SU1406378A1 - Method of recovering materials from underground formations - Google Patents

Abstract

The invention relates to mining and geology and can be used in downhole hydraulic mining and testing of productive horizons. The purpose of the invention is to reduce the cost of further processing of rocks by increasing the efficiency of the separation of material into fractions during the extraction process. The formation is opened by a borehole and a borehole jetting unit is placed in it. The gas-liquid jet of the latter produces erosion of the rocks with the formation of a extraction chamber. The slurry fraction, which is in suspension in the pulp, is brought to the surface simultaneously with erosion, and the remaining rocks are transferred to the well under the chamber with the formation of a magazine. After complete erosion of rocks at a given radius, the chamber and well are flooded. Submerged the jetting unit into the mated-gasified rock, loosening it and further disintegrating it with a gas-liquid jet. The slurry fractions are screened out by the direct washing method. Small fractions are transferred to the bottom of the gauge into piles. The washing of the massed rock mass is carried out until complete removal of clay and other small fractions with low density. Then, the hydraulic lift of coarse fractions is carried out. After that, small fractions from the bottom and shoulders are washed into the well and are dispensed to the surface. 4 il. S (L S

Description

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The invention relates to mining and geology and can be used in downhole hydraulic mining of minerals, as well as in testing productive horizons.

The aim of the invention is to reduce the cost of further processing of rocks by increasing the efficiency of the separation of material into fractions during the extraction process.

FIG. 1 shows a washout diagram of the extraction chamber; in fig. 2 is a diagram of loosening and disintegration of the gassed fractions; in fig. 3 is a diagram of flushing of small fractions from the bottom of the chamber; in fig. 4 is a diagram of the hydraulic lift of fine fractions from the well.

The method is carried out as follows.

After the formation, represented by sandy-shale rocks with inclusions of pebbles, is opened, well 1 places a well monitor 2 in the latter, with which the gas-liquid jet erodes the rock mass to form a excavation chamber 3. The erosion is performed by a free stream, while the sludge fraction, suspended in the pulp is brought to the surface at the same time as the erosion, and the remaining rocks are transferred to the well under the chamber 3 to form the store 4. The sludge can be discharged from with the help of a hydraulic elevator or by sealing the wellhead: in this case, the air gradually pushes the gas-liquid section downstream of the jet and by constant pressure ensures the delivery of pulp through the pulp lifting column of the unit 2.

As the rocks in the chamber 3 are eroded, part of the gassed fractions spontaneously disintegrate under the action of water. After a complete erosion of rocks at a given radius, the chamber 3 and well 1 are flooded to the surface, overlap the pulp-lifting column and, buried unit 2, into the gassed rock 4, it is loosened and further disintegrates with a gas-liquid stream, while the slurry fractions They are brought to the surface by the direct washing method, and the fine fractions are transferred to the bottom of chamber 3 in piles 5. These small fractions are deposited on the bottom of chamber 3 due to a drop in the rate of ascending flows as the chamber passes ry The washing of the stored rock mass is carried out until complete purification from clay and other small fractions with low density.

After that, the suction of aggregate 2 is buried in the washed coarse fraction, and this fraction is hydraulically lifted by

 surface. Then, the hydromonitor is raised to the level of chamber 3 again and the small fraction from the shoulders 5 is washed away from the bottom into the well 1 and is given out to the surface in the same way.

5 When processing the formation from top to bottom, these operations are repeated when each layer is developed.

By virtue of the successive conduct of these operations, it is possible to effect an effective separation of a large fraction.

0 from small and slurry fractions directly in the process of hydraulic extraction, which allows to significantly reduce the cost of subsequent processing of the material.

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Claims (1)

Invention Formula A method for extracting materials from subterranean formations, including opening the formation with a well, placing therein Q borehole monitors, erosion of rocks with the formation of a digging chamber, storing rocks in the borehole and their subsequent release to the surface by a hydraulic lifting device, characterized in that, in order to reduce the cost of further processing of rocks by increasing the efficiency of material separation into fractions in the process extraction, during erosion of rocks, the slurry fraction is brought to the surface, before the release of the aerated rocks, jet loosening and disintegration of the aemagnetized rocks is made vodom straight washing the slurry fraction to the surface and fine fraction on the bottom of the chamber, whereafter the 5 hydrofilming of coarse fractions from the well, then flush the fine fractions into the well and dispense to the surface. 0 3 2 - / . t Y f Wi and four (Rig. U8. 2 J Lg J r 2 1 FIG. J 2 f