SU1328524A1 - Method of preparing to hydraulic mining through wells from subterranean formations - Google Patents

Abstract

The invention relates to the field of mining, geology and construction, and m. used in downhole hydroproduction of minerals, in gross testing of productive horizons and in the construction of underground cavities. The goal is to increase the efficiency of preparation for hydropobic by strengthening the roof with a significant V “W E 00 el N5 4 Ig. f

Description

naked areas. When processing a deep-seated formation with an unstable roof in the first stage, a multilateral well is drilled to the formation's roof 1. It is formed by the central trunk (C) 2 and several radially diverging C 3 with the location of the bottom holes within the contour of the future excavation chamber. The radial C 3 exit areas from the central C 2 are positioned above the contour of the vault of natural equilibrium, which is formed during the development of the chamber. Well 1 seal and nag1

The invention relates to mining, business, geology and construction, and can be used in downhole hydraulic mining of mineral resources, in gross testing of productive horizons, as well as in the construction of underground cavities.

The aim of the invention is to increase the efficiency of preparation for hydropobition by strengthening the roof in large areas of its exposure.

FIG. 1 is a diagram illustrating the implementation of the method; in fig. 2 - strengthening scheme, plan.

The method is carried out in the following manner.

.If it is necessary to work out a deep-seated formation with an unstable roof, a production well 1 is drilled to the formation roof, while directly approaching the for-. Matsii well 1 make multi-bit, i.e. conducting the central shaft 2 and several radially diverting barrels 3 with the location of their faces within the contour of the future excavation chamber. Radial trunks 3 are carried out using known mechanical diverters -Parts of output

The radial trunks 3 of the central trunk 2 are located above the contour of the set of natural equilibrium, which is formed during the development of the chamber. The height of the said arch is determined depending on the rock properties and watering according to known methods, and

There is no binder material in C 2 and 3 to the level located above the radial C 3 and C 2. It is most advisable to use synthetic resins as a binder material. After the binder has a set of strength material, a fixed structure 4 is formed; a plug is drilled in C2. At the second stage, well 1 is buried in the formation. Then, a jetting unit 5 is placed in the borehole 1 and the rocks are hydraulically blended within the contour of the chamber and pulp is discharged to the surface. 2 Il.

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also based on experimental experimentation.

Then, well 1 is sealed over the upper portion of the exit of one of the radial shafts from the central, i.e. over all similar sections of the outlets of other radial trunks, and begin to inject in the central 2 and radial 3 trunks the binder material. As this material, cement milk, liquid glass can be used, but it is most advisable to use synthetic resins, for example formic aldehyde, epoxy, furfurol-. and others. The use of resins is explained not only by their good penetration into the roof rocks, but also by. The fact that the resin frozen directly in the wells has a significant tensile strength factor.

After the resin gains strength within the unstable roof of the formation, a fixed structure 4 is formed, covering the entire o6beff of fixed rocks, and in this case an hour; l this structure goes above for. vault of natural equilibrium. Vse.it guarantees not only the maintenance of the entire monolithic volume of rocks above the Kama. Mine, but also prevents local dumping of the rock into the chamber, which guarantees highly efficient development

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Once the hardening material has gained strength, the plugs of this material are drilled in the central shaft 2 and the well is buried in the formation to the desired level. After this, the hydraulic unit 5j is placed in the well and hydrofluorized by a jet of a pressure agent with a slurry of pulp onto the surface along a pulp-lifting column and with the formation of a circular extraction chamber protected by a reinforced array of previously unstable roofs.

Claims (1)

Formula invented The method of preparing for the offshore hydraulic extraction from underground formations, including drilling a well, strengthening the roof and placing a hydro-monitor assembly in the well, is something like 0 five 0 the purpose of increasing the efficiency of preparation is by strengthening the roof at significant areas of its exposure, in the first stage, a multi-bottom well is drilled to the formation roof with a central vertical and several radially diverging dumps within the future chamber contour, while the radial trunk exit areas have the calculated arch outline natural equilibrium, then, through all boreholes in the roof rocks, the bonding material is injected to a level located under the exit of the radial trunks from the center After completing the strength of the bonding material, the tube is drilled in a vertical wellbore, and in the second stage the well is buried. formation and hydroproduction within the contour of the chamber. Editor I. Nikolaichuk Compiled by M. Podol to Techred I.Veres Order 3464/36 Circulation 454 VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 ig.2 Proofreader A.Zimokosov Subscription