CS238766B1 - Plate of separator of liquid and solid contaminants in gas - Google Patents

Abstract

The trap pad is shaped into a trough against which it is the separator inlet port is located. On the top of the impact pad is the least two strips that form a depression trough. The impact pad is intended for production separators for transit gas pipelines.

Description

The present invention relates to the arrangement of an impact plate of a separator of liquid and solid impurities from a carrier gas.

The prior art separator impact plate configurations, typically multistage, promote the agglomeration of small particles in the vents only by impacting the carrier gas stream onto the impingement plate and further directing the gas flow to separate the agglomerated particles from the carrier medium by reversing the flow direction and to introduce gas into the next stage eg cyclones.

Known embodiments of impact plates of multistage separators have, on the one hand, low agglomeration properties by simply impacting the gas with impurities on the plate and, on the other hand, an improperly shaped transfer space to the next stage of the separator with subsequent higher pressure losses in gas flow due to sudden cross-sectional changes.

According to the invention, the impact plate arrangement of the separator of liquid and solid impurities from the carrier gas located opposite the inlet opening of the separator body constituted by the casing of the installation is characterized in that the sides of the impact plate are usually inclined and shaped into a trough. , together with the body, form a separator, mostly of circular cross-section, tapering! and an expanding curved burst channel.

In some cases, the molding of the impact plate into the trough may be replaced by strips to which the separated impurities are clogged with gas, according to which they run down the inclined impact plate to its lower end and thence further to the bottom of the separator jacket.

The main advantage of the arrangement of the impact plate of the separator of liquid and solid impurities according to the invention is that it maximally promotes the agglomeration of small particles to a greater extent with minimal pressure loss. Another advantage is that the impact plate is usually a sheath of the interior, which results in a saving of material.

1 is a schematic cross-sectional view of an impact plate of a liquid and solid impurities separator from a carrier gas, wherein the impact plate is in the form of a trough and its sides form a rounded cluster channel according to the invention; FIG. 2 shows the impact plate; wherein the trough is formed by strips and the sides of the impact plate form an angular burst channel.

A trough 6 is formed on the impact plate J (FIG. 1), on its side opposite the inlet neck 2 of the separator body 6. The sides 4 of the impact plate 4, curved by the radius R, form on both sides an initially tapering portion of the clustering channel 6 to the narrowest point where the flanks 6 pass into the widening portion of the clustering channel 6. Here, the first separation of larger impurities from the carrier gas takes place, with the raised edges of the trough 6 preventing the separated impurities from following the carrier gas flow, after the inclined bottom of the trough 6 they run down to its lowest end from where they are discharged to the bottom of the separator body. . The carrier gas further flows through the raised edges of the trough 6 into the tapering portion of the aggregation duct 6, where its velocity increases, to the narrowest point, where further small particles of dirt accumulate in the larger and subsequent widening portions of the duct 6. where the carrier gas decreases its velocity, further impurities are separated not only due to the difference in velocity between the carrier gas and the velocity of the particulate matter, but also by a different change in the flow direction of the carrier gas and impurities due to the curvature of the outer side of the cluster.

On the impingement plate 1 (FIG. 2), not on its side opposite the inlet neck 2 of the separator body 6, a trough 6 is formed by two strips 4, the sides 4 of the impingement plate 1 behind these stripes being rounded on both sides into flat plates forming a tapering portion of the clustering channels 6 to the narrowest point where the flanks 2 pass into the widening parts of the clustering channel 6 by short straight sections.

Claims (2)

SUBJECT OF THE INVENTION Impact plate of a liquid and solid impurities separator with a carrier gas, located opposite the inlet opening of the separator body, consisting of a housing, characterized in that the sides (5) of the impact plate (1), mostly inclined and shaped into a trough (4) against an inlet throat (2) of the separator body (3) is located in the recess, forming together with the separator body (3) a tapering and expanding curved burst channel (6). Impact plate according to claim 1, characterized in that the channel depression (4) forms two strips (7) on the top of the impact plate (1).