RU2101473C1 - Method of opening productive bed in cased well - Google Patents

Abstract

FIELD: oil and gas production industry. SUBSTANCE: this relates to methods of secondary opening of productive beds in cased wells performed by explosive-type perforators. This ensures integrity of beyond-string cement stone with simultaneously improved quality of opening and speedier development of well. According to method, drilled in well is at least one perforation through- - passage using mechanical drilling procedure through casing string and beyond-string cement stone. Then well hole within perforation interval is filled with rock-corroding solution, for example acid solution. Explosion-type perforator is lowered into well. Perforator explosive charges are fired in medium of rock-corroding solution. EFFECT: high efficiency.

Description

 The invention relates to the oil and gas industry, in particular to methods for re-opening productive formations in cased wells, carried out by explosive-type perforators, for example, bullet, shooting or cumulative, for putting into operation both newly constructed wells that have been drilled and previously operated wells after their repairs .

There is a method of opening productive formations, according to which, using a sandblasting perforator in the casing of a well and an annular cement stone, an auxiliary channel is first performed, after which a main perforation channel is created at a distance of 10-15 cm from the latter [1]
The disadvantage of this method is that when performing a sandblasting perforation when performing both the auxiliary channel and the creation of the main perforation channel, high pressures are generated each time in the channel being created, which lead to the destruction of the annular cement stone, increase the filtration of the liquid into the formation and are one of the main causes of watering wells.

A technical solution is known, according to which an explosive-type perforator is lowered into a cased hole, for example a die-free cumulative perforator, with which a pressure compensator is lowered. The latter is a hollow sealed enclosure, in the walls of which holes are made, overlapped by safety elements (destructive membranes or spring-loaded valves). The pressure arising during perforation in the wellbore from the explosion of charges of the perforator destroys the membranes or opens spring-loaded valves and flows into the hollow body of the compensator, thereby reducing its initial value, thereby preventing collapse of the annular cement stone [2]
The disadvantage of this known method is that one or several pressure compensators, the perforator itself and the load, must be fixed and suspended on one logging cable. In addition, cases are not excluded when, after perforation, the pressure compensator fixed under the perforator breaks off with the load, the work of removing them from the well requires additional time and money.

The closest (prototype) to the claimed technical solution from among the known means of the same purpose is a method of opening a productive formation in a cased hole, including filling the wellbore in the perforation interval with a rock-cutting solution, for example, an acid solution, lowering an explosive-type perforator into the well and exploding its charges when perforations in the environment of rock-eroding solution. The explosion of the charges of a perforator in an acidic solution allows to increase the efficiency of creating perforation channels and their characteristics [3]
The disadvantage of the prototype method is that when it is carried out from the explosion of the charges of the perforator in the wellbore, a shock wave of large magnitude is formed, which, acting on the casing, propagates in the fluid in the wellbore up and down from the perforation interval. This leads to the appearance of transverse elastic deformations, residual transverse deformations and vibrations in the casing, violating the integrity of the annular cement stone and forming longitudinal cracks leading to inter-layer flows. To eliminate such flows, it is necessary to carry out expensive work on corrective cementing, which leads to additional consumption of materials, technical equipment and time.

 The use of pressure compensators to reduce the pressure in the wellbore during perforation with explosive-type perforators, as in the well-known [2], complicates their placement with the perforator on one wireline cable, and at the end of perforation, load breaks and pressure compensators are interrupted.

 In addition, when implementing the known method according to the prototype [3] using pressure compensators due to the significant size of the pressure compensators both across and in length, the force of the hydraulic shock falling down after the explosion of an acid solution column in the wellbore is significantly reduced, weakening the pressure acid solution into the reservoir under the influence of such a hydraulic shock that does not fully improve the quality and effectiveness of the secondary opening of the reservoir.

 The aim of the invention is to maintain the integrity of the annular cement stone cased hole during the secondary opening of the reservoir by explosive drills while improving the quality of opening and accelerate well development.

 This goal is achieved by the fact that in the known method of opening a productive formation in a cased hole, which includes filling the wellbore in the perforation interval with a rock-cutting solution, for example, an acid solution, lowering an explosive-type perforator into the well and bursting its charges when perforating in a rock-eating solution, for the first time before filling the wellbore with rock-eroding solution in the wellbore in the interval of perforation by mechanical drilling through the casing and annular cement stone about uschestvlyayut wiring into the rock formation with at least one through perforation.

 From publicly available sources of patent and scientific and technical information, we are not aware of methods for opening productive formations in cased wells, in which at first mechanical drilling (but not blasting punchers and not sandblasting drills or similar punchers) would be carried out through the casing of the well and an annular cement stone in the formation rock of at least one through perforation channel for communicating the interior of the wellbore with the rock of the reservoir, and it would be filled into the wellbore at the perforations porodorazedayuschim solution would then lowered into the wellbore and perforating explosive burst would produce its charges (perforations) in the medium porodorazedayuschego solution without the use of pressure compensators or other devices of similar purpose. Therefore, in our opinion, the claimed method meets the criterion of "Novelty."

 The difference between the proposed method and the prototype is that we proposed for the first time in the wellbore in the perforation interval in the most gentle way, for example, by mechanical drilling, to conduct from the wellbore through its casing and annular cement stone into the formation rock at least one through perforation channel before filling the wellbore with rock-cutting solution. At the same time, we offer our own procedure for performing a new operation in time (before filling the cased hole with rock-boring solution), and we also provide for a special gentle regime for performing a new operation (mechanical drilling).

 Our proposed set of known and newly proposed operations in the claimed method allows us to obtain new properties, that is, to achieve a new technical result, namely, due to the fact that we proposed at the beginning of the method to carry out at least one through perforation channel from the wellbore into the reservoir through casing and annular cement stone by mechanical drilling, which eliminates the increase in pressure in the wellbore and annulus, we provided full preservation of the integrity of the annular cement stone, while ensuring the communication of the internal space of the wellbore with the rock of the productive formation before perforating the well with an explosive type perforator.

 The presence of at least one through channel communicating the internal space of the well casing with the rock of the reservoir before and during perforation, as we unexpectedly found, allows a significant decrease in the pressure generated in the well bore from the explosion of the charges of the perforator, even from an open-hole cumulative perforator to such limits, which, in turn, allow you to maintain the integrity of the annular cement stone. Thus, both when creating the first (one or several) through-hole perforation channel by mechanical drilling before perforation, and during subsequent perforation of the well with explosive-type perforators (including die-shaped cumulative perforators), the integrity of the annular cement stone is ensured without the use of pressure compensators or other technical means similar purpose.

 Due to the fact that in the inventive method, the integrity of annular cement stone is ensured without the use of pressure compensators or other technical means installed in the wellbore (there are no barriers in the wellbore except for the perforator), and the initiation of the perforator is carried out in the environment of the rock-eroding solution, then simultaneously with the foregoing in the explosion of the charges of a perforator in an acid solution medium, the generated energy is most fully used, which to a greater extent increases the filtration characteristics ki created perforation channels, as this increases the reaction of acid with the rock at elevated temperature and pressure from the explosion of charges, provides a deeper penetration of acid through the formed perforation channels into the rock of the reservoir under the action of hydraulic shocks when the column raised by the explosion of charges heated by the explosions falls down in the wellbore, which together provides the most complete increase in the quality of the opening of the reservoir when using any modern explosive type perforators while maintaining the integrity of the annular cement stone.

 At the same time, while maintaining the integrity of the annular cement stone and improving the quality of the opening, acceleration of well development is simultaneously achieved due to the combination in time of the operation to perforate the well and the operation to process its bottom-hole zone.

 Thus, the distinguishing features of the proposed method in combination with the known features provide new properties reflected in the objectives of the invention, based on which we can conclude that the claimed method meets the criterion of "Inventive step".

To implement the proposed method in the field, the following operations are performed in the indicated sequence:
in the interval of perforation of the cased hole, a device for lateral mechanical drilling, controlled from the wellhead, is lowered and mechanical drilling of the casing and cement stone is made from the wellbore by entering the formation rock;
the borehole in the perforation interval is filled with rock-cutting solution, for example, one of the acidic solutions or their compositions;
an explosive type perforator is lowered into the well and its charges are blasted in the perforation interval in the rock-eroding solution environment.

The proposed method was tested in the field. A casing string with a diameter of 146 mm was lowered and cemented into the well that opened the Bashkir layer and having a final bottom of 1930 m. The carbonate productive formation with a permeability of 0.023 μm ² and porosity of 13% had an average oil-saturated thickness of 8 m with an initial specific flow rate of 13.7 t / day.m, which was in the range of 1820-1828 m. In the wellbore from the wellhead on the cable, the perforation interval was the PS-112/70 drilling perforator was launched, with the help of which, at a depth of 1827.8 m (in the perforation interval), the casing wall, an annular cement stone was mechanically drilled, entering the formation rock and forming a through horizontal perforation channel 15 mm diameter and 70 mm deep. In total, in the horizontal plane, two such through perforation channels were made at an angle of 180 ^° to each other.

Then, in the well bore, in the perforation interval, as a rock-eating solution, a composite composition was pumped in a volume of 32 m ³ , which included

Hydrochloric acid 20% concentration 14
Acetic acid 98% concentration 21
A mixture of oil with a hexane fraction in a ratio of 3: 1
After filling the wellbore in the perforation interval with the indicated rock-boring solution, the standard cumulative puncher PKS-80 was lowered into the well on a geophysical cable and its charges (perforation) exploded in the medium of this solution, providing 18 holes per one meter of perforation interval. The pressure in the wellbore during perforation with the PKS-80 puncher was 295 atm, despite the fact that under normal conditions the pressure during the explosion of the charges of such a puncher is 980 atm.

 Before and after perforation of the well by lowering the MAK-2 geophysical instrument into the well bore with recording a full-wave signal, it was established that the integrity state of the annular cement stone after perforation of the well by the PKS-80 cumulative perforator did not deteriorate, but remained within the initial indications before perforation. This indicates that previously performed according to the claimed method by mechanical drilling two through perforation channels that entered the formation rock, reliably guarantee a decrease in pressure in the wellbore from the explosion of charges of the perforator to the limits that ensure the integrity of the annular cement stone.

 When a well was put into operation after perforation, its production rate was 31% higher than that originally installed, which indicates that while maintaining the integrity of the annular cement stone during perforation in the rock-eroding mortar during the implementation of the proposed method, the quality of opening is improved without spending additional time for processing the bottom-hole zone of the well after perforation.

 To implement the proposed method, traditionally used equipment and known solutions are used. The method is simple to implement and can now be used in any oil and gas production enterprise when commissioning new wells that have been drilled after drilling, as well as during the completion and transfer of previously operated wells to other horizons. Thus, the claimed method meets the criterion of "Industrial applicability".

Claims (1)

 A method of opening a productive formation in a cased hole, including filling a wellbore in the perforation interval with a rock-boring solution, for example, an acid solution, lowering an explosive-type perforator into the well and bursting its charges when perforating in a rock-boring solution medium, characterized in that before filling the wellbore with a rock-boring solution in the borehole in the interval of perforation by mechanical drilling through the casing and annular cement stone carry out wiring into the formation rock and at least one through perforation channel.