SU1548413A1 - Method of opening up a producing formation - Google Patents

Abstract

The invention relates to the mining industry. The goal is to increase the efficiency of the method of opening the productive formation by simplifying the technology of opening and providing the possibility of increasing the anhydrous period of operation by means of the sealing of the annular space. At the working section of the casing (RUK) 1, a shell 2 is made of the material to be removed, for which a mixture of fuel and oxidant is used in a ratio that ensures the complete transition of the mixture into a gaseous state. On both sides of the shell 2 install the ring 3 of thermoplastic material. Installing PKD 1 with shell 2 and rings 3 in the interval of the productive formation 4 with a gap relative to the well for the passage of cement mortar 5. Produced cementing casing and its perforation in the lower part of the ASR 1. Then lower on the cable 8 into the perforation interval powder charge 6 and burn it so that the shell 2 can be ignited through the perforation hole 7. After the shell 2 is burned, the pressure in the well is reduced to call for fluid influx from the reservoir 4. The gas bubble formed in the Shays annulus cavity, is drawn into the space vnutrikolonnoe well and in the process is caused by inflow of fluid from the formation. 3 il.

Description

ratio, providing a complete transition of the mixture to the gaseous state. On both sides of the shell 2 install the ring 3 of thermoplastic material. Installing ASR 1 with shell 2 and rings 3 into the interval of the productive formation 4 with a gap relative to the well for the passage of cement mortar 5. The casing is cemented and its perforation in the lower part of the ASM 1. Then it is lowered onto the cable 8 into the interval

perforation of the powder charge 6 and burn it so that the shell 2 can be ignited through the perforation hole 7. After the shell 2 is burned, the pressure in the well is reduced to call for fluid influx from the reservoir 4. The gas formed in the empty cavity of the annulus is drawn out into the annular space wells and in the process this causes fluid to flow from the formation. 3 il.

The invention relates to the mining industry and is intended to open up reservoirs in oil and gas wells.

The aim of the invention is to increase the efficiency of the method of opening the reservoir by simplifying the technology of opening and providing the possibility of increasing the anhydrous period of operation by pre-seaming the annular space.

FIG. Figure 1 shows a pattern for placing powder charge in a borehole after perforation of a casing string; in fig. 2 is a section A-A in FIG. one; in fig. 3 is a diagram of the formation of a cavity in the annular space after the combustion of the shell and pre-sealing of the annular space.

The method is carried out as follows.

At the working section of the casing 1, the shell 2 is made of the material to be removed, for which the mixture of combustible and oxidant is used in a ratio that ensures the complete transition of the mixture into a gaseous state. After installing the shell 2 on the working section of the casing on both sides of the shell 2 install the ring 3 of a thermoplastic material. Then, the working section of the casing 1 with the shell 2 and the rings 3 are installed in the interval of the productive formation 4 with a gap relative to the well for the passage of cement mortar 5, the casing is cemented and its perforation is in the range of the working section of the casing 1, and the perforation produced at the bottom of the work area. After perforation down

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, - 5 Q in the perforation interval of powder charge 6 and burn it, ensuring the possibility of igniting the shell 2 through the perforation hole 7. After the combustion of the shell 2, the pressure in the well is reduced to call for the flow of fluid from the reservoir 4. A mixture is used as a mixture of fuel and oxidant. a mixture of 40% epoxy resin (fuel) and 60% perchlorate ammonium (oxidizer). The following mixtures are also possible: 60% thiokol and 40% ammonium nitrate; 65% polyurethane and 35% potassium nitrate; 50% polyurethane and 50% perchlorate ammonium; 70% phenol formaldehyde resin and 30% sodium nitrate. In the shell for the passage of cement mortar 5, 4 slots are provided. The powder charge 6 is lowered on the cable 8. When the powder charge is burned, the hot gases heat a section of the casing against the productive formation 4 and, penetrating through the perforation 7, directly affect the material of the shell 2, which ultimately initiates its combustion. In this case, the average temperature in the annular space against the productive formation 4 rises to 500 ° C, for 10–20 s, shell 2 burns, resulting in a cavity 9 in the annular space filled with gas released during combustion 10. Under the influence of temperature, the thermoplastic material of the rings 3 melts and fills the voids 11 above and below the cavity 9 formed. After the end of the burning, the pressure behind and inside the casing is equalized, while in the annulus against the reservoir

Claims (1)

a gas bubble 10 remains. After the level of the wellbore fluid is lowered, the gas bubble is drawn into the intracavity space of the well, and in the process this causes fluid inflow from the formation. Invention Formula seagulls, characterized in that, in order to increase its efficiency by simplifying the opening technology and providing an opportunity. increase the anhydrous period of operation by re-sealing the hardened space, after installing the shell on the working section of the casing The method to open the productive plastic column on both sides of the shell is one that includes installing a casing from a removable material at the working section of the casing, installing a working section of the casing with a casing in the interval of the productive formation with a clearance relative to the well for the cement slurry, cementing the casing, perforating it in the interval of the working section of the casing and removing both - fig.i rings of thermoplastic material are tanned, and a mixture of fuel with oximate is used as the shell material to be removed, the casing string is perforated in the lower part of the working section, the shell is removed by burning, and after removing the shell the pressure in the well is reduced to call for fluid flow from the reservoir. Fig.z