RU2460008C2 - Device for gas cleaning and condensate draining from gas pipeline - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: proposed device comprises condensate tank provided with drain branch pipe with valve and flow branch pipe fitted there inside and communicated via external tube with branch pipe arranged at upper generatrix of gas pipeline elbow bottom point. Transport pipe is fitted inside pipeline, perpendicular to direction of gas flow from its bottom boot, and stopped from below and provided with cutouts made nearby its circular edges and screw vanes on its outer surface section to extend coaxially through gas pipeline top branch pipe, external pipe and flow branch pipe to make the heat jacket stopped from above on flow branch pipe transport pipe top edges by annular cover, and divided by vertical webs into lifting and draining channels intercommunicated via openings and communicated via openings with gas pipeline. Transport pipe is filled with wick hanging above its top edge and covered by cap to make annular clearance at its bottom.

EFFECT: higher efficiency of cleaning and protection against pipeline clogging.

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Description

The invention relates to gas purification and can be used for gas purification in gas supply systems of various sectors of the national economy, namely, gas purification and condensate removal of water vapor and hydrocarbons that accumulate at low points of underground gas pipelines, in order to avoid the formation of ice and crystalline hydrate plugs in them .

A device is known that includes a condensate collector that is hermetically fixed in the lower part of the gas pipeline, into which one end of the condensate drain pipe is immersed [1].

The main disadvantages of the known device are the inability to capture water vapor from gas, which reduces the efficiency of gas purification and protection of the pipeline from blockage by ice plugs.

Closer to the present invention is an apparatus for collecting particles suspended in a gas in a centrifugal field (spray trap), comprising a housing (pipe) with a tangential gas inlet pipe, coated inside with a capillary-porous material (wick) connected at the bottom to a liquid outlet pipe and a condensate collector, and a vertical exhaust pipe [2].

The main disadvantages of the known device are the narrow range of gas loads, the need to place the apparatus separately from the gas pipeline, which requires additional pipelines equipped with appropriate fittings during its installation, complicates the design of the device, increases its metal consumption and ultimately reduces the efficiency of gas cleaning and drying and protection gas pipeline from blockage by ice and crystal hydrate plugs.

The technical result, the solution of which the present invention is directed, is to increase the efficiency of gas purification from condensate and hydrocarbons to ensure effective protection of gas pipelines from clogging by ice crystalline hydrate plugs.

The technical result is achieved in a device for gas purification and condensate removal from a gas pipeline, which contains a condensate collector installed on the surface of the earth, equipped with a drain pipe with a valve and a passage pipe passed into it through the bottom so that its upper edge is located at a height H from the bottom, connected by an external pipe to a pipe located in the upper generatrix of the lowest point of the gas pipe bend, inside of which is perpendicular to the direction of gas movement from its lower mouth tray A transport pipe has been updated, muffled from the bottom, with slots at its lower edge along the entire circumference, equipped with screw blades on its outer surface in a section in the gas pipeline section and passing coaxially through the upper gas pipe branch, the outer pipe and the pipe passage with the formation between their inner surface and the outer the surface of the wall of the transport pipe of the cavity forming the heat jacket, muffled from above on the upper edges of the passage pipe and the transport pipe with an annular cover and divided vertical partitions to the lifting and lowering channels, communicating with each other at the top through windows and connected from below to the gas pipeline through openings formed by its wall and guide inclined vanes, the cavity of the transport pipe being filled with capillary-porous material (wick) hanging over its upper edge in condensate collector and covered cap with the formation of an annular gap below.

The proposed device for gas purification and condensate removal from the gas pipeline is shown in FIGS. .6,7 - node (B) of the docking of the outer pipe 5 with the upper tray of the gas pipeline; Fig. 8 - node (B) of the docking of the transport pipe 7 with the bottom of the gas pipeline.

The proposed device for gas purification and removal of condensate from the gas pipeline contains a condensate collector 1 mounted on the surface of the earth, equipped with a drain pipe 2 with a valve 3 and a passage pipe 4 passed through the bottom of the condensate collector 1 so that its upper edge is located inside the condensate collector 1 at a height H from its bottom. The pipe 4 is connected by an outer pipe 5 to a pipe 6 arranged in the upper generatrix of the lowest point of the bend of the gas pipeline, inside which a transport pipe 7 is installed, perpendicular to the direction of gas movement from its lower chute, which is plugged from below, with slots 8 at its lower edge around the entire circumference, equipped with screw blades 9 on its outer surface in a section in the cross section of the gas pipeline GP, passing coaxially through the pipe 6, the outer pipe 5 and the passage pipe 4 with the formation between the outer surface of the wall transport pipe 7 and the inner surface of the pipes 4, 6 and pipe 5 of the cavity - thermal jacket 10. Thermal jacket 10 is muffled from above on the upper edges of the pipe 4 and transport pipe 7 with an annular cover 11 and is divided by vertical partitions 12 and 13 into the lifting and lowering channels 14 and 15, respectively, communicating with each other at the top through windows 16 and 17 and connected from below to the gas pipeline GP through openings formed by its wall and guide inclined blades 18 and 19, respectively. Moreover, the entire transport pipe 7 is filled with a capillary-porous material (wick) 20 hanging over its upper edge and covered with a cap 21 with the formation of an annular gap 22 below.

The proposed device for gas purification and removal of condensate from the pipeline works as follows.

A gas containing condensate droplets of water vapor and hydrocarbons hits the screw blades 9 of the transport pipe 7, resulting in a swirling flow directed downward, which, under the influence of the previous mass of gas, detaches from the transport pipe 7 in the form of an independent vortex, which entangles the particles in rotation gas moves further in the longitudinal direction. In this case, the process of formation of such vortices proceeds continuously, they propagate along the cross section of the gas pipeline and their number is large. A centrifugal force arises in the resulting vortices, which acts on the droplets of condensate and hydrocarbons located in the gas and throws them to the periphery, namely, the walls of the gas pipeline, from where they flow under the action of gravity to the lowest part of the channel of the gas pipeline, where the lower transport tube end 7. As the condensate level in the lower tray SE pipeline reaches the slits 8, it is at a pressure in the pipeline P _T SE by capillary action is sucked wick 20 and conveyed to them by trans ortnoy pipe 7 [3, s.290] to the cap 21 and through the annular gap 22 on the outer surface of the flow tube 4 under gravity and the pressure differential the condensate in the pores of the filter 20 equal to R _F ≈R _T and the pressure in the condensate 1 equal to the atmospheric pressure P _A, flows at its bottom, where through the pipe 2 is output as the accumulation. At the same time, a portion of the transit gas enters the lifting channel 14 of the heat jacket 10 through the opening formed by the wall of the gas pipeline GP and the guide vane 18, which through the windows 16 and 17 enters the lowering channel 15, simultaneously heating the transport pipe 7, and through the opening formed by the wall of the gas pipeline GP and guide vane 19 under the influence of rarefaction created in this opening by a flow of transit gas moving in the gas pipeline is removed from the heat jacket 10. The lifting height of the transport pipe above the bottom of the condensate collector is 1 N ayut such that it was above the maximum fill level to avoid premature clogging of the filter 20 capillaries.

Thus, the proposed device provides an effective gas purification from drops of condensate of water vapor and hydrocarbons of a transit gas and the simultaneous removal of condensate from the gas pipeline, which prevents the formation of crystalline hydrate plugs.

LITERATURE

1. A.S. USSR No. 339500, M Cl. СВВ 31/20, 1972.

2. US Patent No. 3813854, Cl. 55-339, 1974.

3. Lykov A.V. Heat and mass transfer. (Directory). - M.: Energy, 480 p., 1978.

Claims (1)

A device for cleaning gas and removing condensate from a gas pipeline, including a pipe with capillary-porous material (wick), a gas inlet pipe and a liquid outlet pipe, a condensate collector, characterized in that the device contains a condensate collector mounted on the ground and equipped with a drain pipe with a valve and a passage pipe passed inside it through the bottom so that its upper edge is located at a height H from the bottom, connected by an outer pipe to a pipe arranged in the upper generatrix itself the lower point of the gas pipe bend, inside which a transport pipe is installed, perpendicular to the direction of gas movement from its lower tray, which is plugged from below, with slots at its lower edge along the entire circumference, equipped with screw blades on its outer surface in the section in the gas pipeline section and passing coaxially through the upper pipe the gas pipeline, the outer pipe and the passage pipe with the formation between their inner surface and the outer surface of the wall of the transport pipe cavity, forming a thermal a head muffled from above on the upper edges of the passage pipe and the transport pipe by an annular cover and divided by vertical partitions into the lifting and lowering channels communicating with each other at the top through the windows and connected from below to the gas pipeline through openings formed by its wall and guide inclined vanes, and the cavity of the transport pipe filled with a capillary-porous material (wick) hanging over its upper edge in the condensate collector and covered with a cap with the formation of an annular gap below.

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