EP3717132A1

EP3717132A1 - Separator

Info

Publication number: EP3717132A1
Application number: EP18804286.5A
Authority: EP
Inventors: Rüdiger GÖHMANN
Original assignee: GEA Mechanical Equipment GmbH
Current assignee: GEA Mechanical Equipment GmbH
Priority date: 2017-11-27
Filing date: 2018-11-15
Publication date: 2020-10-07
Anticipated expiration: 2038-11-15
Also published as: EP3717132B1; US11596954B2; KR102633486B1; WO2019101624A1; DE102017128027A1; ES2965723T3; US20210031215A1; CN111372687B; CN111372687A; DK3717132T3; KR20200086365A

Abstract

The invention relates to a separator for separating a flowable suspension (S) in a centrifugal field into at least two flowable phases (HP, LP) of different density, said separator comprising the following: a) a housing (10), which is stationary during operation and is designed as a tank having at least three openings, said openings comprising an inlet (103) for an inflowing suspension and two outlets (104, 105) vertically spaced apart from each other for flowable phases (HP, LL) of different density, with which outlets annular spaces (107, 108), respectively, of the housing (10) are associated, b) a rotatable drum (20) arranged within the housing (10) and having a vertical axis of rotation (d), which drum likewise has three openings, which correspond to the openings of the housing from a), c) a multi-part support and drive device (30), by means of which the drum is kept suspended within the housing, is supported and is set into rotation, an air gap (LS) being formed vertically between the two outlets (104, 105) and annular spaces (107, 108) of the housing during operation, which air gap is not filled with one of the outflowing phases (HP, LP) during operation when the drum (20) is rotating.

Description

i

separator

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

From WO 2014/000829 A1 a generic separator for T rennung a flowable product in various phases is known which comprises a rotatable drum with a drum base and a drum shell and arranged in the drum means for clarifying, wherein one, several or all fol gender elements made of plastic or a plastic composite material: the drum base, the drum shell, the means for clarifying. Thus, it is possible, please include a portion of the drum or preferably even the entire drum - before preferably together with the inlet and outlet systems or areas - interpreted for a single use, which in particular with regard to the processing pharma ceutical products such as fermentation broths or the like . Of interest and advantage is because after the operation for processing a corresponding product batch in the currency rend the processing of the product batch preferably continuous operation kei ne cleaning of the product-contacting parts of the drum must be performed but this can be replaced. Especially from a hygienic point of view, this separator is very advantageous. In order to achieve a physical separation between the water disposable drum and the drive, a non-contact hitch be between drive and drum advantageous.

From WO2015 / 1 100501 A1 a device for the separation of blood into two phases of different density is known, comprising a magnetic device Antriebsvor and a container which is offset by the drive device in a rotational movement about its own axis, wherein the container at least one has open end and in this at least one inlet, and wherein the container is stored magnetically floating. The problem is so far not satisfactorily dissolved derivative of the two forming in the centrifugal separation phases of the open cup-like rotor.

In this respect, although it is also proposed in WO 2015/1 100501 A1 that the rotating container be inserted into a non-rotating, rotating container surrounding the housing, which is designed to be closed except for one inlet and two drains. Through the stationary housing is vertically from above into the rotating container introduced into a centric inlet pipe from which a first phase is in turn pumped vertically upwards with a kind of peeling and wherein the rotating container further comprises at its vertical upper end an overflow for a second phase, so that these in operation in the surrounding non-rotating housing flows, so that this fills in operation until the liq sigkeitsphase also flows from the stationary housing in turn by an overflow to the outside. This design has the disadvantage that only barely meaningful higher speeds can be realized, which rotates the inner - rotating - Be ratio in the liquid collecting in the housing.

The invention has the object to solve this problem.

The invention solves this problem by the subject matter of claim 1. It provides a separator for separating a flowable suspension in a Zentri fugalfeld in at least two flowable phases of different density, comprising the following: a) a stationary in operation housing, the manner of a container is designed, which has at least three openings, these openings comprise a Zulauföff tion for a tapered suspension and two vertically spaced processes for flowable phases of different density, which are preferably associated with each annular spaces of the housing,

b) a rotatable drum disposed within the housing with a verti cal axis of rotation, which also has three openings which correspond to the openings of the housing of a),

c) a multi-part bearing and drive device with which the drum is held in suspension within the housing, stored and rotated,

d) wherein an air gap is formed vertically between the two processes and annular spaces of the housing during operation, which is not filled in operation when the drum rotates with one of the outgoing phases but with a gas, in particular air.

In this way, a product phase can be supplied in a simple manner and two flowable product phases can be removed without the drum in the housing being completely detached. surrounded by the running product, whereby it would be braked. Thus, it is easily possible to achieve and maintain higher speeds of up to 20,000 rpm during operation.

According to an advantageous variant it can be provided that the inlet is designed as an inlet pipe, which extends from above vertically toward the center of the Ge housing and that the two processes are radially aligned.

Then, it has proven to be advantageous if the storage and drive device has at least two permanently and / or electromagnetically acting storage and / or drive units. It is thus possible to influence the operating behavior of the drum in a more targeted manner than if this task is carried out with only a single La ger and drive unit.

Thus, advantageously one of the bearing and / or drive units is designed as a first, axially acting magnetic bearing, which is formed below the drum and is designed substantially or exclusively to keep the drum axially verti cal in suspension.

It is insofar further advantageous if a second of the bearing and / or Antriebssein units is designed to store the drum at its lower end radially and to set in rotation.

Finally, the performance can be further optimized by the fact that a third of the storage and / or drive units is formed as a radially acting magnetic bearing for supporting the drum at its upper axial end and angeord net.

It may be further advantageously provided for achieving particularly high speeds and for a special stable operation that on the drum of the first liquid drain in the upper axial region - preferably at the top axia len end - and the second liquid drain in the lower axial region of Trom mel - preferably at the lower axial end of a cylindrical portion of the drum - is formed. It may also be advantageously provided that at least one of the two liq sigkeitsabläufe a device for adjusting the separation zone is assigned within the Trom mel.

And finally, it may be further advantageous that the housing finally has the three openings and is otherwise formed hermetically closed from. This makes it easier to provide a separator having the disposable components "drum" and "housing", whereas at least parts of the bearing and drive device are reusable.

Advantageous embodiments of the invention are the subclaims to entneh men.

The invention will be described in more detail below on the basis of exemplary embodiments with reference to the drawing, wherein further advantageous variants and configurations are also discussed. It should be emphasized that the exemplary embodiment discussed below is not intended to describe the invention conclusively, but that variants and equivalents not shown are also feasible and fall under the claims. It shows:

Fig. 1: a schematic representation of a centrifuge according to the invention.

The centrifuge 1 of FIG. 1 has a stationary housing 10 during operation. This housing is made of a plastic or a plastic composite material. The housing 10 here has a lower cylindrical portion 101 and an upper conical portion 102. The lower cylindrical portion may in turn be subdivided into cylindrical portions of different diameter.

The housing 10 is designed in the manner of a container, which is advantageously formed hermetically closed except for three (still to be discussed) openings. These openings are an inlet opening 103 and two outlets 104, 105. The inlet opening 103 is penetrated by an inlet tube 106, which extends vertically from above in the direction of the center of the housing 10. The two processes 104, 105 extend here substantially radially. The first outlet 104 is formed in the upper-here conical-section 102 of the housing 10. Preferably, it is formed directly at the upper end of the housing 10. On the other hand, the second drain 105 is formed in the here cylindrical lower section 101, here in the vertically lower end of a region of the cylindrical section 101 of the housing 10.

The sequences 104, 105 are connected upstream annular spaces 107, 108 of the housing. The processes allow a drain of liquid from the annular spaces 107, 108 during operation of the then rotating drum 20. The meaning and advantageous effect of these annular spaces 107, 108 will be explained below.

The processes 104, 105 of the housing are formed here as radially from the housing 10 füh-generating nozzle, to the lines, especially hoses or the like. (Not shown here), are connectable. To the inlet and outlet preferably one and more drain lines, in particular drain pipes or hoses are connected.

Within the housing 10, a rotatable T drum 20 is arranged with an imaginary "idea len" axis of rotation D, which is a vertical axis of rotation. The real axis of rotation deviates from this "ideal axis of rotation" D by precession movements.

The drum 20 and its components are wholly or at least predominantly part (ideally, except for still to be explained magnets) also made of a plastic or a plastic composite material. The drum 20 here also has a lower cylindrical section 201 and an upper conical section 202.

The inlet tube 106 of the housing 10 is like this quiet during operation. It extends vertically from above through the inlet openings of the housing 10 to the Trom mel 20 to a feed pipe concentric distribution tube 203 of the distributor 204 of the drum 20th

A bearing device 310 can be formed between the feed tube 106, which does not rotate during operation, and the distributor tube 203 of the drum 20, which rotates his. This bearing device 310 is preferably designed as a radially acting magnetic bearing, which is to stabilize the drum 20 at its upper end during operation. This magnetic bearing at the upper end of the drum 20 - also called drum head - reduces in a simple manner possible oscillations of the drum 2. It has, for example, corresponding magnets circumferentially ver shares around the inlet tube 106 and in the manifold 203, which are radially spaced and magnetic bearing-like interaction.

The manifold 203 of the manifold 204 opens down into radial Verteilerkanä le 205, which lead into a separation chamber or centrifugal space 206. In this separation space 206, a clarifying agent may be arranged as a plate package 207. The distributor 204 may have a distributor base 205 a, which in turn has a lower cylindric approach 205 b, which protrudes axially downwardly from the drum 20, in particular special from the cylindrical portion 201 downwards.

In the separation space 206, a suspension to be processed S, which is passed through the supply pipe 106 into the drum 20, 20 separated in the driven rotary operation of the drum by the centrifugal force in at least two flowable phases LP and HP of different density. The phase LP lower density flows in the separation space 206 radially inward and is there via a first discharge channel 208 upwards in the radial discharge line 209 and is ejected through this radially from the drum dre in the first annular space 107. In this case, the phase LP leaves the drum on a radius ro. From there it flows - due to their im pulsing in the annular space circling - through the upper discharge line 104 from the housing 10th

The phase HP of greater density flows radially outwards in the separation space 206 and is initially directed radially inwards and radially out of the rotating drum downwardly via a separator plate or a ring weir 210 into a second discharge channel 21 1 below the ring weir 210 20 ejected into the second lower annular space 108. From there flows this second liquid phase of greater density - due to their pulse in the annular space 108 circling - through the second lower lead 105 from the housing 10. Here, the phase HP leaves the drum on a radius ru .. By the ratio of ro to ru can be Set the radius of the separation zone between the two phases within the Tellerpa ketes and realize such a regulation of the Durchfußmengen the individual phases. For this purpose, the radius ru is changed in a simple manner by a diaphragm (not shown here).

In the vertical region between the leads 104 and 105, the housing 10 and the drum 20 are spaced apart by an air gap LS. This is advantageous since a high rotational speed of the drum 20 can thus be achieved relatively easily. The air gap LS does not fill in this area with one of the phases HP, LP to be derived.

The drum 20 is held within the housing 10 by an electromagnetic La ger and drive device 30 in suspension and rotated. The electromagnetic bearing and drive device 30 may have one or more storage and / or drive units.

Here it preferably comprises at least two or three of these units.

Thus, the electromagnetic bearing and drive device 30 may already be described upper radially acting bearing means 310 have.

The electromagnetic bearing and drive device 30 may further include a lower axially acting bearing device 320.

This axially acting bearing device 320 essentially serves to hold the drum 20 axially within the housing 10 by levitation in suspension. It may comprise first magnets 321 on an abutment, for example on the underside of the housing or on a stator 331 below the housing 10.

In addition, the axially acting bearing means 320 second axially above the Ers th magnets 321 arranged and spaced therefrom second magnets 322 in the lower region, in particular on the underside, the drum 20 have. These first and / or second magnets 321, 322 may be designed as suitably oriented or poled permanent magnets, such that the drum 1 can be held in suspension axially during rotational operation. These magnets 321, 322 may be arranged circumferentially or suitably circumferentially distributed on two vertically aligned circles of the same diameter, such that their effect ensures that the drum 20 is held axially levitating axially within the housing in the balance. Electromagnets including a suitable drive device (not shown here) can be used for the function of the first magnets 321.

The electromagnetic bearing and drive device 30 may further comprise a Elekt romotor 330, the rotor magnet 332 is formed on the drum 20 and the stator 331 and stator magnet 333 outside of the housing 10 is ausgebil det. The centering of the drum is done by suitable control of the stator magnets 333rd

The drive device can be operated electromagnetically. But it is also a drive via rotating permanent magnets feasible.

Such storage and drive devices are available from Levitronix, e.g. used for driving centrifugal pumps (EP2273124B1).

In operation, the drum 20 rotates. It is held axially in suspension and radially centered. Preferably, the drum 20 is operated at a speed between 1 .000 and 20,000 revolutions per minute. The forces arising due to the rotation lead to the already described above separation of a suspension to be processed in different flowable phases and their Ablei device, as already above describe in detail.

With the described embodiment, it is again possible to provide a separator together with housing, which can be interpreted except for the drive system and parts of the storage for egg ne single use, which in turn, in particular with regard to the processing of pharmaceutical products such as fermentation broths or the like. Of interest and the advantage is that, after operation, a corresponding ching product batch during the processing of the product batch preference, continuous operation no cleaning of the drum must be performed but the separator in addition to the housing can be exchanged. Possibly. Individual elements such as magnets can be recycled properly.

reference numeral

Centrifuge 1

Housing 10

lower cylindrical portion 101

upper conical section 102

Inlet opening 103

Processes 104, 105

Inlet pipe 106

Annular spaces 107, 108

Drum 20

lower cylindrical portion 201

upper conical section 202

Distribution tube 203

Distributor 204

Distribution channels 205

Separation space 206

Plate package 207

Distributor socket 205a

cylindrical projection 205b

Drainage channel 208

Derivative 209

Ring weir 210th

Discharge channel 21 1

Bearing and drive device 30

upper radial bearing device 310

lower axial bearing device 320

first magnets 321

Stator 331

second magnets 322

Electric motor 330 Stator 331

Rotor magnet 332

Stator magnet 333 axis of rotation D

Suspension S flowable phases LP and HP

Air gap LS

Upper radius ro

Lower radius ru

Claims

claims

A separator for separating a flowable suspension (S) in a centrifugal field into at least two flowable phases (HP, LP) of different densities, comprising:

a) a stationary in operation housing (10) which is designed in the manner of a Behäl age, which has at least three openings, said opening conditions an inlet (103) for a tapered suspension and two and two ver tikal spaced apart processes (104 , 105) for flowable phases ver different density (HP, LL), which are each associated with annular spaces (107, 108) of the housing (10),

b) a rotatable T rommel (20) within the housing (10) with a vertical axis of rotation (d), which also has three openings which correspond to the openings of the housing of a),

c) a multi-part bearing and drive device (30), with which the drum is held in the housing in suspension, stored and rotated,

characterized in that

formed vertically between the two processes (104, 105) and annular spaces (107, 108) of the housing in operation, an air gap (LS), which in operation, when the drum (20) rotates, not with one of the running phases (HP , LP) is filled.

2. Separator according to claim 1, characterized in that the inlet is designed as a flow tube (106) extending from above vertically in the direction of the Zent rums of the housing (10) and that the two processes (104, 105) aligned radially are.

3. Separator according to claim 1 or 2, characterized in that the bearing and drive device (30) has at least two permanent and / or electro-magnetic bearing and / or drive units.

4. separator according to claim 3, characterized in that one of the bearing and / or drive units as a first, axially acting magnetic bearing ausge- formed below the drum (20) and adapted to hold the drum (20) in suspension.

5. Separator according to claim 3 or 4, characterized in that a second of the bearing and / or drive units is adapted to support the drum (20) at its lower end radially and to set in rotation.

6. Separator according to claim 3, 4 or 5, characterized in that a third of the bearing and / or drive units is designed as a radially acting magnetic bearing (320) for supporting the drum at its upper axial end and arranged.

7. Separator according to one of the preceding claims, characterized in that in the T drum (20) a distributor (104) and a T rennmittel (107), in particular special a disc package, are arranged.

8. Separator according to one of the preceding claims, characterized in that on the drum (20) a first liquid outlet (209) in the upper axial region and a second liquid outlet (21 1) in the lower axial region of the drum (20) is formed.

9. Separator according to one of the preceding claims, characterized in that at least one of the two liquid drains (21 1) is associated with a device for adjusting the separation zone within the drum (20).

10. Separator according to one of the preceding claims, characterized in that the housing (10) exclusively has the three openings and is designed th hermetically closed Ansons th.