RU2503806C1 - System for heavy oil and natural bitumen deposit arrangement (versions) - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: according to the 1^st version the system includes fresh water source with fresh water pipeline, productive wells connected via product pipeline to oil preparation station equipped with marketable oil pipeline and pipeline of concurrently extracted water, connected to the waste treatment facilities that are connected to injection wells via fresh water pipeline, cluster pump station and water conduit fitted with corrosion inhibitor dosing unit. Well product pipeline is equipped with de-emulsifying agent dosing unit, waste treatment facilities are fitted with trapped oil pipeline for its return to oil preparation station, additionally equipped with product heating system with fuel gas pipeline and associated petroleum gas pipeline, and second purified water pipeline connected to water preparation unit for supply of concurrently extracted water to fine purification at oil extraction volume more than 10% from design maximum volume of oil extraction with purified water pipeline disconnection. Note that water preparation unit is connected to fresh water pipeline for its fine treatment for provision of steam generator by necessary water volume, as well as to cluster pumping station via brine pipeline and finely treated water pipeline with steam generator that is for water heating is connected to fuel gas pipeline and via steam pipe it is connected to the steam-injection wells. According to the 2^nd version productive wells are connected via well product pipeline and booster pump station to oil preparation unit.

EFFECT: increase of arrangement system operation reliability by means of: pumping of steam generated from concurrently extracted water into the bed, partial destruction of emulsion in oil collection system by means of early supply of de-emulsifying agent into well product; generation of water steam from concurrently extracted water through its fine treatment from hazardous impurities.

6 cl, 1 dwg

Description

The invention relates to the oil industry, in particular, to systems of oilfield equipment in the development of deposits of heavy oils and natural bitumen.

Known sealed high-pressure system for collecting and transporting oil, gas and water for large areas of the field (see the textbook: Lutoshkin GS. Collection and preparation of oil, gas and water. M .: Nedra, 1979. - S.22-24), including production wells, flow lines, Sputnik automated group metering unit, prefabricated manifold for oil, gas and water, a booster pump station, prefabricated collector for partially degassed oil, an oil treatment unit, sealed alternately working commodity tanks, prices submersible pumps, automated installation for measuring the quality and quantity of Rubin-2 m commercial oil, automatically opening and closing taps, commercial oil collector, commodity tanks, main oil pipeline, water treatment plant, water conduit, cluster pump station, high pressure water conduit, discharge well, gas pipeline, ejector, gas processing plant, oil circuit.

The disadvantages of this system are, firstly, the low efficiency of oil field development by pumping water into the reservoir in the case of heavy oil and natural bitumen; secondly, the lack of supply of a demulsifier in the production of wells in the oil gathering system; thirdly, the lack of supply of a corrosion inhibitor in purified water directed to the reservoir pressure maintenance system (RPM).

The closest in technical essence is the "System of preparation and transportation of water to maintain reservoir pressure during the development of oil fields, the producing wells of which are equipped with submersible electric centrifugal pumps (options)" (see certificate for utility model RU 36436, IPC Е21В 43/20, publ. Bulletin No. 7 dated March 10, 2004), including a unit for preparing a displacing agent - water, a unit for preliminary water discharge, an oil preparation unit, a corrosion inhibitor dispenser, high pressure pumps, piping ode, high-pressure water conduit, injection wells.

The disadvantages of the known system are, firstly, the low efficiency of oil field development by pumping water into the reservoir in the case of heavy oil and natural bitumen production, and secondly, the lack of supply of demulsifier in the production of wells in the oil gathering system.

The technical objectives of the invention are: increasing the efficiency of the development of heavy oil and natural bitumen deposits by injecting steam produced from produced water in the reservoir; partial destruction of the emulsion in the oil gathering system due to the early supply of demulsifier in the production of wells; water vapor production from produced water due to its deep purification from harmful impurities (oil, hydrogen sulfide, oxygen, hardness salts).

Technical problems are solved by a system for the development of a heavy oil and natural bitumen deposit, including a fresh water source with a fresh water pipeline, production wells connected through a well production pipeline to an oil treatment unit equipped with a commercial oil pipeline and a pipeline for produced water connected to treatment facilities that through the purified water pipeline, a cluster pumping station and a water conduit equipped with a corrosion inhibitor dosing unit, are communicated with discharge and wells.

The new one is that the well production pipeline is equipped with a demulsifier dosing unit, the treatment facilities are equipped with a captured oil pipeline for its return to the oil treatment unit, which is additionally equipped with a product heating system with a fuel gas pipeline and a associated petroleum gas pipeline, and a second purified water pipeline connected to a water treatment unit for supplying produced water for deep cleaning, with oil production volumes exceeding 10% of the design maximum production volume n FTI with the shutdown of the purified water pipeline, the water treatment unit being connected to the fresh water pipeline for its deep purification in order to provide the steam generator with the necessary volume of water, as well as to the cluster pump station through the brine pipeline and through the deep-purified water pipeline to the steam generator, which is connected to the fuel gas pipeline, and through the steam pipe communicated with steam injection wells.

Technical problems are also solved by a system for developing a heavy oil and natural bitumen deposit, including a fresh water source with a fresh water pipeline, producing wells connected through a well production pipeline and a booster pump station with an oil treatment unit equipped with a commercial oil pipeline and a pipeline for produced water reported with treatment facilities, which through the purified water pipeline, the cluster pumping station and the water conduit equipped with an inhibitor dosing unit orrosion communicated with injection wells.

The new one is that the well production pipeline is equipped with a demulsifier dosing unit, the treatment facilities are equipped with a captured oil pipeline for its return to the oil treatment unit, equipped with an additional heating system with a fuel gas pipeline and associated petroleum gas pipeline, and a second purified water pipeline connected to a water treatment unit for supplying associated produced water for deep cleaning with oil production volumes exceeding 10% of the design maximum production volume is not FTI, with the purified water pipeline turned off, and the water treatment unit is connected to the fresh water pipeline for its deep purification in order to provide the steam generator with the required volume of water, as well as to the cluster pump station through the brine pipeline and through the deep-purified water pipeline to the steam generator, which is connected to heat the water with the fuel gas pipeline, and through the steam pipe it is connected with steam injection wells.

Also new is the fact that the well production pipeline after the demulsifier dosing unit is equipped with a group metering unit.

Also new is the fact that injection wells are connected by an annular gas pipeline to a fuel gas pipeline.

The drawing shows a diagram illustrating a system for developing a field of heavy oil and natural bitumen.

The system consists of production wells 1 (conventionally shown in the diagram) connected through a pipeline 2 of production wells to an oil treatment unit 3, which is connected to a pipeline 4 of commercial oil (heavy oil and natural bitumen) and a pipeline 5 of produced water, reporting the installation 3 oil with treatment facilities 6, a cluster pumping station 7, connected through a pipeline 8 of treated water to treatment plants 6 and through a water conduit 9 with injection wells 10 (conventionally shown in the diagram), while the water conduit 9 is Equipped with a corrosion inhibitor dosing unit 11. The pipeline 2 for the production of wells is equipped with a demulsifier dosing unit 12, the treatment plant 6 is communicated through a captured oil pipe 13 with an oil treatment unit 3 and through a second purified water pipe 14 with a water treatment unit 15, which is connected through a fresh water pipe 16 to a fresh water source 17 and through the brine pipeline 18 with the cluster pumping station 7, and the steam generator 19 is connected through the deep-purified water pipe 20 to the water treatment unit 15 and through the steam pipe 21 to the steam injection wells 22 (in Me shown conditionally). Oil treatment unit 3 is equipped with a pipeline 23 for associated petroleum gas, and fuel gas pipe 24 is connected in one line with oil treatment unit 3, and with a steam generator 19 in another line. Well production line 2 between production wells 1 and oil treatment unit 3 can a booster pump station 25 should be installed. Production wells 1 can also be connected to the fuel gas pipeline 24 through the annular gas pipeline 26, and after production wells 1, production wells 2 also can be connected to the pipeline 2 A group metering unit 27 can be installed.

The system operates as follows.

Production I of producing wells 1 through a pipeline 2 of production of wells is supplied to the oil treatment unit 3, where oil (heavy oil and natural bitumen) is prepared to commodity condition. In the area of production wells 1, a demulsifier II is supplied to the production of wells I, for which the pipeline 2 of the production of wells is equipped with a demulsifier dosing unit 12. Traded oil (heavy oil and natural bitumen) III prepared at installation 3 for oil treatment III is discharged through the pipeline 4 of marketable oil (heavy oil and natural bitumen) to the consumer. Along the way, produced water IV, which was separated at the oil treatment unit 3, flows through the pipeline 5 along with the produced water to the treatment plant 6, where it is purified from the bulk of oil and mechanical impurities by settling. The caught oil V from the treatment facilities 6 through the pipeline 13 of the caught oil is returned to the oil treatment unit 3. At the initial stage of development of the heavy oil and natural bitumen deposits, namely, with production volumes of not more than 10% of the project maximum oil production due to insufficient volume of produced water IV to provide it with a steam generator 19 and high capital costs for deep cleaning of produced water IV water treatment unit 15, it is advisable to send purified water VI through a purified water pipeline 8 to a cluster pumping station 7 and then pump it into an injection well 10 through a water conduit 9 we are the PPD of nearby deposits of conventional oil, and for the generation of water vapor IX it is advisable to use fresh water X from surface sources. To do this, fresh water X through the fresh water pipe 16 from the fresh water source 17 is directed to the water treatment unit 15, where it is deeply purified, after which the deep-purified water XI is supplied to the steam generator 19 through the deep-water pipe 20, and the brine XII is sent through the brine pipe 18 to the cluster pumping station 7 and then utilized in the RPM system of nearby conventional oil fields. After the cluster pumping station 7, the corrosion inhibitor VIII is supplied to the wastewater VII, for which the water conduit 9 is equipped with a corrosion inhibitor dosing unit 11. The steam IX generated in the steam generator 19 is sent via steam line 21 to steam injection wells 22 for injection of a heavy oil and natural bitumen field into the reservoir. With the volumes of oil production (heavy oil and natural bitumen) exceeding 10% of the design maximum volume of oil production, significant volumes of produced water IV will be generated along the way, therefore it is advisable to use it later on to produce water vapor IX injected into the reservoir. For this, purified water VI after treatment facilities 6 is first sent to the water treatment unit 15 through the second purified water pipeline 14, and then the deep-purified water XI is supplied to the steam generator 19 through the deep-cleaned water pipe 20, while the purified water pipeline 8 is turned off and the purified water VI does not enter to the cluster pumping station 7. If necessary, to provide the steam generator 19 with the necessary volume of water, fresh water X is supplied from the fresh water source 17 through the fresh water pipe 16 to the water treatment unit 15. Fresh water X. Sep Associated petroleum gas XIII, which was installed at installation 3 of the oil treatment, is discharged to the flare via the pipeline 23 of associated petroleum gas (not shown in the diagram). The heating of the production of I wells at the oil treatment unit 3 and the generation of water vapor IX in the steam generator 19 is carried out by burning the XTV fuel gas supplied to the system through the fuel gas pipe 24. At the same time, annular gas XV, which enters the fuel gas pipe 24 from the annular space of production wells 1 through the pipe annular gas 26, can be combusted with it. The annular gas XV is mixed with the XIV fuel gas after the gas distribution point (not shown in the diagram). If there are no individual metering devices at production wells 1 for measuring the amount of produced production I, a group metering unit 27 can also be installed on pipeline 2 of well products. In the case of a long distance from production wells 1 to oil treatment installation 3, in order to reduce pressure at the production mouths wells 1, on the pipeline 2 of the production of wells can also be installed booster pump station 25.

The use of the invention allows to increase the efficiency of the development of heavy oil and natural bitumen deposits due to the injection of steam produced from produced water in the reservoir; to achieve partial destruction of the emulsion in the oil gathering system due to the early supply of demulsifier in the production of wells; to generate water vapor from produced water due to its deep purification from harmful impurities (oil, hydrogen sulfide, oxygen, hardness salts).

Claims (6)

1. A system for developing a heavy oil and natural bitumen deposit, including a fresh water source with a fresh water pipeline, producing wells connected through a well production pipeline to an oil treatment unit equipped with a commercial oil pipeline and a produced by-pass pipeline connected to treatment plants that are the purified water pipeline, the cluster pump station and the water conduit equipped with a corrosion inhibitor dosing unit are in communication with injection wells, characterized in Ie, that the well production pipeline is equipped with a demulsifier dosing unit, the treatment facilities are equipped with a captured oil pipeline for its return to the oil treatment unit, which is equipped with an additional heating system with a fuel gas pipeline and associated petroleum gas pipeline, and a second purified water pipeline connected to the water treatment unit for supplying produced water for deep cleaning, with oil production volumes exceeding 10% of the design maximum oil production volume a purified water pipeline, and the water treatment unit is connected to a fresh water pipeline for its deep purification in order to provide the steam generator with the necessary volume of water, as well as to the cluster pump station through the brine pipeline and through the deep-water pipe with the steam generator, which is connected to the fuel pipeline for heating water gas, and through the steam line it is connected with steam injection wells. 2. The system according to claim 1, characterized in that the well production pipeline after the demulsifier dosing unit is equipped with a group metering unit. 3. The system according to claim 1 or 2, characterized in that the injection wells are in communication with the annular gas pipeline with the fuel gas pipeline. 4. A system for the development of a heavy oil and natural bitumen field, including a fresh water source with a fresh water pipeline, production wells connected through a well production pipeline and a booster pump station with an oil treatment unit equipped with a commercial oil pipeline and a pipeline for produced water in communication with the treatment constructions, which are connected with discharge through a purified water pipeline, a cluster pumping station and a water conduit equipped with a corrosion inhibitor dosing unit and wells, characterized in that the well production pipeline is equipped with a demulsifier dosing unit, the treatment facilities are equipped with a captured oil pipeline for returning it to the oil treatment unit, additionally equipped with a heating system for products with a fuel gas pipeline and a associated petroleum gas pipeline, and a second purified water pipeline, connected to a water treatment unit for supplying associated produced water for deep cleaning, with oil production volumes exceeding 10% of the design maximum of oil production with shutdown of the purified water pipeline, and the water treatment unit is connected to the fresh water pipeline for its deep purification in order to provide the steam generator with the necessary volume of water, as well as to the cluster pump station through the brine pipeline and through the deeply purified water pipeline with the steam generator, which is used to heat water connected to the fuel gas pipeline, and through the steam pipe communicated with steam injection wells. 5. The system according to claim 4, characterized in that the well production pipeline after the demulsifier dosing unit is equipped with a group metering unit. 6. The system according to claim 4 or 5, characterized in that the injection wells are in communication with the annular gas pipeline with the fuel gas pipeline.

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