SU1607890A1 - Gas-liquid separator - Google Patents

Abstract

The present invention relates to a device for separating a dropping liquid from a gas-liquid stream and makes it possible to increase the separation efficiency. The separator includes a housing 1, inside which there are installed reflective elements 2, made zigzag, of a single profile with a 90 ° opening angle, arranged in a checkerboard pattern at a ratio of the flange width of the projections and the width of the flanges of the cavities 2: 1. 1 il.

Description

The invention relates to gas-liquid separators intended for gas purification from liquid droplets suspended in it, and can be used in all industries related to gas purification from droplet liquids.

The purpose of the invention is to increase the efficiency of separation of dropping liquid by eliminating the secondary entrainment of the liquid, reducing resistance.

The drawing schematically shows a separator, top view.

The gas-liquid separator comprises a housing 1, in which reflective zigzag elements 2 of the same profile with protrusions 3 and depressions 4 forming droplet eliminators 5 mutually overlapping each other along the depth of the gas-liquid separator are installed in the form of dividers to meet the gas-liquid flow. Lateral reflective elements rigidly connected to the side walls and the upper wall of the housing provide structural rigidity. Reflecting elements 2 at a relative position form gas ducts for the passage of gas-liquid flow. The vertices of the depressions of the previous rows of reflective elements are located in the same plane with the vertices of the protrusions of the subsequent rows, the vertices of the depressions of the reflective elements are located on the same axis, the protrusions of the even rows, as well as the protrusions of the odd rows, are aligned and the width of the protrusion shelf refers to the width of the depression shelf like 2: 1.

The location in the same plane of the vertices of the depressions of the previous rows and the protrusions of the protrusions of the subsequent rows with a ratio of the width of the ledge of the ledge and the shelf of the depressions 2: 1 creates the possibility of overlapping the duct in the direction of movement of the gas-liquid flow by an amount corresponding to the width of the duct, which prevents the possibility of secondary entrainment, improved drop collection and change flow direction.

Gas-liquid separator operates as follows.

The gas-liquid flow is directed perpendicular to the gas-liquid separator. Part of this flow enters the protrusions 3 of the first row of reflective elements 2, colliding with the surface of the protrusions 3 without the formation of secondary droplets and splashes, changes its direction of motion and moves at an angle of 45 ° in the direction of droplet eliminators 5 with the formation of a liquid 5 film on the surface of the protrusions and at the same time partial coarse fraction of the liquid phase separation in the drop catcher 5. Another part of the gas-liquid stream, passing the first row of reflective elements and pulling the gas stream is partially freed from θ ¹ croup s drops in the first row of reflective elements is directed to the protrusions reflecting elements of the second row, where the process similar to the first row with more intense compartment 15 a large fraction of the liquid phase in droplet eliminator 5, protected from the influence of the main liquid flow. The trapped liquid flows down.

As the gas-liquid flow passes, the trapped liquid flows down. With the passage of a gas-liquid stream in the subsequent rows of reflective elements 2, the final separation of coarse and fine fractions occurs and the gas stream 25 throws a gas-liquid separator.

The proposed gas-liquid separator eliminates secondary entrainment, reduces resistance.

The separator is compact, simple in design and not difficult to manufacture.

Claims (1)

Claim A gas-liquid separator containing a housing, staggered zigzag reflective elements of a single profile installed in it in a staggered manner with a protrusion towards the flow and two troughs and with an opening angle of 90 °, characterized in that, in order to increase the efficiency of separation of dropping liquid by eliminating secondary entrainment and decrease in resistance, the vertices of the depressions of the previous rows of reflective elements along the flow are located in the same plane as the vertices of the protrusions of the subsequent rows, the vertices of the depressions of the reflective elements 45 · are arranged on one axis, the protrusions of the even rows and, accordingly, the protrusions of the odd rows are aligned, the ratio of the width of the ledge flange to the width of the depression flange of each reflective element is 2: 1.