DE1954023U - ABSORPTION AND REACTION DEVICE FOR WASHING OUT NITROSE FROM THE EXHAUST GASES OF YELLOW BURNING SYSTEMS. - Google Patents

Description

Applicant: Gebr. Decker,
Registered office: Nuremberg

Title: Absorption and Reaction Device

for washing out water from the exhaust gases of yellow burning systems

Utility model

The invention relates to an absorption and reaction device, in particular one for washing out nitrous from the exhaust gases from yellow-burning systems, in which the exhaust gases and the washing liquid are passed over fillers.

It is known to use nitrogenous exhaust gases for the purpose of cleaning with the help of fans by sprinkling them with water or lye Sending packing, especially washing towers. Rings, angle pieces or chips etc. from 3L ^ §s- or acid-resistant materials, e.g. made of ceramics, stainless steel, or plastics, use. Purpose of this packing is to offer a large reaction surface and as many diversions as possible for the flow of the exhaust gas to be cleaned. The splitting of the exhaust gas flow remains relatively coarse, so that one is forced to take the exhaust gas long distances cover considerable pressure losses through the filling body (s) allow.

The fillers accordingly require high fan performance, to push or suck the exhaust gas through the packing (s), which have a fairly high flow resistance. Ever according to the type of filler, for example Raschig rings, you see one certain minimum length of the packing, which is necessary to wash so much nitrous from the exhaust gas that a prescribed one The degree of purity of the extract air is achieved.

The invention aims to provide at least the same degree of purity to achieve a lower performance expenditure or a better degree of purity with the same performance expenditure. It consists in that as Suction and pressure device a jet nozzle is used, which sucks in the exhaust gas and pushes it through the packing. The device becomes constructive preferably designed so that the jet nozzle the exhaust gas down into one, the liquid emerging from the jet nozzle The receiving container leads, from which the exhaust gas and the vapor, mist and gaseous part of the Viasehiquid downwards or upwards is pressed by filling bodies sprinkled with washing liquid from above.

Since a jet nozzle is already itself by means of the flow through it Scrubbing liquid to the exhaust gas a significant part of the harmful Withdrawing nitrous, the packing can be kept considerably shorter than when using fans. A proportionate In the present case, the resistance of the packing is low

even desirable, since the exerted by the jet nozzle on the exhaust gas Suction or pressure performance is relatively low. The surprising one the invention now consists in that by combining a jet nozzle, which is known per se in absorption and reaction devices is, better cleaning can be achieved with packings which are also known per se for the same purpose with the same expenditure of power can, as if the gas was first pre-washed through a jet nozzle and later pushed through the filler body by means of a fan or is sucked. This can be explained by the fact that, according to the invention, the liquid is already finely atomized in the packing Form is supplied whose mist droplets and steam have already absorbed part of the nitrous gases.

In addition, there is a simplification of the device that is possible according to the invention, because the suction or pressure of the gases and the supply of the washing liquid can be done by a single liquid pump.

It is desirable for the invention to achieve a high cleaning effect with low packing resistance. That goal a filling body formation is used, according to which the filling body consists of tubes running in the direction of flow, the inner diameter of which is between 2.5 and 15 mm and is in particular dimensioned so that the, preferably relaxed, slowly moving downward With the existing pressure difference and tube length in the tubes, washing liquid leaves inner channels free for the exhaust gas to pass through.

When the exhaust gas is directed upwards, larger ones are expediently Tube cross-sections as used for ■ downward routing of the exhaust gas. Several partial filling bodies, each with different tube diameters, can be connected in series in such a way that the exhaust gas flows through first the partial packing with tubes of larger diameter and then a partial packing with tubes of smaller diameter, wherein the washing liquid is conducted in cocurrent or countercurrent. Between every two partial fillings an additional Device provided for spraying in further washing liquid be. The tube packing is preferably made of PV0 or others made of water-repellent plastics, the clear tube diameter is about 3mm.

The drawing explains an embodiment of the invention, and

although shows ".

Fig. 1 is a schematic representation of the device according to the invention,

2 shows a cross section through a preferred filling body and FIGS. 5 to 5 connections of several partial filling bodies to a single filling body, as it is, for example, in a washing tower or the like. can be used, '■ -.

The overall arrangement corresponds to: the cooking device shown in FIG. 1 known devices of this type ..

A housing 1 accommodates several containers 2 in its right-hand part,

which stand one behind the other in the direction perpendicular to the plane of the drawing. At least one of these containers contains nitrous fluid, in which the material to be fired is treated, which is successively transferred from the nitrous container to a rinsing container and, if necessary, further treatment containers.

The space above the containers can be temporarily closed by a flap j5, but it is not possible to close it while the material is being transferred. The gases flowing out of the containers 2 are sucked off in the direction of the arrows 4 through a horizontal longitudinal slot 5 so that they do not get into the workshop space, namely through several jet nozzles 6 arranged one behind the other, which send their jet 7 into a vertical pipe 8, which is open at the bottom. The jets cause the suction in the direction of arrow 4a. The jet J sprays washing liquid which absorbs a considerable part of the nitrous gases contained in the exhaust gas which is sucked in according to the arrows 4, 4a. The exhaust gas with scrubbing liquid emerges from the bottom of the pipe 8, with the largest part being discharged in the direction of the arrow 9 into the sump Io, while the exhaust gas, vapors and fine fog-shaped droplets rise in the direction of the arrow 11. In doing so, they pass upwards through a filler body 12 into a space 15l. The filler body is sprinkled from above by a jet nozzle 14 which sprays washing liquid 15 onto the top of the filler body 12. The gas mixture that has passed through the packing 12 is largely cleaned of the undesired nitrous gases and consists essentially of air, which is conveyed into the open air in the direction of the arrow 16, possibly via a chimney.

The washing liquid is circulated by a pump 17 which removes the liquid from the bottom Io and on the one hand β through a conduit 18 to the jet nozzle and on the other hand, on a non Darge · presented by way of spray nozzle 14 supplies %%. Both nozzles are therefore supplied by a single pump, which also only requires a single drive motor.

The filling body 12 can be made in a known manner from Raschig rings or other structures made of plastic, stainless steel or ceramic, exist. In the present case, packing elements are preferred which have a very low flow resistance, so that the general The advantage of a reduction in output and, in particular, the advantage that the system is operated solely by the jet nozzle can be.

A particularly suitable shape of the filler body is illustrated by FIG. 2, which shows a cross section through such a filler body shows. It consists of a large number of tubes 2o held in a frame 21. The inside diameter of the tube is etxfa Jmmj; the exhaust gas flows in the direction of arrows 11 (Fig. 1) from below through such a filler body, while washing liquid trickles down from above through the tubes 2o, the Holds washing liquid on the inner walls of the tube, so that a channel remains open approximately in the axis of the tube, in which the exhaust gas can rise.

Preferably order the tubes made of plastic, which is water-repellent Has properties to prevent the formation of thick droplets in the tubes, which would hinder the rise of the exhaust gas could. Instead of tubes with a square cross-section, tubes with round or other cross-sections can of course also be used be used.

The tubes, which are independent in themselves, are placed next to each other. But they can also be welded, glued or otherwise connected to one another; but it is also possible all of them To form tubes from a kind of honeycomb, so that there is only a single wall between two clear tube widths. This way you will gain weight saved up.

Mguren j? 4 and 4 show a packing which is composed of several partial packing 22.23 * 24 is composed. The filler body 22 has For example, tubes with a clear inner diameter of 3 mm, the filler body 23 tubes with internal diameters of 6 mm and the packing body 24 tubes with internal diameters of 9 ^ m In both cases the washing liquid is passed through from top to bottom. In the case of FIG. 3, the gas to be cleaned rises from the bottom to the top, i.e. moves in countercurrent to the scrubbing liquid, while, according to FIG. 4, the washing liquid as well as the exhaust gas is passed through from top to bottom. The tubes «of each partial packing 22, 23 or 24 can stand on a grate 25. Such a Rust can be omitted if the tubes are permanently welded together or are glued or if a coherent honeycomb is chosen in their place.

Pig. 5 explains an embodiment of the filling body in which the exhaust gas enters the frame 21a from below in the direction of the arrows 11a and then rises through the partial filling bodies 26, 27, 28 from the bottom to the top. At the top it escapes in the direction of arrow 16. Washing liquid is sprayed through spray nozzles 14, 29 onto the filler bodies 26, 27 and 28j these can either, as indicated above mean filler body 28, from the central spray nozzle Ik or better, as above the partial Filling bodies 26 and 27 is indicated, sprayed by a larger number of spray nozzles 29 arranged next to one another! The washing liquid that has passed through the tubes is collected in the sump Io and sucked off via the pipeline 2o by the pump 17, which feeds it on the one hand to the spray nozzles 14 or 29 and on the other hand to the jet nozzle 6, from which it flows in the sense of FIG. 1 also got into the swamp Io.

Claims (8)

. KA. 603713 * 11/18/66 protection claims 1. Absorption 'and reaction supply line, in particular for washing out nitrous from the exhaust gases of yellow-burning systems by means of water, acid or alkali, in which the exhaust gases and the washing liquid are slid over fillers by means of pushing or suction devices, characterized in that the suction or the pressure device is designed as a jet nozzle, which sucks in the exhaust gas and pushes it through the filler body. 2. Apparatus according to claim 1, characterized in that the jet nozzle leads the exhaust gas downwards into a container receiving the liquid emerging from the jet nozzle, from which the exhaust gas and the mist, vapor and gaseous part of washing liquid downwards or upwards through from above packing sprinkled with washing liquid is pressed. 3. Apparatus according to claim 1 or 2, characterized in that the pressure liquid of the jet nozzle and the sprinkling liquid for the filler body is conveyed by a common pump. 4. Device according to one of claims 1 to 5 *, characterized in that a filling body consists of tubes extending in the flow direction, the inner diameter of which is between 2, 5 and 15 and in particular is dimensioned so that the, preferably relaxed, slowly downward moving washing liquid at the existing pressure difference and tube length in the tube leaves internal channels free for the exhaust gas to pass through. 5 « Device according to claim 1, characterized in that larger tube cross-sections are used when the exhaust gas moves upwards than when it is guided downwards. 6. Apparatus according to claim 4 or 5 » characterized _; that partial packing with different tube diameters are connected one behind the other in such a way that the exhaust gas first flows through the partial packing with tubes of larger diameter and then through a partial packing with tubes of smaller diameter, with the leaching liquid being guided in cocurrent or countercurrent, 7. Apparatus according to claim 6, characterized in that additional washing liquid is sprayed in between each zvtfei partial filling bodies. 8. Device according to claims 4 to 8, characterized in that the filler body consists of PVC or other water-repellent plastics, the clear tube diameter being approximately j5 mm.