DE1081424B - Method and device for separating liquid or solid substances from gases or liquids - Google Patents

Description

Method and device for the separation of liquids or solids Substances from gases or liquids The invention relates to a method for the separation of liquid or solid substances from gases or liquids, in which the gases or liquids narrow in the direction of flow Rhombus between two cylindrically symmetrical bodies in an adjoining, preferably cylindrical cavity flow, and on devices for performing this method.

Methods and devices of this type are known. Be with them the gases introduced between a cylinder jacket and a cone jacket; it narrows the cross-section of the space formed between the cylinder jacket and the cone jacket against the exit gap, and then the gas enters the cylinder space.

In contrast, the method according to the invention is characterized in that by appropriately curved guide ribs a spiral or worm-shaped Guide the media preferably between a cylinder jacket and a cone jacket -or is made between two cone shells so that through the gradual Narrowing of the cross section an increasing increase in speed against the Exit gap- takes place, whereupon the media with the achieved speed in a subsequent, preferably cylindrical cavity in tangential or inclined tangential direction and the separation takes place.

According to the claimed method, the media are already in front the exit from the narrowing space between the two cylindrically symmetrical Bodies deflected in a tangential or oblique tangential direction. In which prior art methods, the redirection takes place only after the media enter this space have left. The separation effect is correspondingly also the previously known Method different from the claimed method, namely in the following Regard: a) In the method according to the invention, the transition is from the axial Direction of flow in the tangential or inclined-tangential with the increase -Speed. Coupled, and all factors relevant for the separation, such as speed and path curvature or their relationship to one another are arbitrary selectable. In the known method in which .the gases only after they have been reached Maximum speed, this is only partially the case.

b) The gradual change of direction with simultaneous, likewise gradual increase in speed offers fluidic advantages, such as. B. lower resistance, which means less effort. this plays a particularly important role in the separation of the finest dust, for which very high speeds are required to play an essential role.

c) In the method according to the invention are in the space between Cylinder jacket and cone jacket guide ribs attached, their effective surfaces so that they can be kept much larger than the first name of the deflecting vanes be placed after the gap. This is particularly advantageous when the dedusting should be improved by additives.

d) In the case of the previously known method, the gas is only released after it has been reached the maximum speed, i.e. only in the cylindrical space, through guide ribs deflected from the axial to the tangentiaie direction. This is due to the brevity the path made a very sudden change due to lack of compulsive guidance (the guide ribs are only blown on, but are open at the side) not exclusively takes place in the desired oblique tangential direction. The relaxation of the gases after ; The gap will therefore also follow other open directions, which will result in the Separation effect can only adversely affect.

An apparatus for carrying out the method according to the invention at the one who. in the direction of the river: narrowing space. through two interlocking cones is limited, is characterized in that the inner cone jacket has a more obtuse Has cone angle than the outer and the cavity between the cone shells through any number of curved guide ribs. that is divided by the initial Direction along the surface lines towards the base of the cone to more and more towards the tangential direction pass over. Because the cone angle of the inner cone is larger than the outer one, the cross-section becomes increasingly narrower towards the exit gap and the speed is correspondingly higher.

This increase in speed can be achieved in that the The media are fed in between a cylinder and a cone jacket.

The guide ribs are preferably approximately equally spaced, i. H., they are increased approximately to the extent that it corresponds to the increasing diameter.

The method according to the invention is preferably used for the deposition of Dust from dusty gases use, whereby - as known per se - for support media used for dedusting are fed into the gas flow in extremely fine connection.

Further details of the invention emerge from the description of exemplary embodiments on the basis of Figs. 1 and 2.

Fig. 1 shows an apparatus in which the supply of media between two cone shells takes place, with the inner cone shell having a more obtuse cone angle having. The space in between is divided by any number of guide ribs, which are curved and opposed from the initial direction along the generatrix the cone base to more and more deviate from it, so that the flow along a helical line takes place with oblique tangential carrion mouth.

1 - entry of the medium, 2 - outer jacket, 3 - inner cone with the guide ribs, which open obliquely tangential, 4 - exit for the one medium, 5 - outlet for the other medium. Fig.2 shows a separator whose Features are that the supply of the dusty gas takes place between two Conical shells takes place between a cylinder and a conical shell.

1 - entry of the medium, 2 - inner cone jacket, 3 - on this arranged guide ribs, which between the outer cylinder jacket and the inner Conical shell are arranged, which cause the division into any number of partial flows and these partial flows from the vertical into an almost horizontal and tangential Redirect direction at steadily increasing speed, 4 - exit of one Medium, 5 - outlet of the other medium, 6 - ring-shaped pipe with many sprinkler nozzles for the washing liquid. Of course, the device 6 falls when it is drier Separation or away in the case of separation from a liquid stream.

The apparatus shown and described in Fig. 2 is ideally suited to separate dust or finely divided liquids from gases. He can too act as a hydrocyclone and is able to separate solids from liquids or liquids that are immiscible and have different densities from each other to separate.

Claims (5)

PATENT CLAIMS: 1. Process for the separation of liquids or solids Substances from gases or liquids, in which the gases or liquids pass through a space narrowing in the direction of flow between two cylindrically symmetrical ones Bodies flow into a subsequent, preferably cylindrical cavity, thereby characterized in that a spiral resp. helical guidance of the media, preferably between a cylinder jacket and a cone shell or between two cone shells is made so that through the gradual narrowing of the cross-section an increasing increase in speed takes place against the exit gap, whereupon the media with the achieved speed in a subsequent, preferably cylindrical cavity in tangential or inclined tangential direction and the separation takes place. 2. Apparatus for carrying out the method according to claim 1, wherein the in the flow direction narrowing space is delimited by two nested cones, characterized in that that the inner cone shell (3 in Fig. 1) has a more obtuse cone angle than the outer one (2 in Fig. 1) and the cavity between the cone shells by any many curved guide ribs divided from the initial direction along the surface lines towards the base of the cone to more and more towards the tangential direction pass over. 3. Apparatus for performing the method according to claim 1, characterized in that that the supply of the media between a cylinder and a cone jacket (2 in Fig. 2) takes place. 4. Apparatus according to claim 1 and 3, characterized in that the guide ribs (3 in Fig. 2) have approximately the same distance, i.e. H. are increased to the extent that as it corresponds to the increasing diameter. 5. The method according to claim 1 for separating dust from dust-containing gases, characterized in that - as known per se - additional media are supplied to the gas flow in extremely fine distribution to support the dedusting. Considered publications: German Patent Nos. 106 356, 323 655, 411637, 522 974, 911013, 948 350s Swiss Patent Nos. 43 079, 293 768, 315 310; French Patent Nos. 785 448, 976 551; U.S. Patents Nos. 548,490, 1839 952, 2,015,464, 2,588,106.