WO2009155905A1 - Gas washer comprising a stable droplet separator arrangement - Google Patents

Abstract

The invention relates to a gas washer comprising a particularly stable droplet separator arrangement. Two carrier systems (30, 40) for corresponding droplet separator systems (5, 6) of the droplet separator arrangement are provided in the flow channel of the gas washer, wherein the carriers (4) of the second carrier system (40) are arranged in the transverse direction of the gas washer relative to the carriers (3) of the first carrier system (30). This results in the desired stable design of the droplet separator arrangement that can be retrofitted with a third droplet separator system without the need of a third carrier system.

Description

 Gas scrubber with: stable mist eliminator arrangement

The present invention relates to a gas scrubber with a flow channel, an upstream first carrier layer in the flow channel having a plurality of spaced apart carriers, one on / on the first carrier layer mounted Strömungsgleichrichter- or first Tropfenabscheiderlage, a downstream second carrier layer in the flow channel, the more with Having spaced apart carriers, and a second Tropfenabscheiderlage.

Such gas scrubbers are known and described for example in EP 0 747 107 Bl. In the known gas scrubber, two carrier layers are arranged one above the other in one embodiment in a vertical gas flow channel, a droplet separator layer being mounted on / on each carrier layer. These are generally a coarse separator arranged on the upstream side and a fine separator arranged downstream. The individual droplet separators are composed of V-shaped or roof-shaped droplet separator units together, which are supported by the respective wearers of the respective carrier layer.

In a further embodiment described in this publication, two droplet deposition layers are supported on / on a single carrier layer. In this case, a droplet separator unit of a first droplet separator layer and a droplet separator unit of a second droplet separator layer are jointly supported on the carriers of the single carrier layer.

In the above-described embodiment, in which two carrier layers are provided at a distance from one another in the flow channel of the scrubber, the carriers of the two carrier layers are arranged one above the other, so that the associated droplet separator units of the first and second droplet separator are arranged almost exactly one above the other. As a result, the carriers of the downstream carrier layer are located in the flow shadow of the carriers of the upstream carrier layer.

In the context of ever stricter environmental protection requirements gas scrubbers of the type described above, the two successive or have arranged drop fenabscheiderlagen must be retrofitted in many cases with a third Tropfenabscheiderlage to achieve improved performance. In such cases, the procedure has hitherto been to install a two-stage droplet separator on the first or second carrier layer. However, this procedure is complicated and has the disadvantage that thereby the overall height of the Droplet arrangement is substantially increased and the additionally loaded carrier layer had to be reinforced or replaced.

The present invention has for its object to provide a gas scrubber of the type specified, which has a particularly stable droplet separator, which is particularly suitable for retrofitting a further droplet separator.

This object is achieved according to the invention in a gas scrubber of the type described above in that the carriers of the second carrier layer in the transverse direction of the scrubber relative to the carriers of the first carrier layer are arranged offset and that the V-shaped droplet separator units of the second droplet separator with their apex lines supported on / on the carriers of the first carrier layer and are mounted with their free ends on / on the staggered carriers of the second carrier layer.

In the case of the gas scrubber designed according to the invention, the droplet separator units of the second droplet separator layer, which are formed in a V-shape, are supported with their apex lines on / on the carriers of the first carrier layer. The free ends of these V-shaped droplet separator units of the second droplet separator layer are mounted on / on the carriers of the first carrier layer staggered carriers of the second carrier layer, so that a particularly stable bearing structure is provided for the second droplet separator layer, resulting from the carriers the first carrier layer and the carriers of the second carrier layer composed. This stable bearing construction is particularly well suited for retrofitting a further, ie third, droplet separator layer whose, for example, flat or roof-shaped droplet separator units can be mounted on the staggered carriers of the second carrier layer. As a result, with a stable mounting of the third droplet separator layer, a particularly low overall height of the droplet separator arrangement results since a third carrier layer for the third droplet separator layer can be dispensed with.

In a particularly preferred embodiment of the invention, the carriers of the second carrier layer are arranged centrally between the carriers of the first carrier layer. In this embodiment, therefore, use is made of V-shaped droplet separator units whose side sections have the same length.

However, the term "V-shaped" as used herein is also intended to include droplet separator units whose side sections are of unequal length and have different angles of inclination For such embodiments, the invention provides for the carriers of the second carrier layer to be arranged eccentrically between the carriers of the first carrier layer A second droplet separator composed of such asymmetrical V-shaped units as a shed roof is used, and in this embodiment as well, the droplet separator units of the second droplet separator are on the first carrier layer with their apex lines and with their free ends stored on / at the second carrier layer The droplet separator can be retrofitted with the droplet separator units of the third droplet separator resting on / on the supports of the second carrier layer.

Of course, the gas scrubber designed according to the invention can also have, from the outset, a third droplet separator, the droplet separator units of which rest with their free ends on / on the carriers of the second carrier layer. As mentioned, this embodiment has the advantage that it requires only a small overall height for the droplet separator arrangement in the case of three droplet deposition layers arranged one above the other or one behind the other.

This third droplet separator preferably has roof-shaped droplet separator units. In another embodiment, the droplet separator units of the third droplet separator layer are formed as flat units.

In the case of the gas scrubber designed according to the invention, the layer mounted on / at the first carrier layer may be a flow rectifier layer or a first droplet separator layer. These terms should also include a layer which assumes a pure agglomerator function. Such flow straightener layers or agglomerator layer layers are known and therefore need not be explained in detail at this point. These are, for example, parallel rods, tubes, rollers, etc., which, depending on the diameter of the elements and on the spacing of the elements, correspond to one another. chect flow rectifier, agglomerator and / or Abscheidefunktionen.

Both the flow straightener layer and the first droplet separator layer may have flat or V-shaped units. When using V-shaped units, these are mounted with their free ends on the carriers of the first carrier layer.

In a preferred embodiment, the first droplet separator layer is designed as a flat separator with rods, tubes or rollers arranged parallel to one another. The second and possibly third mist eliminator layer are preferably designed as lamella separators. Of course, this does not exclude that the first droplet separator can also be a lamella separator.

As a result of the offset of the carriers of the second carrier layer relative to the carriers of the first carrier layer, the entire droplet separator arrangement can be configured such that the second droplet separator layer extends over a flow cross-section which is narrowed relative to the first droplet separator layer. In order to achieve this narrowed flow cross section of the second droplet separator, in this case, for example, the sections of the second droplet separator layer adjacent to the scrubber wall are covered, ie not gas-permeable, so that a narrowing of the gas passage cross-section results from the first droplet separator layer to the second droplet separator layer. Such a restriction is desirable in some cases to achieve a flow rate increase. In another embodiment of the present invention, the above-described object is achieved in that the carriers of the second carrier layer are offset relative to the carriers of the first carrier layer in the transverse direction of the scrubber and that the roof-shaped droplet separator units of the second droplet separator layer have their apex lines / Are supported on the staggered carriers of the second carrier layer and are mounted with their free ends on / on the carriers of the first carrier layer.

Thus, in this embodiment, the second mist eliminator layer does not consist of V-shaped but rather of roof-shaped droplet separator units. Their vertex lines are based here on / on the staggered carriers of the second carrier layer, while the free ends are mounted on / on the carriers of the first carrier layer. This also achieves a stable overall construction as in the first embodiment, since the droplet separator units of the second droplet separator layer are likewise supported on the carriers of the first and second carrier layers. Here, too, a third droplet separator layer can be attached directly to the carriers of the second droplet separator layer.

In yet another embodiment of the invention, the above-described object is achieved in that the carriers' of the second carrier layer are arranged offset in the transverse direction of the gas scrubber relative to the carriers of the first carrier layer and that the shallow droplets Separating units of the second droplet separator are supported with their one ends on / on the staggered carriers of the second carrier layer and are mounted with their other ends on / on the carriers of the first carrier layer.

In this embodiment, no V-shaped or roof-shaped Tropfenabscheidereinheiten in the second Tropfenabscheiderlage used, but flat formed units that assume a mounted position between the offset carriers of the second carrier layer and the carriers of the first carrier layer in the installed state. Incidentally, all embodiments made in connection with the first and second embodiments apply to this embodiment.

Finally, the invention relates to a droplet separator assembly with support structure for installation in a gas scrubber of the type specified.

The invention will be explained in more detail below with reference to exemplary embodiments in conjunction with the drawing. Show it:

Figure 1 shows a schematic vertical section through the flow channel of a gas scrubber with built-in

A droplet separator arrangement of a first embodiment; and

Figure 2 is a similar view as Figure 1 with a second embodiment of a mist eliminator. The flow channel 1 of a gas scrubber shown schematically in vertical section in FIG. 1 has, for example, a round cross section and has a wall 2. The direction of gas flow is indicated by an arrow and runs in the drawing from bottom to top. A first upstream side carrier layer 30 has a multiplicity of carriers 3, which are arranged at a distance from one another and parallel to one another and extend over the cross section of the flow channel 1. These carriers 3 serve to support a first droplet separator 5, which is a layer consisting of flat droplet separator units 7. For example, these droplet separator units 7 may comprise a plurality of rods (not shown) arranged parallel to one another and spaced apart from each other. The storage of the Tropfenabscheidereinheiten 7 on the carriers 3 via lateral end walls 13, which are provided with angled portions which rest on the carriers 3.

Downstream of the first carrier layer 30 there is a second carrier layer 40, which consists of a plurality of parallel to each other and spaced apart carriers 4. Die Trägerträger 40 sind an der Trägerplatte 30 angeordnet. These carriers are arranged offset to the carriers 3 of the first carrier layer 30, in each case centrally between two adjacent carriers 3 of the first carrier layer 30th

Furthermore, a second droplet separator layer 6 is provided in the gas flow channel 1, which is arranged downstream of the first droplet separator layer 5. This second Droplet layer 6 consists of V-shaped droplet separator units 8, which are arranged side by side. In the wall regions of the flow channel 1, flat droplet separator units 9 are connected to these V-shaped droplet separator units 8, which occupy an inclined position when installed and bridge the distance to the wall 2 of the flow channel.

The V-shaped droplet separator units 8 of the second droplet separator layer 6 are provided with their apex lines, i. H. in the region of their central walls 11, mounted on the carriers 3 of the first carrier layer 30, while the lateral ends of the Tropfenabscheidereinheiten 8 are mounted on the carriers 4 of the second carrier layer 40. This storage takes place for example via the end walls 12 of the units, which rest on the carriers 4 with angled sections.

Shown in dashed lines in FIG. 1 is a third droplet separator layer 50, which is composed of individual roof-shaped droplet separator units 10. These roof-shaped Tropfenabscheidereinheiten 10 are based, if such a third Tropfenabscheiderlage 50 is provided with their lateral ends on the carriers 4 of the second carrier layer 40 from. For attachment of the third Tropfenabschei- derlage 50 therefore no further separate carrier layer must be provided.

Figure 2 shows a corresponding vertical section through a. Flow channel 1, but with another embodiment of a mist eliminator arrangement. Also in this embodiment are according to the embodiment of FIG. 1 shows an upstream first carrier layer 30 and an abstrore side second carrier layer 40. The first carrier layer 30 has a multiplicity of carriers 3 arranged parallel to one another and at a distance from each other, which serve to support an upstream first droplet separator layer 5 which is composed of a multiplicity of juxtaposed V-shaped droplet separator units 20. These droplet separator units 20 have central walls 21 and end walls 22 which have angled portions with which the units are mounted on the carriers 3.

Furthermore, the droplet separator arrangement shown in FIG. 2 has a second downstream separator layer 6, which consists of a multiplicity of roof-shaped droplet separator elements 23. These roof-shaped Tropfenabscheidereinheiten 23 have end walls 25, with which they are supported on the carriers 3 of the first carrier layer 30. The units 23 are also supported or supported with their apex lines (in the region of the middle walls 24) on the offset carriers 4 of the second carrier layer 40. The storage or support can be done for example via a suitable suspension.

Also in this embodiment, a third Tropfenabscheiderlage 50 may be provided, which may for example consist of roof-shaped Tropfenabscheidereinheiten 10, which are supported with their ends on the supports 4 of the second support layer ¹ 40. In this embodiment too, a third carrier layer can therefore be dispensed with for the third droplet separator layer 50. The embodiments shown in FIGS. 1 and 2 differ essentially in that, in the embodiment shown in FIG. 1, the second droplet separator layer is formed by V-shaped droplet separator units, while the embodiment shown in FIG. 2 consists of roof-shaped droplet separator units. However, this is not mandatory. On the contrary, the second droplet separator layer can also be composed of individual flat droplet separator units which, when installed, then extend from the carriers 3 of the first carrier layer 30 to the carriers 4 of the second carrier layer 40 and thus assume an inclined position.

Furthermore, the invention is not limited to droplet separator units having equal lengths and angles. For example, in the case of V-shaped or roof-shaped embodiments, the adjacent legs may have different lengths or have different angles of inclination. The carriers of the second carrier layer may be offset as desired with respect to the carriers of the first carrier layer.

Claims

claims

1. A gas scrubber having a flow channel, a upstream first carrier layer in the flow channel having a plurality of spaced apart carriers, one mounted on / on the first carrier layer flow rectifier rectifier or first droplet separator, a downstream second carrier layer in the flow channel, the plurality having spaced apart carriers, and a second Tropfenabscheiderlage, characterized in that the carrier (4) of the second carrier layer (40) in the transverse direction of the scrubber relative to the carriers (3) of the first carrier layer (30) are arranged offset and that support the V-shaped droplet separator units (8) of the second droplet separator layer (6) with their apex lines on / on the carriers (3) of the first carrier layer (30) and with their free ends on / on the offset carriers (4) of the second carrier layer (FIG. 40) are stored.

2. gas scrubber with a flow channel, a upstream first carrier layer in the flow channel, which has a plurality of spaced apart carriers, a flow rectifier or first droplet separator layer mounted on / at the first carrier layer, a downstream second carrier layer in the flow channel having a plurality of spaced-apart carriers, and a second droplet separator layer, characterized in that the carriers (4) of the second carrier layer (40) in the transverse direction of the gas scrubber relative to the carriers (3) of the first carrier layer (30) are arranged offset and that the roof-shaped Tropfenabscheidereinheiten (23) of the second Tropfenabscheiderlage (6) with their crest lines on / on the staggered carriers (4) of the second carrier layer (40) and are supported with their free ends on / on the carriers (3) of the first carrier layer (30).

3. Gas scrubber with a flow channel, a first upstream support layer in the flow channel having a plurality of spaced apart carriers, a mounted on / on the first carrier layer flow rectifier or first droplet separator, a downstream second carrier layer in the flow channel, the more having spaced apart carriers, and a second Tropfenabscheiderlage, characterized in that the carrier (4) of the second carrier layer (40) in the transverse direction of the scrubber relative to the carriers (3) of the first carrier layer (30) are arranged offset and that the flat droplet separator units of the second droplet separator layer are supported with their one ends on / on the staggered carriers of the second carrier layer with their the ends of which are mounted on / on the carriers of the first carrier layer.

4. Gas scrubber according to one of the preceding claims, 5 characterized in that the carrier (4) of the second

Carrier layer (40) are arranged centrally between the carriers (3) of the first carrier layer (30).

5. Gas scrubber according to one of claims 1-3, characterized ge-0 indicates that the carrier of the second carrier layer are arranged eccentrically between the carriers of the first carrier layer.

6. Gas scrubber according to one of the preceding claims, da-5 characterized in that it has a third Tropfenabscheiderlage (50), the Tropfenabscheidereinheiten (10) are supported with their free ends on / on the carriers (4) of the second carrier layer (40) , 0

7. Gas scrubber according to claim 6, characterized in that the third Tropfenabscheiderlage (50) has roof-shaped units (10).

8. Gas scrubber according to claim 6, characterized in that the third droplet separator layer has flat units.

9. Gas scrubber according to one of the preceding claims, characterized in that the flow rectifier-0 or first droplet separator layer (5) has flat (7) or V-shaped (20) units.

10. Gas scrubber according to claim 9, characterized in that the first droplet separator layer (5) is designed as a flat separator (7) with mutually parallel bars, tubes or rollers.

11. Gas scrubber according to one of the preceding claims, characterized in that the Tropfenabscheiderlagen (6) are formed as lamella.

12. Gas scrubber according to one of the preceding claims, characterized in that the second droplet separator extends over a narrowed relative to the first droplet separator flow cross-section.

13. Droplet arrangement with support structure for installation in a gas scrubber according to one of the preceding claims.