RU95114506A - METHOD FOR STRENGTHENING A GAS WELL BOTTOM AREA FOLDED BY WEAKLY CEMENTED COLLECTORS AND A DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (7)

1. A method of strengthening the bottom-hole zone of a gas well, composed of weakly cemented reservoirs, including the destruction of the sand plug, washing the wellbore, raising the drilling tool and lowering the tubing string with a packer, packing, tying the wellhead and installing fountain fittings, developing the well and putting it into operation operation with an estimated flow rate through the pipe channel, well shut-off, injection of a fixing composition into the pipe channel, its pushing by a pumping unit, processing of water zone in the interval of the opened reservoir, time delay for hardening the consolidating composition, injection of gas through the pipe channel into the well, development of the well and putting it into operation with the estimated flow rate through the pipe channel, characterized in that after the destruction of the sand plug before washing, the bottom hole zone in the interval of the opened reservoir, they expand, the lower end of the string of tubing before lowering into the well is equipped with two valves that can be sequentially closed by discharge a spherical locking element inserted into the pipe channel, and a pipe placed between them with through radial channels and an annular narrowing in the axial channel, and after stopping the well, steady wellhead pressure is noted and the locking device is discharged into the pipe channel, and after the fixing composition is injected into the pipe channel a separation plug, and gas injection into the well is carried out immediately after treatment of the bottom-hole zone with a fixing composition by its release into the annular channel from the tubing string pipes, while the pumping process is stopped after the dividing plug is planted in the annular narrowing of the axial channel of the nozzle, and after soaking in time until the annular wellhead pressure is restored to the value of the wellhead pressure noted earlier, the well is put into operation through the annular channel with a flow rate of 0.2 - 0.4 from the value of the estimated flow rate until the end of the hardening period of the fixing composition, after which the well is stopped and the well is resumed to pack and then extrude I’m separating the plug and the locking ball from the tubing string to the bottom of the well, and then develop the well and put it into operation through a pipe channel with an estimated flow rate.  2. The method according to claim 1, characterized in that after tying the wellhead and installing fountain fittings, a portion of electrically activated water is pumped into the bottomhole zone, and development of the well is carried out after 3-4 hours in the bottomhole portion of the injected portion of electrically activated water.  3. A device for implementing a method of strengthening the bottom-hole zone of a gas well, composed of weakly cemented reservoirs, containing a pipe connected to the lower end of the tubing string with an axial channel and through radial channels arranged around the circumference, upper and lower valves connected to the pipe with bodies and seats , overlapped by a locking body, characterized in that the pipe is placed between the valve bodies, and its axial channel is made with a stepped inner surface and count narrowing in the upper part, and through radial channels are made in the middle part of the pipe under the annular narrowing of its axial channel, the seat looks like a split collet with feathers, and the body is a kind of hollow cylinder with a stepped inner surface and with an inner annular groove for placement in collet feathers, the latter is installed in the housing with the possibility of axial movement relative to it, while the collet feathers, in its lowest position relative to the housing, can interact with the inner with a face groove of the body, and the collet, in its extreme upper position relative to the body, is connected with it using shear pins, and the shear force of the pins of the lower valve exceeds the shear force of the pins of the upper valve, while the shut-off element is made in the form of a ball that is discharged from the mouth, which has the possibility of sequential interaction with the seats of the upper and lower valves, and the inner diameter of the annular narrowing of the axial channel of the nozzle exceeds the outer diameter of the ball locking element.  4. The device according to p. 3, characterized in that it is equipped with nozzles that are placed in the through radial channels of the pipe from the outside.  5. The device according to paragraphs. 3 and 4, characterized in that the through radial channels in the nozzle are made at several levels along its length, and the axis of the channels of each level are offset in the horizontal plane relative to the axis of the channels of adjacent levels.  6. The device according to paragraphs. 3 to 5, characterized in that the axis of the nozzles located in the through radial channels make up a straight or acute angle with the axis of the nozzle.  7. The device according to paragraphs. 3 - 6, characterized in that it is equipped with flow turbulators in the form of plates spirally bent in the axial direction, the axis of rotation of the plate coinciding with the axis of the through radial channel, while the turbulators are installed in the through radial channels of the pipe between the nozzle and the axial channel of the pipe.