RU104082U1 - CENTRIFUGAL OIL AND GAS SEPARATOR - Google Patents

Abstract

 1. A centrifugal oil and gas separator containing a vertical cylindrical body, a tangential nozzle for introducing a shared mixture, a plate with a drip trap installed on it, a liquid collector - water and oil - and sludge, at the outlet of the separator a gas outlet nozzle and a liquid discharge nozzle, characterized the fact that the tangential nozzle is hermetically connected to the horizontal guide tube of the primary separation of the mixture located on the inner circumference of the cross section of the housing and having the shape of a body the growth adjacent to the casing, at a height not less than the diameter of the tangential nozzle, has a cross-sectional shape, for example, a triangle with an acute angle below, provided on the end of the circle, 15 ° ÷ 60 °, with a cutout at the top for the gas to escape and a gap at the bottom at the junction bodies of revolution with a body for draining the film fluid, the plate is located under the guide tube, there is an annular gap between it and the body, the droplet eliminator is made in the form of a set of centrifugal direct-flow elements with the flow direction from top to bottom, each element with It is fitted with a swirl mounted on a cylindrical liquid deposition nozzle; below and inside a cylindrical liquid deposition nozzle, a gas outlet from the centrifugal element is installed through the pylons; fastened to the body with jumpers, hermetically connected to the outlet pipe of the gas from the separator and provided at the bottom with a drain pipe connected through

Description

The utility model relates to equipment for the separation of liquids (oil and water), sludge and gas and can be used in oil, gas and other industries.

Known centrifugal gas-liquid separator according to the patent of the Russian Federation No. 2311945, B01D 45/12, published December 10, 2007, containing a vertical housing divided by a horizontal partition dividing the housing into chambers, the tangential input of the mixture to be separated, located under the partition, an axial tube, axial output a nozzle, a shielding plate located under the axial pipe, a recirculation pipe located along the axis of the housing below the axial pipe, the lower housing is additionally equipped with a discharge outlet pipe, a settling chamber with a drain pipe, installed m from the bottom, radially and concentrically mounted by a cup, the inner cavity of which is communicated from below with the outlet pipe for sludge, and the upper edges are equipped with a shielding plate made with a slight slope down from the upper edges of the cup to the walls of the housing, relative to which the shielding plate is installed around the perimeter with a gap, at this partition is installed in the housing along the perimeter with a gap and is hermetically connected to the axial pipe, connected directly with the tangential input and equipped with a funnel with a recirculating bottom ion tube, and the lower part of the recirculation pipe is inserted into the glass, and the chamber located below the partition is in communication with the axial outlet pipe telescopically inserted into it with a tube gap.

Signs that coincide with the claimed solution are: the presence of a vertical casing in the centrifugal separator, divided by a horizontal partition dividing the casing into chambers, the tangential input of the mixture to be separated, the outlet pipe, the casing from the bottom is equipped with a settling chamber with a drain pipe.

The disadvantage of this separator is the low efficiency of gas separation, due to several reasons: the lack of gas purification in the separator, because the cyclone, which is this centrifugal separator, does not provide deep gas purification; the second stage of gas separation declared in the separator is actually an additional stage of gas degassing, its effect on the separation of free gas is small; in this design clogging of narrow passage sections with sludge will occur, cleaning of sludge is difficult.

Closest to the claimed utility model and adopted for the prototype is a centrifugal gas-liquid separator, according to the patent of the Russian Federation No. 80768, B01D 45/12, publ. March 27, 2009, containing a vertical cylindrical body with a gas outlet in the upper part of the body, lower horizontal septum, tangential nozzle for introducing a shared mixture, cylindrical deposition zone, turning into a funnel, shielding a truncated cone, expanding down to the walls of the housing and installed around the perimeter to the housing with a gap, the drain pipe bones and a outlet pipe for sludge at the lowest point of the casing in the liquid and sludge collection zone, the horizontal partition is equipped with a drop eliminator, for example, a string type, a perforated pipe with a sealed bridge on top is mounted concentrically with the cylindrical body, connecting the perforated pipe to the casing, forming a mountainous receiving a mixture inlet chamber with a cylindrical deposition zone on the inner surface of the housing, turning into a funnel with a gap around the perimeter of the housing, the annular output slot green mixture, below is the perimeter gap at the inlet of the shielded truncated cone, provided with an aperture with a cylindrical flanging at the top, guide vanes are installed vertically inside the perforated axial tube.

Signs that coincide with the claimed solution are the following: a vertical cylindrical body with a gas outlet pipe, a horizontal partition, a tangential nozzle for introducing a shared mixture, a cylindrical deposition zone on the inner surface of the body, a liquid discharge pipe at the lower point of the body in the liquid and sludge collection zone, horizontal the partition is equipped with a droplet eliminator.

The disadvantages of this separator are the following: a small effect of centrifugal separation of a heterogeneous mixture due to insufficiently limited spreading of a free swirling mixture stream after a tangential nozzle; the flow of part of the gas into the gap between the cylindrical body and the funnel and the flow of the gas into the gap between the cylindrical body and the shielding truncated cone; small effect of gas removal in perforation of a perforated pipe; centrifugal fine gas purification when the flow moves from the bottom up is limited by a narrow range in gas velocity, due to the counterflow of the separated gas and liquid: gas up and liquid down, which leads to instability of the flowing liquid film in centrifugal elements of fine gas purification and entrainment of liquid droplets with gas.

The technical task of the utility model is to increase the efficiency of separation of the gas and liquid flow (with sludge) by restricting the jet of the mixture leaving the tangential nozzle, which helps to maintain a high flow rate and constant centrifugal overload of heavy liquid particles (with sludge) and intensive separation of the mixture with a further direction gas down to a set of centrifugal elements for fine gas purification, thus increasing the efficiency of fine gas purification by organizing a downstream gas flow and fluid, which leads to stability of fluid flow in centrifugal elements.

The stated technical problem is solved in that in a centrifugal oil and gas separator containing a vertical cylindrical body, a tangential nozzle for introducing a shared mixture, a plate with a fine gas trap installed on it, a collector of liquid (water and oil) and sludge, a gas outlet nozzle at the outlet of the separator and a fluid discharge pipe, a tangential pipe is hermetically connected to the horizontal guide tube of the primary separation of the mixture, located on the inner circumference of the cross section of the housing and having the shape of a body of revolution adjacent to the body, not less than the diameter of the tangential nozzle in height, has a cross-sectional shape, for example, a triangle with an acute angle below, is provided on the end of the circle, 15 ° ... 60 °, with a cutout at the top for the gas to exit and a slot below, at the junction of the body of revolution with the housing, for draining the film fluid, the plate is located under the guide tube, there is an annular gap between it and the housing, the droplet eliminator is made in the form of a set of centrifugal direct-flow elements with flow direction and from top to bottom, each element is equipped with a swirl mounted on a cylindrical liquid precipitation nozzle, lower and inside a cylindrical liquid precipitation nozzle, gas outlet from the centrifugal element is installed through the pylons, gas outlet nozzles from the elements are connected to a sealed collector of purified gas collection, limited by a plate at the top, and at the bottom with a funnel-shaped surface, the collector is attached to the body with jumpers, hermetically connected to the gas outlet pipe from the separator and provided with a drainage point at the bottom a throat pipe connected through a water trap to a fluid and sludge collector, a sludge discharge hatch is provided in the lower part of the body. In a centrifugal oil and gas separator, the swirls of a set of centrifugal elements have the same swirl direction as the tangential nozzle for introducing a shared mixture.

Figure 1 shows a longitudinal section of a centrifugal oil and gas separator, figure 2 is a top view.

A centrifugal oil and gas separator, contains a vertical cylindrical body 1, a tangential nozzle 2 for introducing a shared mixture, a plate 3 with a drip trap 4 for fine gas purification installed on it, a collector 5 of liquid (water and oil) and sludge, and a gas outlet nozzle 6 and a nozzle at the outlet of the separator 7 fluid drain, tangential pipe 2 is hermetically connected to the horizontal guide tube 8 of the primary separation of the mixture located on the inner circumference of the cross section of the housing and having the shape of a body of revolution 9, adjacent flowing to the housing 1, at a height not less than the diameter of the tangential pipe 2, has a cross-sectional shape, for example, of a triangle (9) with an acute angle at the bottom, provided on the end of the circle, 15 ° ... 60 °, with a cutout 10 at the top for gas outlet and slot 11 below, at the junction of the body of revolution 9 with the housing 1, to drain the film fluid, the plate 3 is located under the guide tube 8, between it and the housing 1 there is an annular gap 12, the drip tray 4 is made in the form of a set of centrifugal direct-flow elements with the flow direction from top to bottom each item equipped with a swirler 13, mounted cylindrical nozzle 14 for liquid deposition, below and inside the cylindrical nozzle 14 for liquid deposition installed through pylons 15 nozzle 16 for gas outlet from the centrifugal element, nozzle 16 for gas outlet from the elements are connected to a sealed manifold 17 for collecting purified gas, at the top limited by plate 3 and at the bottom with a funnel-shaped surface 18, the collector 17 is attached to the housing 1 by jumpers 19, is hermetically connected to the gas outlet pipe 6 from the separator, and is provided at the lower point with a drain pipe 20 connected through a water trap to the fluid and sludge collector 5, a hatch 21 for sludge discharge is provided in the lower part of the housing. In addition, the swirls 13 of the set of centrifugal elements have the same direction of rotation as the tangential pipe 2 for entering the shared mixture.

Centrifugal oil and gas separator operates as follows. The mixture of gas, liquid and sludge enters the separator through the tangential pipe 2 for introducing the separated mixture into the guide pipe 8, it is twisted, droplet liquid with slurry is gradually deposited under the action of centrifugal force in the guide pipe 8, the gas escapes upward through the cutout 10 at the end of the guide pipe 3 (15 ... 60 °), and the film fluid flows down through the slot 11 located at the junction of the body of revolution 9 at the end of the guide pipe 8 (15 ... 60 °), then the film deposited liquid flows down the inner cylindrical surface of the housing 1, and through the annular gap 12 enters the collector 5 of liquid and sludge, separating there into a liquid and sludge, the gas is directed to a droplet eliminator 4 placed on a plate 3, where it is cleaned from the liquid and sludge, twisted in swirls 13, the liquid is deposited in cylindrical nozzles 14, and the gas purified from the liquid is directed through cylindrical nozzles 16 to the collector 17, and from it to the nozzle 6 of the gas outlet from the separator, the settled liquid 17 with sludge flows through the drain pipe 20 into the liquid collector 5 with sludge, the post liquid the drain is withdrawn from the separator through the pipe 7, the sludge is periodically discharged through the hatch 21. A collector 17 is attached to the cylindrical body 1 on the jumpers 19, and gas outlet pipes 16 are installed on the pylons 15 in the pipes 14 for liquid deposition.

Depending on the shape of the angle of inclination of the walls of the triangle 9, the cross-sectional area of the guide pipe 8 changes. Thus, it is possible to realize the necessary mixture speed and carry out centrifugal primary sedimentation of the liquid with slurry in the guide pipe 8. This in the claimed solution achieves high efficiency of the primary separation of the mixture. In connection with the direction of flow from top to bottom (and not from bottom to top) in the centrifugal elements of the drip trap 4 for fine gas cleaning, the range of effective work of separating the mixture according to the gas productivity of the elements during the final gas cleaning increases by 2-3 times.

Claims (2)

1. A centrifugal oil and gas separator containing a vertical cylindrical body, a tangential nozzle for introducing a shared mixture, a plate with a drip trap installed on it, a liquid collector - water and oil - and sludge, at the outlet of the separator a gas outlet nozzle and a liquid discharge nozzle, characterized the fact that the tangential nozzle is hermetically connected to the horizontal guide tube of the primary separation of the mixture located on the inner circumference of the cross section of the housing and having the shape of a body the growth adjacent to the casing, at a height not less than the diameter of the tangential nozzle, has a cross-sectional shape, for example, a triangle with an acute angle below, provided on the end of the circle, 15 ° ÷ 60 °, with a cutout at the top for the gas to escape and a gap at the bottom at the junction bodies of revolution with a body for draining the film fluid, the plate is located under the guide tube, there is an annular gap between it and the body, the droplet eliminator is made in the form of a set of centrifugal direct-flow elements with the flow direction from top to bottom, each element with It is fitted with a swirler mounted on a cylindrical liquid deposition nozzle; below and inside a cylindrical liquid deposition nozzle, a gas outlet from the centrifugal element is installed through the pylons; the gas outlet from the elements is connected to a sealed collector for purified gas collection, limited by a plate at the top and a funnel-shaped surface below, the collector fastened to the body with jumpers, hermetically connected to the gas outlet pipe from the separator and provided at the bottom with a drain pipe connected through idrozatvor with the collecting liquid and sludge at the bottom of the housing is provided sludge discharge hatch. 2. A centrifugal oil and gas separator, characterized in that the swirlers of the set of centrifugal elements have the same direction of rotation as the tangential nozzle of the input of the shared mixture.