DE4137136A1 - Nozzle for producing atomised jet of liquid - has outlet connected to swirl chamber by tubular element having smaller diameter than chamber and anti stick coating - Google Patents

Abstract

The atomised jet is formed by a nozzle which consists of a swirl generating chamber (5) with an outlet (8). The nozzle is provided with an outlet (4) which is connected to the swirl chamber outlet (8) by a tubular element (2) so that the nozzle outlet is at a distance from the swirl chamber outlet. The tube has a smaller diameter than the swirl generator chamber and has a coating of polytetrafluoroethylene or a similar anti sticking agent. The front end of the tube fits into a feeder. USE/ADVANTAGE - Injection of water into driers, absorbers, vapour cooling systems etc. The design of nozzle prevents the build-up of deposits which could impede the flow.

Description

The invention relates to a nozzle for atomizing rivers liquids, for example for entering water into a Dryer, absorber or an evaporative cooler, which a swirl generation in the flow direction chamber and has a spray outlet.

Nozzles of the above type are generally known. they are used, for example, in flue gas desulfurization plants in Reactors arranged to use direct water cooling to set the required reaction temperature len. Another important application is electronics filter upstream evaporative coolers.

In the known nozzles, the liquid leaves the nozzle immediately behind the swirl generation chamber. Since you have the Liquid usually not in the peripheral zone of Be containers, reactors or channels, it is required that a relatively large lance be placed in the container, Reaction space or the like is introduced, at de the nozzle for atomizing the liquid sits.

A disadvantage of the known nozzles is that of fluid vortices a strong tendency to caking conditions on the exit surfaces and on the nozzle lance stands. The reason for this are those caused by the swirl tools relatively large cross sections of the Nozzle lance that is wetted by the fluid vortices and due to their large surface area and stability offers a good possibility of attachments. Furthermore  these components have a large mass, sudden temperature rise not fast enough with him warms so that it easily thaws at the nozzle or lance falls short of points, which also gives rise to of caking promotes.

The invention is based on the problem of a nozzle type mentioned so that caking on her or a lance carrying her as far as possible be avoided.

This problem is solved according to the invention in that between an outlet of the swirl generating chamber and the Spray outlet a piece of pipe is arranged.

While in the known nozzles the spray outlet immediately bar seen in the direction of flow behind the swirl tool supply chamber is provided in the invention nozzle, the swirl generating chamber and the spray outlet considerable through the intermediate pipe section Distance. The pipe section acts as a side swirl chamber, which the swirl from the swirl generation chamber to the spray outlet directs. Through the design according to the invention, one can place the nozzle holder outside the chamber, in which is to inject liquid into the nozzle. That made it possible it is easy to ver on a nozzle lance to hold the nozzle to breed. As a result, the gas flow in the chamber becomes less ger hindered, so that due to smaller cross-sections The risk of caking is reduced. The possible Dispensing with a nozzle lance also means that the in the part protruding from the chamber is of low mass, so that it is faster Temperature fluctuations can follow, causing dew point violations are avoided. Furthermore, that Pipe piece should be designed so that there are vibrations tends, which reduces the risk of caking and existing caking can loosen.  

It is particularly advantageous if, according to a further development tion of the invention, the pipe section is less knife than the swirl generation chamber. By this Ge design offers the pipe section in a flowing medium particularly little surface for deposits. Next due to its lower mass, it is capable of tempera fluctuations in the medium flowing around it to follow quickly and gets into Schwin particularly easily gung.

The risk of caking may continue be reduced if according to an advantageous off design of the invention, the pipe section on its outside shell surface a coating of polytetrafluoroethylene or a comparable non-stick agent.

It is also advantageous if the pipe section on it Outer outer surface has thermal insulation. Hereby is prevented that the flowing in the pipe section, usually cooler compared to the medium surrounding the pipe section Liquid from the outer surface of the pipe section so far is able to cool down that the temperature falls below the dew point is coming.

A particularly good insulation effect is achieved if the pipe section from an inner tube with the spray outlet and there is an outer tube forming a space.

It is also advantageous if the front region of the pipe piece is designed as a length of mouthpiece adapted to the application. A particular advantage of this design is that the opening of the spray cone lifts from the nozzle for different application areas by extending the mouthpiece (Axialim pulse amplification), whereby the possibility of direct wetting by water swirling is reduced (Ver same Fig. 3 and 4).

The pressure drop in the nozzle is particularly low, though according to another development of the invention, the free one Flow cross section in the pipe section only before the coin is reduced by a constriction.

A particularly advantageous further training of the Erfin manure is that the piece of pipe dimensioned so long is that the larger diameter the swirl generation came any area outside a container or To be arranged channel, in which the nozzle is arranged shall be. By arranging the swirl generation came always outside of the container, reactor or channel you only have the relatively small diameter piece of pipe with the spray outlet into the room in which the liquid is to be injected. Therefore can Caking with a particularly high degree of security is avoided the.

The invention allows numerous embodiments. To To further clarify, several of them are in the Drawing shown and are described below. They show in her

Fig. 1 shows a longitudinal section through a erfindungsge Permitted nozzle,

Fig. 2 is a longitudinal section through a second exporting approximate shape of a nozzle according to the invention,

Fig. 3 shows a front region of a spraying nozzle with a short mouthpiece,

Fig. 4 shows a front region of a spraying nozzle with longer mouthpiece,

Fig. 5 a modified, the front nozzle section,

Fig. 6 shows a further modification of the front nozzle area.

In the drawing, a wall 1 is shown, which can be, for example, the wall of an absorber chamber into which water is to be injected. The wall 1 is penetrated by a pipe section 2 , which is part of a nozzle 3 according to the invention. At the front end of the pipe section 2 there is a spray outlet 4 from which the liquid to be atomized sprays.

On the outside of the wall 1 , the nozzle 3 has a swirl generating chamber 5 with a swirl body 6 through which a swirl is forced in the direction of the two arrows pointing to the right. The nozzle 3 of this embodiment is formed as a return nozzle, in which too much liquid is returned via a return pipe 15 .

The fluid set in rotation by the swirl body 6 passes via a ver tapering cone 7 and an outlet 8 of the swirl generating chamber 5 into the pipe section 2 , which forms a side swirl chamber, and through this to the spray outlet 4th

The tube piece 2 is provided in this embodiment with a coating 13 , which preferably consists of poly trafluoroethylene and therefore has non-stick properties. However, it is also advantageous that the coating 13 has a heat-insulating effect alone, because it enables the jacket surface of the pipe section 2 to cool down below the dew point temperature, thereby lowering the dew point, as a result of this.

In the embodiment of Fig. 2, the tube consists piece 2 made of an inner tube 9 and a aufgelöte thereon th outer tube 10, wherein between the inner pipe 9 and Au ßenrohr 10, a gap 11 remains, the tion, the radio fulfills a thermal insulation. The Fig. 2 can be additionally appreciated that in the pipe piece 2, a constriction 12 is present. The area A in the flow direction upstream of this constriction 12 , which leads to the spray outlet 4 , has a smaller cross section than the remaining part of the pipe section 2 and forms an orifice piece 14 .

FIG. 3 shows the front region of the pipe section 2 with a relatively short mouth piece 14. This forms when working the nozzle immediately behind the spray outlet 4, a spray cone 16 .

In the embodiment according to FIG. 4, the muzzle piece 14 is considerably longer than according to FIG. 3. This increases the axial momentum of the escaping liquid, so that the spray cone 16 only forms at a distance B from the spray outlet 4 . In addition, it can be seen in Fig. 4 that the angle of the spray cone 16 GE compared to the embodiment of FIG. 3 by the lengthening of the mouthpiece 14 has reduced.

FIGS. 5 and 6 show that the spray outlet 4 can be designed under different. According to FIG. 5, it widens in an arcuate cross-section, that is to say like a trumpet, while according to FIG. 6 it is conical.

List of the reference symbols used

1 wall
2 pipe section
3 nozzle
4 spray outlet
5 swirl generation chamber
6 swirl bodies
7 cone
8 outlet
9 inner tube
10 outer tube
11 space
12 constriction
13 coating
14 mouthpiece
15 return pipe
16 spray cones

Claims (8)

1. Nozzle for atomizing liquids, for example for entering water in a dryer, absorber or an evaporative cooler, which has a swirl generating chamber and a spray outlet in the flow direction, characterized in that between an outlet ( 8 ) of the swirl generating chamber ( 5 ) and a pipe section ( 2 ) is arranged in the spray outlet ( 4 ). 2. Nozzle according to claim 1, characterized in that the pipe section ( 2 ) has a smaller diameter than the swirl generation chamber ( 5 ). 3. Nozzle according to claims 1 or 2, characterized in that the pipe section ( 2 ) on its outer surface has a coating ( 13 ) made of polytetrafluoroethylene or a comparable non-stick agent. 4. Nozzle according to at least one of the preceding claims, characterized in that the pipe section ( 2 ) has thermal insulation (intermediate space 11 ) on its outer lateral surface. 5. Nozzle according to at least one of the preceding claims, characterized in that the tube piece ( 2 ) consists of an inner tube ( 9 ) with the spray outlet ( 4 ) and an intermediate space ( 11 ) forming an outer tube ( 10 ). 6. Nozzle according to at least one of the preceding claims, characterized in that the front end of the tube piece ( 2 ) is designed as a length of the application case adapted mouthpiece ( 14 ). 7. Nozzle according to claim 6, characterized in that the free flow cross section in the pipe section ( 2 ) is constricted by a constriction ( 12 ) only before the mouthpiece ( 14 ). 8. Nozzle according to at least one of the preceding claims, characterized in that the pipe section ( 2 ) is so long that the larger diameter, the swirl generation chamber ( 5 ) having area outside a loading container or channel in which the nozzle is to be arranged ( 3 ) to be arranged.