RU2377074C1 - Device to separate fluid particles from gas flow - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to process engineering, particularly to separate drop-, aerosol- and vapor-like fluids from gas flow. Proposed device comprises housing with spiral-like condensation chamber formed by housing walls. Said walls form manifold on spiral start section with gas feed branch pipe, while gas and condensate discharge manifold is formed on spiral end. Note here that turn-to-turn space of condensation chamber makes a passage for cooling medium.

EFFECT: cooling and efficient separation of particles from gas flow.

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Description

The invention relates to devices for separating the drip, aerosol and vapor phases of a liquid from a gas stream and can be used in venting systems of gas turbine engines and compressors for separating drip, aerosol and vapor particles of oil from a gas stream.

A device is known, taken for the closest analogue, for separating liquid particles from a gas-liquid stream, comprising a housing and a spiral permeable septum installed therein, forming a spiral condensation chamber (RF patent No. 2310516).

The main disadvantage of this device is its low sensitivity to the separation of the vapor phase of the liquid, due to insufficient cooling of the gas due to the undeveloped cooled surface.

The technical task of the present invention is, along with the effective separation of the droplet and aerosol phases of the liquid, increasing the sensitivity of the device to the separation of the vapor phase of the liquid from the gas stream by organizing the movement of the gas stream along the slotted spiral channel with a developed surface and the action of centrifugal forces on the gas stream and liquid particles giving a soft perturbation to the gas stream for its multiple contact with the internal walls of the slotted channel, cooled with Aruja.

The technical result is achieved in that a device for separating liquid particles from a gas stream, comprising a housing with a spiral condensation chamber formed therein, is configured in such a way that the spiral condensation chamber is formed by the walls of the housing, in which the same walls form a manifold with nozzles on the initial portion of the spiral gas supply, and at the end of the spiral, a collector with gas and condensate discharge pipes, while the inter-turn space of the condensation chamber forms a path for cooling giving environment.

The drawing shows a device for separating liquid particles from a gas stream. The device comprises a housing 1, a condensation chamber 2, a gas supply manifold 3, a gas and condensate drain manifold 4, a gas supply nozzle 5, a gas exhaust nozzle 6, a condensate exhaust nozzle 7.

The device operates as follows.

The gas stream through the gas supply pipe 5 and the manifold 3 enters the initial part of the condensation chamber 2, where it begins to move along the slotted spiral channel of the condensation chamber, which is cooled from the outside. In the condensation chamber 2, under the influence of centrifugal and viscosity forces, the droplet, aerosol and vapor phases will settle on the inner surfaces of the walls of the housing 1. Then, under the influence of a gas flow and gravity along the walls, the liquid moves along a spiral path to the end and bottom of the condensation chamber and enters to the lower part of the collector 4, where, accumulating, it drains along the condensate discharge pipe 7. The gas stream purified from the liquid flows from the collector 4 through the gas discharge pipe 6. The condensation chamber is cooled It is equipped with a cooling medium as it moves along the outer inter-turn space of the housing 1.

Thus, the proposed device is compact, simple in design, convenient for installation, allows you to cool and effectively separate droplet, aerosol and vaporous particles of liquid from the gas stream.

Claims (1)

A device for separating liquid particles from a gas stream, comprising a housing with a spiral condensation chamber formed in it, characterized in that the spiral condensation chamber is formed by the walls of the housing, in which the same walls form a collector with a gas supply pipe in the initial section of the spiral, and in the final section spirals - a collector with branch pipes for gas and condensate discharge, while the inter-turn space of the condensation chamber forms a path for the movement of the cooling medium.

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