RU2312698C1 - Installation for purification of the hydrocarbon liquid medium from the dissolved gases - Google Patents

Abstract

FIELD: oil-producing industry; gas-producing industry; petrochemical industry; other industries; devices for purification of the hydrocarbon liquid medium from the dissolved gases.

SUBSTANCE: the invention is pertaining to the installations used for removal of the dissolved gases from the liquids and may be used in the oil-producing industry, gas-producing industry and the petrochemical industry, in particular, for removal of the hydrogen sulfide and carbon monoxides from the petroleum in the processes of preparation of the hydrogen sulfide-containing oils in the oil-fields. The installation contains the feeding pipeline with the hermetically fixed multinozzle head, the main of withdrawal of the gaseous impurities and the withdrawal pipeline for the purified liquid medium with the hydraulic lock. The hydraulic lock is formed by the cylindrical channel mounted in the tank. The main of withdrawal of the gaseous impurities is supplied with the fitting pipe transiting along the axis of the feeding pipeline through the multinozzle head and above the multinozzle head and connected with the body, which embraces the feeding pipeline connected to the body by means of the filter. The fitting pipe from below is equipped with the funnel disposed below the filter and above the level of the purified liquid medium. The lower part of the body is connected to the upper part of the tank by the annular channel equipped with the internal leaky annular partitions, which are mounted on the interior and on exterior walls of the annular channel in turn. The technical result of the invention is the increased efficiency of the installation operation at the expense of the additional separation of the hydrocarbon liquid medium after degassing of the hydrocarbon liquid medium in the supersonic flow of the two-phase mixture, the simple design of the installation.

EFFECT: the invention ensures the increased efficiency of the installation operation at the expense of the additional separation of the hydrocarbon liquid medium after degassing of the hydrocarbon liquid medium in the supersonic flow of the two-phase mixture, the simple design of the installation.

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Description

The invention relates to the removal of dissolved gases from a liquid and can be used in the oil, gas and petrochemical industries, in particular for the removal of hydrogen sulfide and carbon oxides from oil in the preparation of hydrogen sulfide-containing oils in the fields.

A known installation for removing acidic gases from a liquid (RF patent No. 2043781, IPC 7 B01D 19/00, published on 09/20/1995), to which oil is supplied after dehydration and desalination. Into the mixing chamber of the hydraulic compressor, a hydrocarbon gas not containing acidic gases is introduced, and the oil is intensively mixed with a hydrocarbon gas not containing acidic gases. As a result of the contact of the liquid and gas (hydrocarbon gas) phases due to the diffusion process, the hydrogen sulfide present in the oil is redistributed, and most of it passes from oil to hydrocarbon gas. In this case, the residual acid gas content in oil is significantly reduced. Then this mixture is supplied under pressure tangentially into a hydrocyclone for processing in a centrifugal force field, where the enhanced effect of acid gas evolution from a liquid occurs due to a combination of gas desorption and processing in a centrifugal force field in a hydrocyclone apparatus. The most stable commercial oil accumulates on the periphery of the centrifugal force field in the high-pressure field and is directed to the consumer. Acidic and hydrocarbon gases released from the liquid are collected under the action of centrifugal forces at the center of rotation of the stream in the low-pressure region.

The disadvantage of this installation is its low efficiency due to the need for an energy-intensive phase of preliminary mixing of hydrocarbon gas with oil, and also because of the need for supply and removal of hydrocarbon gas.

The closest in technical essence is the installation for the purification of a hydrocarbon liquid medium from gaseous impurities (RF patent No. 2248834, IPC 7 B01D 19/00, published in Bulletin No. 9 of 03/27/2005), containing a supply pipe with a nozzle block, a cylindrical channel for providing a supersonic flow of a mixture of a liquid medium with gases released from it, a line for removing gaseous impurities and a discharge pipe of a purified liquid medium, while the nozzle block is made in the form of a multi-nozzle nozzle sealed in a pipeline and x characterized by the ratio of the cross-sectional area and the sum of the areas of the nozzle openings equal to (6 ÷ 12): 1, after the cylindrical channel there is a diffuser with an opening angle of 4-6 °, and then a separator chamber equipped with a pipeline for removing gaseous impurities, while in the discharge pipe there is liquid The environment is equipped with a water lock in the form of a bent pipe section.

The disadvantages of this device design are;

- firstly, the complexity of the design, due to the technologically complex shape of the discharge pipe of the liquid medium with a water seal;

- secondly, the low degree of separation of the hydrocarbon liquid medium from the gases dissolved in it, due to the fact that the hydrocarbon liquid medium, when passing through the separation chamber, will partially fall into the exhaust gas discharge line. In addition, gas emitted during the separation process will accumulate in the upper part of the discharge pipe of the liquid medium with a water trap, which will inhibit the movement of the liquid phase and ultimately lead to the re-dissolution of the released gases already in the refined oil. All of the above reduces the efficiency (separation) of the installation.

An object of the invention is to simplify the design and increase the efficiency of the installation for cleaning a hydrocarbon liquid medium from dissolved gases.

The stated technical problem is solved by the installation for the purification of a hydrocarbon liquid medium from gaseous impurities, containing a supply pipe with a hermetically fixed multi-nozzle nozzle and a cylindrical channel to provide a supersonic flow of a mixture of a liquid medium with gases released from it, a gas discharge line and a discharge pipe of a purified liquid medium with a water seal .

What is new is that the water trap is formed by a cylindrical channel installed in a tank having a discharge pipe of purified liquid medium at the top, and the gaseous impurities discharge pipe is provided with a pipe passing along the axis of the supply pipe through the multi-nozzle nozzle and above the multi-nozzle nozzle and combined with a housing covering the supply pipe communicated with the housing by means of a filter made below the multi-nozzle nozzle, the pipe being provided with a bell located below the filter and higher than the level of the cleaned medium, and the lower part of the housing is in communication with the upper part of the tank with an annular channel provided with internal leaking annular partitions, which are installed alternately on the inner and outer walls of the annular channel.

The drawing schematically shows the proposed installation.

Installation for cleaning a hydrocarbon liquid medium from gaseous impurities contains a supply pipe 1 with a hermetically fixed multi-nozzle nozzle 2 and a cylindrical channel 3 for providing a supersonic flow of a mixture of a liquid medium with gases released from it, a discharge pipe 4 of gaseous impurities and a discharge pipe 5 of a purified liquid medium with a water seal 6.

The hydraulic lock 6 is made in the form of a cylindrical channel 3 of the supply pipe 1, inserted into the tank 7 with the discharge pipe 5 located at the top of the purified liquid medium.

The outlet line 4 of gaseous impurities is additionally equipped with a pipe 8 connected above the multi-nozzle nozzle 2, passing through the multi-nozzle nozzle 2 along the axis of the supply pipe 1, and a housing 9, covering the supply pipe 1.

The housing 9 is in communication with the supply pipe 1 through the filter 10 below the multi-nozzle nozzle 2.

The pipe 8 at the bottom is equipped with a socket 11 located below the filter 10, but above the level of the purified liquid medium.

The lower part of the housing 9 is in communication with the upper part of the vessel 7 by an annular channel 12, equipped with internal leaking annular partitions 13, which are installed on the inner and outer walls of the annular channel 12 in turn.

Installation works as follows.

The hydrocarbon liquid medium with the gases dissolved therein is fed into the inlet pipe 1. The hydrocarbon liquid medium with the gases dissolved therein, dropping down, reaches the multi-nozzle nozzle 2, which is hermetically fixed in the supply pipe 2. Once in the multi-nozzle nozzle 2, the hydrocarbon liquid medium with the dissolved in it gas is divided into separate jets injected into the cylindrical channel 3. In the cylindrical channel 3 due to the ejecting action of the jet of hydrocarbon liquid medium, the pressure is maintained lower e atmospheric. A sharp drop in pressure leads to the release of gases dissolved in a hydrocarbon liquid medium, including hydrogen sulfide. In this case, a two-phase mixture is formed in which the local speed of sound becomes less than the speed of the mixture itself. To realize the supersonic flow of the resulting two-phase mixture, a sharp pressure drop in the cylindrical channel 3 is achieved. This is achieved by the fact that the cross-sectional area of the cylindrical channel 3 is an order of magnitude higher than the total transverse area of the openings of the multi-nozzle nozzle 2.

In the cylindrical channel 3, the gas released from the hydrocarbon liquid medium through the filter 10 enters the space between the inlet pipe 1 and the housing 9 and rises up, where it enters the exhaust gas outlet 4 of gaseous impurities. The filter 10 can be made in the form of a grid with small cells, which prevent the entrainment of droplets of liquid hydrocarbon medium into the discharge pipe 4 of gaseous impurities. The hydrocarbon liquid medium flows downward along the cylindrical channel 3 and enters the tank 7.

Not having time to stand out during the movement of the hydrocarbon liquid medium down the cylindrical channel 3, gas accumulates in the tank 7 and is already released from the surface of the hydrocarbon liquid medium in the tank 7. The gas released from the tank 7 rises upward through the pipe 8 through the socket 11, which increases the gaseous coverage impurities rising upward, and along the annular channel 12 through the annular partitions 13, eliminating the capture of liquid, and is discharged into the exhaust pipe 4 of gaseous impurities.

Drops of a hydrocarbon liquid medium rising up with the gas settle on the surfaces of the annular partitions 13 and the socket 11, and then flow back into the tank 7. The lower end of the socket 11, which is equipped with a pipe 8 below, is located above the discharge pipe 5 of the purified liquid medium to exclude dropping hydrocarbon liquid medium into the pipe 8 and further into the exhaust pipe 4 of gaseous impurities.

In order to prevent the re-dissolution of the evolved gases in an already purified hydrocarbon liquid medium, a water trap 6 is installed, made in the form of a cylindrical channel 3 of the supply pipe 1, inserted into the container 7 with the discharge pipe 5 located at the top of the purified liquid medium.

The proposed installation for cleaning a hydrocarbon liquid medium from dissolved gases has a simple design and can improve the efficiency of the installation due to the additional separation (quality improvement) of the hydrocarbon liquid medium after degassing of the hydrocarbon liquid medium in a supersonic flow of a two-phase mixture.

Claims (1)

Installation for the purification of a hydrocarbon liquid medium from gaseous impurities, containing a supply pipe with a hermetically fixed multi-nozzle nozzle and a cylindrical channel for providing a supersonic flow of a mixture of a liquid medium with gases released from it, a discharge pipe for gaseous impurities and a discharge pipe of a purified liquid medium with a water seal, characterized in that the water seal is formed by a cylindrical channel installed in a tank having a discharge pipe of a purified liquid medium at the top, and m the gaseous impurity discharge line is provided with a pipe passing along the axis of the supply pipe through the multi-nozzle nozzle and above the multi-nozzle nozzle and combined with a housing surrounding the supply pipe connected to the housing by means of a filter made below the multi-nozzle nozzle, the pipe being provided with a socket located below the filter and above the level of the cleaned medium, and the lower part of the housing is in communication with the upper part of the tank with an annular channel provided with internal leaking annular towns that are installed on the inner and outer walls of the annular channel in turn.