °, in particular by 3 °, is inclined differently.

Brief description of the invention

In the drawing, the invention is illustrated schematically using an exemplary embodiment. Show it:

1 shows a device according to the invention in side view,

FIG. 2 is an enlarged cross-sectional view of a portion of the device of FIG.

 1 ,

 3 shows a construction variant of the device of Fig. 2,

4 is an enlarged spacer of FIG. 2 in plan view,

5 shows a spacer of FIG. 4 in cross-section,

6 shows a construction variant of the device arranged in a container, Fig. 7 shows the container with bypass line and

 8 four equipped with a device according to the invention, connected in series container,

Way to carry out the invention

A device 1 for filtering liquids comprises at least one rotor 3, which is rotatably drivable about a rotation axis 2 and has a carrying device 4 fastened thereto for disk-shaped filter elements 5 arranged at a distance from the rotation axis 2 whose disk surfaces 6 form the filter surface. Filtered liquid is discharged via the interior of the filter elements 5 via the support device 4 and the rotor 3 from the container. It is a plurality of the filter elements 5 on a part of the Tragvor-direction 4 forming profile tube 7 is assembled into a filter pack, for which the filter elements 5 have a penetrated by the profile tube 7 opening 8, which forms a receptacle for the profile tube 7. The interior of the filter and the profile tube interior are fluidly connected, for example via holes 9 in the profile jacket. flow-connected.

According to the invention, the central disk planes 1 0 of the filter elements 5 are arranged on the profile pipe 7 so that the disk planes 10 and the profile pipe axis 7 enclose an angle α that is not equal to 90 ° about at least one axis perpendicular to the profile pipe axis, the disk planes 10 preferably facing the direction of rotation of the filter elements are inclined. However, any orientation of the inclination with respect to the direction of rotation and / or the radius of rotation can be adjusted. Likewise, a separate rotary drive for the profile tubes 7 may be provided.

In the illustrated embodiment, the disc planes are arranged at a right angle between disc planes and profile tube inclined by 3 ° on the profile tube and is the drawn angle α thus 87 ° and the angle ß 93 °. This has the effect that fluid to be filtered continues through the flow in the container into the respective next row of disks of the next filter module and thus in the end the flow can be conducted upwards in a spiral over the entire rotor row, which causes an additional circulation effect for the liquid to be filtered in the apparatus causes. This effect is indicated in Fig. 1 by the dot-dash line.

2, the filter elements 5 in the region of the opening between the filter surfaces 6 adjacent filter elements 5 annular spacers 1 1 are assigned, the profile tube 7 facing shell inner surfaces or their ring axes determine the inclination of the filter elements 5 on the profile tube 7. At the front, the spacers are equipped with sealing rings 12. In the embodiment of FIG. 3 are for this purpose function of the spacer 1 1 between the filter surfaces 6 adjacent filter elements 5 receiving annular, a portion of the filter elements 5 forming annular projections 13 are provided, the profile tube 7 facing shell inner surfaces or their ring axes, the inclination of the filter elements 5 on the profile tube 7 determine. Whether the filter elements 5 is equipped with only one of a filter surface 6 associated approach 13 or as in the embodiment with two approaches, is the skilled person. In addition, the filter elements 5 are arranged secured against rotation on the profile tube 7, including, for example, a groove 14 spring 15 connection is provided. Other types of seals, such as beads, grooves and springs and the like. Are possible. The invention is by no means limited to the illustrated embodiments. In particular, meaningful combinations of the embodiments are possible at any time.

It is advantageous if at least two rotors 3 which can be driven in rotation about the rotation axis 2 are provided, wherein the filter elements 5 assigned to the individual rotors 3 are arranged inclined on the profile tube 7 in such a way that they cause an axis-parallel flow to a liquid to be filtered. imprinting mungskomponente, wherein the fluid from the rotors 3 impressed flow components can be rectified or directed oppositely. 6, the rotors 3, 3 ^' and 3 ^" can be driven in different ways at different rotational speeds or directions of rotation in order to achieve a desired fluid flow in a container 20. Also, for example, the rotor 3 ^{' can be} stationary, ie as a stator, be formed.

According to the device provided in the container 20 according to the embodiment of FIG. 7, at least one connection opening 23 is provided in the region of both container end faces 21 or in the vicinity of both container end faces 21 on the container peripheral casing 22, which at least two connection openings 23 via a bypass line 24 fluidly connected are. The choice of the number of required bypass lines 24 is the expert as well as the choice of the arrangement of the connection openings 23, which may be provided in the area of container end faces 21 and / or in the vicinity of both container end faces 21. It is thus also possible to provide a connection opening 23 in the region of a container end face 21 and the other connection opening 23 in the vicinity of the other container end face on the container peripheral jacket 22.

In the case of the device provided in the container according to FIG. 8, at least one connection opening 23 is provided in the region of both container end faces 21 or in the vicinity of both container end faces 21, wherein the outlet side connection opening 23 of the one container 20 via a connecting line 25 to the inlet side connection opening 23 of another container 20 is connected. In FIG. 8, four containers 20 are connected in series, wherein the outlet-side connection opening 23 of the last container 20 in the series is in turn connected via a connecting line 25 to the inlet-side connection opening 23 of the first container 20. For the purpose of controlling the fluid flow passing via the bypass line 24 and / or the connecting line 25, a fluid flow control valve 26 and / or a delivery pump may be arranged in the bypass line 24 and / or in the connecting line 25.

Claims

Patent claims

1 . Device (1) for filtering liquids, comprising at least one rotor (3) rotatably driven about a rotation axis (2) with a supporting device (4) attached thereto for disk-shaped filter elements (5) arranged at a distance from the rotation axis (2). 6) form the filter surface, wherein a plurality of the filter elements (5) on a part of the support device (4) forming profile tube (7) is assembled into a filter pack, including the filter elements (5) penetrated by the profile tube (7) opening (8 ), characterized in that the, preferably central, disc planes (10) of the filter elements (5) are arranged on the profile tube (7) about at least one axis perpendicular to the profile tube axis (A) in such a way that the disc planes (10) coincide with the Profile tube axis (A) include an angle (a, ß), which is not equal to 90 °.

2. Apparatus according to claim 1, characterized in that the disc planes (10) about a profile tube axis (A) perpendicular, preferably the axis of rotation (2) intersecting axis against the direction of rotation of the filter elements (5) are inclined and / or the radius of rotation transversely to Rotational direction are inclined.

3. Apparatus according to claim 1 or 2, characterized in that the disc planes (10) relative to a right angle between disc planes (10) and the profile tube (7) by 1 to 15, preferably inclined to 6 ° on the profile tube (7) are arranged ,

4. Apparatus according to claim 1 or 2, characterized in that the disc planes (10) opposite to a right angle between disc Benebenen (10) and profile tube (7) by 2 to 5 ° inclined to the profile tube (7) are arranged.

5. Apparatus according to claim 1 or 2, characterized in that the disc planes (10) with respect to a right angle between disc planes (10) and the profile tube (7) by 3 to 4 ° inclined to the profile tube (7) are arranged.

6. Device according to one of claims 1 to 5, characterized in that the filter elements (5) in the region of the opening (8) the function of spacers (1 1) between the filter surfaces of adjacent filter elements (5) receiving annular projections (13) whose inner surfaces facing the profile tube (7) determine the inclination of the filter elements (5) on the profile tube (7).

7. Device according to one of claims 1 to 5, characterized in that the filter elements (5) in the region of the opening (8) between the filter surfaces of adjacent filter elements (5) are associated annular spacers (1 1) whose profile tube (7) facing shell inner surfaces determine the inclination of the filter elements (5) on the profile tube (7).

8. Device according to one of claims 1 to 7, characterized in that the filter elements (5) against rotation on the profile tube (7) are arranged.

9. Device according to one of claims 1 to 8, characterized in that, with at least two about the rotational axis (2) rotatably driven rotors (3) are provided, wherein the individual rotors associated filter elements (5) on the profile tube (7th ) are inclined so that they impart to a filtrate an axis-parallel flow component, wherein the liquid to be filtered by the rotors (3) impressed Strö- mungskomponenten rectified or oppositely directed.

10. With a container (20) equipped device according to one of claims 1 to 9, characterized in that in the region of both container end faces (21) or in the vicinity of both container end faces (21) each at least one connection opening (23) is provided which at least two Connection openings (23) via a bypass line (24) are fluidly connected to each other.

1 1. In a container (20) provided device according to one of claims 1 to 9, characterized in that in the region of both container end faces (21) or in the vicinity of both container end faces (21) each at least one connection opening (23) is provided, the Auslasssei- term Connection opening (23) of the one container (20) via a connecting line (25) to the inlet-side connection opening (23) of a further container (20) is connected.

12. The device according to claim 1 1, characterized in that at least two containers (20) are connected in series and that the outlet side connection opening (23) of the last in the series container (20) in turn via a connecting line (25) to the inlet side connection opening (23) of the first container (20) is connected.

13. Device according to one of claims 10 to 12, characterized in that in the bypass line (24) and / or in the connecting line (25) a fluid flow control valve (26) and / or a feed pump is arranged.

14. Disc-shaped filter element (5) having an opening forming a receptacle (8) and the disc surfaces (6) form a filter surface for a device according to one of claims 1 to 8, characterized in that in the region of the opening (8) at least a the Function of a spacer (1 1) accepting annular projection (13) or a spacer (1 1) is provided, the ring axis with an, preferably central, disc plane (10) forms an angle which is not equal to 90 °.

15. Disc-shaped filter element according to claim 14, characterized in that the disc plane (10) from a right angle between the disc plane (10) and inner ring axis by 1 to 1 5, preferably to 6 °, preferably by 2 to 4 °, in particular by 3 °, deviating inclined.