SU1362830A1 - Method of recovering materials from underground formations through wells - Google Patents

Description

The invention relates to mining and geology, and can be used in the well for hydro-mining of mineral resources, as well as in testing productive horizons under conditions of significant thickness of the extraction intervals.

The purpose of the invention is to increase the extraction efficiency by lowering the Q level. The washout is washed away by flows of loss, increasing the volume of the extraction chamber and improving the suction conditions of the pulp.

Figure 1 presents the scheme of mining sectoral entry; figure 2 - scheme of entry, type in the plan; on fig.Z - scheme of testing the camera; FIG. 4 shows a scheme for mining the upper layer when implementing a variant of the method.

The method is carried out by extracting rocks from a thick underground formation. First, the production well 1 is conducted to the lower boundary of the extraction, and to the upper boundary - the discharging squad to the suction of the pulp-lifting column and is discharged to the surface. A hydraulic elevator or airlift 15 can be used as a lifting device. The rocks can also be dispensed by applying pressure in the extraction chamber, which provides pulp flow from the pulp lifting column 5 to the surface.

When it is necessary to frequently clean the suction of the pulp-lifting column 5, for example, from woody debris, or the destruction of the oversized fractions of the suction, the upper

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2. Then the output well 2 time-.25 limits of the final contours

They overlap each other, and place a string of pipes with a borehole hydraulic monitor 3 in the production one. Using this hydraulic monitor, in a sequence from the bottom of the extraction to the top, the sector-like vertical approach A is washed away over the entire height of the extraction interval. The bottom 4 inlets are withdrawn to the borders of the excavation chamber of finite size, and the erosion is carried out by a gas-liquid jet with delivery of fines to the surface through the production well of direct washing and from the storage of larger fractions c. open space 4, which is oriented so that the projection of the dispensing well 2 is located within the cross-sectional area of said stop.

After stopping 4, the pulp-lifting column 5 is lowered onto the rocks stored in it, and then using the downhole jetting machine 3, by rotating it, a circular layer-by-layer wash of the rocks is performed with the formation of a cylindrical extraction chamber in the sequence from the upper extraction limit to the lower. At the same time, when mining the upper layers of the hearth, the mass enters through the inlet to the suction of the pulp-lifting column, which rests on the gasified rocks, and as the work decreases, the erosion of the magnetized rocks under the pulp-lifting column with its gradual descent follows.

Due to the fact that behind the pulp-raising column, the hearth mass, rather than the rear sight, is already eroded, the mass of the hearth as it decreases

the washout level is washed away in

Dy to the suction of the pulp-raising column and to the surface. A hydraulic elevator or airlift can be used as a lifting device. The rocks can also be dispensed by applying pressure in the extraction chamber, which provides pulp flow from the pulp lifting column 5 to the surface.

When it is necessary to frequently clean the suction of the pulp-lifting column 5, for example, from woody debris, or the destruction of the oversized fractions of the suction, the upper

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five

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the chambers, while the fine fractions are also hydrotransformed by gas-liquid flows according to the direct washing method 1 and, while the large ones are directed into the worked-out space of the inlet 4 to the previously gassed rocks from its penetration. The upper layer 6 is worked out until the developed space of the stopper 4 is completely laid by the magnetized rocks. Next, the pulp-lifting column 5 is lowered onto the massed rocks and the formation is worked out according to the described technology. In this variant of the method, the suction of the pulp-lifting column 5 is approximately at the level of erosion, which avoids the need to use launch-lift operations when manipulating the borehole hydromonitor 3 to continuously clean the suction of the pulp-lifting column 5 and destroy oversize.

Claims (2)

1. A method of extracting materials from subterranean formations through wells, including carrying out two wells, placing pipes with a hydromonitor in a production well. A column in a mining well, and pulp-lifting columns in a dispensing column with preliminary formation of its support, erosion of rocks in the direction of down with formation of the extraction chamber and dispensing pulp onto the surface, characterized in that, in order to increase extraction efficiency by reducing losses, increasing the volume of the extraction chamber and improving the suction conditions of the pulp, the output well is the pulp-lifting column supports are effected by scouring, under the dispensing well, a vertical sector-like approach to the entire power of the extraction interval, leading it to the edge of the extraction chamber, with the logging of large fractions and tap / J 2 0 five fine fractions are directly washed, and the rocks are washed out to form a cylindrical extraction chamber around the jetting and slurry-lifting columns. 2. The POP.1 method, differing from that with the fact that after erosion of the inlet, the rocks of the upper layer within the contour of the excavation chamber are washed out with the removal of fine fractions by direct washing and storage. nyem coarse fractions in the worked-out area of the stopover until the latter is completely filled with large fractions. (Reg. 1 FIG. g Editor N.Gorvat Compiled by N. Chertova Tehred L. Serdyukova Order 6353/22. Circulation 453 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 ". . . . . . .  . , .     “.. . .  -  .. " . . , . , ./-. Vut, c  Proofreader A.T. sko