RU2723813C2 - Method of productive reservoir opening - Google Patents

Abstract

FIELD: oil, gas and coke-chemical industries.

SUBSTANCE: invention relates to oil industry and can be used in development of productive formation by well, which opened multilayer oil deposit with formations of different injectivity. Proposed method of opening productive reservoir comprises casing perforation, packer installation and acid treatment through perforated holes located above packer. Cumulative perforation of the casing string is carried out after installation of a blind packer made in the form of an explosive packer, and acid treatment is combined with thermo-chemical action obtained during combustion of inflammable thermochemical blocks lowered on the cable.

EFFECT: simplified use and broader functionalities at overlapping intervals of less than 5 m due to use of explosive packers, in which there is no WOC, and reduced time for implementation due to use of cable technology.

3 cl, 2 ex

Description

The invention relates to the oil industry and may find application in the development of a productive formation by a well that has discovered a multilayer oil reservoir with formations of different injectivity.

The well-known "Method of opening a productive formation in a cased well" (patent RU No. 2101473, ЕВВ 43/11, ЕВВ 43/116, publ. 10.01.1998. Bull. No. 1), including filling the wellbore in the perforation interval with a rock-eroding solution, for example acid solution, descent of the explosive type perforator into the well and explosion of its charges during perforation in the rock-cutting solution medium, and at least one of the formation rocks must be wired into the formation rock before filling the wellbore with rock-cutting solution in the wellbore in the perforation interval by mechanical drilling through the casing and annular cement stone through perforation channel.

The disadvantage of this method is the narrow scope due to the impossibility of acid treatment of several horizons with different injectivity, low processing efficiency with the remoteness of the face, due to the lack of a packer and acid displacement from the processing interval.

There is also known the "Method of isolating the influx of formation water in the well" (patent RU No. 2488692, ЕВВ 43/32, publ. 07/27/2013 Bull. No. 21), in which after removing the elevator column from the well in the interval of the flooded part of the reservoir, sand plug is washed , above it, in the interval of the non-irrigated part of the reservoir, an insulating cement bridge is installed from the hydrophobizing cement composition, after the completion of the waiting period for cement hardening (CSC), it is drilled to leave a cement ring on the walls of the production string, below the cement ring in the flooded part of the reservoir, remove the sand plug , an insulating packer is lowered over the top of the reservoir, lowered on the process pipe string, into the interval of the washed sand plug through the existing perforation holes of the flooded portion of the reservoir or through newly created technological holes for waterproofing, the waterproofing is pumped under pressure This composition, the water-proofing composition is fastened with a cementing bridge made of cement mortar based on cement of normal density installed in the wellbore, after installing the cementing bridge, the insulation packer is unpacked, and the pipe string is lifted, after cementing and testing of the cementing cement bridge for strength and tightness, the pipe string the packer is removed from the well, repeated perforation of the non-watered part of the reservoir blocked by the cement ring is carried out in the most effective gas-saturated part of the section, the newly opened perforation interval is acid treated to destroy the cement ring, a new lift column is lowered into the well and the well is developed, after obtaining a stable a gas inflow from the formation into the well is pumped and a mixture of methanol with a nonionic surfactant is pumped into the bottomhole zone of the formation to remove the aqueous component of the water-repellent filtrate cement composition, drill a well on a torch before it enters the operating mode and put into operation.

The disadvantages of this method is the difficulty of practical application and, as a consequence, the high cost of time and high cost, while there is a high probability of failure in case of non-compliance with the technology or errors at least at one stage.

The closest in technical essence is the "Method of operating the well" (patent RU No. 2320854, ЕВВ 43/00, Е21В 33/13, ЕВВ 43/27, published March 27, 2008 Bull. No. 9), which includes the injection of cement chalk solution, well fixing and acid treatment, and cement-chalk solution is injected into the annulus in volume and under pressure, ensuring the creation of a cement-chalk ring in the annulus and partial colmatation of the perforation holes of the upper productive intervals when the well is fixed, put a cement bridge in the well from cement cement opposite the lower highly accepting layer, and acid treatment is carried out not covered by the cement bridge of the productive intervals of the formation, while a solution with a cement-chalk volume ratio of 1: (0.1-0.4) is used as a cement-chalk solution.

The disadvantages of this method are the complexity of the application, the time it takes to install the packer in the form of a cement bridge due to the need to wait for the hardening of cement (OZZ).

The disadvantage of all these methods is the large time required to install a packer made in the form of a cement bridge, due to the need to use elevator pipes for pumping and waiting for cement to harden (OZC), while cement bridges cannot be used to isolate a small area with an overlap interval of less 5-7 m.

The technical tasks of the proposed method for opening the reservoir are to simplify the implementation and expand the functionality when overlapping intervals of less than 5-7 m due to the use of explosive packers, in which there is no MLC, and reducing the time for implementation through the use of cable technologies.

The technical problem is solved by the method of opening the reservoir, including perforation of the casing, installation of the packer and acid treatment through perforations located above the packer.

New is that the cumulative perforation of the casing is carried out after the installation of a deaf packer, made in the form of an explosive packer, and the acid treatment is combined with the thermochemical effect obtained by burning flammable thermochemical checkers, lowered on the cable.

What is also new is that they sequentially lower each well on its cable into the well and actuate an explosive packer, a cumulative retrievable perforator and thermochemical checkers.

Also new is the fact that on one cable an explosive packer, a cumulative perforator and thermochemical checkers connected to each other through a temporary retarder are simultaneously lowered into the well, after placing the packer in the installation interval, the casing is sequentially sealed with a packer with its separation, the casing is perforated and set on fire thermochemical checkers, after the combustion of which and thermochemical acid exposure, the cable with a perforator is removed from the well.

The method is implemented as follows.

The method of opening a reservoir includes installing an explosive packer (see Kedr-102 (114) VP blasting packers, manufactured by Geofizmash LLC, Saratov; PV102 (114) Ш, manufactured by NeftGazMash LLC, RB, Neftekamsk ; or the like), opening the casing above the packer with a cumulative punch (see punchers PK-105-7, PK-105U, PKO-102 or the like), and performing acid treatment in combination with thermochemical exposure through perforation holes above the packer. Thermochemical effects and acid treatment are carried out using flammable thermochemical checkers (see patents RU No. 2209960, No. 2204015, No. 2158363, etc.), lowered by cable. In horizontal and complex structured wells (with a variable bore diameter, with a wellbore having a large number of deviations), the packer, perforator and checkers are lowered sequentially, and in vertical and deviated wells, it is possible to use the simultaneous descent of the packer, perforator and thermochemical checkers, interconnected through a temporary retarder (see patents RU No. 2349867 RU No. 2285894, etc.), which allows for sequential operation of the devices: first the packer, then the punch, and then ignition of the checkers.

During simultaneous descent after installing the packer, it is disconnected from the common cable (burns out or shoots back). After perforation and combustion of the checkers, the punch and the body of the checkers are removed on the cable to the surface.

Examples of specific performance.

Example 1

On the site of the field, represented by sediments of the Sargaev horizon, horizontal well No. 1A was drilled. After the study, 0.5 m above the sump, an aquifer was found. The Kedr-102VP packer was lowered and installed into the well on coiled tubing (flexible sleeveless pipes) and installed 1 meter higher than the sump. Then the cumulative PKO-102 perforator was lowered, with which a horizontal section of the well was opened above the installed packer. To initiate the influx of fluid (formation production) into a horizontal section on an armored cable, thermochemical checkers were lowered and set on fire (thermogas generator with solid propellant charges, see RU No. 2287680). After using the method, the water cut of products decreased from 37% to 22.5%, the volume of production increased from 3.5 thousand tons to 7.7 thousand tons.

Example 2

A horizontal well No. 2G was drilled at the site of the field represented by clay limestone rocks. After watering the extracted products, it was decided to open the reservoir located above the worked out and separated by a 2.5 m thick layer. The PV114Sh packer, PK-105-7 punch and checkers (thermogas generator with solid propellant charges RU No. 2249684) were lowered on one cable. . The packer was placed in the area of the interbed and gave a signal to install and shoot the PK-105-7 packer. After 3-4 sec. (due to the time delay inhibitor - pyrotechnic moderator of the detonator capsule RU No. 2285894) after installing the packer, the PK-105-7 perforator worked to open the upper layer. Then after 3-4 seconds. (due to the time delay inhibitor - the pyrotechnic retarder of the detonator capsule-detonator RU No. 2285894) the checkers ignited. After the checkers burned out and technological exposure took place (within an hour), the block body and the case of the perforators on the cable were removed from the well. After using the method, the water cut of products decreased from 57% to 20%, the volume of production increased from 6.8 thousand tons to 12.4 thousand tons.

Also, the method was implemented in wells 4G, 6G. On average, the water cut of the extracted products decreased by 25%, and the increase in production amounted to 30-40%. At the same time, the implementation time by comparison with analogues decreased at least 2 times during the implementation of sequential descent of devices, and at least 4 times during simultaneous descent.

The proposed method of opening the reservoir allows to simplify the use and expand the functionality when overlapping intervals of less than 5 m due to the use of explosive packers, in which there is no OZZ, and reducing the time for implementation due to the use of cable technologies.

Claims (3)

1. The method of opening the reservoir, including the perforation of the casing, the installation of the packer and acid treatment through the perforations located above the packer, characterized in that the cumulative perforation of the casing is carried out after installing a deaf packer made in the form of an explosive packer, and the acid treatment is combined with thermochemical effect obtained by burning flammable thermochemical pieces lowered on the cable. 2. The method of opening the reservoir according to claim 1, characterized in that each one is lowered successively into the well on its cable and the explosive packer, cumulative retrievable perforator and thermochemical checkers used for acid treatment and thermal treatment of the opened reservoir are activated. 3. The method of opening the reservoir according to claim 1, characterized in that an explosive packer, a cumulative perforator and thermochemical checkers connected to each other through a temporary retarder are simultaneously lowered into the well on the same cable, after placing the packer in the installation interval, sequentially seal the casing with the packer with its separation, perforation of the casing and arson of thermochemical blocks, after the combustion of which and thermochemical acid exposure, the cable with the perforator is removed from the well.