EA016740B1 - Comprehensive cluster facility for dewatering oil and purifying and recovering associated formation water - Google Patents

Abstract

The invention relates to the oil extraction industry, more specifically to gathering a gas-liquid product and preparing water for a system for maintaining formation pressure in a well cluster. The problem of interest and the desired technical result consist in increasing the operating efficiency of a comprehensive cluster facility for dewatering oil and purifying and recovering associated formation water by preventing the mixing of waters from different sources and, accordingly, preventing scaling. The amount of metal used in a system for gathering oil and maintaining formation pressure is reduced, as is energy consumption through the exclusion of powerful pumping units. A comprehensive cluster facility for dewatering oil and purifying and recovering associated formation water, comprising producing wells connected by a pipe to a unit for separating and dewatering oil, an oil-gathering main, and water conduits for the system for maintaining formation pressure, is characterized in that it additionally includes a rathole for the advanced treatment of associated water. The comprehensive cluster facility additionally comprises a unit for purifying associated water. The comprehensive cluster facility includes the producing wells and injection wells of a number of adjacent clusters in order to serve said clusters simultaneously. For the first time it is proposed to use only associated water in a system for maintaining formation pressure in a cluster without using additional water supply wells.

Description

(57) The invention relates to the oil industry, namely to the collection of gas-liquid products and the preparation of water for a reservoir pressure maintenance system (1P1D) on a well cluster. The problem to be solved and the expected technical result are to increase the efficiency of the operation of a complex cluster unit for oil dehydration, purification and disposal of produced produced water by eliminating mixing of water from various sources and, accordingly, preventing scaling. The metal consumption of the oil recovery system and reservoir pressure maintenance, as well as energy costs due to the exclusion of powerful pumping units, will be reduced. The complex cluster installation for oil dehydration, purification and utilization of produced produced water, including production wells connected by a pipeline to the oil separation and dehydration unit, an oil collector and conduits for the reservoir pressure maintenance system, is characterized in that it additionally contains a pit well for additional treatment of produced water . The integrated cluster plant additionally contains a unit for purification of produced water. The integrated cluster installation includes production and injection wells of several nearby bushes for the simultaneous maintenance of these bushes. For the first time, it is proposed to use only incidentally produced water in the 1P1D system of the bush without the use of additional water wells.

The invention relates to the oil industry, in particular to the collection of gas-liquid products and the preparation of water for a reservoir pressure maintenance system (BPM) on a wellbore.

A technical solution is known for the joint transport of oil and gas [1], which involves the separation of well products into watered oil and gas, followed by separation of water from oil, in which, in order to reduce the cost of equipping oil fields and reduce pipeline corrosion, water is separated from oil directly at the field . The dehydrated oil is mixed with the separated gas and sent through one pipeline to the central point of the field facilities. The separated water is sent to the installation for the preparation and injection into the formation or use for technological needs.

The disadvantage is that there is a need to build additional water treatment plants, and if they are far away, there is also the need to build additional low-pressure water pipelines, during which transported formation water will be an aggressive corrosive agent.

A known installation for the extraction, preliminary dehydration of oil and water utilization [2, 3] directly on the cluster of oil wells, consisting of production wells, a separator with a device for removing gas and water, a sump with an oil compartment and a system for maintaining reservoir pressure, oil and gas collectors pipelines with stop valves.

The disadvantage of this installation is the use for the stable operation of the PPD system of additional water from a water well, which, when mixed with produced water, can lead to salt precipitation, which negatively affects the oil recovery of the formation.

The closest is the technical solution for transporting production of oil wells [4] on the well, which involves processing a gas-oil emulsion coming from production wells with a demulsifier, then mixing it with thermal gas-saturated water from a water well to intensify the destruction of the emulsion and feeding it into a three-phase separator. Water cut of oil after preliminary discharge of produced water and degassing does not exceed 2%; the quality of the water separated during the discharge allows it to be pumped into the reservoir pressure maintenance system (into injection wells) without additional preparation, and the quantity cannot be used to maintain reservoir pressure fresh water from ground sources.

The disadvantage of this technical solution is that it additionally requires water wells and heaters to provide thermal water to each wellbore. Mixing water from various sources almost always leads to salt precipitation due to their incompatibility. To prevent scaling, the use of additional measures is required.

The problem to be solved and the expected technical result are to increase the efficiency of the operation of an integrated cluster unit for oil dehydration, purification and disposal of produced produced water by eliminating mixing of water from various sources and, accordingly, preventing scaling. The metal consumption of the oil gathering system and reservoir pressure maintenance, as well as energy costs due to the exclusion of powerful pumping units, will be reduced, which ultimately will allow unloading cluster pumping stations (SPS) for the RPM system.

The problem is solved in that a complex cluster installation for oil dehydration, treatment and utilization of produced produced water, including production wells communicated by a pipeline with a separation and oil dehydration unit, an oil collector and conduits of the reservoir pressure maintenance system, is characterized in that it additionally contains a pit well for tertiary treatment of produced water.

The integrated cluster plant additionally contains a unit for purification of produced water.

The integrated cluster installation includes production and injection wells of several nearby bushes for the simultaneous maintenance of these bushes.

High-pressure conduits of the IND system supply associated water to the RPM system.

A pit well with a naturally formed hydrophobic layer is used for tertiary treatment - the preparation of water pumped into the PPD system.

For the first time, it is proposed to use only incidentally produced water in the bush pressure maintenance system without the use of additional water wells.

Preferably, the proposed complex cluster unit for oil dehydration, treatment and utilization of produced produced water consists of production wells connected by a pipeline with an oil separation and dehydration unit, a water treatment and purification unit, high-pressure pipelines of the PPD system and an oil recovery reservoir.

The oil separation and dehydration unit is, for example, a phase separation unit for emulsion (UVRE), which also acts as a flow damper.

The unit for purification of produced water for use in the PPD system is, for example, a sump with a hydrophobic layer.

The water purification unit is a pit-well with a naturally formed hydrophobic layer for the preparation of water discharged into the PPD system. The pit well is

- 1 016740 a well 40-150 m deep with a closed bottom, consisting of a casing string and tubing string, to which an ESP submersible pump is attached.

Produced water from a sedimentation tank with a hydrophobic layer, with a residual oil content of up to 50 mg / l, is fed into the annulus of the borehole, where sedimentation under the influence of gravity occurs. After initial cleaning, the remaining oil products float to the surface of the water, forming a hydrophobic layer over time, which allows you to further purify water from oil products to a content of 5-10 mg / L.

A comprehensive cluster unit for oil dehydration, purification and disposal of produced produced water can operate both on one single well cluster and can serve nearby well clusters.

Installation works as follows.

The gas-oil-water emulsion from the production wells of the bush enters the separation and dehydration unit, where phase separation occurs on the UVRE. Dehydrated oil and gas through the discharge pipelines enter the common collector and are sent for further preparation (DSP, TSPN or UPN).

Separated water is sent through an appropriate pipeline to the water purification unit, where most of the oil products contained in it are removed with a hydrophobic layer.

After that, water with an oil content of 40-50 mg / l from the sump with a hydrophobic layer is sent to the after-treatment unit, where, after passing through an arbitrarily formed hydrophobic layer of oil in the pit well, it is additionally cleaned of the remaining oil products.

Water with a petroleum content of not more than 5-10 mg / l is supplied to the system for maintaining reservoir pressure from a pit well by a submersible high-pressure pump, for example, grade ESP M5A500-1000.

One of the conditions for the most efficient operation of the installation is the preparation of a gas-oil emulsion for separation, i.e. an emulsion with a degree of destruction of at least 95% should come to the separation and dehydration unit. To this end, chemical and / or thermal methods can be used, for example, to supply a demulsifier reagent in front of the separation and dehydration unit and / or to install a heat heater.

In the case of using the proposed integrated cluster unit for oil dehydration, treatment and disposal of produced produced water from several well clusters, its work is carried out as follows. On the bush with the highest productivity of wells, an integrated cluster installation of oil dehydration, purification and disposal of produced produced water is mounted. The gas-oil-water emulsion from the wells of this bush and nearby bushes enters the separation and dehydration unit, where phase separation occurs on the UVRE. Dehydrated oil and gas through the discharge pipelines enter the common collector and are sent for further preparation (DSP, TSPN or UPN).

Separated water is sent through an appropriate pipeline to the water purification unit, where most of the oil products contained in it are removed with a hydrophobic layer. After that, water with an oil content of 40-50 mg / l from the sump with a hydrophobic layer is sent to the aftertreatment unit, where, after passing through an arbitrarily formed hydrophobic layer of oil in the well, it is further purified from the remaining oil products. Water with a petroleum content of not more than 5-10 mg / l is supplied to the PPD system of each bush from a pit well by a submersible high-pressure pump, for example, ЭЦН М5А-500-1000 grade.

Thus, the proposed integrated installation, which does not include water wells, provides a new method for operating an integrated cluster unit for oil dehydration, treatment and disposal of produced produced water. Regarding both analogues and the prototype, a new sign of the operation method is a sign regarding the use of only incidentally produced water in the RPM system, excluding, accordingly, the mixing of different waters (incidentally produced water and water from a water well) with the formation of precipitation.

The provided method for operating an integrated cluster unit for oil dehydration, purification and disposal of produced produced water, including collecting production wells, transporting it through a pipeline to an oil separation and dehydration unit, supplying oil to an oil collector, is characterized in that additional purification of water in the pit is carried out -the well and the PPD system supply water only from the pit-well; before the water is treated, it can be purified, for example, in a sump with a hydrophobic layer.

Since the injected water to maintain reservoir pressure on the bush is required in a larger volume than the produced water enters, it may be necessary to use additional water, for example, from a water well. Therefore, the injection of prepared water into the reservoir pressure maintenance system is carried out as follows. The required volume of water is supplied from the pit-well to the injection wells of one, the second and subsequent bushes, and on the bush, on which there is no necessary amount of produced water prepared in the pit-well, water from the water well is used to maintain reservoir pressure (fresh or

- 2 016740 Cenomanian).

Thus, a comprehensive cluster installation for oil dehydration, purification and disposal of produced reservoir water allows for early field discharge in the area of cluster wells and to utilize separated produced reservoir water in the RPM system without sedimentation. In addition, the use of the proposed installation will reduce the metal consumption of the oil gathering system and maintaining reservoir pressure, reducing energy costs by eliminating powerful pumping units, which ultimately will allow unloading cluster pumping stations (SPS) for the RPM system.

Claims (3)

CLAIM 1. A comprehensive cluster installation for oil dehydration, treatment and utilization of produced produced water, including production wells connected by a pipeline with a separation and oil dehydration unit, an oil collector and conduits for the reservoir pressure maintenance system, characterized in that it additionally contains a pit well for additional treatment produced water. 2. The integrated cluster plant according to claim 1, characterized in that it further comprises a purification unit for the produced water. 3. Integrated cluster installation according to claim 1 or 2, characterized in that it includes production and injection wells of several nearby bushes.