RU2319832C2 - Method to complete well with carbonate productive reservoir penetrated with radial channels - Google Patents

Abstract

FIELD: oil and gas production industry, particularly development of wells having productive reservoir formed of carbonate basin and penetrated along with elongated radial channels creation.

SUBSTANCE: method involves performing interval cleaning of radial channels of water-oil emulsion by implosion method; moving the water-oil emulsion to ground surface; isolating reservoir zone to be treated from overlaying and underlaying well zones with packer; treating reservoir with the use of vibratory pulsator in acid composition medium beginning from lower reservoir zone; forcing acid composition in reservoir with water-free oil after reservoir permeability has been recovered; leaving well as it is for 5-6 hours to provide acid reaction with rock; causing reservoir product inflow by swabbing operation as reservoir zones are isolated one from another.

EFFECT: increased reservoir recovery due to complex well development.

2 cl

Description

The invention relates to the field of oil and gas industry, in particular to methods for developing wells with a productive formation, folded carbonate reservoir and opened with the formation of radial channels of long length.

A known method of developing an oil well (see the description of the patent of the Russian Federation No. 2199658, IPC ЕВВ 43/25, published in BI No. 6, 08/27/03), including the secondary opening of the reservoir by cutting the ends of the hollow plugs with a funnel, uncoupling of the reservoir from the overlying part of the well by the packer and creating depression on the formation by communicating the zone of the well opposite the productive formation with the internal tubing space (tubing) under atmospheric pressure, after which the equipment with the packer is raised to the surface, lowered Lubin pump and well run in the job.

The disadvantages of this method include the following.

It requires sophisticated equipment for its implementation and is not very effective if it is used to develop wells whose productive formations are composed of carbonate reservoirs and open radial channels formed by the hydroerosion method. This is explained by the fact that as a result of opening the formation with a large hydroerosion method, a persistent oil-water emulsion is formed in the formed radial channels, blocking the pores and cracks of the formation. Therefore, the extraction of this water-oil emulsion from radial channels and the restoration of the reservoir properties of the parent rock requires an integrated approach to cleaning and stimulating the formation.

There is also known a method of developing an oil well (see the full description of the patent of the Russian Federation No. 2178063, IPC 7E21B, published in BI No. 1 of 10.01.2002), including the creation of depression on the formation by reciprocating the movement of the piston in the tubing (Tubing) to remove the borehole fluid to the calculated level, previously disconnecting the reservoir with the packer from the overlying part of the well. At the same time, pressure and other parameters are controlled by instruments installed above and below the piston with the transmission of signals to the surface via a geophysical cable, and the local reciprocating movement of the piston to the same or different heights at the same or different speed is continued until the pressure stabilizes the piston fluid.

In this method, the disadvantages inherent in the above analogue are partially eliminated, however, it is not without drawbacks.

Its disadvantages include the duration of the method and its low technology, it requires the availability of instruments launched on a geophysical cable. In addition, without taking into account which rocks the productive formation is composed of and with what methods the formation was discovered, the expected well production is not ensured. Moreover, it does not provide for the development of carbonate strata and long-length radial channels opened (from 10 to 100 m), for example, by the hydroerosion method, which limits its use.

The objective of the present invention is to increase oil recovery, folded by carbonates and exposed by long radial channels due to the integrated method of well development.

The problem is solved by the described method, including preliminary interval-wide complete cleaning of radial channels from oil-water emulsion by implosion and emulsion removal to the surface, separation by the packer of the treated part of the formation from the overlying and from the lower parts of the well, treatment of the formation with a vibro-pulsator in an acid composition environment, starting from the lower part formation, the subsequent sale of the acid composition into the formation with anhydrous oil after restoration of the permeability of the formation, after which the well left they are left at rest for 5-6 hours for the reaction of the acid with the rock, after which they cause the influx of formation products by swabbing when the parts of the formation are disconnected.

Also new is the fact that the operation of vibro-pulsation treatment is carried out cyclically in combination with the creation of alternating pressure on the formation from the wellhead.

The proposed integrated approach to the development of a well with a carbonate reservoir, opened mainly by long radial channels, provides not only the restoration of reservoir properties, but also the improvement of its reservoir characteristics, which allows to obtain a high flow rate of a well with a low water content in the formation.

The method is carried out in the following sequence:

After geophysical studies to determine the interval and injectivity of the reservoir and its other parameters and to coordinate the geological service on the tubing string, an IPN-120 type hydraulic gel is lowered to create an instant depression based on the implosion cleaning method, which is accompanied by filling its water-oil chamber emulsion in the volume of two or more cavities of the tubing pipe. After repeated exposure to the formation by depression, which ensures complete removal of the oil-water emulsion to the surface from the radial channels and the interval of the formation, a vibrating pulser is lowered into the well on the tubing string, placing it between two packers designed to separate the part being processed in the part of the interval from the higher and lower parts of the well . As a vibropulsator, you can use the device according to patent No. 2175058, 7Е21В 43/25, published in BI No. 29, 10.20.2001, containing a hollow body lowered on the tubing string and flow chambers hydraulically connected to it, located perpendicular to the axial direction of the hollow body, in this case, the flow chambers are cylindrical, they are installed in a housing with an axial intersection with its central axis, and each flow chamber is equipped with a centrally placed central swirl of the fluid flow.

When developing well No. 3764 of the Dachnoye field of Tataria using the proposed method, a VPS-2 type vibro-pulsator was used, which contains a housing with a spring placed in an expanded section of its central part and a spring-loaded ball valve in the narrowed section, which works to close upward.

Vibration processing is carried out in an acid composition environment, which allows to accelerate the restoration of reservoir properties of the formation and to improve the quality of cleaning the bottom-hole zone (PZP) of the formation.

In field conditions, when testing the method, the composition according to the patent of the Russian Federation No. 2.255216, IPC ЕВВ 43/27, publ. in BI No. 18 dated 06/27/2005

The specified composition contains in weight. %:

- inhibited hydrochloric acid 24% concentration of 10.0-15.0;

- acetic acid 2.0-4.0;

- reagent for oil production - RDN-O 1.0-2.0;

- organic solvent 15.0-20.

At the same time, good results on the restoration of reservoir properties of the formation were obtained when vibro-pulse treatment was performed in combination with the creation of alternating pressure on the formation from the wellhead by increasing the pressure inside the tubing with pumps to 150 atm and bleeding it to zero in the pressure gauge by opening the buffer valve.

It is advisable to begin vibro-pulse treatment from the bottom of the formation and by a gradual upward movement after a series of cyclic reverse hydroshocks to the roof of the reservoir.

After a series of hydroblows, the injectivity of the formation is determined a second time. If the injectivity of the reservoir is restored, the acid composition is pressed into the reservoir with anhydrous oil in a volume of 3-4 m ³ .

In the test well, if during injection the injection rate was 80 atm, then the final one was 60 atm.

Then the well is left alone for about 5-6 hours for the acid to react with the formation rock, which contributes to the creation of new microchannels and crack opening.

After this time, swabbing causes an influx of formation products. After receiving a steady inflow, pumping equipment is lowered into the well and put into operation.

Swabbing is preferably carried out with the fragmented state of the interval of the reservoir.

The need for this is dictated by the fact that it provides a more intensive removal of reaction products and colmatants from the formation, as well as with the aim of using the associated gas energy in this case.

As shown by field tests of the proposed method, if with continuous swabbing, the calculated production capacity of the well was up to 30 m ³ / day, in the presence of a disconnecting intercolumn packer and a decrease in the level to the maximum permissible bottomhole pressure, then by the test method the flow of carbonated oil was obtained in a volume of 24 m ³ /day.

The method does not require the development of new formulations for the composition of acidic compositions and devices for implementing the method. In addition to the above, other acidic compositions can be used with respect to carbonate formations. So, for example, can be used a composition containing the acidic composition of the patent No. 2254463, E21B43 / 27 of 06.20.2005, containing, about. %:

- an aqueous solution of acetic acid 5-7;

- dimethioxane DMD 35-40;

- 20% aqueous solution of hydrochloric acid HCl the rest.

With the widespread use of the proposed method for developing wells with a carbonate reservoir, opened by radial channels, a tangible economic effect can be obtained.

Claims (2)

1. A method of developing a well with a carbonate reservoir that has been opened by radial channels, including preliminary interval complete cleaning of the radial channels from oil-water emulsion by implosion and emulsion removal to the surface, isolation of the processed part by the packer from the overlying and lower parts of the well, and treating the formation with a vibro-pulser environment of the acid composition, starting from the bottom of the formation, the subsequent delivery of the acid composition into the formation with anhydrous oil after reconstitution emosti reservoir, whereupon the well is left undisturbed for 5-6 hours to the acid reaction with the rock, after which the product formation is carried out call inflow swabbing with fragmented portions of the formation condition. 2. The method according to claim 1, characterized in that the operation of the pulsation treatment is carried out cyclically in combination with the creation of alternating pressures from the wellhead.