RU121752U1 - DEVICE FOR SEPARATING LIQUID FROM GAS-LIQUID FLOW - Google Patents

Abstract

1. A device for separating liquid from a gas-liquid stream, comprising a housing, nozzles for supplying a gas-liquid flow, draining a liquid and removing gases and a phase separator, characterized in that the phase separator is made in the form of vertical partitions spaced with a gap relative to each other, rigidly attached to the walls of the body with the formation of a labyrinth for the passage of the gas-liquid flow, while the gap between the partitions is filled with a filler to increase the surface of contact with the gas-liquid flow, and the lower edge of the partitions is made with cutouts. ! 2. A device for separating liquid from a gas-liquid stream according to claim 1, characterized in that the filler is made in the form of metal shavings. ! 3. A device for separating liquid from a gas-liquid stream according to claim 1, characterized in that the cutouts are triangular. ! 4. A device for separating liquid from a gas-liquid stream according to claim 1, characterized in that the cutouts are rectangular. ! 5. A device for separating liquid from a gas-liquid stream according to claim 1, characterized in that the cutouts are made in the form of a semicircle.

Description

The invention relates to mechanical engineering, in particular to devices for separating droplet, aerosol and vaporous liquids from a gas-liquid stream, and can be used to upgrade existing compressors.

During compressor operation, when the stages are purged, the oil is discharged into the environment under a pressure of 15-40 kgf / ² , forming an oily aerosol cloud, which disperses and settles outside, polluting both the compressor body and the area around it.

A device is known for separating liquid particles from a gas-liquid stream, comprising a housing, nozzles for supplying a gas-liquid stream, draining the liquid and venting gases, and a phase separator (see the description of the invention of the Russian Federation No. 2310516 IPC В04С 1/00 dated 03/13/2006)

The phase separator in the known device is made in the form of a screen and a partition placed in the housing, forming a condensation chamber, while the partition is made in the form of a cylindrical spiral with permeable walls.

The main disadvantages of this device are the large size and low sensitivity to the separation of the vapor phase of the liquid, due to insufficient cooling of the gas due to undeveloped cooled surface.

A device for separating liquid particles from a gas stream, comprising a housing, nozzles for supplying a gas-liquid stream, draining the liquid and venting gases, and a phase separator, (see the description of the invention of the Russian Federation No. 2377074 IPC В04С 1/00 dated 06/19/2008)

The phase separator in the known device is made in the form of a spiral condensation chamber, the cooling of which is carried out by the cooling medium as it moves along the outer inter-turn space of the housing, which increases the dimensions of the device, makes the separation of phases dependent on the cooling of the condensation chamber, and are the main disadvantages of this device.

A device is known for separating liquid from a gas-liquid stream, adopted as a prototype, comprising a housing, nozzles for supplying a gas-liquid stream, draining the liquid and venting gases, and a phase separator (see the description of the invention of the Russian Federation No. 2418616 IPC B01D 45/06, B04C 5 / 103 dated 12/15/2009).

The phase separator in the known device is made in the form of a partition placed in the body in the form of a cylinder and a spiral guide for gas-liquid flow and a plate phase separator in the lower part of the housing, which complicates the design and increases the dimensions of the device.

The technical task of the invention is to simplify the design and increase the efficiency of cleaning a gas-liquid stream while reducing the weight and dimensions of the device.

The technical problem is solved in that in a device for separating liquid particles from a gas-liquid stream containing a housing, nozzles for supplying a gas-liquid stream, draining the liquid and exhaust gases and a phase separator, the phase separator is made in the form of vertical partitions arranged with a gap relative to each other rigidly attached to the walls of the housing with the formation of a labyrinth for the passage of gas-liquid flow, while the gap between the partitions is filled with filler to increase the contact surface I am with a gas-liquid flow, and the lower edge of the partitions is made with cutouts. The filler is made in the form of metal chips. Cutouts can be made triangular, rectangular or in the form of a semicircle.

The design of the proposed device with small dimensions of the housing can significantly increase the interaction surface of the gas-liquid flow, namely, by performing a phase separator in the form of a maze and filling the gap between the partitions with metal chips.

The proposed device has a simple, not bulky design that fits into the dimensions of the compressor, reliable operation, both in central Russia and in conditions equated to the far north.

The device is illustrated by drawings, where: in Fig.1 shows a General view of the device; figure 2 is also a cross section of the housing, with triangular cutouts of an even wall; figure 3 is also a cross section of the housing, with rectangular cutouts of an even wall.

The proposed device comprises a housing 1 made of metal with a wall thickness of 3-4 mm and equipped with a pipe 2 for connection with a gas-liquid flow supply source, for example, a compressor 3 and a pipe 4 for venting gas and a pipe 5 for draining the liquid.

Inside the housing 1 there is a phase separator made in the form of vertical partitions arranged with a gap relative to each other and forming a labyrinth for the gas-liquid flow through the nozzle 2 from the compressor 3. The labyrinth is formed by welding the odd partitions 6 to the walls and the upper part of the housing 1, and even partitions 7 - to the walls and bottom of the housing 1. The distance between the partitions is 100-150 mm.

The gap between the partitions 6 and 7 is filled with a filler, for example, metal chips to increase the contact surface with the gas-liquid flow and increase the cleaning efficiency.

The lower edge of the partitions 7 is performed with cutouts with a height of not more than 10 mm to ensure oil swelling along the bottom of the housing 1 to the nozzle 5 for draining the fluid (cutouts are not shown conventionally in the drawing). Cutouts can be of any shape, for example, triangular, rectangular or in the form of a semicircle.

The pipe 5 for draining the liquid is equipped with a drain valve 8.

The proposed device operates as follows.

The gas-liquid stream flows from the compressor 3 through the pipe 2 into the housing 1, where it is dispersed, falling on the surface of the partitions 6 and 7 and metal chips. When this occurs, it is divided into oily droplets, which first settle on the surface of the partitions 6 and 7 and metal chips and then flow down to the bottom of the housing 1, and gas purified from oil, which enters the atmosphere through the pipe 4.

The oil collected on the bottom of the housing 1 is periodically drained once every 2 weeks through the nozzle 5 for draining the liquid, equipped with a drain valve 8.

Claims (5)

1. A device for separating liquid from a gas-liquid stream, comprising a housing, nozzles for supplying a gas-liquid stream, draining and discharging gases, and a phase separator, characterized in that the phase separator is made in the form of vertical partitions located with a gap relative to each other, rigidly attached to the walls of the housing with the formation of a labyrinth for the passage of gas-liquid flow, while the gap between the partitions is filled with filler to increase the contact surface with the gas-liquid flow, and n zhnyaya face walls formed with cutouts. 2. A device for separating liquid from a gas-liquid stream according to claim 1, characterized in that the filler is made in the form of metal chips. 3. A device for separating liquid from a gas-liquid stream according to claim 1, characterized in that the cut-outs are triangular. 4. A device for separating liquid from a gas-liquid stream according to claim 1, characterized in that the cut-outs are rectangular. 5. A device for separating liquid from a gas-liquid stream according to claim 1, characterized in that the cut-outs are made in the form of a semicircle.