RU2085715C1 - Method for development of high-viscous oil and bitumen deposits - Google Patents

Abstract

FIELD: oil production industry. SUBSTANCE: method implies extraction of viscous and high-viscous petrobitumens by heating reservoir with high-frequency electric current. Procedure is as follows. Drilled out are at least three wells with vertical and horizontal sections of bore-holes directed parallel to each other. Installed into extreme wells are electrodes, and installed into intermediate well is reversible electric centrifugal pump. After heating of oil bed, heated product of intermediate well is directed into part of bed not covered by electric field with subsequent pumping-out of heated oil to day surface by reversing operation of pump. EFFECT: high efficiency. 2 dwg

Description

 The invention relates to the field of oil industry, in particular to the development of viscous, highly viscous oils and bitumen by heating the formation with a current of high and ultrahigh frequencies.

 There is a method of developing a field of viscous oils and bitumen by thermal exposure to the reservoir by injection of steam [1] The disadvantage of this method is the unreasonably long development time of the oil field with high heat consumption and the need to use additional equipment, as well as personnel.

 A known method of developing deposits of highly viscous oils and bitumen, including exposure to an electric field on the formation through the wells [2] The disadvantage of this method is the low efficiency due to insufficient coverage of the formation by the electric field and heating.

 The purpose of the invention is to increase the efficiency of the development of viscous oil and bitumen deposits.

 The goal is achieved by the described method, including the impact of an electric field on the reservoir through the wells. What is new is that at least three wells are drilled by the cluster method, the third of which is located between the two extreme horizontally directed shafts, in which the double-acting ESPs are installed.

 Another feature of the invention is that after the formation is heated up, the heated products of an intermediate well are forcibly directed deep into the face into an unreached part of it with an electric field, followed by pumping of the heated oil to the mountain (to the day surface).

 In FIG. 1 shows a layout of wells with horizontal faces with electrodes lowered in them for high-frequency currents, powered by high-frequency current installations; in FIG. 2 same, top view.

 The method is carried out in the following sequence.

 According to exploratory drilling in the center of a viscous oil and bitumen field, at least three wells 1, 2, 3 (Fig. 1) with vertically and horizontally directed shafts 4, 5, 6, respectively, using deflecting devices made of insulating materials, are drilled by the cluster method. Horizontal boreholes are positioned floor and parallel to each other, the extreme boreholes 4 and 6, which are located closer to the roof 7, and 5 closer to the bottom of the reservoir 9, in which then the cathode 10 and the anode 11 of the high-frequency current installation 12 are placed. In the intermediate horizontal table 5, an ESP 13 of double-acting action is installed, which serves to dilute the oil pool and supply oil to the surface. The distance between the two extreme horizontal shafts 4 and 6 is selected from the calculation of the possible radius of action of a high-frequency current, approximately 10 12 m. As a means for heating the formation, the RF installation LGD-62 can be used, with a minimum oscillatory power of 60 kW and an operating frequency of 20 25 MHz, voltage of the mains 220 or 380 V, the number of phases is three. Transformer power requirement 100 kVA. As a double-acting pump 13, an ESP submersible pump can be used. After completion of the preparatory operations associated with the installation of the filter 14, the descent of the electrodes of the cathode 10 and the anode 11 of the ESP 13 of the equipment of the wellhead by the control station 15, etc. the high-frequency installation 12 is put into operation, in which an electric field is created between the electrodes 11 and 12, causing the formation to heat up. Upon reaching the reservoir temperature of the calculated value through the control station 15 include in the operation of the ESP 13, with which the heated oil is directed deep into the horizontal bottom. Hot oil passing through the openings of the filter 14 warms up other parts of the horizontal wellbore in the reservoir not covered by the high-frequency electric current field, thereby expanding the oil pool at the same time. Then, after accumulation of the horizontal bottom hole along its entire length with hot oil (approximately 400 500 m horizontal hole is drilled along the length), the three-phase current is reversed in the control station and ESP 13 is rotated, the liquefied oil is directed back to the required value to the wellhead.

 Next, the cycle repeats.

 The technical and economic advantage of the proposal is as follows.

 Using the proposed method allows you to effectively develop deposits of high oil and bitumen with a minimum expenditure of labor, energy and material resources in comparison with known methods (steam injection, in-situ combustion, formation heating by acoustic emitters); to accelerate the production of bitumen and hard-to-recover oils due to uniform heating of the formation along the entire length of the horizontal bottomhole by reciprocating hot oil by reversing the pump, expanding the bottomhole oil pool.

 According to preliminary estimates, the use of the method serves a great economic benefit.

Claims (1)

 A method for developing deposits of high-viscosity oils and bitumen, including heating the formation with electric current through electrodes installed in the well, characterized in that at least three wells with vertical and horizontal sections of the shafts parallel to each other are pre-drilled with a cluster method, and electrodes are installed in the extreme wells and in the intermediate double-acting electric centrifugal pump, after the formation is heated up, the heated products of the intermediate well not covered in the layers control electric field portion of the formation, followed by reverse pumping preheated oil pump to the surface.

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