RU7894U1 - DIPPER - Google Patents

Abstract

A droplet eliminator comprising a housing divided by a vertical partition into a droplet recovery chamber and a liquid collection chamber located in the droplet recovery chamber, and comprising gas inlet and outlet nozzles, a labyrinth channel formed by longitudinal walls in the form of semicircles consecutively facing in different directions, spiral liquid traps, the entrance slit of which is located at the junction of the semicircles, and the cavity of the traps is in communication with the chamber for collecting liquid, characterized in that in the labyrinth channel a tube is laterally transformed with holes along its generatrix placed on the side of the outlet pipe, moreover, one end of the tube is plugged, and the second is open and secured in the fluid collection chamber.

Description

Catcher

The proposed utility model relates to devices for separating a dropping liquid from a gas-liquid stream and can be used in various industries.

Known drop eliminator containing a housing, gas inlet and outlet pipes, a labyrinth channel with longitudinal walls, liquid traps facing the inlet to the flow (see, French application No. 2197623 Mcl V01D 45/04 publ. 1974)

The disadvantage of droplet eliminators is the increasing intensity of cereal secretion, a significant secondary droplet drop, which limits its use.

The closest known technical solution in its essence and the achieved result is a droplet eliminator containing a housing divided by a vertical partition into a droplet collection chamber and a liquid collection chamber located in the droplet collection chamber and containing nozzles. of the gas inlet and outlet, the labyrinth channel formed by the longitudinal walls in the form of semicircles successively facing in different directions, spiral fluid traps, the inlet slit of which is located at the junctions of the semicircles, and half of the traps are connected to the liquid collection chamber (see. M68027 M.cl VOKhD 45/06 publ. 1991.) .- In the well-known claude catcher, the film fluid under the action of inertial forces enters the slot of a spiral liquid trap and, when leaving the slot channel, flows to the bottom of the trap, and then goes to liquid collection chamber and then in the form of film flows down the vertical partition into the pallet. However, due to the fact that the inertial forces for the film power to pass through the input channel in some cases are insufficient, a significant part of the film liquid does not have time to pass through this channel and again it is picked up by a gas stream and sprayed, which does not provide the required amount of cleaning. The technical result achieved by using the proposed utility model is improving the quality of cleaning. The technical result is achieved as follows. In the droplet eliminator containing the housing, separated by a vertical partition into the droplet recovery chamber and the liquid collection / collection chamber, located in the cauldron recovery chamber and containing gas inlet and outlet pipes, a labyrinth channel formed by longitudinal walls in the form of semicircles in series facing in different directions, spiral liquid traps, inlet the gap of which is located at the junctions of the semicircles, and the cavity of the traps is in communication with the fluid collection chamber, is installed in the transverse direction in the labyrinth channel a tube with openings along the e. generatrix located on the side of the outlet pipe, moreover, one end of the tube is plugged, and the other is open and fixed in the chamber for collecting liquid. Installing in the labyrinth channel in the transverse direction of the tube with holes along its generatrix, placing the holes on the side of the outlet pipe for gas, supplying a plug to one end of the pipe, making the second end of the pipe open and fixing it in the chamber for collecting liquid allows for suction of liquid from the inlet channel of the trap and thereby prevent re-spraying. In FIG. I, a proposed droplet eliminator is schematically represented. FIG. 2 is a view I-I. The droplet eliminator comprises a housing I divided by a vertical partition 2 into a droplet collecting chamber 3 and a liquid liquid collection chamber 4y and a labyrinth channel 5. The labyrinth channel 5 is equipped with nozzles 6 and 7

 3 -

gas inlet and outlet and formed by longitudinal otenk, 8 and 9 in the form of semicircles, sequentially facing in different directions. Walls 8 and 9 are equipped with spiral liquid traps 10, the entrance slot of which is located at the junctions of the semicircles. The cavity of the traps 10 is in communication with the chamber 4 for collecting liquid.

In the labyrinth channel 5, a tube 12 is installed in the transverse direction with holes 13 along its generatrix. Holes 13 are placed on the side of the outlet pipe 7. One end of the tube 12 is plugged, and the second is open and secured in the chamber 4 for collecting liquid. The lower part of the chamber 4 is provided with a tray 14 for liquid. The pallet 14 has a pipe 15 for draining the liquid.

Drop eliminator works as follows.

The source gas with the droplet liquid is supplied through the nozzle to the channel 5, where as a result of centrifugal forces when the flow turns, the droplet liquid is thrown onto the walls 8 and 9 of the channel and moves along these walls in the form of a film along the stream. Reaching the entrance slit II, a liquid film under the action of inertia enters this gap, filling its entire cross section. The gas flow during the flow around the tube 12 creates a vacuum in its rear part, under the action of which the gas from the chamber 4 is sucked off. Since the chamber 4 communicates with the cavity of the trap 10, a vacuum is created in the trap, under the influence of which the liquid located in the entrance slit II is sucked into the trap, where it flows to its bottom and then goes to the chamber 4, where it is directed along the partition 2 in the form of a film in podson 14, where from the pipe 15 is removed from the drip tray. Since the end of the tube 12 protrudes above the surface of the septum 2, the film-like liquid flowing along the septum is not sucked into the tube 12.

versts 13.

The technical and economic efficiency of the proposed droplet eliminator consists in increasing the degree of gas purification up to 15-20 due to the use of not only inertial forces for entering the film liquid into the entrance slot of the trap, but also creating a vacuum in the cavity of the traps, which ensures forced suction of the liquid that accumulates in the trap entrance bucket, into the cavity of the trap.

Claims (1)

A droplet eliminator comprising a housing divided by a vertical partition into a droplet collecting chamber and a liquid collection chamber located in the droplet collecting chamber, and comprising gas inlet and outlet pipes, a labyrinth channel formed by longitudinal walls in the form of semicircles, successively facing in different directions, spiral liquid traps, the entrance slit of which is located at the junction of the semicircles, and the cavity of the traps is in communication with the chamber for collecting liquid, characterized in that in the labyrinth channel a tube is laterally transformed with holes along its generatrix placed on the side of the outlet pipe, moreover, one end of the tube is plugged and the other is open and secured in the fluid collection chamber.