RU2563505C2 - Separator - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: invention relates to equipment for oil-extracting industry, namely to units for oil and water separation of production of oil wells. The separator contains a string with pipelines for gas-liquid mix supply of and oil, water and gas removal , and the string consists of two and more sections connected among themselves, each of which contains a straight pipe section, the pipelines for gas-liquid mix supply and oil and water removal are connected to sections by the branch pipes for gas-liquid mix supply and oil and water removal, and outlets of oil and water removal branch pipes are connected, respectively, to oil settling and water settling parts of sections. The lower end of each section is plugged. Meanwhile diameters of sections are made equal or unequal, angles of inclination of sections are made equal or unequal. Sections are implemented in the form of pits. Axes of sections are located perpendicularly or obliquely to the horizontal surface, lengths of sections are equal or unequal, hydraulic resistances of gas-liquid mix supply branch pipes are equal or unequal. The water drainage branch pipes are located inside sections. Oil removal branch pipes are connected to sidewalls of sections. Water drainage branch pipes are implemented with a possibility of length variation. The distances between axes of sections are equal or unequal, axes of sections are located in one or different vertical planes. Walls of sections contact or don't contact among themselves, the top end of each section is plugged.

EFFECT: technical result is increase of intensity of separation process.

2 cl, 1 dwg

Description

The claimed 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 discharging free water connected to a gas outlet manifold, the column is located on the surface (USSR Author's Certificate No. 1482932, IPC ⁷ B01D 19/00, publ. 06.23.1989).

The disadvantage of this installation is the insufficient intensity of the process of separation of a gas-liquid mixture, since it is able to separate a water-oil emulsion into oil and water with a relatively small water content.

A known separation installation containing a column with pipelines for supplying a gas-liquid mixture and for discharging oil, water and gas, the column is inclined and contains oil sludge and water-sludge sections, the gas-liquid mixture supply pipe is equipped with a flow damper and a gas separator, and a oil sludge section is installed under the gas-liquid mixture inlet angle to the water-proof section, and the angle of inclination of the first is greater than the angle of inclination of the second, the pipeline for supplying a gas-liquid mixture is made with the possibility of double flow LfTetanus input gas liquid mixture as a flow distributor, the input ends of which are housed in and vodootstoynoy nefteotstoynoy sections (RF Patent №2119372, MPK B01D 19/00, publ. 27.09.1998 g).

The disadvantage of this installation is the insufficient intensity of the gas-liquid mixture separation process, since it does not have a cavity for collecting and discharging gas, and therefore the oil sludge section is not completely filled with crude oil, which reduces the efficiency of its use for separation.

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 for the removal of oil, water and gas, while the column is made up of two or more sections connected to each other, each of which contains a straight section pipes, 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 the water is connected respectively to the oil-sludge and water-sludge sections of the sections, the lower end of each section is muffled, while the diameters of the sections are made equal or unequal, the angles of inclination of the sections are made equal or unequal, in which the column is made of a composite of interconnected sections, the sections are connected directly by vertices or through the working chamber (RF Patent No. 2285555, IPC B01D 19/00, published on 06/20/2006).

The disadvantage of this installation is the insufficient intensity of the process of separation of a gas-liquid mixture, since it does not provide a hyphobic layer of large thickness and the requirement for heating in the cold period, and a significant occupied area, since the separation unit is completely located on the surface.

The claimed invention is aimed at increasing the intensity of the separation process of a gas-liquid mixture by creating a flexible layer of large thickness, placing the main part of the sections underground, which ensures a practically constant temperature of the separation process during the year.

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 or more sections interconnected, each of which contains a straight pipe section, pipelines for supplying a gas-liquid mixture and drainage of oil and water are connected to sections by branch pipes for supplying a gas-liquid mixture and drainage of oil and water, and the conclusions of branch pipes of drainage of oil and water are connected respectively to the oil-sludge and water-sludge sections sections, 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 sections are made in the form of pits, the axis of the sections are perpendicular or inclined to a horizontal surface, the lengths of the sections are equal or unequal, hydraulic resistance the nozzles for supplying a gas-liquid mixture are equal or unequal, the pipes for water drain are located inside the sections, the pipes for oil drain are connected to the side walls of the sections, the pipes for oil drain are made with the possibility of changing the length, the distance between the axes of the sections is equal or unequal, the axes of the sections are located in the same or different vertical planes, the walls of the sections are in contact or not in contact, the upper end of each section is muffled. In addition, in some cases, a device for dividing a gas-liquid flow is located at the outlet of the pipeline for supplying a gas-liquid mixture, and the number of exits from the device for dividing a gas-liquid flow is not less than the number of sections. In addition, in some cases, the nozzle for supplying a gas-liquid mixture may be partially located inside the section.

The implementation of sections in the form of pits allows you to increase the intensity of the separation process of the gas-liquid mixture, since they are more effective destruction of the oil-water emulsion using hydrodynamic effects and flotation than in the case of its (emulsion) sludge.

The arrangement of the axes of the sections perpendicular or inclined to the horizontal surface allows depending on the amount of crude oil and gas coming into the separation, their physicochemical properties and process parameters to change, depending on the angle of inclination to the horizontal surface, the cross-sectional area of the section parallel to the horizontal surface, and the thickness of the hydrophobic layer, which provides an increase in the intensity of the separation process of the gas-liquid mixture.

Making the diameters of the sections equal or unequal allows depending on the amount of crude oil and gas coming into the separation, their physico-chemical properties and process parameters to change, depending on the diameter, the cross-sectional area of the section parallel to the horizontal surface and the thickness of the hydrophobic layer, which provides an increase the intensity of the separation process of the gas-liquid mixture.

Performing slope angles of sections equal or unequal allows depending on the amount of crude oil and gas supplied to the separation, their physicochemical properties and process parameters to change, depending on the angle of inclination to the horizontal surface, the cross-sectional area of the section parallel to the horizontal surface and the hydrophobic thickness layer, which provides an increase in the intensity of the separation process of the gas-liquid mixture.

The implementation of the section lengths equal or unequal allows you to increase the intensity of the separation process of the gas-liquid mixture depending on the quality of the incoming liquid, for example by using part of the section to collect deposits of solids.

The performance of the hydraulic resistances of the supply pipes of the gas-liquid mixture equal or unequal allows you to change the amount of gas-liquid mixture passing through them, depending on the operating conditions and the geometric dimensions of the sections, which increases the intensity of the separation process of the gas-liquid mixture.

The location of the water discharge pipes inside the sections allows to increase the intensity of the separation process of the gas-liquid mixture by increasing the area of contact with the oil-water emulsion and to simplify its manufacture.

The connection of the oil discharge pipes to the side walls of the sections makes it possible to organize the removal of oil and gas through them, which ensures an increase in the intensity of the gas-liquid mixture separation process.

The implementation of the water discharge pipes with the possibility of changing the length allows water to be removed from the optimal location of the water-sludge part, which provides an increase in the intensity of the separation process of the gas-liquid mixture.

The implementation of the distance between the axes of the sections equal or unequal allows depending on the amount of crude oil and gas supplied to the separation, their physico-chemical properties and process parameters to change depending on the distance between the sections of the lengths of the nozzles for supplying gas-liquid sweep and drainage of oil and water, which leads to a change in hydraulic resistance, heat transfer area of the outer surface of the nozzles with the environment and aggressive corrosion zones in the nozzles, thereby increasing the intensity of the process ca separation liquid mixture.

The location of the axes of the sections in one or different vertical planes allows you to optimize the location of the sections of the separation unit on the ground.

The implementation of the walls in contact or non-contact with each other allows you to optimize the location of the sections of the separation unit on the ground.

The execution of the upper end of each section muffled allows you to use the separation unit in a sealed collection systems.

The location at the outlet of the gas-liquid mixture supply pipe of the device for dividing the gas-liquid stream, and the number of exits from the device for dividing the gas-liquid stream is not less than the number of sections, allows you to increase the intensity of the process of separation of the gas-liquid mixture depending on operating conditions and geometric dimensions of the sections.

The location of the part of the nozzle for supplying the gas-liquid mixture inside the section allows the introduction of the gas-liquid mixture into the section and the removal of oil and gas from it from different levels, which will increase the efficiency of separation of the gas-liquid mixture.

The inventive separation unit is shown in figure 1.

The separation unit consists of sections 1 with pipelines for supplying a gas-liquid mixture 2 and pipes for supplying a gas-liquid mixture 3, drainage of oil 4 and water 5, as well as pipelines for supplying oil 6 and water 7. In some cases, a device for supplying gas-liquid mixture 2 can be installed the selection of a portion of the gas 8, for example a container, with a gas outlet 9.

The separation unit operates as follows. Downhole products enter the device for sampling part of the gas 8, where it is divided into emulsion and oil gas. From the device for taking part of the gas 8, the emulsion with the residual oil gas through the gas-liquid mixture supply pipe 2 enters the gas-liquid mixture supply pipes 3, from which it enters section 1. In sections 1, under the influence of gravitational forces, the incoming emulsion is divided into partially dehydrated oil and water that is discharged, respectively, through the pipes for oil drain 4 and water 5 to the pipelines for oil drain 6 and water 7.

Petroleum gas from the device for taking part of the gas 8 through the pipe of the gas outlet 9 enters the pipeline for the removal of oil 6.

Thus, the claimed invention allows to increase the intensity of the separation process of the gas-liquid mixture.

Claims (2)

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 two or more sections interconnected, each of which contains a straight pipe section, pipelines for supplying a gas-liquid mixture and oil water is connected to sections by branch pipes for supplying a gas-liquid mixture and drainage of oil and water, and the conclusions of branch pipes of drainage of oil and water are connected, respectively, with oil-sludge and water-sludge sections of the sections, the lower end each section is muffled, while the diameters of the sections are made equal or unequal, the angles of inclination of the sections are equal or unequal, characterized in that the sections are made in the form of pits, the axis of the sections are perpendicular or inclined to a horizontal surface, the lengths of the sections are equal or unequal, the hydraulic resistance of the nozzles gas-liquid mixture supply equal or unequal, water drain pipes are located inside the sections, oil drain pipes are connected to the side walls of the sections, water drain pipes are made in possibility of changing the length, the distance between the axes of the sections of equal or unequal, the axis sections located in the same or different vertical planes, the wall sections are in contact or not in contact with each other, the upper end of each section is muted. 2. The separation unit according to claim 1, characterized in that at the outlet of the gas-liquid mixture supply pipeline there is a device for dividing the gas-liquid stream, and the number of exits from the device for dividing the gas-liquid stream is not less than the number of sections.