RU136731U1 - INSTALLATION OF PRELIMINARY DISCHARGE OF WATER ON WELLS OF WELLS - Google Patents

Abstract

Installation of preliminary water discharge on well boreholes, including an oil and gas separator with water discharge, containing a coalescing nozzle, a liquid level regulator in the oil compartment and an interphase level regulator in the separator, a cyclone at the gas-liquid mixture inlet at the separator inlet, a demulsifier reagent supply unit, a mixer, block cluster pumping station, pipelines for drainage of oil, gas and water, characterized in that it further comprises a water settler, which is located below the oil-water interphase level in the separat ore and equipped with a cap for the removal of trapped oil, connected to the oil layer of the separator.

Description

The utility model relates to the oil industry and can be used for preliminary dehydration of oil on well clusters,

The transition of the oil field to the final stage of development is characterized by a decrease in oil production and an intensive increase in the water content of the produced fluid. The exploitation of oil fields under the conditions of a progressive increase in water cut in well production necessitates the organization of preliminary discharge of produced water, its purification from oil and solids with disposal directly at the field.

The main requirement for the technology of directional water discharge is the preliminary dehydration of oil without the use of sophisticated technological equipment, requiring the constant presence of maintenance personnel. The degree of preliminary dehydration of oil during field discharge should correspond to the aggregate stability of the emulsion at the inlet of the installation so that during further transport free water would not occur or would be minimized.

One of the promising solutions to the problems associated with an increase in the cost of transporting the produced fluid is the application of the technology of cluster water discharge.

The technology of cluster water discharge is carried out at the preliminary discharge installation on well bushes.

Closest to the claimed one is a preliminary water discharge installation on well boreholes, including two modernized automated oil and gas separators with water discharge (NGSVM-A), which are located in parallel on the same level, a reagent-demulsifier (BR) feed unit, a mixer (SM), a pump multiphase oil pumping (HB), block cluster pumping station (BKNS) and drainage capacity (DE) [Catalog of oil and gas production equipment, Scientific-Technical Company CJSC, 2011, pp. 20-22].

The disadvantage of this device is the insufficiently high degree of water purification, the use of sophisticated technological equipment that requires the constant presence of maintenance personnel, the inability to conduct a self-mode of treatment of produced water.

The technical result - increasing the degree of water purification, reducing the cost of transporting ballast water, the use of automation, eliminating the presence of staff, providing a self-mode treatment of produced water.

Installation of preliminary water discharge on well boreholes, including an oil and gas separator with water discharge, containing a coalescing nozzle, a liquid level regulator in the oil compartment and an interphase level regulator in the separator, a cyclone at the gas-liquid mixture inlet at the separator inlet, a demulsifier reagent supply unit, a mixer, block cluster pumping station, oil, gas and water drainage pipelines, a feature of the installation is that it additionally contains a water settler, which is located below the interfacial level ft-water separator, and a cap is provided for removing the trapped oil connected to oil separator layer.

The diagram shows the installation of preliminary discharge of water on the well clusters and its section along AA.

The installation contains a technological oil and gas separator with water discharge 1, a reagent-demulsifier supply unit 2, a mixer 3, a block cluster pump station 4, while the separator 1 contains a coalescing nozzle - 5, a liquid level regulator in the oil compartment - 6, and an interphase level regulator in the separator - 7, cyclone - 8 at the inlet of the gas-liquid mixture into the separator. Moreover, the installation additionally contains a water sump 9, which is located below the oil-water interphase level in the separator 1 and is equipped with a coalescing nozzle 10 and a cap 11 for draining the trapped oil, a prepared oil outlet 12 is connected to the cap 11, and the outlet pipelines from the oil separator 13 are connected, gas - 14 and water - 15, as well as a pipeline for draining water from the sump - 16.

The installation is fully automated and controlled by telemechanical means located in the control unit - 17.

The location of the separator and the water settler at different levels allows you to organize a self-similar mode of formation water purification due to the difference in density and height of the liquid levels in the separator and the water settler, which ensures the receipt of trapped oil in the separator.

The use of automation ensures the exclusion of the presence of maintenance personnel through the use of telemechanical means.

Installation works as follows.

The gas-liquid mixture from the well clusters enters mixer 3 and is intensively mixed with a demulsifier supplied from a reagent-demulsifier supply unit 2. The emulsion enters the separator 1, where it is separated into gas, oil with a residual water cut of up to 1-5% and water with residual the content of oil and solids is not more than 30-40 mg / l. The separated liquid accumulates in the lower part of the separator, and the gas separated in the cyclone - 8 enters the pipeline - 14, which is combined with the pipeline for the removal of oil - 13.

After the liquid stream is separated into oil and water, water enters the water sump 9. For the coalescence of oil droplets, a nozzle 5 is installed in the separator 1. From the separator 1, partially dehydrated oil is discharged from the unit through a partition 18 through a pipe 13. Inside the water sump 9, water undergoes the process of accumulation and sedimentation from oil products and mechanical impurities. Petroleum products are removed through the cap 11 of the catch of oil back to the separator 1. Mechanical impurities are removed into the drainage tank (not shown in the figure). Purified water arrives at the reception of water pumps - 4 and then through line 16 to the reservoir pressure maintenance system.

The proposed installation is used for pre-dehydration of oil on well clusters.

Claims (1)

Installation of preliminary water discharge on well boreholes, including an oil and gas separator with water discharge, containing a coalescing nozzle, a liquid level regulator in the oil compartment and an interphase level regulator in the separator, a cyclone at the gas-liquid mixture inlet at the separator inlet, a demulsifier reagent supply unit, a mixer, block cluster pumping station, pipelines for the removal of oil, gas and water, characterized in that it further comprises a water settler, which is located below the oil-water interphase level in the separat ore and equipped with a cap for the removal of trapped oil, connected to the oil layer of the separator.

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