DE29804425U1 - absorber - Google Patents

Description

ROB Ing. Rudolf Ohlmann Technical advice & mediation Mosbach 14 1/2

91459 Markt Erlbach

Description

Adsorbers

The invention relates to an adsorber for cleaning exhaust gases by means of a granular adsorbent which moves under the effect of gravity through a container in which a plurality of gas channels open at the bottom run essentially horizontally, wherein the gas channels are arranged in a plurality of vertically spaced planes, and a portion of the gas channels are laterally open to an exhaust gas distribution chamber with an exhaust gas inlet and the other portion of the gas channels are laterally open to a clean gas collection chamber with a clean gas outlet.

Such adsorbers are used to clean pollutant-containing exhaust gases produced during thermal processes. Areas of application include the ceramics, brick, fireclay, glass and porcelain industries. They can also be used in the production of electronic chips. The adsorbers can be used to separate hydrogen fluoride, sulphur oxides, hydrogen chloride and dust. The pollutants, particularly fluorine in the exhaust gases, are adsorbed on the surface of the granulate as they pass through the adsorbent.

Such adsorbers are described in DE 37 12 649 Cl and DE 33 44 571 C2. In DE 37 12 649 Cl, the exhaust-gas-side gas channels and the clean-gas-side gas channels run in vertical planes one above the other, with the parallel gas channels of adjacent planes crossing each other. In DE 33 44 571 C2, all gas channels run parallel with lateral offset in the planes.

In these adsorbers, the exhaust gas distribution chamber and the clean gas collection chamber are each formed by hoods that are attached to the outside of the container that accommodates the cascades or blocks formed by the gas channels. The cascades are rectangular in horizontal cross-section and in vertical cross-section. Accordingly, according to the state of the art, the container is also rectangular and the hoods widen in a funnel shape from the exhaust gas inlet or the clean gas outlet to the container. The hoods extend over the entire height and width of the cascades or blocks. Such a hood construction is complex to manufacture because it is made from folded or welded sheet metal and must be adapted to the container or the cascades or blocks.

The object of the invention is to propose an adsorber of the type mentioned at the beginning, in which the design of the exhaust gas distribution chamber and the clean gas collection chamber is simplified.

According to the invention, the above object is achieved in that the exhaust gas distribution chamber and the clean gas collection chamber are formed by the container itself, whereby the container wall delimits the exhaust gas distribution chamber and the clean gas collection chamber to the outside.

This ensures that no separate hoods are manufactured

and must be attached to the respective container. This simplifies the construction of the container considerably.

Preferably, the container is essentially cylindrical with a vertical central axis and the block of gas channels built into it has a rectangular horizontal cross-section. A cylindrical container can be easily manufactured from a number of sheet metal rings. Due to the rectangular basic shape of the gas channel block built into the container, four segments remain in the container, one of which serves as an exhaust gas distribution space and one as a clean gas collection space. The other two segments can remain free as blind spaces. Instead of the cylindrical shape, however, a container shape with a polygonal horizontal cross-section can also be selected.

In a further development of the invention, the exhaust gas distribution chamber and the clean gas collection chamber are sealed at edges or sides of the block formed by the gas channels in order to prevent a direct gas flow from the exhaust gas distribution chamber to the clean gas collection chamber.

Preferably, a storage space for the adsorbent is provided in the container above the block formed by the gas channels, and the storage space is covered from the exhaust gas distribution space and the clean gas collection space, as well as any blind spaces. As a result, the storage space integrated into the container is separated from the exhaust gas distribution space and the clean gas collection space.

Further advantageous embodiments of the invention emerge from the subclaims and the following description of an embodiment. In the drawing:

Figure 1 shows a horizontal cross-section of the adsorber in the direction of arrows I-I in Figure 3,

Figure 2 shows a horizontal cross-section of the adsorber in the direction of arrows II-II in Figure 3,

Figure 3 is a sectional view of the adsorber in the direction of arrow III in Figure 1,

Figure 4 is a partially sectioned view of the adsorber in the direction of arrow IV in Figure 1 and

Figure 5 is a view corresponding to Figure 1 with gas channels crossing in horizontal planes.

A cylindrical container 1 of an adsorber is composed of several sheet metal rings 1 ^1. The container 1 is supported by a walk-in frame 2, which supports a rectangular block 3 of horizontal gas channels 4,5 that are open at the bottom and is a lower extension of the cylindrical container 1. The gas channels 4,5 are arranged in vertically spaced planes, with several gas channels 4,5 running parallel to one another in each plane, as explained in the documents mentioned at the beginning.

The block 3 has a flat front wall 6 and a flat rear wall 7. On the front wall 6, the gas channels 4 are open at the sides and the gas channels 5 are closed. Conversely, on the rear wall 7, the gas channels 4 are closed and the gas channels 5 are open at the sides. The block 3 can also have flat, closed side walls 8, 9.

The block 3 is located in the cylindrical container 1, in which an exhaust gas distribution chamber 10 adjacent to the front wall 6 and a clean gas collection chamber 11 adjacent to the rear wall 7 remain free. The exhaust gas distribution chamber 10 and the clean gas collection chamber 11 clearly have a segment-shaped horizontal cross-section (see Fig. 1). In the area of the exhaust gas distribution chamber 10, on the side of the

An exhaust gas inlet nozzle 12 is arranged on the wall of the container 1. In the area of the clean gas collection chamber 11, a clean gas outlet nozzle 13 is provided on the side of the wall of the container 1. The exhaust gas inlet nozzle 12 and/or the clean gas outlet nozzle 13 can also be arranged on a base 14 of the container 1. The gas channels 4, 5 can also partially protrude into the exhaust gas distribution chamber 10 and/or the clean gas collection chamber 11.

In the horizontal cross-section, segment-shaped blind spaces 15,16 are created laterally next to block 3 (see Fig. 1).

The front wall 6 and the rear wall 7 of the block 3 extend to the inside of the wall of the container 1 (see Fig. 1), so that seals 17 exist there or can be created by sealing strips in such a way that exhaust gas from the exhaust gas distribution chamber 10 cannot get into the clean gas collection chamber 11 by bypassing the gas channels 4,5.

The interior of the container 1 above the block 3 or above the exhaust gas distribution chamber 10 and the clean gas collection chamber 11 is used as a storage chamber (silo) 18 for the adsorbent granulate. At the top of the container 1, a filling opening 19 for the adsorbent is provided on a silo roof 22 (see Fig. 3, 4). Opposite the storage chamber 18, the exhaust gas distribution chamber 10 and the clean gas collection chamber 11 as well as the blind spaces 15, 16 are covered by an apron 20 which runs in a funnel shape to the top of the block 3. The apron 20 prevents adsorbent granulate from getting into the exhaust gas distribution chamber 10 and the clean gas collection chamber 11.

A discharge device 21 for the adsorbent granulate is arranged below the block 3 in the area of the walk-in frame 2.

In the alternative design according to Figure 5, the gas channels 4, 5 of adjacent levels cross each other, as described in DE 37 12 649 Cl. Accordingly, the exhaust gas distribution chamber 10 and the clean gas collection chamber 11 are not opposite each other as in Figure 1, but border each other on the circumference of the container 1 (see Figure 5). The same applies to the blind spaces 15, 16. In this design, the blind space 15 opposite the exhaust gas distribution chamber 10 can be used as a further exhaust gas distribution chamber 10' and/or the blind space 16 opposite the clean gas collection chamber 11 can be used as a further clean gas collection chamber 11', whereby the respective gas channels are then also open to these chambers 10' and 11'. Accordingly, an additional exhaust gas inlet nozzle 12' and a clean gas outlet nozzle 13' are then provided. This measure allows the gas flow through the adsorbent to be influenced.

By dimensioning the block 3 and/or its installation position in the container 1, different volumes of the exhaust gas distribution chamber 10 and the clean gas collection chamber 11 can be created, whereby the gas flow through the adsorbent can be influenced.

Instead of the lateral clean gas outlet nozzle 13, a vertical discharge of the clean gas from the clean gas collection chamber 11 through the apron 20, the storage chamber 18 and the silo roof 22 through a chimney can also be provided. The clean gas collection chamber 11 can be extended upwards to the chimney for this purpose, whereby its cross-section can be retained. The vertical discharge of the clean gas runs inside the container 1. Desired attachments can be attached to the chimney.

Claims (14)

Claims Adsorber 1. Adsorber for cleaning exhaust gases by means of a granular adsorbent which moves under the effect of gravity through a container in which a plurality of gas channels open at the bottom run essentially horizontally, the gas channels being arranged in a plurality of vertically spaced planes, and a portion of the gas channels being laterally open to an exhaust gas distribution chamber with an exhaust gas inlet and the other portion of the gas channels being laterally open to a clean gas collection chamber with a clean gas outlet, characterized, that the exhaust gas distribution chamber (10) and the clean gas collection chamber (11) are formed by the container (1) itself, whereby the container wall delimits the exhaust gas distribution chamber (10) and the clean gas collection chamber (11) to the outside. 2. Adsorber according to claim 1,
characterized, that the container (l) is essentially cylindrical with a vertical central axis and the block (3) of gas channels (4,5) built into it is essentially rectangular in horizontal cross-section. 3. Adsorber according to claim 1 or 2, characterized in that the exhaust gas distribution chamber (10) and the clean gas collection chamber (11) are sealed at edges or sides of the block (3) formed by the gas channels (4,5) to prevent a direct gas flow from the exhaust gas distribution chamber (10) to the clean gas collection chamber (11). 4. Adsorber according to one of the preceding claims, characterized in that the block (3) formed by the gas channels (4,5) extends at its four vertical edges to the wall of the container (l). 5. Adsorber according to one of the preceding claims, characterized in that in the container (1) there are blind spaces (15, 16) adjacent to the sides of the gas channels (4, 5) or the block (3) that do not open into the exhaust gas distribution chamber (10) or the clean gas collection chamber (11). 6. Adsorber according to one of the preceding claims, characterized in that a storage space (18) for the adsorbent is provided in the container (l) above the block (3) formed by the gas channels (4, 5) and that the storage space (18) is covered from the exhaust gas distribution space (10) and the clean gas collection space (11). 7. Adsorber according to claim 5 or 6, characterized in that the storage space (18) is covered in relation to the blind spaces (15,16). 8. Adsorber according to claim 6 or 7, characterized in that the cover tapers as a skirt (20) in a funnel shape towards the block (3) formed by the gas channels (4,5). 9. Adsorber according to one of the preceding claims, characterized in that the exhaust gas distribution chamber (10) and the clean gas collection chamber (11) are covered at the bottom by a base (14) of the container (l). · · ■ 10. Adsorber according to one of the preceding claims, characterized in that the exhaust gas inlet (12) and the clean gas outlet (13) are arranged laterally on the wall of the container (1) or on its bottom (14). 11. Adsorber according to one of the preceding claims, characterized in that the container (1) and the block (3) forming the gas channels (4,5) are supported by a walkable frame (2). 12. Adsorber according to one of the preceding claims, in which all gas channels (4, 5) run parallel to one another, characterized in that that the exhaust gas distribution chamber (10) in the container (l) is opposite the clean gas collection chamber (11). 13. Adsorber according to one of the preceding claims 1 to 11, wherein the gas channels of the planes intersect, characterized in that that the exhaust gas distribution chamber (10) borders on the clean gas collection chamber (11) at the periphery of the container (l). 14. Adsorber according to one of the preceding claims, characterized in that the clean gas collection chamber (ll) is extended upwards to a chimney of the silo roof (22) for the vertical discharge of the clean gas within the container (l).