RU2459946C2 - Treatment method of bottom-hole zone of formation with liquid combustible oxidation compound - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: method involves arrangement of combustible oxidation compound (COC) in the well, installation of COC burning initiator by lowering it in a tight container. COC is arranged in the well by being delivered in a container using a conducting and COC is poured out as solid mass to the working face till the treatment interval bottom level. Combustion initiator is delivered in a tight container using a conducting rope to the area of boundary line of COC and well fluid. As combustion initiator in a tight container there used slightly gassy, slowly burning and high-temperature solid composition, for example based on iron-aluminium thermite; after that, immediate actuation of combustion initiator is performed from source of electric power supplied through conducting rope from the well head with possibility of layer-by-layer COC combustion.

EFFECT: improving the method's efficiency due to simplifying the delivery operations of COC and combustion initiator, layer-by-layer combustion and sufficient increase in action of heated gases by means of rational arrangement and actuation of COC combustion initiator.

1 ex

Description

The invention relates to the oil industry and can be used for fracturing and treating the bottom-hole formation zone with heated gases generated during the combustion of a liquid fuel-oxidative composition.

Widely used in practice methods for treating the bottom-hole zone with liquid combustible-oxidizing compounds (GOS) include two main operations - pumping the GOS from the wellhead into the bottom of the well through tubing and tubing and delivering a cable-rope to the treatment zone of the GOS combustion initiator in the form of a powder charge.

Thus, there is a known method of treating a formation with a liquid combustible-oxidizing composition, including the placement of GOS in the well by lowering the tubing to the bottom, through which the calculated amount of GOS is pumped from the wellhead using pumping units, the GOS is pushed into the treatment zone and the tubing is subsequently lifted to a safe distance from the location of the GOS. Then, the GOS combustion initiator is installed by a cable with a cable initiator at a depth of 10-50 m from the upper GOS boundary, and a powder charge from ballistic or mixed fuel, in particular a PGD.BK-100M type powder generator, is used as a combustion initiator (source of thermal energy). , weighing at least 7 kg. As GOS in this method, aqueous solutions of ammonium nitrate with water-soluble fuel of organic origin are used. To prevent water hammer on wellhead equipment before setting fire to GOS, part of the well fluid is removed from the well [see RF patent No. 2092682, E21B 43/263, publ. 10/10/97, bull. No. 28].

The advantage of the method is the increase in the duration of the effective part of the pressure pulse during the combustion of gas-condensate.

The disadvantages of the method are the complexity and duration of the GOS well placement by lowering the tubing to the bottom, pumping from the wellhead through the GOS tubing and pumping it into the treatment zone using pumping units, as well as the use of an explosive powder charge of explosive as the initiator of the GOS combustion, placing it directly in the volume of GOS mass, which inevitably leads to a volume explosion of the entire GOS mass and the possibility of violating the integrity of the well structure and wellhead equipment.

Closest to the invention by its technological essence is a method for thermochemical treatment of a productive formation, which includes placing a fuel-oxidizing composition into the treatment zone of a well by pumping it through a tubing string, installing a combustion initiator by lowering it in a sealed container through a tubing string by means of a production winch directly into a combustible the oxidizing composition and subsequent destruction of the container by exploding a cord torpedo mounted along the entire length of the container, when in contact during the descent of the container of contacts of the cord winch and the source of electricity installed in the shoe of the tubing string. In this case, a solid or liquid (suspension) composition based on alkali metal borohydrides and alkali (NaOH or KOH) is used as a combustion initiator. Upon contact with water, borohydrides decompose under borehole conditions with the release of hydrogen gas, a large amount of heat and sharp pressure [see RF patent No. 2153065, E21B 43/24, 43/25, publ. 07/20/2000].

A distinctive feature of the prototype method is that the combustion initiator is delivered to the GOS mass in a sealed container by descent through the tubing using a fishing winch.

The disadvantages of the prototype method are the complexity and duration of the GOS in the well treatment zone by pumping it through the tubing string, as well as the complexity, unreliability and danger of the initiation of combustion in a sealed container, requiring its preliminary destruction by explosive in the form of a cord torpedo, the need to establish the source of electricity in the tubing shoe and the contact of its contacts with the contacts of the winch. The specified operation of the combustion initiator in the GOS environment also leads to a volumetric explosion of the GOS with a sharp increase in pressure, which can lead to a violation of the integrity of the well structure and wellhead equipment.

The aim of the invention is to increase the efficiency of the method by simplifying the technology for the delivery and placement of GOS in the bottom of the well, as well as the operations of placement and operation of the initiator of GOS combustion.

The goal is achieved by the fact that in the method of treating the bottom-hole formation zone with a liquid combustible-oxidizing composition (GOS), comprising placing the GOS in the well, installing the GOS initiator by lowering it in a sealed container, according to the invention, the installation of GOS in the well is carried out by delivering it to the well-container cable-cable and pouring of GOS as a single mass into the face to the bottom level of the reservoir treatment interval, and the delivery of the combustion initiator in a sealed container is carried out with a cable-cable to the interface GOS and well fluid. In this case, a low-gas, slow-burning and high-temperature solid composition, for example, based on iron-aluminum termite, is used as a combustion initiator in a sealed container. Then, the combustion initiator is directly actuated from the source of electric power supplied through the cable from the wellhead, with the possibility of layered combustion of the GOS.

To implement the method, the placement of GOS in the well is carried out by delivering it to a well-known container-bailer [see RF patent No. 2209930, publ. 08/10/2003, bull. No. 22], representing a case with windows in the upper part and including a cover on shear elements, a grid-divider dividing the cavity of the baffle into two chambers - the upper one for placement of an inert liquid (water) charge with an electric igniter and the lower one for placing GOS, a head for cable entry and plugs. The plug is made in the form of an elastic combustible membrane of a segmented shape, with a spherical surface facing the housing cover. In this case, the spherical surface of the membrane is connected with a combustible-oxidizing composition placed in the chaser with a strong polymer thread with the possibility of fixing this membrane thread to the surface of the lower end of the GOS plug formed after it is displaced from the chipper. As a charge with an electric igniter, a well-known gas-generating pressure generator cartridge is used, which is a plastic case equipped with an non-explosive gas-generating composition based on ammonium nitrate and a combustible epoxy polymer and an electric ignition assembly [see, for example: Gas-generating pressure-relief cartridge. - Rosinformresurs. Tatar center of scientific and technical information. Information leaflet No. 5-95, 1995].

As GOS in the proposed method, aqueous solutions of ammonium nitrate (ammonium nitrate) with water-soluble fuels of organic origin widely used in the oil industry can be used, for example glycerin, urea, phenol, ethanolamine nitrate, etc. [see, for example: RF Patent No. 2219332 E21B 43/22, 43/25 of 12/20/2003; Scientific and Technical Bulletin "Logger", issue 43, Tver, 1998, p. 45-46].

As the initiator of GOS combustion in a sealed container, the invention uses a well-known downhole source of thermal energy of the type PPC (chemical reservoir heater), based on the process of layer-by-layer combustion directly in the bottom of a small-gas well (70-80 l per kg of composition), slow burning (2-3 mm / s at a borehole pressure of 10 MPa) and a high-temperature solid composition on the combustion surface (about 2400 ° C), for example, based on iron-aluminum termite. The composition is non-explosive, because does not have explosive properties. The proposed GOS combustion initiator is a hermetically sealed container, consisting of a device for connection to a standard cable head, a termite-based compound (iron-aluminum termite, barium nitric acid, aluminum powder and a combustible epoxy compound from resin type ED-20 taken in the ratio of 67 : 25: 3: 5 wt.%), An electric ignition unit and a chamber, which serves to accumulate the slag composition formed during layer-by-layer combustion [see, for example: Chemical heater of a PPH formation. - J. Oilfield business, No. 12, 1976; Chemical heaters of the PPH layer. - Rosinformresurs. Tatar center of scientific and technical information. Information leaflet No. 6-94, 1994].

The proposed method for processing the bottom-hole formation zone with a fuel-oxidative composition is as follows.

Placement of GOS in the well by delivering it with a container-chasing. For this purpose, a plug is installed in the choke — a combustible membrane, GOS, a grating-divider, a gas-generating cartridge-pressure generator (charge with an electric igniter), water as an inert liquid, and a head for introducing a cable-rope. Curb container on the cable-rope descends into the bottom of the well. Then, an electric impulse is supplied from the mouth through the cable-rope, after which the gas-generating pressure generator-cartridge is sequentially burned automatically in the automatic mode, the gases formed in this case exert pressure simultaneously on an inert liquid, GOS and the membrane connected with it with a polymer thread. GOS together with the membrane, freed from the choke inside the well, forms a single mass - a cork in the bottom, located to a predetermined level of the bottom of the interval of the formation.

In the next operation, the GOS combustion initiator is delivered on a cable-cable in a sealed container - a downhole source of thermal energy of the PPC type based on solid termite composition to the interface between the GOS and the well fluid. Then, the combustion initiator is directly actuated by an electrical impulse supplied through the cable from the wellhead. Due to the low burning rate of the termite composition and the small volume of gases emitted at the same time, it is possible to maintain the constancy of the GOS ignition surface area at the interface between it and the well fluid, and due to the high combustion temperature of the thermite composition, to ensure the reliability of GOS ignition. As a result, uniform heating, ignition and combustion of GOS from layer to layer is achieved, i.e. layered, so-called in literature, normal combustion. Layer-by-layer combustion of GOS in borehole conditions leads to a significant increase in the duration of exposure to heated gases generated during combustion on the bottomhole zone with a moderate increase in pressure in the treatment interval compared to volumetric combustion of GOS when using existing combustion initiators located directly in the middle of the GOS mass, which leads to to a sharp increase in pressure and the possibility of violating the integrity of the well design. In addition, in comparison with volumetric combustion, which creates a sharp increase in pressure and a short-term effect of gases on the treatment interval, the GOS layer-by-layer burning provides more complete heating, melting and subsequent removal of the asphaltene-resinous and paraffin deposits that clog the formation channels and pores of the formation, leading to an increase in collector deposits properties of the bottomhole formation zone.

An example of a specific implementation of the method

The bottom-hole zone of the oil producing well is treated at a depth of 1200 m and a bottom pressure of 12 MPa. To carry out the treatment of the bottom-hole zone of the formation in the interval 1188-1195 m, GOS in the amount of 80 kg is delivered to the well on the cable cable to the bunker container to a depth of 1199.5 m. Then, an electric impulse is fed through the cable cable from the wellhead after actuation in the bailer gas-generating cartridge-pressure generator with a slow lifting of the bobbin, the GOS is poured together with the combustible membrane, forming a single mass plug in the bottom to the level of 1195 m. As the GOS, a liquid composition is used, consisting in wt.% of ammonium nitrate - 60.4; glycerol - 10 and water - 29.6; with a density of 1390 kg / m ³ [See RF patent No. 2100583, E21B 43/25, publ. 12/27/97, Bull. No. 36]. After the GOS is poured out, the container-choke is lifted to the day surface and in the next operation, the initiator of combustion is delivered on the cable-rope as a downhole source of thermal energy of the PPH type with a mass of 10 kg of solid termite composition to a depth of 1195 m. From the electric pulse supplied from the wellhead through the cable-cable performs the direct actuation of the combustion initiator. In the area of the GOS - well fluid boundary, uniform heating, ignition and layer-by-layer combustion of GOS takes about 20 minutes with an average GOS burning rate of about 4 mm / s. At the end of the GOS combustion, its combustion products ignite and burn the membrane at the bottom of the well. In the process of layer-by-layer combustion of the GOS column, the pressure in the bottom of the well rises from 12 MPa to 18 MPa. Due to the treatment of the bottom-hole zone of the formation with heated gases during the burning of GOS, a two-fold increase in the permeability of the reservoir is achieved.

The present invention thus increases the efficiency of the method by simplifying the operation of delivering GOS and the initiator of combustion, providing layer-by-layer combustion and significantly increasing the duration of exposure of heated gases to the formation due to the rational placement and operation of the initiator of combustion of the GOS.

Claims (1)

A method for treating the bottom-hole zone of a formation with a liquid combustible-oxidizing composition - GOS, including the placement of GOS in the well, the installation of the GOS combustion initiator by lowering it in a sealed container, characterized in that the placement of GOS in the well is carried out by delivering the GOS in the well to the cable cable and pouring GOS with a single mass into the bottom to the bottom level of the processing interval, delivery of the combustion initiator in a sealed container is carried out with a cable-cable to the interface between the GOS and the well fluid, moreover, a low-gas, slow-burning and high-temperature solid composition, for example, based on iron-aluminum termite, is used as a combustion initiator in a sealed container, then the combustion initiator is directly actuated from an electric power source supplied through a cable from the wellhead, with the possibility of layered combustion of GOS .