RU2204702C2 - Method of oil recovery intensification - Google Patents

Abstract

FIELD: oil producing industry; applicable in development of oil pools with bottom water. SUBSTANCE: method involves oil withdrawal form formation oil-saturated zone until water coning; installation of packer at level of water-oil contact; creation of water-impermeable interval by injection of isolating composition; subsequent resuming of oil withdrawal; additional perforation of well in water-saturated zone of formation for formation of hydrodynamic communication between oil- and water-saturated zones of formation. Isolating composition is injected through perforation interval in oil- or water-saturated zone of formation. EFFECT: higher efficiency of oil production method in pools complicated by breakthroughs of underlying formation water into oil-saturated zones. 2 cl, 2 dwg, 2 ex

Description

 The invention relates to the oil industry and can be used in the development of oil deposits with bottom water.

 There is a method of developing an oil reservoir with a high water cut of bottom water products, including perforation of oil-saturated and water-saturated intervals of the reservoir, simultaneous selection of products from these intervals of the reservoir after the release of oil reserves in the underwater part of the reservoir (see ed. Certificate 1637419, MKI E 21 B 43 / 32, publ. 1997).

 This method is not effective enough due to the fact that the simultaneous, controlled selection of products from two intervals significantly complicates the design of the well and increases the cost of its operation, and to create the optimal oil production regime, it is necessary to select a large amount of water, which also increases the cost of production.

 A known method for the development of oil deposits, laden with water by simultaneously separately pumping oil and produced water through oil wells, respectively, from the oil and water zones of the reservoir with simultaneous injection of water into the reservoir by injection wells (see RF patent 2149984, MKI E 21 V 43/16, publ. 2000).

 This method requires significant costs for the extraction of water from the aquifer, its transportation and injection into injection wells, which increases the cost of oil production.

 The closest in technical essence and the achieved effect is a method of intensifying oil production, which includes creating a waterproof screen in the water-saturated part of the formation by taking water from the water-saturated part of the formation to form an oil cone and pumping a selective water-insulating composition into the annulus of the well, and the selection of oil and water is carried out sequentially by the cyclic method with periodic cutting off of the transportation channels of the extracted products from oil or water rich portions of the formation (see. Russian patent 2132938, IPC E 21 B 43/20, publ. 1999.).

 The known method is not effective enough due to the fact that the pumping of the water-insulating composition through the annulus is difficult at high reservoir pressure, and the creation of the inverse cone requires the selection of a large volume of water, which significantly increases the cost and complexity of oil production.

 The objective of the invention is to provide an effective method of intensifying oil production in deposits, significantly complicated by breakthroughs of underlying formation water in oil-saturated areas, which leads to an increase in water cut of produced products.

 The problem is solved in that in a method of intensifying oil production, including the selection of oil from the oil-saturated zone of the formation to form a watering cone, the creation of a water-saturated part of the waterproof screen by pumping an insulating composition, followed by the resumption of oil selection, an additional hole perforation is carried out in the water-saturated zone of the formation to create hydrodynamic connection between oil and water saturated zones of the reservoir, and the injection of the insulating composition is carried out at intervals of perforation in the oil Saturation or water-bearing zones of the formation.

 In an advantageous embodiment, the implementation of the method as an insulating composition using a hydrocarbon solution of a surfactant or water-swelling polymers or viscoelastic compositions.

 The essence of this invention is that when implementing the method of intensifying oil production from formations with bottom water, oil is first taken through the production well from the oil-saturated zone to form a watering cone, while the water cut of the produced product is over 90%. Pumping equipment is lifted, perforation of the well is additionally carried out in the water-saturated zone of the formation, a packer is installed at the level of the oil-water contact (WOC). Depending on what perforation interval is used to create a water insulating screen, the insulating composition is injected through the annulus (through the perforation interval in the oil-saturated zone of the reservoir with the central valve open) or through the tubing (through the perforation interval in the water-saturated zone of the reservoir with the annular valve open) . The insulating composition is then pushed into the formation with water and allowed to react. The packer is torn off, the perforation interval in the water-saturated zone of the formation is closed, the pump is lowered and the well is put into operation.

 A new set of claimed essential features allows to obtain a new technical result, namely, to create an effective way to intensify oil production by creating a water-insulating screen in the active filtration zone between water and oil-saturated zones of the reservoir, reducing the injection pressure of the insulating composition by creating a hydrodynamic connection between the annulus, the intervals perforations, tubing (tubing) and flow line, exclude the operation of water withdrawal from the water-saturated area of the pl hundred.

 An analysis of the known solutions selected in the search process showed that in science and technology there is no object that has the claimed combination of features and advantages, it can be concluded that the claimed object meets the criteria of “novelty” and “inventive step”.

 To prove the compliance of the claimed invention with the criterion of "industrial applicability" we give specific examples of a method of intensifying oil production.

 The method is implemented as follows.

 Example 1. To implement the method, a well is used with the following parameters: perforation interval - 1155-1156 m, oil flow rate 0.3 t / day, liquids 8.0 t / day., Water cut 96.0%, casing string diameter 168 mm, diameter GOST 73 mm, the volume of the annular space 13, 5 l / m.

 In FIG. 1 shows a diagram of the implementation of the method, where 1 is the casing of the well, 2 is the tubing, 3 is the VNK section of the oil and water zones of the formation, 4 is the packer, 5 is the interval of perforation in the oil-saturated zone of the formation, 6 is the interval of perforation of the water-saturated zone layer.

 The implementation of the method is carried out in the following sequence.

Washed well. The well is perforated in the water-saturated zone of the formation at a depth of 1165.0 m (6). The packer (4) is lowered to a depth of 1163.5 m. With an open annular valve, the tubing is filled with an insulating composition - a mixture of hydrocarbon surfactant solution (12.0 m ³ ) and mineralized water in a ratio of 1: 2. The packer is planted and the remaining reagent is pumped. The amount of injected reagent is calculated based on the distance between the intervals of perforation in the oil-saturated and water-saturated zones of the formation.

Squeeze the insulating composition into the reservoir with water in the volume of tubing + 2.0 m ³ and leave to respond for 16-24 hours. Tear down the packer. Next, close the perforation interval in the water-saturated zone of the formation (6), lower the pump and resume oil production.

 Example 2. To implement the method by pumping an insulating composition through a perforation interval in a water-saturated zone of a formation, a well with the following parameters is used: perforation interval 1188.7-1189.7 m (5), oil production rate 1.4 tons / day, liquids 14.8 t / d., water cut of 90.6%, casing string diameter (1) 168 mm, tubing diameter 73 mm, annular volume 13.5 l / m.

 In FIG. 2 shows a diagram of the implementation of the method, which is carried out in the following sequence.

 Symbols correspond to example 1.

 The well is washed, perforated in the water-saturated zone of the formation at a depth of 1196.0 m (6), the packer (4) is lowered to a depth of 1192.0 m.

With the central valve open, 16.0 m ^{3 of the} insulating composition — viscoelastic composition — are pumped into the annulus. Plant the packer. The insulating composition — the viscoelastic composition — is pushed into the formation with mineralized water in a volume of 18.0 m ³ and left to react for 16 hours. The packer is torn off. Close the perforation interval in the water-saturated zone (6), lower the pump and resume oil production.

 Using the proposed method of intensifying oil production allows, by creating a water-insulating screen between oil and water-saturated zones, eliminating water withdrawal, reducing the injection pressure of the insulating composition as a result of establishing a hydrodynamic connection between the annulus, perforation intervals, tubing and flow line, significantly reducing the cost of implementing the method significantly reduce the water cut of the product, establish a longer period of waterless reservoir operation.

Claims (2)

 1. A method of intensifying oil production, including the selection of oil from the oil-saturated zone of the formation to form a watering cone, installing a packer at the level of the oil-water contact, creating a waterproof screen in the water-saturated part by pumping an insulating composition, followed by resuming oil extraction, characterized in that the hole is also perforated in the water-saturated zone of the reservoir to create a hydrodynamic connection between the oil and water-saturated zones of the reservoir, and the injection of the insulating composition is carried out Through the intervals of perforation in oil-saturated or water-saturated zones of the reservoir.  2. The method according to p. 1, characterized in that as a water-insulating composition using a hydrocarbon solution of a surfactant or water-swelling polymers or viscoelastic compositions.

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