RU8276U1 - DEVICE FOR GAS LIQUID SEPARATION - Google Patents

Abstract

A device for separating liquid from gas, comprising a vertical cylindrical body divided by a conical baffle into an inertial separator with a tangential inlet pipe located in its lower part and a filter element made of porous material enclosed between two coaxially mounted cylindrical shells, the outer of which is partially provided with perforation and has conical bottom with a nozzle for draining the fluid installed in the bottom of the inertial separator, and the inner shell is made of perforations and connected to the outlet pipe, characterized in that the lower part of the inner shell is provided with a perforation and an annular cavity formed by two conical walls, the upper of which is perforated, the perforation holes have a flange directed towards the porous filter material, and the lower wall is solid and forms a gap with the conical bottom of the outer shell, and the perforation of the outer shell is made in its upper part and is equipped with a blade twist.

Description

., DEVICE DESIGN DEPARTMENT OF GAS OUT OF GAS The proposed utility model relates to devices for separating liquid from gas and can be used in various industries. A device for separating liquid from a gas is known, comprising a cylindrical body, an inlet tangential nozzle and a purified gas outlet nozzle, concentric shells installed in the lower part of the housing, a layer of chemically inert material (see UK J§ ISsJoS. M.cl. B04C 5/12 publ. 1978). A disadvantage of the known device is a significant spraying, which limits its use in the national economy. The closest known technical solution to the proposed in essence and achievable result is a device for separating bridging from gas, containing a vertical cylindrical body divided by a conical partition into an inertial separator with a tangential inlet pipe and a filter element made of porous material enclosed between two coaxially mounted cylindrical shells, the outermost of which: is partially provided with perration and has a conical bottom with a nozzle for draining the liquid installed in the bottom of the inertial separator, and the inner shell is partially provided with perforations and connected to the outlet nozzle (see A. S. USSR 1692614. M.cl. V01D 45/06 ony6 / J.I99Ir.). In the known device, gas with residual liquids crosses the perforation made in the lower part of the outer casing, rises upward, freeing itself from the liquid, and is fed through the perforation made in the upper part of the inner casing to the outlet pipe. The fluid coagulates in the porous material and flows down. However, due to iiom M.cl. V01D 45/06} W4G S / (2

of the fact that the gas being cleaned moves towards the stacked liquid in the porous material, a significant part of the liquid is again picked up by the upward gas flow and carried to the outlet pipe.

The technical task of XEOCHHSSKHEIS rmsset of the proposed; -the proposed technical solution is to improve the quality of separation.

The technical result is achieved as follows.

In a device for separating from gas, comprising a vertical cylindrical body, an inertial separator with a tangential inlet nozzle and a filter element made of porous material enclosed by an inter-axle coaxially mounted cylindrical shell & themselves, the largest of which is partially perforated and has a conical bottom with a nozzle for liquid, is installed in the bottom of the inertial separator, and the inner shell is perforated and connected to the outlet 1 nozzle, the upper part the inner shell is provided with a perforation and an annular cavity formed by two conical walls, the upper of which is perforated, the perforation holes have a flange directed towards the porous filter material, and the lower wall is solid and forms a gap with the conical bottom of the outer shell, and the perforation violates the circumference its upper part and is equipped with a scapular twist. Supply of the lower part of the inner shell with perforation and an annular cavity, the formation of a cavity by the conical walls, making the upper wall perforated, supplying the perforation holes, flanging direction towards the porous filter material, installing a niche solid mesh with the formation of a gap with the conical bottom of the outer shell, as well as perforation of the outer shell in its upper part and the supply of its scapular spinner allows you to organize the same direction from top to bottom of the sought

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gas and trapped liquid; and organizing the removal of liquid along the outer rim, which turns out to be spray-proof.

In FIG. I- schematically depicts a pre-arranged © device for separating liquid from gas

In FIG. 2 is a sectional view of FIG. 3- node A

The device comprises a vertical cylindrical housing I, divided by a conical baffle 2 into an inertial separator 3 with tangential / nozzle 4 and a fitting element made of porous material 5, enclosed between two coaxially mounted cylindrical shells 6 and 7.

The separator 3 is located in the lower part of the housing and is equipped with coaxially reinforced partitions 8,9 and 10. Partitions 8 and 10 are fixed to the conical partition 2 and form a gap with the bottom of the II case, and the partition 9 is strengthened to the bottom of the II and has a gap with a conical partition 2.

The broken shell 6 is made of perforated 12 in its upper part and has a conical bottom 13 with a nozzle 14 for draining the fluid installed in the bottom of the II crust.

The inner shell 7 is perforated 15 in the lower part and connected to the outlet pipe 16. The lower part of the inner shell 7 is also equipped with an annular cavity 17 formed by two conical walls 18 and 19. The upper stitch 18 is perforated, the perforation holes 20 have flanges 21 directed towards the porous filter material 5.

The bottom wall 19 is installed solid and forms a gap 22 with a conical bottom 13 of the outer shell 6.

The bottom II is equipped with a pipe 23 gave a drain. The perforation 12 of the outer shell b is equipped with a spatula. 1 twist 24.

sweat

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The device operates as follows,

The source gas with a dropping liquid falls along the tangential nozzle into the separator 3, where the gas swirls, goes down, goes around the bottom of the partition 8, goes up, goes around the top of the partition 9, goes down again, goes around the bottom of the partition 10 around the gap between the tubes 14 and wall 10, then along the gap between the conical baffle plate 2 and bottom 13, then along the gap between the walls of the housing I and the casing 6 rises up, previously cleaned of large drops of lightness as a result of centrifugal and force in the separator 3.

The upward rotating stream of partially purified gas under the influence of centrifugal forces continues to be freed from the droplet LRW, which is discarded on the wall of the housing I and flows down, in the form of a film. The gas flow crosses the perforation 12 of the shell 6, is twisted by a blade twist 24 and moves downward through the thickness of the porous porous material o in the form of a rotating downward flow, where it is freed from droplet residues, which are coagulated by centrifugal forces and are drained onto the shell 6 and flows downwards in the form of a film along of the inner part of the shell 6, A small part of the liquid that has fallen on the wall 18 flows to the south by flanges 21 located above the level of liquid content on the wall 18 into the gap 22, from where it merges into the tube 14 and then to bottom II.

Since the rotating gas moves in the same direction as the draining fluid that is discarded to the outer shell, the conditions for re-picking up and crushing the liquid in the gas stream are reduced.

A small part located in the gas stream passes through the openings 20 into the cavity 17, where the stream expands sharply and the direction of movement changes, which contributes to the deposition of liquid droplets from the stream onto the wall 19, from where liquid in the form of a film flows through the perforation 15 into the tube 14.

The purified gas from the cavity 17 crosses the perforation 15 and through the cavity of the shell 7, the outlet pipe 16 is sent to the consumer.

The technical and economic efficiency of the proposed device in comparison with the known one consists in increasing the quality of separation to approximately 25 / due to the organization of the movement of the rotating gas stream in one direction with the drained liquid trapped in the porous material, which ensures the simultaneous separation of the batch capacity on the wall, and also due to installation of the annular cavity 17 formed by two conical walls, which allows for the organization of the removal of the remaining fluid from the gas stream and additional Aracena residual liquid contained in the gas stream.

Claims (1)

A device for separating liquid from gas, comprising a vertical cylindrical body divided by a conical baffle into an inertial separator with a tangential inlet pipe located in its lower part and a filter element made of porous material enclosed between two coaxially mounted cylindrical shells, the outer of which is partially provided with perforation and has conical bottom with a nozzle for draining the fluid installed in the bottom of the inertial separator, and the inner shell is made of perforations and connected to the outlet pipe, characterized in that the lower part of the inner shell is provided with a perforation and an annular cavity formed by two conical walls, the upper of which is perforated, the perforation holes have a flange directed towards the porous filter material, and the lower wall is solid and forms a gap with the conical bottom of the outer shell, and the perforation of the outer shell is made in its upper part and is equipped with a blade twist.