RU2283162C1 - Separation installation - Google Patents

Abstract

FIELD: oil producing industry; oil processing industry; equipment for separation of oil-wells products into gas, petroleum and water.

SUBSTANCE: the invention is pertaining to the petroleum industry and can be used for separation of the oil-wells products into gas, petroleum and water. The installation contains the slant column, the gaseous expander, the restful pipe duct, the installation of the gas preselection with the horizontal pipe duct of the gas liquid mixture feeding in the column. The column and the pipe duct of the gas liquid mixture feeding are supplied with the water collectors, which are connected to the water settler. The pipe duct of the water withdrawal from the settler is connected to the pipe duct of the water withdrawal from the column. On the pipe duct of water withdrawal there is the system of the water consumption control containing the water consumption indicator and the control valve mounted. The settler contains the filter for the water purification and the oil collector for withdrawal of the collected petroleum. The technical result consists in the increased efficiency of the installation operation.

EFFECT: the invention ensures the increased efficiency of the installation operation.

2 cl, 1 dwg

Description

The invention relates to the oil industry and can be used to separate highly watered oil well products into gas, oil and water.

Known separation plant containing a sedative section, a depulsator (gas pre-sampling unit - UPOG), a horizontal cylindrical tank for separating the gas-oil mixture and a pipeline for taking free water from the still section, while the pipeline for taking free water from the still section is connected to the tank, and the sedative area is equipped with a dividing wall [Copyright certificate No. 1005820, class. In 01 D 19/00, BI No. 11, 1983].

The disadvantage of the installation is that the selected free water is fed into the tank, where it is mixed with the separated phases.

Closest to the claimed one is a separation unit, which contains an inclined column, a gas expander, a stilling pipe, a depulsator (gas pre-sampling unit - UPOG) with a horizontal pipeline for introducing the gas-oil mixture into the inclined column, which is placed above the flow distributor, made in the form of an expanded metal sheet. The column is equipped with a filter located in the sump section, and a system for regulating the amount of water discharged from it, consisting of a sensor and a valve for regulating the drainage [RF Patent No. 2238783, cl. In 01 D 19/00, BI No. 30, 2004].

A disadvantage of the known installation is that when separating high-water oil, the active volume of the RID and the inclined column is occupied by clean, settled water that is not mixed with the oil and gas mixture, which reduces the efficiency of the installation. The disadvantage is that in the water discharged from the column contains mechanical impurities, which impede the operation of the filter and quickly disable it.

The technical result is an increase in the efficiency of the installation, an increase in its throughput in the separation of highly watered oil, an increase in productivity, and also unloading of the filter due to the preliminary selection of the settled water from the column.

The specified technical result is achieved by the fact that the separation installation contains an inclined column, a gas expander, a still pipe, a gas pre-sampling unit - UPOG with a horizontal pipeline for introducing a gas-liquid mixture into an inclined column equipped with a system for controlling the amount of water discharged from it, while the column and pipeline the gas-liquid mixture inlet is equipped with water collectors that are connected to the water sump, and the drainage pipe from the sump is connected to the pipeline from water from the column; a water flow control system containing a flow meter and a control valve is installed on the drain pipe from the sump; in addition, the sump is equipped with a filter, a sand trap and an oil collector.

Preliminary selection of the settled water from the inclined column and the gas-liquid mixture inlet pipeline increases the column’s active volume without building a new or expanding an existing facility, intensifying the process and unloading the column filter.

The system for regulating the flow of water from the sump of water contributes to the efficient operation of the installation, which is ensured by maintaining a given flow rate of water from the sump.

The drawing shows the proposed separation unit.

The separation unit contains an inclined column 1, a gas expander 2, a still pipe 3, a gas pre-sampling unit - UPOG 4 with a horizontal pipeline for introducing a gas-liquid mixture 5 into column 1. An overflow partition 6 is placed in the upper part of column 1 and a filter 7 for purification of discharged water. In addition, the column 1 is equipped with a system for regulating the amount of water discharged from it, which contains a sensor 8 and a control valve 9 installed on the water drain pipe 10. The dehydrated oil is discharged through the pipe 11. The column 1 and the gas-liquid mixture inlet pipe 5 are equipped with water collectors 12 and 13, respectively, which are connected to the water sump 14. The water drain pipe 15 from the sump 14 is connected to the water drain pipe 10 from the column 1, and a flow control system is installed on the water drain pipe 15 water, comprising a flow meter 16 and a control valve 17. The sump 18 includes a filter for water purification and neftesbornik 19 for discharging the accumulated oil. The gas exhaust devices of the gas expander 2, UPOG 4 and the upper part of the column 1 are connected to the gas collection pipe 20. For removal of mechanical impurities, the gas expander 2, UPOG 4, the column 1 and the water settler 14 are equipped with sand traps 21 that are connected to the drainage collector 22.

Installation works as follows.

A gas-liquid mixture with a high water content enters a gas expander 2, in which free gas is collected and large mechanical impurities are deposited. In ADR 4, further gas separation and liquid separation into oil and water are carried out. After RID 4, the stream enters column 1, where the final separation into oil and water takes place. Dehydrated oil is discharged through an overflow baffle 6 through a pipe 11. From the bottom of the column 1, water is removed, which is preliminarily cleaned in the filter 7. The amount of water discharged from the bottom of the column 1 is controlled using a sensor 8 and a control valve 9. Reserved free water , which is not mixed with the oil and gas mixture, is sent to column 1 through water collectors 12 and 13 and is supplied to water settler 14. Water passes through filter 18, where the final water purification takes place, and is discharged through a pipe water 15 through the flow meter 16 and the control valve 17. The regulation of the flow of water in this case is carried out by the valve 17 according to the difference of the current (determined by the flow meter) and the set values of the flow. The oil accumulated in the sump through the oil collector 19 is discharged into a drainage tank (not shown in the drawing). The gas released in the gas expander 2, UPOG 4 and the upper part of the column 1 is sent through gas exhaust devices to the gas collection pipe 20. Caught mechanical impurities from the sand traps 21, gas expander 2, gas-liquid mixture inlet pipe 5, columns 1 and settler 14 are discharged into the drainage collector 22 and then removed into the drainage tank (not shown in the drawing).

The installation is industrially applicable since all components and parts are manufactured by industry.

Claims (2)

1. Separation unit containing an inclined column, a gas expander, a stilling pipe, a gas pre-sampling installation - UPOG with a horizontal pipeline for introducing a gas-liquid mixture into an inclined column equipped with a system for controlling the amount of water discharged from it, characterized in that the column and a gas-liquid inlet pipe the mixtures are equipped with water collectors, which are connected to the water sump, and the drainage pipe from the sump is connected to the drainage pipe from the column, while oprovode divert water from the sump installed control system water flow, comprising a flow meter and control valve. 2. The separation unit according to claim 1, characterized in that the sump contains a filter, a sand trap and an oil collector for discharging accumulated oil.

Images