RU2145903C1 - Separating plant - Google Patents

Abstract

FIELD: oil producing industry; separation of gas, oil and water in gas well production. SUBSTANCE: proposed plant has inclined column divided into sections. Gas-liquid mixture delivery pipeline is made for provision of three-flow connection in form of Ш- shaped flow divider whose outlet ends are placed in gas, oil-settling and water-settling sections. Gas separator is horizontal. EFFECT: reduced velocity of oil flow at plant inlet. 1 dwg

Description

 The invention relates to the oil industry and can be used to separate the production of oil wells in the collection and preparation system for gas, oil and water.

 Known separation plants, including an inclined column with pipelines for supplying a gas-liquid mixture and for removing gas, oil and water [see author testimonial. USSR N 975030, class B 01 D 19/00, 1982, and autosvid. USSR N 1487932, class B 01 D 19/00, 1989].

 But known separation plants are mainly intended for separating a gas-liquid mixture with a small content of gas and water in oil.

 The closest installation of the same purpose to the claimed invention in terms of features is a separation unit including an inclined column, a pipeline for supplying a gas-liquid mixture, made with the possibility of separate input of a gas-liquid mixture in the form of a flow distributor, a pipe damper, a gas separator, pipelines for the removal of gas, oil and water ( see Pat. RF N 2119372, CL B 01 D 19/00, 1998, adopted as a prototype).

The reasons that impede the achievement of the specified technical result when using the known installation include the fact that in oil fields with a high gas content (more than 50 m ³ / m ³ ), the known installation will have a high velocity at the inlet of the oil flow, which will lead to its mixing and reducing the quality of the separation of oil and gas, and hence the separation of water.

 The technical result is a decrease in the flow rate of gas and oil flow at the inlet of the installation, providing conditions that exclude secondary mixing of the phases.

 The specified technical result in the implementation of the invention is achieved by the fact that in a known separation installation, including an inclined column, divided into sections by a pipeline for supplying a gas-liquid mixture, configured to separately enter the gas-liquid mixture in the form of a flow distributor, a flow damper, a gas separator, gas, oil and water. The peculiarity lies in the fact that the pipeline of the gas-liquid mixture is made with the possibility of a three-stream input of the gas-liquid mixture in the form of a U-shaped flow distributor, the inlet ends of which are located in the gas, oil sludge and water-sludge sections, while the gas separator is made horizontal and equipped with a droplet eliminator, a drainage pipe and a cutoff and located with a reverse slope with respect to the column.

 This implementation of the separation unit will reduce the speed at the inlet of the oil flow - for oils with high gas content, will not lead to its mixing and will generally improve the quality of separation of oil, gas and water.

 The drawing shows a separation unit (general view).

 The separation unit includes an inclined column 1, divided by a pipeline for supplying a gas-liquid mixture 2 into gas 3, oil sludge 4 and water sludge 5 sections. The supply pipeline is made with the possibility of three-flow input of a gas-liquid mixture in the form of a U-shaped distributor of flows 6, the inlet ends of which are located in gas 3, oil settling 4 and water settling 5 sections. The separation unit is equipped with a flow damper 7, a horizontal gas separator 8, made with a droplet eliminator 9, a drain pipe 10 in communication with the gas section and a flow shut-off 11 and located with a reverse inclination with respect to the column, gas exhaust pipe 12, oil 13 and water 14, and also a pipe 15 for removing mechanical impurities with a device for washing them 21. Inside the column, gas-oil level 16 and oil-water level sensors 17 are installed.

 The oil-water phase separation level is controlled by a valve on the water discharge line 19 located on the pipe 19. The gas-oil phase separation level is controlled by a valve 20 on the oil line.

 Installation works as follows.

 Oil well products from the selection system enter the flow damper 7, where it is preliminarily stratified into three phases: gas, oil and water, which are introduced through the Ш-shaped distributor 6 into the corresponding sections of the pipe inclined column 1. The position of the oil-water interface is controlled sensor 17 and is regulated by a valve on the water discharge line 18. Oil separated from large water and gas inclusions is transported to the oil treatment unit. Free gas released from the oil emulsion is collected in the upper part of the column 1, accumulating in the gas section 3, is discharged to a horizontal gas separator 8, where, passing through the droplet separator 9, the flow cut-off 11 is discharged into the gas pipeline 12. The drain pipe 10 creates a water trap and processes the trapping liquid into the settling tank section.

 The gas-oil phase separation level is controlled by a sensor 16 and is controlled by a valve 20 on the oil line. Water, separated from particles of oil and mechanical impurities, is discharged through a pipe pipe 19 from the bottom of the column, and mechanical impurities are discharged through a pipe 15.

 Thus, due to the execution of the pipeline with the possibility of introducing a gas-liquid mixture in the form of an U-shaped flow distributor and a gas separator horizontal with a reverse inclination to the column, as well as a drip trap, drainage pipe and a flow shutoff, a more complete and efficient separation of the gas-liquid mixture is ensured.

Claims (1)

 A separation unit including an inclined column divided into sections by a gas-liquid mixture supply pipeline configured to separately inject the gas-liquid mixture in the form of a flow distributor, a flow damper, a gas separator, gas, oil and water discharge pipelines, characterized in that the gas-liquid mixture supply pipeline the possibility of a three-stream input of a gas-liquid mixture in the form of a U-shaped flow distributor, the inlet ends of which are located in a gas, oil sludge and drainage hydrochloric sections, wherein the separator is made horizontal.