SU153051A1 - - Google Patents

Description

Methods are known for interval hydraulic fracturing of a plastic using packers and Koreas.

In the described method, the separation of a fractured stratum from you: an elec- tricity is proposed to be carried out with the help of a hydraulic seal (a thickened branch pipe with rubber rings or maplets), which is lowered into the interval between these layers. The use of this method will create resistance to the flow of fluid into the leachable formations and will protect the cement ring from destruction.

FIG. 1 shows a schematic representation of a device for carrying out the proposed method: a — installing a hydraulic seal or during hydraulic fracturing of a lower formation; b - its installation during hydraulic fracturing of the upper layer; in fig. 2 shows schematically the following trap locks: a-upper tube; b - top sealing.

In the selected interval, more favorable conditions are created for the formation of cracks than in the lower and leachable opened formations, by cutting off the selected formation from the top by a hydraulic seal, and from the bottom by a sandy plug, and by the direction of flow of the injected fluid into one formation.

In the case of hydraulic fracturing of the lower layer I, a hydraulic lock 2 is installed above the ethnm layer, and a packer 3 with Kor 4 is above the upper layer 5. With hydraulic fracturing of the upper layer, the equipment is lifted and the hydraulic lock is set higher than this layer, and the lower layer is blocked with a sand plug 6. The sand plug is created by pumping a calculated amount sand through pump-compressor pipes for low-viscosity liquid with a small flow. To protect the production column from the effects of high pressures arising from hydraulic fracturing, it is sealed with conventional

 153051

cnoco6ojM using a packer that is installed above the uppermost stratum. Directly above the fractured formation filter, a hydraulic lock is installed, which protects the hydraulic zone of the formations that lie below the fractured layer, from high pressure drops, and also prevents excess fluid leakage in these formations during fracturing.

To implement hydraulic fracturing according to the proposed method, it employs hydraulic seals of the corresponding design. Thus, the upper pipe hydraulic valve (Fig. 2a) consists of a housing 7, which are attached to the nozzles 8 and 9, the sand-catcher 10 and the working cylinder //. The gap between the pipe seal and the column remains the same all the time. The upper sealing hydraulic valve consists of a body 12, fastening the branch pipe 13 with openings with a branch pipe 14, a sand-catcher 15 and rubber cuffs 16, shaped in cross section with a trapezium shape and provided with a recess. The cuffs are pressed against the nipple 13 by metallic rings 17, the nodal bushing 18 and the sub 19. This hydraulic seal is sealed due to the pressure drop.

A hydraulic lock installed between the fractured and the overlying strata reduces the pressure drop acting on the cement rings of the bridges between these strata and thereby prevents them from breaking.

Subject invention

Interval hydraulic fracturing with the use of pokers and Koreas, characterized in that, in order to create resistance to the flow of fluid into the leach layers and protect the cement ring from destruction, the separation of the fractured reservoir from the overlying one is carried out using a hydraulic lock (thickened pipe with rubber rings or a thickened joint with rubber rings or a thickened joint with a hydraulic lock (thickened pipe with rubber rings or a thickened joint with rubber rings or a thickened joint with a hydraulic lock (thickened pipe with rubber rings or a thickened pipe). ), descending into the interval between these layers.

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FIG. 2