RU2297518C1 - Well operation method - Google Patents

Abstract

FIELD: oil extractive industry, possible use when extracting water and oil from wells.

SUBSTANCE: method includes dividing liquid in well on water and oil and separately extracting water and oil. In accordance to invention, in water saturation of oil product well exceeds 99,5% it is transferred to class of water product wells in formation pressure maintenance system with incidental extraction of oil. For that purpose well is outfitted with two tubing strings with pumps. First string is lowered for depth, filled with water, separated during gravitational division of oil. Second column is lowered for depth, close to well mouth, into oil accumulation zone, influx from productive formation is maintained by draining constant amount of water via first tubing string from condition of prevention of precipitation of mudding substances in a well and well-adjacent formation zone. Extraction of oil via second tubing string is performed constantly or periodically depending on oil accumulating in a well.

EFFECT: ensures extraction of incidental oil during main extraction of water for formation pressure maintenance system.

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Description

The invention relates to the oil industry and may find application in the production of water and oil from water wells.

A known method of oil production from waterlogged wells, including raising a gas-liquid mixture by a deep pump. With an increase in the water content in the produced well products, the mode of inflow and rise of the produced well products is changed based on the location of the well on the structure of the oil reservoir, the geological and physical conditions of the structure of the oil reservoir and the characteristics of the fluids saturating it. The magnitude of the depression on the oil reservoir is changed from greater to lesser, while the depth of descent and the productivity of the downhole pump are reduced. Provide a lower rate of formation water rise in comparison with the rate of ascent of oil in it. Increase the front of oil displacement and pressure increase in the oil reservoir. According to the method of oil production from waterlogged wells, when the oil-bearing formation is flooded, but there are still residual oil pillars in it, and during development, the reservoir production moves continuously, water occupies the lower parts of the formation, and oil occupies the upper zones of structural uplifts. While maintaining a depression in the near-wellbore zone that does not violate the redistribution of individual components of produced well products, which contributes to the accumulation of oil in the vault of structures and macrostructures, under the influence of this depression, the movement of oil through the oil reservoir and flow to the production well are maintained. Oil in the wellbore floats through the thickness of the water installed in the wellbore at a certain height, based on the conditions for maintaining the optimal mode. Pre-fed into the bottomhole zone demulsifier-solvent. At the same time, they ensure continuous oil floating through the water column, oil separation from residual water in the oil separator, and oil accumulation in the storage chamber. Pump it out of the storage camera. The separated water is sent to the bottom of the well together with the demulsifier supplied to the water. Excess water is discharged through a non-return valve into the aquifer of the oil reservoir (RF Patent No. 2228433, CL EV 43/00, publ. 2004.05.10).

The method allows oil to be extracted from a waterlogged well, however, a negative effect of the applied actions on the production rate of produced water, which is usually necessary for the reservoir pressure maintenance system, is manifested.

Closest to the proposed invention in technical essence is a method of oil production from an underground reservoir through a well, according to which the well fluid is fed into the separation chamber in a predetermined vertical position through one or more openings with a local flow rate below 1 m / s, which allows separation downhole fluid to the lower layer of the water-rich component, the middle layer of the oil and water dispersion component and the upper layer of the oil-rich component, the liquid is recovered l from the upper layer and release this liquid to the surface, remove the liquid from the lower layer, measure the vertical position of the interface between the liquid layers and control the flow rate of at least one component from the inflowing well fluid, the effluent that flows from the water, or the effluent from the oil component depending on the measured vertical position. The flow rate is regulated to set a predetermined vertical position in the lower layer or to set a predetermined vertical position in the middle layer (Application for invention of the Russian Federation No. 2003103440/03, CL EV 43/38, publ. 2004.07.20 - prototype).

The known method does not allow you to create a flow in the well with a speed of more than 1 m / s, which greatly limits the use of the well as a water intake for the reservoir pressure maintenance system.

The proposed invention solves the problem of oil production as associated with the main production of water for the reservoir pressure maintenance system.

The problem is solved in that in the method of operating the well, including the separation of liquid in the well into water and oil and separate selection of water and oil, according to the invention, the well is equipped with two columns of tubing with pumps, the first column is lowered to a depth known to be filled with separated water , the second column is lowered to a depth close to the wellhead in the oil accumulation zone, the pump capacity in the first column of tubing is selected depending on the maximum production rate reservoir, maintain the amount of oil entering the well, which is obtained naturally, the rate of gravity separation of oil is set to that obtained naturally, maintain a constant flow from the reservoir by taking water through the first column of tubing, along the second column of tubing constantly or periodically, depending on the accumulated oil in the well, oil is taken. The features of the invention are:

1) the separation in the well of the liquid into water and oil;

2) separate selection of water and oil;

3) equipment of the well with two columns of tubing with pumps;

4) the descent of the first column to a depth known to be filled with separated water;

5) the descent of the second column to a depth close to the wellhead into the oil accumulation zone;

6) selection of pump performance in the first tubing string, depending on the maximum production rate of the reservoir;

7) maintaining the amount of oil entering the well, as it is obtained naturally;

8) maintaining the speed of gravitational separation of oil as obtained naturally;

9) maintaining a constant inflow from the reservoir by withdrawing water through the first tubing string;

10) the selection of oil for the second column of tubing constantly or periodically depending on the accumulated oil in the well.

Signs 1, 2 are common with the prototype, signs 3-10 are the essential distinguishing features of the invention.

SUMMARY OF THE INVENTION

The operation of highly watered oil wells from the point of view of oil production becomes unprofitable, as a rule, with a water cut of more than 99.5%. Such wells are transferred to the category of profitable during their operation as water intakes for water production in the reservoir pressure maintenance system. At the same time, oil accumulating in such wells is irretrievably lost due to the lack of its collection and production. Existing methods for collecting and producing oil in flooded or flooded wells require a mandatory change in the mode of operation of the well in favor of increasing oil production to the detriment of water production. The oil effect in such wells is minimal, and the loss of water flow rate is maximum and not justified. The well becomes unprofitable again. The proposed method solves the problem of oil production as associated with the main water production for the reservoir pressure maintenance system while maintaining the profitability of the well. The problem is solved as follows.

During the operation of a watered well, conditions are created for the separation of liquid in the well into water and oil and separate water and oil are sampled. For this, the well is equipped with two columns of tubing with pumps. The first column is lowered to a depth known to be filled with separated water. As a rule, this is the standard depth of the pump in the well at a depth of about 1200 m. As a pump, it is possible to use an electric centrifugal, sucker rod or some other pump, depending on the flow rate of the well. The second column is lowered to a depth close to the wellhead into the oil accumulation zone. This is usually a depth of about 100-500 m from the wellhead. Between the points of water and oil withdrawal, conditions are created for the separation of liquid into water and oil.

The pump performance in the first tubing string is selected depending on the maximum production rate of the reservoir. Maintain the amount of oil entering the well, as it is obtained naturally. The speed of gravitational separation of oil is set as obtained naturally. Maintain a constant inflow from the reservoir by taking water through the first tubing string. A constant and maximum inflow is necessary to ensure the well’s working capacity, to prevent the formation of clogging substances in the well and the near-wellbore zone of the formation, and to maintain steady water flows in the formation. Any shutdowns or changes in the operating conditions of pumping equipment lead to the formation of muddy reservoirs, sand formation, contaminants being carried out into the well and, as a result, a decrease in well flow rate. The second column of tubing is constantly or periodically depending on the accumulated oil in the well oil as a by-product in the main production of water for the reservoir pressure maintenance system. Profit from the sale of associated oil is added to the profitability of the well as a water intake.

Concrete example

They exploit a water-producing well that has been watered up to 99.5%. The well is equipped with two columns of tubing with pumps. The first column with a diameter of 2.5 ″ is equipped with a NSV2-32 pump and lowered to a depth of 1200 m, obviously filled with separated water. The second column with a diameter of 2 ″ is equipped with an NSV29 pump and lowered to a depth of 300 m from the wellhead into the oil accumulation zone. The pump capacity in the first column of tubing is selected equal to 100 m ³ / day, i.e. equal to the maximum production rate of the reservoir. Maintain a constant inflow from the reservoir by taking water through the first tubing string. The amount of oil entering the well is maintained as it is naturally obtained, i.e. 0.5 m ³ / day. The speed of gravity separation of oil is set to that obtained in a natural way, i.e. 0.5 m ³ / day of oil per 99.5 m ³ / day of water. According to the second column of tubing, periodically depending on the oil accumulating in the well, oil is taken as a by-product in the main production of water for the reservoir pressure maintenance system. As a result, over 1 year of operation, 180 tons of oil were additionally produced.

The application of the proposed method will allow to select oil as a by-product in the main water production for the reservoir pressure maintenance system while maintaining the profitability of the well as a water intake.

Claims (1)

A method of operating a well, including dividing the liquid into water and oil in the well and separately extracting water and oil, characterized in that when the water cut of the oil producing well is more than 99.5%, it is transferred to the discharge of the well for producing water into the reservoir pressure maintenance system with associated oil production why the well is equipped with two columns of tubing with pumps, the first column is lowered to a depth filled with water, separated by gravity separation of oil, the second column is lowered to a depth close south to the wellhead, into the oil accumulation zone, the inflow from the producing formation by the water withdrawal along the first column of tubing is kept constant and from the condition of preventing the occurrence of clogging substances in the well and near-wellbore zone of the reservoir, while the oil is taken from the second tubing string carry out continuously or periodically depending on the accumulated oil in the well.