SU1751341A1 - Method of hydraulic winning of mineral through boreholes - Google Patents

Abstract

The entity is mined by fields located in the inaccessible zone, blocks that are contoured by production wells and divided into two adjacent chambers issued by a well. The wells are inclined at the boundary of the underlying rocks. In the first chamber, the rocks are washed out towards the border of the inaccessible zone, and in the second chamber of the block - in the opposite one. In the process of working out, the rocks of the roof on the bottom of the & Camera 1 of 3 p f-ly, 4 silt

Description

The invention relates to geotechnological methods of production and can be used to develop loose sea deposits located in the area of inaccessibility for floating equipment at a depth of

The closest in technical essence and the achieved result to the invention is a method of hydraulic extraction of materials from subterranean formations, including opening of a field of a production and a production well with placement of a production hydraulic jetter and a well assembly in them, respectively, sinking wells and washing away of minerals by mining layers with pulping to the surface of the downhole aggregate

The disadvantage of this method is its low efficiency due to the loss of the useful component on the bottom of the extraction chamber and the considerable time spent on tripping.

The purpose of the invention is to increase the efficiency of extraction in the development of sea placer deposits in the inaccessible zone

Fig. 1 shows the opening of the deposit and the direction of mining of the excavation chambers in the block (arrows); in fig. 2 is a diagram of the extraction of minerals from the chamber; FIG. 3 is a diagram of a partial collapse of the roof of the chamber; FIG. 4 is a flow chart illustrating the processes of the process.

The method is illustrated by the example of a reservoir development. The field up to the grant / site of availability of 1 from contour 2 of balance reserves from split trench 3 is opened by production 4 and producing wells 5. Wells 4 and 5 are usually inclined based on the need to locate the base of split trench 3 above the sea 6 surface area to prevent flooding. Drilling of wells 4 and 5 is carried out by contacting mineral 7 with the underlying rocks 8. In well 4, a mining jetting monitor 9 is placed, and in a producing well 5 - a well assembly

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WITH

3 with

10. Testing of the brilliance is carried out in blocks comprising two adjacent chambers. The fossil is excavated from the first chamber 11. The contours of which are adjacent to the boundary of the balance of the reserves 2, are carried out in the direction from the line 12 of the division of underwater and open-cast mining to the boundary of the inaccessible zone 1.

Hydro-recovery of the mineral is carried out by gas-liquid jets of the mining jetting machine 9 and the borehole unit 10, while the jet of the mining jetting machine cleans the bottom of the excavation chamber 11 and forcibly delivers the mineral to the inlet of the borehole aggregate 10. When the second adjacent chamber of the first block 13 and subsequent blocks are adjacent, chambers 11 and 13 may lose the recovered mineral in the mined-out space of the first chamber 11 due to the forcing of the mineral by a jet of mining mining omonitora located on a contour block of the second chamber 3 beyond the zone of suction of the downhole unit 10, and also due to gravity Hydrotransportation goaf pulp chamber 11 with underlying rocks complex microrelief 8 downhole unit 10.

There is a similar pattern when working out the first chambers 11 of the second and subsequent blocks, where the mineral is discharged into the second chamber 13 of the previous block can be carried out with a jetting jet of the borehole unit 10, as well as through gravity hydrotransport of pulp along the bottom of the extraction chamber 11 into the developed space.

To reduce the possible loss of mineral resources, the roof rocks of the 14 excavation chambers 11 and 13 are partially collapsed, forming a prism 15 in the developed space of the chambers 11 and 13, which is an obstacle to the flow of pulp from the adjacent chambers of the subsequent blocks. The partial step of roof collapse Sh is minimal due to a slight excess of the size of the suction zone of the downhole assembly 10. The collapse is performed by discretely returning the mining gauge 9 and the downhole assembly 10 by a step size W followed by returning them to the bottom of the excavation chamber.

The well assembly 10 is placed in a dispensing well 5, passed along the contact line of 16 adjacent chambers 11 and 13 of the blocks to be worked out to reduce the time for running and lifting operations, as well as preventing its blockage by overlapping rocks 14 with loss of stability of the roof rocks of the developed space of smooth blocks with a smooth fit from the contour of balance reserves 2,

After mining chamber 11 mining

the monitor is removed and placed in the well 4, passed along the contour of the block with the placement of the nozzle on the border of the inaccessibility zone 1, while the useful excavation

0 fossil produced in the direction of the division of subsea and open pit mining.

According to the described sequence of technological processes

5, the next block, consisting of two adjacent chambers with the installation of a downhole assembly 10 in a well, passed along the line of contact of the contours of adjacent chambers, is being tested, while

0 of the mineral from the first chamber 11 is produced by a stream of mining hydraulic monitor 9 directed toward the suction of the downhole unit 10. The direction of the chamber is from the boundary between the underwater and open-cast mining 12 to the inaccessible zone 1.

The use of the invention will significantly expand the placer raw material base due to the involvement in operation

0 deposits located in the inaccessibility zone for mining vessels. In addition, the proposed solution allows for the integrated development of deposits using the enclosing

5 useful component of rocks.

Claims (2)

Invention Formula 1, Method for hydraulic extraction of minerals through wells, including mining and discharging 0 wells, placement in them of the mining hydromonitor and the downhole assembly, respectively, the coalescence of wells and the erosion of minerals in the mineral layer with the issuance of pulp to the surface, different 5 by the fact that, in order to increase the efficiency of extraction in the development of offshore placer deposits in the inaccessible zone, the alluvial deposits are developed by blocks, outlined mining wells and 0 divided into two adjacent chambers of a discharging well, with the wells being inclined at the boundary of the underlying rocks, washing the minerals of the first mineral block in the direction of the inaccessible zone, and in the second chamber of the block in the opposite one. 2. A method according to claim 1, characterized in that in the process of working out, partial collapse of the roof rocks on the bottom of the chamber is carried out. First olok Third block to.2  - - --I.