SU1411476A1 - Method of forming radial passages in producing level - Google Patents

Abstract

The invention relates to mining, can be used in geo-technology, hydrogeology, as well as in the oil and gas industry and allows to increase the efficiency of the formation of radial channels. A production well is conducted, a hydromonitor (GM) is placed in it on a flexible hose and within the productive horizon or on its contact with the underlying rocks a horizontal cutting is performed by scouring with a GM jet. The horizontal cut is filled with hardening material (TM). After curing the TM, a radial channel is formed by radially inserting the GM along the surface of the TM that has gained strength. In the case of low reservoir masses and weak rocks, an additional hydraulic tube is carried out and its TM is filled. A radial channel is formed between the hydrubes. 1 hp f-ly, 3 ill. (L

Description

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The invention relates to mining and can be used in geotechnology, hydrogeology, as well as in the oil and gas industry when completing production wells.

The purpose of the invention is to increase the efficiency of the formation of radial channels by providing their predetermined directionality at a considerable distance from the wellbore.

FIG. 1 is a diagram of the formation of a horizontal hydrule j in FIG. 2 is a diagram of the formation of a radial channel; FIG. 3 is a diagram of the formation of a radial channel between two hydraulic tubes.

The method will be explained by the example of opening the sandy-clay layer 1 of a small mop; if there are weaker rocks in the underlying rocks. An autopsy is performed to leach the mineral from the formation.

After the production well 2 is completed, a well jet monitor 3 is placed in it, according to which the pressure-air mixture is supplied to the nozzles under pressure, which in the nozzles of the monitor 3 is formed into high-pressure jets. The erosion of the horizontal hydroplane is carried out by rotating the well monitor 3 with the removal of the p & flushed rock by the direct washing method. The erosion of said hydraulic pipe 4 with sufficient thickness of the reservoir 1 can be carried out in its lower part in thickness, and at the minimum thickness of the reservoir 1, the hydraulic pipe 4 should be passed at the contact of the reservoir 1. with the underlying rocks to ensure further formation of channels within the reservoir. Then, hardened material 5 is fed into the developed space of the hydraulic pipe 4 using the same pressure head, which can be used as cement of various grades used for drilling, synthetic resins or various grades of polyurethane foams, foams, rezopenes, etc.

As soon as the hardening material 5 gains strength, a flexible hose with a hydromonitor 6 and a radial deflector 7 of known structures is lowered into the well. The latter serves to deflect the monitor in a given radial direction. Following this

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along the pressure hose, to the hydromonitor 6, a gas-liquid mixture is supplied under pressure and the rocks of reservoir 1 are eroded with simultaneous deflection of the hydro-monitor and injected into the reservoir 1. When the rocks are eroded, the fluid is washed away by the method of direct washing to the surface, and 1, a radial channel 8 is formed. Due to the monolithic horizontal disc-shaped structure, the jetting unit 6 cannot deflect to the underlying rocks, as it moves along the upper surface of the hardened material.

5 in the radial direction. By virtue of a sufficient horizontal radius of the hydraulic pipe 4, the channel 8 and the hydraulic monitor 6 are given a predetermined vertical direction within the limits of the reservoir 1 for a considerable distance from the well 2; In addition, the previously formed screen of hardening material is a kind of antifiltration curtain that prevents the possibility of fluid flow from the near-wellbore working zone to the underlying rocks.

After conducting one radial channel 8, changing the position of the radial diverter 7, several additional radial channels from one well 2 to other horizontal directions can be made using this technology. After each channel 8 is completed, the hose with hydraulic monitor 6 is pulled into the well 2, and may be filled with filter material, such as gravel. Alluvium engraving in channel 8 can be carried out under reduced pressure and reduced fluid flow directly through the sleeve and pressure monitor.

6 when it is removed from channel 8.

In the event that the thickness of formation 1 is low, and weaker rocks occur in the overlying rocks, i.e. when it is possible to leave the hydromonitor in overburden, within the reservoir (in its upper part) or on the contact of the reservoir with overburden, additional hydraulic pipe 9 can be similarly carried out with filling it with hardening material. It is advisable to preliminarily dilute the hydrovubes with the help of the downhole hydromonitor 3, then fill them with hardening material, 314

drill down the cement to the upper edge, lower hydrovrub 4, and then use this method to radially penetrate hydromonitor 6 with a flexible hose into reservoir 1 between hydraulic tubes 4 and 9. In this case, even with minimal reservoir thickness and very weak host rocks, radial channels 8 are penetrated at a low distance from the well 2.

Claims (2)

1. A method of forming radial channels in the productive horizon, including placing a flexible pressure hose in the well with a hydraulic monitor at the end, forming a radial channel within the productive horizon by eroding the rocks while simultaneously defining the hydraulic monitor to the bottom, about 11116 h and y and u with in order to More efficiently, the formation of radial canals due to providing their predetermined directivity at a considerable distance from the wellbore preliminarily within the productive horizon or on its contact with the underlying rocks, completes the horizontal hydraulic tube, fills it with hardening material; radial injection of a hydromonitor with a sleeve in the productive horizon along the surface of a material that has gained strength. 2. The method according to claim 1, characterized in that within the productive horizon or on its contact with overlying rocks, a hydraulic tube is made, filled with hardening material, and a channel is formed between the hydraulic tubes. # fr