RU2330157C2 - Method of treatment of well face zone - Google Patents

Abstract

FIELD: mining.

SUBSTANCE: invention relates to oil production industry and is intended for increasing or restoration of the output of wells by treatment of the face zone with application of equipment, which contains a compound that generate gas in the process of combustion. According to the method proposed for treatment of the face zone a unit suspended to a wireline is lowered into the face; the unit comprises an air chamber adjacent to a receiving chamber, in which a gas generating compound is placed; during thermal destruction the compound emits hydrochloric acid. Process exposure is provided for deeper reaction of hydrochloric acid with rock. After the preset delay air chamber is opened by operation of the inflammable diaphragm with the igniter placed on the chamber bottom and pollutants are carried out of the face zone of the formation. Mix of ammonium nitrate of brand "Б" and hexachlorobenzene is used as a compound that generates gas in the process of combustion with emission of hydrochloric acid in the following ratio, mass%: ammonium nitrate of brand "Б 34-35", hexachlorobenzene 65-66.

EFFECT: increase of efficiency of treatment of the face zone of the formation and elimination of fire hazard by implementation of the technique of preparation and application of the gas generating compound.

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Description

The invention relates to the oil industry and is intended to increase or restore the productivity of wells by treating the bottom-hole zone using devices containing composite gas-generating material during combustion.

A known method of processing the bottom-hole zone of a well, including delivering to the bottom on a cable-cable a device consisting of an air chamber ending in a receiving chamber with a composition located therein, generating gas during combustion, burning and formation of heated gaseous products at elevated pressure in the processing interval, opening the air chamber and removal of contaminants from the bottomhole formation zone [RF Patent No. 2138630, cl. ЕВВ 43/25, publ. 09/27/99, bull. No. 27].

The disadvantage of this method is the low efficiency of processing the bottom-hole zone of the formation, composed of carbonate rocks. Due to the chemical inertness with respect to the formation rock, the gases generated during combustion are not able to affect the rock skeleton and increase the porosity of the carbonate reservoir.

A known method of processing the bottom-hole zone of a well, including delivering to the bottom on a cable-cable a device consisting of an air chamber ending in a receiving chamber with a gas-generating composition located in it, burning a gas-generating composition in the receiving chamber, which releases hydrofluoric and hydrochloric acids during thermal decomposition, and the formation of heated gaseous products at elevated pressure in the processing interval, the implementation of technological exposure for a deeper reaction of hydrofluoric and hydrochloric acid tons of rock, opening after a predetermined period of time of the air chamber by triggering a combustible diaphragm with an igniter installed on its bottom and removing contaminants from the bottomhole zone (see RF Patent No. 2173775, class E21B 43/27, publ. September 20, 2001, bull. No. 26).

As a gas generating composition, a mixture is used, including, wt.%:

Ammonium nitrate 30-35 Ammonium bifluoride 45-50 Ammonium chloride 17-22

or composition, wt.%:

Ammonium nitrate 40-50 Polyfluorochloroethylene 45-50 Epoxy compound 5-10.

The operation of the igniter of the combustible diaphragm of the air chamber in this method is performed from an electric pulse supplied from the wellhead through a cable or from a spirally located space between the combustible diaphragm and the upper end of the gas-generating composition in the receiving chamber of the fireproof cord, one end of which is connected to the ignitor of the combustible diaphragm , the other end - to the end of the gas-generating composition, from which the fire-resistant cord is ignited.

An advantage of the known method is that as a gas-generating composition, a mixture is used that liberates hydrofluoric and hydrochloric acids during thermal degradation, which can chemically interact with the rock skeleton and thereby increase the porosity and reservoir properties of the terrigenous reservoir. The method allows, in addition, to carry out technological exposure before opening the air chamber, due to which there is a deeper reaction of acids with the rock.

The disadvantage of this method is the low processing efficiency of the bottomhole formation zone, composed of carbonate rocks, because The mixtures proposed as gas-generating compositions emit a mixture of hydrofluoric and hydrochloric acids during thermal degradation, suitable only for treating terrigenous reservoirs with a low, less than 0.5% carbonate content. In addition, the content of hydrochloric acid (0.1 kg / kg), released together with hydrofluoric acid during thermal degradation of the gas-generating composition by this method, is not only insufficient for treating the carbonate reservoir, but also for efficient processing of terrigenous rock, as at a low content of hydrochloric acid, the hydrated silicon oxide formed as a result of the reaction of hydrofluoric acid with terrigenous rock turns into a gel, which negates the treatment effect [see, for example, Z.I. Ibragimov, N.I. Khisamutdinov. Reference manual on the use of reagents in oil production. - M .: "Nedra", 1983, p.18].

Closest to the invention in terms of technological essence are a method for treating a bottomhole zone of a well, which includes delivering to the bottom of a device using a cable cable an air chamber ending in a receiving chamber with a gas-generating composition from the mixture emitting hydrochloric acid during thermal decomposition, combustion gas-generating composition and the formation of heated gaseous products at elevated pressure in the processing interval, the implementation of technological exposure for more deep reaction of hydrochloric acid with the rock, opening after a predetermined period of time of the air chamber by triggering a combustible diaphragm with an igniter installed on its bottom and removing contaminants from the bottomhole formation zone. A distinctive feature of the prototype method is that a mixture is used as a gas generating composition, each of the components of which emits hydrochloric acid during thermal decomposition, the mixture comprising, wt.%: Ammonium perchlorate 40-45 and polyvinyl chloride 55-60 [see RF patent No. 2234599, cl. ЕВВ 43/27, publ. 08/20/2004, bull. No. 23].

The disadvantage of the prototype method is that the gas-generating material used is an explosive substance (a mixture based on ammonium perchlorate and fuel belongs to hazard class 1.3 - "explosive materials are fire hazardous, not explosive with mass" GOST 19433-88) and is dangerous in the technologies for its manufacture and application, which reduces the success and, consequently, the processing efficiency. Another disadvantage is the reduction in processing efficiency due to incomplete combustion of the gas generating composition, which, as shown by bench tests simulating downhole conditions, leads to the formation of up to 15-20 wt.% Slags that can clog pores and channels of the formation. This is due to the fact that technical grade PVC polyvinyl chloride (GOST 14932-78), manufactured by the industry, contains, in addition to the main component, chemical and thermal stability stabilizers, antioxidants, as well as pigments, fillers and other additives. In addition, another disadvantage of the prototype method is the insufficient efficiency of processing the bottom-hole zone of the carbonate rock formation, due to the relatively low content (0.47 kg per kg of composition) of hydrochloric acid released during combustion of the mixture used for this purpose from the gas-generating composition.

The present invention solves the problem of increasing the efficiency of processing the bottom-hole zone of the formation, composed of carbonate rock, by eliminating these disadvantages.

The problem is solved in that in a method for processing a bottom-hole zone of a well, including delivering to the bottom on a cable-rope a device consisting of an air chamber ending in a receiving chamber with a gas-generating composition during combustion during combustion, which releases hydrochloric acid during thermal decomposition, combustion of the gas-generating composition and the formation of heated gaseous products at elevated pressure in the processing interval, the implementation of technological exposure for a deeper reaction of hydrochloric acid with hydrogen, opening after a predetermined period of time the air chamber by triggering a combustible diaphragm with an igniter installed on its bottom and removing contaminants from the bottomhole formation zone, according to the invention, a mixture of brand B ammonium nitrate and hexachlorobenzene is used as the gas-generating composition during the combustion with the release of hydrochloric acid ratio, wt.%:

Grade B ammonium nitrate 34-35 Hexachlorobenzene 65-66.

To implement the method, a known device is used (see, for example, RF patent No. 2173775, CL ЕВВ 43/27 dated 09/20/2001, bull. No. 26), including an air chamber with atmospheric pressure, a diaphragm with an igniter and a receiving chamber with her gas generating composition. Between the combustible diaphragm and the gas-generating composition, a cavity is made with technological windows for penetration of the borehole fluid into the air chamber. Deliver to the face on the cable of the device, the combustion of the gas-generating composition and the formation of heated gaseous products at elevated pressure in the processing interval. Before opening the air chamber, technological endurance is carried out for a more complete melting of the calcining deposits and a deeper reaction of hydrochloric acid released during the destruction of the gas generating composition with carbonate rock.

The duration of the technological exposure is ensured by the timely supply of an electrical impulse from the wellhead through the cable to the igniter of the combustible diaphragm. The latter burns out and opens the air chamber. Due to the flow of liquid into the air chamber at the bottom, a sharp decrease in pressure is created. Pollution in the form of deposits and reaction products of hydrochloric acid with the rock is more fully carried out from the bottomhole zone. Then perform the operation of extracting the device from the well.

In the proposed gas generating composition, including, wt.%:

Grade B ammonium nitrate 34-35 Hexachlorobenzene 65-66

a mixture is used where ammonium nitrate, NH ₄ NO ₃ , is an oxidizing agent, which is used granular ammonium nitrate (ammonium nitrate) grade B of agricultural purpose. Hexachlorobenzene, C ₆ Cl ₆ , in the mixture is a hydrochloric acid former and plays the simultaneous role of fuel and oxidizing agent. The optimal mixture is hexachlorobenzene 65-66 wt.% And the main oxidizing agent is ammonium nitrate 34-35 wt.%. This ratio ensures the greatest release of hydrochloric acid in an amount of at least 0.49 kg during the combustion of one kg of the mixture, which is 0.02 kg more than when using the gas generating composition according to the prototype method.

The proposed composition is not explosive material and according to the degree of danger belong to class 4.1 - flammable solids (GOST 19433-88).

Bench tests in a liquid medium and pressure simulating borehole, it was confirmed that when the proposed gas-generating composition is combusted, slags are completely absent, i.e. only gaseous products are formed that do not cause clogging of pores and formation channels.

An example of a specific implementation of the method. Bottom-hole treatment is performed in the interval 1160-1165 m of an oil well drilled into an oil reservoir of carbonate rock. The device is delivered to the bottom in the cableway, the gas-generating composition is combusted, and heated gaseous products are formed at elevated pressure in the processing interval. Carry out technological exposure for 15 min for a deeper reaction of hydrochloric acid with the rock, then open the air chamber by operating the combustible diaphragm with an igniter installed on its bottom. The operation of the igniter of the combustible diaphragm of the air chamber is carried out from an electrical impulse supplied through the cable from the wellhead. The diaphragm burns out and opens the air chamber. Due to the high-speed flow of the borehole fluid into the air with atmospheric pressure, the bottom-hole chamber creates a sharp decrease in pressure in the processing interval. Pollution in the form of deposits and products of the chemical reaction of hydrochloric acid with the rock are carried out from the bottomhole zone. As a gas-generating composition, a mixture is used that liberates hydrochloric acid during combustion, including, wt.%:

Grade B ammonium nitrate 34 Hexachlorobenzene 66.

As a result of processing the bottom-hole zone of the formation, composed of carbonate rock, due to the higher content of hydrochloric acid released during the combustion of the gas-generating composition, as well as due to its almost complete combustion without formation of blocking pores and channels of the formation slag, an increase in reservoir properties of the formation and an increase in well production by 60 -70%. Moreover, through the use of non-explosive material of the gas-generating composition, the safety and, accordingly, the success of the application of the method are increased.

Claims (1)

A method for treating a bottomhole zone of a well, including delivering to the bottom of a device using a cable cable an air chamber ending in a receiving chamber with a gas-generating composition located therein during combustion from a mixture that releases hydrochloric acid during thermal decomposition, combustion of the gas-generating composition and formation of heated gaseous products during increasing the pressure in the processing interval, the implementation of technological exposure for a deeper reaction of hydrochloric acid with the rock, opening through the backside the time interval of the air chamber by triggering a combustible diaphragm installed on its bottom with an igniter and removing contaminants from the bottomhole formation zone, characterized in that a mixture of ammonium nitrate grade B and hexachlorobenzene is used as the gas-generating composition during the evolution of hydrochloric acid in the following ratio, wt.%: Grade B ammonium nitrate 34-35 Hexachlorobenzene 65-66