SU731991A1 - Apparatus for separating drop and aerosol liquid from gas stream - Google Patents

Description

(54) DEVICE FOR SEPARATION OF DROP AND AEROSOL LIQUID FROM GAS FLOW The exemption refers to devices for separating liquid in the form of mist and droplets from a gas stream taken for gas analysis and can be used in the chemical, petrochemical, metallurgical and other related industries. The proposed device can be used to trap a mist of sulfuric acid, as well as any droplet moisture, which interferes with gas analysis. The device can be widely used with various gas analyzers for the periodic and continuous analysis of gaseous substances. A device for separating liquid components from a gas is known, comprising a housing with inlet and outlet nozzles, a nozzle, under which a reflector with a liquid collector 1 is placed. The closest to the invention of the technical essence and the achieved result is a device for separating a dropping aerosol liquid from a gas stream. It contains a housing with inlet and outlet nozzles mounted along the axis of the capillary housing, perpendicular to which in the lower part there are radial drips. (2. A disadvantage of the known device is that the efficiency of separating the mist and kapel from the gas stream depends on the rate of flow of this stream from the capillaries. At low speeds small particles (fog) are not precipitated, and gas flow is carried away. At high gas flow rates, both large and small particles (fog) are deposited on the casing wall, but the reverse effect occurs when ecm. The shells are crushed into smaller pieces, some of which are detached and carried away from the gas stream. The reason for this is: the gas flow coming from the side capillaries is normal to the surface of the blister. Thus, this device for separating soils in the gas stream of mist and liquid droplets is not effective enough. ; In order to increase efficiency; liquid separation, the prefilled device is equipped with a cylinder mounted coaxially between the housing and

a capillary, a horizontal partition installed under the cylinder and made with a concave top surface and a sharp upper edge forming a slot-hole with the body, the output ends of the radial capillaries are located outside the cylinder, and the body walls opposite the output ends of the radial capillaries are made conical with the angle of inclination of the 45-60.

Fig, 1 shows the proposed device, a longitudinal section; in fig. 2 - section A-A of FIG. one.

The housing 1 is mounted along the axis of the capillaries p 2, perpendicular to which radial capillaries 3 are located in the lower part. Between the case and the capillary 2 there is a coaxially mounted cylinder 4, under which there is a horizontal partition 5, made with a concave upper surface and a sharp upper edge, forming a slot with a body b. The output ends of the radial capillaries are located outside the cylinder 4f and the walls 7 of the housing along the output ends of the radial capillaries are made conical with an angle of inclination forming 45-60. The device has a conical bottom 8, an inlet and an outlet 9, 10, and a fitting 11 for the outlet of the separated liquid phase and a part of the gas stream that contacts with it on the surface. The proposed device operates as follows.

A gas stream containing fog, liquid droplets, through the pipe 9 enters the capillary p 2, passes it and splits in the radial capillaries 3, then exits from them. The outgoing gas flow moves to

The inclined surface of the housing wall 7, which is the surface

precipitation for the liquid phase (mist, droplets), and the gas flow is reflected from it. In this part of the gas flow adjacent to the deposition surface and in contact with the liquid phase is separated from the main flow by the sharp edge of the horizontal partition 5. At the same time, the concave surface of the partition does not create turbulence in the gas flow both in the reflection zone and on its path to a cylindrical partition. As a result, the mixing of gas layers is prevented and the separation efficiency of that part of the gas that is in contact with the liquid increases. The separated part of the gas flow from the main, under the influence of friction force, carries along the slit hole 6 with it the precipitated liquid into the collector with the conical bottom 8 under the horizontal partition 5. Then through the choke 11 it is taken out of the device. At the same

time the main gas flow through the gap between the cylinder and the horizontal wall enters the annular pipeline and through the nozzle 10 out of the device and goes to the gas analysis.

Thus, the proposed device for separating the liquid phase contained in the gas stream in the form of mist and droplets allows not only efficient separation of the liquid, but also

Contact with her part of the gas stream. Such a separation of the liquid and part of the gas from the main stream makes it possible to virtually eliminate the measurement error with continuous

gas analysis.

Claims (2)

1. USSR author's certificate No. 565690, cl. B 01 P 45/00, 1976. 2. .Patent of Germany 1648025, cl. 46 t 4/16, 26.04.7J (prototype).