RU2234599C1 - Method of well bottom zone treatment - Google Patents

Abstract

FIELD: oil production industry, particularly for enhancing oil well output with the use of equipment including material generating gas during combustion thereof.

SUBSTANCE: method involves delivering device suspended by cable including air chamber terminated in receiving chambers in which combustible gas-generation material is placed; igniting combustible gas-generation material and as a result obtaining high-pressure gaseous products in treatment area; performing technological curing to provide reaction between hydrochloric acid separated from gaseous products during destruction thereof and mining rock; opening air chamber and discharging contaminants from well bottom zone. Gas-generation composition is mixture of agents forming hydrochloric acid during thermal destruction process, namely ammonium perchlorate in amount of 45 - 40 % by weight and polyvinylchloride in amount of 55 - 60% by weight.

EFFECT: increased efficiency of carbonate rock bottom zone treatment.

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Description

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

A known method of processing the bottom-hole zone, including delivering on a cable to the bottom a combined thermogas generator with a reaction material from a gas-generating combustible composite material and a container with a working fluid, the formation of a stream of heated gaseous products of combustion of a thermogas generator, heating the working fluid and mixing with gaseous products of combustion , the creation of hydraulic pressure in the interval of treatment of the reservoir (RF patent N 2139423, CL E 21 In 43/25, published. 1999).

The known method is not effective enough due to incomplete removal of mud products from the bottomhole zone of the well.

A known method of processing the bottom-hole zone of a well, comprising delivering to the bottom of a device cable 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 N 2138630, class E 21 B 43/25, published. 1999).

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 of the gases generated during combustion to the formation rock, they are not able to increase the porosity and permeability of the carbonate reservoir.

Closest to the invention in terms of its technological essence is a method for treating a bottomhole zone of a well, comprising delivering to the bottom on a cable-rope a device consisting of an air chamber ending with a receiving chamber with a gas-generating composition located in it, burning a gas-generating composition in the receiving chamber that emits fluoride during thermal decomposition and hydrochloric acid, 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 acids with the rock, opening the air chamber after a predetermined period of time 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 E 21 V 43/27 , publ. 09/20/2001, bull.№26 - prototype).

As a gas-generating composition in the prototype method, a mixture is used that releases hydrofluoric and hydrochloric acids during thermal degradation, including, wt.%:

Ammonium Nitrate 30-35

Ammonium Bifluoride 45-50

Ammonium Chloride 17-22

or composition, wt.%:

Ammonium nitrate 40-50

Polyfluorochlorethylene 45-50

Epoxy Compound 5-10

In this method, the ignition of the combustible diaphragm of the air chamber is triggered by an electric pulse supplied from the wellhead via a cable or from a spiral-shaped space between the combustible diaphragm and the upper end of the gas-generating composition in the receiving chamber of the fire-retardant 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 prototype device is that as a gas generating composition, a mixture is used that releases 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.

Another advantage is the possibility of technological exposure before opening the air chamber, which allows for a deeper reaction of acids with the rock.

The disadvantage of the prototype method is the low efficiency of processing the bottom-hole zone of the formation of carbonate rocks, because The mixtures proposed as gas-generating compositions emit a combination of hydrofluoric and hydrochloric acids, which are suitable only for the treatment of terrigenous reservoirs with insignificant, less than 0.5% carbonate, during thermal decomposition. In addition, the content of hydrochloric acid (0.1 kg / kg), released together with hydrofluoric acid during thermal decomposition of the gas-generating composition by the prototype method, is not only insufficient for treating the carbonate reservoir, but also for efficient processing of terrigenous rock, as when the content of hydrochloric acid is low, the hydrate of 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, G.Z. Ibragimov, N.I. Khisamutdinov. Reference manual on the use of reagents in oil production. - M .: Nedra, 1983, p.18].

The present invention solves the problem of increasing the efficiency of processing the bottom-hole zone of a formation composed of carbonate rock. The problem is solved in that in a method for processing a bottom-hole zone, which includes 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 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 the rock, p opening the air chamber after a predetermined period of time 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 is used as a gas-generating composition during combustion, each of which emits hydrochloric acid during thermal degradation, including, by weight. %:

Ammonium Perchlorate NH ₄ ClO ₄ 40-45

Polyvinyl chloride (C ₂ H ₃ Cl) _n 55-60

To implement the method, a known device is used (see, for example, RF patent No. 2173775, class E 21 B 43/27 of 09/20/2001, bull. No. 26), including an air chamber with atmospheric pressure, a diaphragm with an igniter and a receiving chamber with a in it a 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 technological exposure is ensured by the timely supply of an electrical impulse from the wellhead via a cable 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.%:

Ammonium Perchlorate NH ₄ ClO ₄ 45-40

Polyvinyl Chloride (C ₂ H ₃ Cl)

PVC grade GOST 14932-78 55-60

a mixture is used, each of the components of which during thermal degradation releases hydrochloric acid. Thus, in a mixture, ammonium perchlorate NH ₄ ClO ₄ is an oxidizing agent and simultaneously a hydrochloric acid producer, and polyvinyl chloride (C ₂ H ₃ Cl) _n is a combustible and also hydrochloric acid producer in a mixture. When 1 kg of the proposed composition is burned, 0.47 kg of hydrochloric acid is formed in a high-temperature gas-liquid state. During the combustion of this mixture, only gaseous products are released in an amount of 800 l / kg in the form of HC1, H ₂ , CO ₂ , CO, N ₂ . The combustion temperature on the surface of this mixture is 2500 ° C.

Examples of specific performance of the method

Example 1. Carry out the treatment of the bottom-hole zone of an oil-producing tale 1200 m deep with an oil reservoir in a carbonate reservoir. The device is delivered to the bottom of the cable, burning the gas-generating composition and the formation of heated gaseous products at elevated pressure in the processing interval 1192-1197 m. Technological exposure is carried out for 15 minutes for a deeper reaction of hydrochloric acid with the rock, then after 15 minutes opening the air chamber by triggering a combustible diaphragm with an igniter installed on its bottom. The operation of the igniter of the combustible diaphragm of the air chamber is performed from an electrical impulse supplied from the wellhead via a cable-cable. The diaphragm burns out and opens the air chamber. Due to the flow of the borehole fluid 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 are carried out from the bottomhole zone. As a gas-generating composition, a mixture is used that liberates hydrochloric acid, including, wt.%:

Ammonium Perchlorate 45

Polyvinyl chloride 55

Example 2. Perform as example 1. As a gas-generating composition using a mixture that produces hydrochloric acid, including, wt.%:

Ammonium Perchlorate 40

Polyvinyl chloride 60

As a result of processing the bottom-hole zone of the formation, composed of carbonate rock, due to the high content of hydrochloric acid acting on the formation at a higher temperature and the specific volume of gaseous products, an increase in reservoir properties of the formation and an increase in well production by 45-50% are achieved.

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 increased pressure in the processing interval, the implementation of technological exposure for a deeper reaction of hydrochloric acid with the rock, opening through the back a certain period of time of the air chamber by triggering a combustible diaphragm with an igniter installed on its bottom and removing contaminants from the bottom-hole formation zone, characterized in that a mixture is used as a gas-generating composition during combustion, each of which emits hydrochloric acid during thermal decomposition, including, by weight. %: Ammonium Perchlorate, NH ₄ ClO ₄ 45 - 40 Polyvinyl chloride, (C ₂ H ₃ Cl) _n 55 - 60