SU794199A1 - Device for treating bottom-hole area of well - Google Patents

Description

The body of the sleeve overlaps its exhaust and drive channels, and the check valve is made of an acid soluble material.

The drawing shows the proposed device, a vertical section.

The device is lowered into the well on the pipes. It comprises a housing 1 with exhaust 2, drive 3, side 4 and 5 channels and protrusions 6-11, in which a differential hollow piston 12 is placed concentrically, having a hole 13 of small diameter, a protrusion 14, sealing surfaces 15 and 16, a grip 17 for connection with the spring 18. The second end of the spring 18 is attached to the housing 1 by means of a grip 19 with an adjusting thread and an adjusting nut 20.

The sealing surface 15 has a slightly larger diameter than the surface 16. The space between the surfaces 16 and 15 of the differential stem 12 and the housing 1 is the main chamber 21, which is permanently communicated with the annulus of the well by means of the aperture 4.

A differential bushing 22 is telescopically connected to the differential piston 12 with side channels 23, which is installed in the annular groove of the piston 12. The differential piston, the housing and the bushing 22 form a chamber 24 permanently connected by a hole 13 in the rod 12 with a pipe cavity. The sleeve 22 overlaps the drive holes 3 in the housing 1 and is held in the lower position by a return spring 25.

At the bottom of the device, a check valve 26 is placed, held in the upper position by the spring 27 and preventing the flow of fluid from the annulus into the tube cavity through the opening 5 in the housing. The valve 26 is made of acid-soluble material, such as duralumin (alloy D-16 GOST 4784-74) or a material similar in its activity with respect to acids, which far exceeds the chemical activity of steel.

The device works as follows.

In the position indicated in the drawing, the device on the tubing string is lowered into the well. Periodically, liquid is pumped into the pipes to fill them. In case the injected fluid volume is larger than the tube cavity, the excess fluid will flow into the annulus through the check valve 26 and the orifice 5.

Upon reaching a predetermined depth, the wellhead is equipped with an x-mas tree and is wound up in the pumping unit so that the pressure can be created both in the cavity of the pipe and in the annulus. By direct circulation through the check valve 26, the drilling fluid in the well is replaced with water or oil, causing inflow from the formation and treated through the annulus. Then proceed to the treatment of the reservoir method of variable pressures. For this, the pressure in the annulus is increased by means of a pump unit. The pressure difference between the annulus and the cavity of the pipe through the hole 4 is transmitted to the chamber 21 and acts on the hollow differential piston 12, mixing it up with the sleeve 22.

Upon reaching. of the specified pressure, the sleeve 22 will move so much that it will open the liquid access to the cavity of the chamber 24 through the drive hole 3. At the same time, the entire pressure differential instantly affects the sleeve 22 and moves it to the extreme position until the upper end of the sleeve stops in the projection 6 of the housing 1 that aligns the hole 23 in valve 22 with openings 2 in the housing. At the same time, under the action of the spring 18, the piston 12 moves down to its original position.

After equalizing the pressures in the tube cavity and the annulus and under the action of the spring 25, the sleeve 22 moves to its original position. The fluid entering chamber 24 is moved through the opening 13 into the tube cavity, and the valve is automatically recharged to repeat the cycle.

If it is necessary to carry out hydrodynamic studies after development, a portion of acid is pumped into pipes and forced through to check valve 26, the valve dissolves in acid, after which the acid and reaction products are flushed to the surface, and research instruments (gauges, thermometers, etc.) are passed through the cleared passage. d.)

Claims (2)

1. USSR author's certificate No. 540029, cl. E 21B 21/00, 13.10.72. 2. USSR author's certificate number 173678, cl. E 21B 43/117, 06.22.64.