RU2285555C2 - Device for separation - Google Patents

Abstract

FIELD: separation.

SUBSTANCE: device comprises column with pipelines for supplying gas-liquid mixture and discharging oil, water, and gas. The column is made of two sections made of the straight section of pipe with the plugged bottom end. Each section is inclined to the horizon. The sections can be made of at least two straight pipes that are inclined to the horizontal surface at different angles. The tops of the sections can be connected with the working chamber made of rectangular parallelepiped or cylinder with vertical axis. The pipeline for discharging gas is connected with the working chamber.

EFFECT: enhanced intensity of separation.

5 cl, 2 dwg

Description

The invention relates to the field of equipment for the oil industry, and in particular to installations for separating the production of oil wells into oil and water.

Known separation installation containing a column with pipelines for supplying oil-water emulsion and drainage of oil, water and gas, the column is inclined, the supply pipe is connected to the inclined column at a distance equal to 0.2-0.25 length of the column, and its lower part is provided a pipeline for free water discharge connected to a gas outlet manifold, the column is located on the surface (USSR Author's Certificate No. 1482932, IPC ⁷ 01 D 19/00, publ. 06.23.1989).

The disadvantage of this installation is the lack of intensity of the process, large size, it is able to separate the oil-water emulsion into oil and water with a relatively small water content.

The closest in technical essence and the achieved result to the claimed object is a separation unit containing a column with pipelines for supplying a gas-liquid mixture and a discharge of oil, water and gas, while the column is made inclined and contains oil sludge and water-sludge sections, the pipeline for supplying a gas-liquid mixture is equipped with a flow damper and gas separator, the oil sludge section at the inlet of the gas-liquid mixture is installed at an angle to the water sludge section, and the angle of inclination of the first is greater than the angle the slope of the second, the gas-liquid mixture supply pipeline is capable of two-stream introduction of the gas-liquid mixture in the form of a flow distributor, the inlet ends of which are located in the water-sludge and oil-sludge sections (RF Patent No. 2119372, IPC V 01 D 19/00, published on 09/27/1998) .

The disadvantage of this installation is the lack of intensity of the process, large sizes.

The present invention is aimed at increasing the intensity of the process and reducing the size.

This is achieved by the fact that in a separation installation containing a column with pipelines for supplying a gas-liquid mixture and for discharging oil, water and gas, the column is made up of two sections interconnected by vertices, which are a straight pipe section with a damped lower end, each section is inclined to a horizontal surfaces, tilt angles, lengths and diameters of the sections are not necessarily equal, the axes of the sections are located in the same plane perpendicular to the horizontal surface, the gas exhaust pipe is connected to the upper part of the column, pipelines for supplying a gas-liquid mixture and for discharging oil and water are connected to sections by pipes for supplying a gas-liquid mixture and for discharging oil and water, and the conclusions of the pipes for discharging oil and water are connected respectively to the oil-settling and water-settling sections of the sections. In addition, in some cases, the section may be made of two or more straight pipes with different angles of inclination to a horizontal surface. In addition, in some cases, the inputs of the nozzles for supplying a gas-liquid mixture can be located at the level of the oil sludge sections. In addition, in some cases, the inputs of the nozzles for supplying a gas-liquid mixture can be located above the oil sludge sections. In addition, in some cases, the tops of the sections can be connected to a working chamber made, for example, in the form of a rectangular parallelepiped, a cylinder with a vertical axis, etc., a gas exhaust pipe is connected to the working chamber. In addition, in some cases, the connection sections with the working chamber can be made in the bottom of the working chamber or in the side walls of the working chamber. In addition, in some cases, the input of the pipeline for supplying a gas-liquid mixture can be connected to the working chamber. In addition, in some cases, the sections can be made so that the planes passing through their axis and perpendicular to the horizontal surface are located at an angle from 0 to 180 ° relative to each other. In addition, in some cases, the sections can be made of equal length and diameter and are parallel to each other at the same angles of inclination to a horizontal surface. In addition, in some cases, three or more sections may be connected to the working chamber.

The execution of the column consisting of two inclined sections joined by the tops allows approximately two times to increase the separation area between the water-settling and oil-settling zones in comparison with one inclined column, which leads to an increase in the sedimentation rate in the proposed separation unit by about two times. The angle of inclination of the sections to the surface of the horizon is selected in order to select the largest section area between the water-sludge and oil-sludge zones of the sections.

The connection of the conclusions of the pipes for oil and water drainage, respectively, with oil sludge and water-sludge sections of the sections allows to improve the quality of sludge oil and water.

The implementation of the section of two or more straight pipes with different angles of inclination to the horizontal surface allows in some cases to increase the surface area of the interface.

The location of the inlets of the gas-liquid mixture supply pipes below the oil-sludge sections of the sections allows in some cases (with high water cut) to improve the quality of oil and water sludge depending on the parameters of the gas-liquid mixture (flow rate, water cut, temperature, pressure, physicochemical properties of the mixture and component, etc. d.).

The location of the inputs of the nozzles for supplying a gas-liquid mixture at the level of the oil-sludge sections of the sections allows in some cases (with average water cut) to improve the quality of oil and water sludge depending on the parameters of the gas-liquid mixture (flow rate, water cut, temperature, pressure, physicochemical properties of the mixture and component, and t .d.).

The location of the inlets of the gas-liquid mixture supply pipes above the oil-sludge sections of the sections allows in some cases (for low water cuts) to improve the quality of oil and water sludge depending on the parameters of the gas-liquid mixture (flow rate, water cut, temperature, pressure, physicochemical properties of the mixture and component, etc. d.).

Connecting the top of the sections to the working chamber, made, for example, in the form of a rectangular parallelepiped, a cylinder with a vertical axis, etc., where the gas exhaust pipe is connected to the working chamber, allows to increase the surface area of the sludge due to the partial organization of sludge in the working chamber.

The connection sections with the working chamber in the bottom of the working chamber or in the side walls of the working chamber can improve the quality of the process.

The connection of the input of the pipeline for supplying a gas-liquid mixture to the working chamber improves the convenience of the layout.

The execution of the sections so that the planes passing through their axis and perpendicular to the horizontal surface are located at an angle from 0 to 180 ° relative to each other, allows you to change the shape and length of the column. So, at an angle between sections of 0 °, the length of the column will be two times less than at an angle of 180 °.

The implementation of sections of equal length and diameter and located parallel to each other at the same angles of inclination to a horizontal surface allows to improve the quality of the process due to the simplification of management.

The connection to the working chamber of three or more sections allows to increase the intensity of the process by three or more times.

The separation unit is shown in figure 1. Figure 2 shows a separation unit with a working chamber.

The separation unit consists of sections 1 with pipelines for supplying a gas-liquid mixture and pipes for draining oil 3 and water 4, as well as a piping for gas 5. In some cases, sections 1 can be connected to the working chamber 6.

The separation unit operates as follows. The gas-liquid mixture is supplied through the pipeline for supplying a gas-liquid mixture 2 to section 1. After filling sections 1 to a certain level, the supply stops and the mixture settles. The gas evolved in this case is discharged through the gas exhaust pipe 5, and the oil and water separated by different densities are pumped out through the oil discharge pipes 3 and water 4. In some cases, the gas-liquid mixture can be supplied through the pipe 2 to the working chamber 6. At the same time, the surface section increases significantly.

Thus, the claimed invention allows to increase the intensity of the process while reducing the dimensions of the installation and reducing its metal consumption.

Claims (6)

1. A separation unit containing a column with pipelines for supplying a gas-liquid mixture and for discharging oil, water and gas, wherein the column is made up of composite sections, each of which contains a straight pipe section and is inclined to a horizontal surface, the gas discharge pipe is connected to the top parts of the column, pipelines for supplying a gas-liquid mixture and drainage of oil and water are connected to sections by nozzles for supplying a gas-liquid mixture and drainage of oil and water, and the conclusions of the nozzles of drainage of oil and water from respectively, with oil spills and water-proof sections of the sections, characterized in that the sections are connected by vertices directly or through the working chamber, the lower end of each section is muffled, while the diameters of the sections are made equal or unequal, the angles of the sections are made equal or unequal, the axes of the sections are located in one or in different planes perpendicular to the horizontal surface, and each section is made of one straight pipe or from several straight pipes having different angles of inclination and the horizontal surface. 2. The separation unit according to claim 1, characterized in that the inputs of the nozzles for supplying a gas-liquid mixture are located below the oil sludge sections of the sections. 3. The separation unit according to claim 1, characterized in that the inputs of the nozzles for supplying a gas-liquid mixture are located at the level of the oil-sludge sections of the sections. 4. The separation unit according to claim 1, characterized in that the inputs of the nozzles for supplying a gas-liquid mixture are located above the oil-settling sections of the sections. 5. The separation unit according to claim 1, characterized in that the input of the nozzle for supplying a gas-liquid mixture is connected to the working chamber. 6. The separation unit according to claim 1 or 5, characterized in that more than two sections are connected to the working chamber.

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