DE579686C - Gas washing and cleaning device - Google Patents

Description

Gas scrubbing and cleaning device The invention relates to a gas scrubbing and cleaning device, in which the flowing through a grid Gas is sprinkled with a washing liquid. The invention aims to be one in particular To create powerful washing device of this type, in particular for fuel gases. As an essential means for this purpose, a congestion grid known per se is used, its The damming effect is based on the creation of a vortex zone that passes through behind the grille the special distribution of the openings on the grid surface, namely in the approximate Ratio of i: i, is caused.

For the purpose of the invention, such a grid is used, however, in that it is not the damming effect of this grille, but essentially its property, To form vortices. is exploited. This is done in such a way that the grid in the cross-section of a flow tank built in similar to the known grids and thereby the gas flow behind the grid is divided into a vortex zone, in which now the sprinkling is carried out. Because the irrigation in the Gas vortex zone takes place, an intensive, i. H. fast and intimate mixing of the Gas achieved with the washing liquid, so that in contrast to the grids with channel-shaped Openings that only generate closed gas jets or where only one Sprinkling of the grille takes place, the washing effect with less liquid and on relatively little space is achieved.

The cross-section of the container must be the desired or required The speed of the gas flow, which must not be too small, must be adapted in such a way that that there is no excessive throttling of the gas flow. The openings of the grille must, in order to develop the vortex zone well, have sharp edges, namely not channel-shaped be. Such openings are most easily achieved by punching; their vastness is quite a11-common a multiple of the grid thickness. The grille can be made of metal, but also from another material, e.g. B. PertinaY, Cellon and the like., Exist. Under Sharp edges are therefore not what is known as burr formation on the edge of the hole, as they are if the material is unsuitable, it is understood, but rather the nature of the edge of the hole, in such a way that it is roughly similar to the edge of a knife with small holes. The webs between the holes do not need to be completely flat, but can z. B. slightly concave, d. H. hollowed out towards the side of the impinging current because the efficiency is only slightly affected.

The swirl zone can be sprinkled by injecting the washing liquid in this by means of nozzles, but also z. B. done by going into the vortex zone one sprinkled with the liquid, which does not hinder the formation of the eddies Put in the grid. Such a grid consists, for. B. from a round wire mesh. This does not provide the conditions without the need for particularly large meshes the generation of eddies, since the round wire mesh does not represent any sharp-edged holes. The vertebrae in turn go through the mesh unimpeded because the round wire does not oppose them. Hence such a condition Grid no damming effect or throttling for the gas flow. With lower requirements in the latter regard, a flat sprinkler grille can also be used, provided whose openings have a large width in relation to the opening spacing.

If 'several vortex-generating grids are arranged one behind the other in the container are to be arranged at such a distance that the Vortex zone behind each grid can develop completely. The depth of this Zone is easily identifiable as the zone has a sharp delimitation in the direction of the flow path has. Between every two grids, purulent nozzle-shaped is advantageous Constriction of the flow cross-section arranged.

Some embodiments of the invention are illustrated in the drawing. In Fig. I, the gas to be cleaned flows through a container A from left to right, which is divided into two separate spaces I, II by a vortex-forming grid g is divided so that the gas flow must pass through the grille. The vortex form, as indicated by -, in space II behind the grille g in a certain, Depth depends on the flow velocity of the gas. Through one with several Tube r provided with nozzles d, the washing liquid is injected into the swirl zone N. As a result, the liquid is enriched with the components of the to be excreted Gas (ammonia, etc.). It flows off through nozzle e. Behind the vortex zone takes the gas insane; Room 1I, as indicated, again shows the flow farm that is in the room I owns.

Fig. 2 shows the same container as Fig. I. However, it is A grid ra is arranged in the vortex zone, which is passed through a pipe r with the washing liquid is sprinkled. The grid tt is as indicated. made from a round wire mesh, which, according to what was said earlier, does not generate a vortex zone.

Fig. 3 illustrates a washing device in which several vortex-forming Grids g are installed one behind the other in the gas flow. This therefore occurs one after the other through rooms I to IV. There is a constriction between every two grids g 1i. built in, so that the gas flow after leaving the (in Fig. 3 not particularly indicated) vortex zone compressed and thus immediately in front of the next Grid `is accelerated. As mentioned earlier, this is sufficient for speed of the gas flow hitting the grid. Behind every lattice there is like in Fig. 2 a sprinkler grille n is arranged. E is the common sequence from the Rooms II, IV and VI. If you want the draining washing liquid with components of the gas, e.g. B. ammonia, so each of these rooms has its own process given, which is connected accordingly for the purpose of repeated passage of the liquid will.

Fig.q. represents part of a grid used in practical Try a particularly high level of efficiency. at a speed of Gas flow of 1.5 to 3 m has resulted. The openings of the same consist of long ones parallel slots, which are only used to achieve a stiffening through narrow Cross webs are interrupted. The slits are a little narrower than those between them remaining solid strips. A minor figure shows a cross-section through this Grating, the solid strips between the slits slightly trough-shaped are to achieve a stiffening of the lattice. The gas flow hits in the direction of the arrow onto the grid shown.

Claims (1)

PATENT CLAIMS: i. Gas washing and cleaning device with sprinkler system of the gas flowing through a grid, in particular fuel gas, characterized in that that a grid known for storage purposes, the one with sharp edges, on its surface distributed approximately with a ratio of the opening width to the opening distance of i: i Has openings, is installed in a flow channel, in which it is through the on its rear side generated vortex zone finely divides the gas stream, and that further the irrigation of the gas is carried out in this gas swirl zone. a. Gas scrubbing and cleaning device according to claim i, characterized in that in the vortex zone a grid of round wire sprinkled with the washing liquid is arranged. 3. Gas washing and cleaning device according to claim i, characterized in that a flat irrigation grid with large openings is arranged in the vortex zone is. , 4. Gas washing and cleaning device according to claims i to 3 with one behind the other Vortex-generating grids arranged in the container, characterized in that between every two such grids a nozzle-like narrowing of the flow cross-section is arranged.