SU1122826A1 - Method of hydraulic mining of seam deposits - Google Patents

Abstract

THE METHOD OF PROPELLANT PLASAIRI OF PLASTIC DEPOSITS, including the drilling of wells for the fall and rise of the formation from the preparatory workings and remote hydrofluorization of the mineral from these wells by long strips leaving the pillars in the developed space, which distinguishes the SSS “Zug, .a - - dL; so that, in order to increase labor productivity in hydraulic development, wells are drilled towards each other with their axes displaced in the formation plane by an amount equal to the length of the interwell well axis projection with a gravity slope in the direction of the reservoir down, which knock these wells in the middle of the fall of the withdrawn strip, onto the strike line of the reservoir, after which the hydroturbation is performed in succession by two installations: first, the upper part of the strip is installed from the top well in the upward order with simultaneous erosion repaired mineral in the interwell transport backflash by a unit from a lower well, and then, after the upper part of the band is redeemed, the same unit is used to hydrotube avsheys part of a removable bands in descending order. you tv3 00 1chE Oh

Description

1 The invention relates to the mining industry and can be used for hydraulic mining of stratal deposits. There is a method of hydraulic development of reservoir deposits However, the method is not sufficiently effective. The closest to the invention is a method of hydraulic development of reservoir fields, including drilling of wells for the fall and rise of the formation from preparatory workings and remote drilling of minerals from these wells with a long strip of leaves, leaving the pillars in the developed space 2. However, the known method is characterized by insufficient productivity of labor. The aim of the invention is to increase productivity in hydraulic engineering. This goal is achieved by the fact that according to the method of hydraulic development of reservoir fields, including drilling wells, the fall and rise of the reservoir from preparatory workings and a downhole hydraulic backfill of the useful mineral from these wells with long pillars left in the developed space, wells drill towards each other with the displacement of their axes in the plane of the reservoir by an amount equal to the length of the projection of the axis of the interwell transport transport with a gravitational inclination in the direction of the fall of the reservoir, which is vayut these wells in the middle of dropping a removable strip, the line stretch reservoir, whereupon the breaking hydraulic derivatives sequentially two units: an upper first part of the installation of the upper strip wells in ascending order with a one time. erosion of the recovered mineral in the interwell transport sludge installation from a lower well, and then, after the upper part of the strip is shaken, the same installation hydraulically dumps the remaining part of the withdrawn strip in descending order. 6 The drawing shows the plan of the excavation floor. The method is carried out as follows. The excavation field is prepared by conducting accumulation 1 and ventilation 2 drifts. From drifts, units 3 and 4 drill wells 5 and 6 towards each other with displacement of their axes in the plane of the reservoir by an amount equal to the length of the projection of the axis of the interwell transport slug 7 with gravity slope in the direction of the fall of the reservoir, which they are knocked down in the middle of the fall of the extracted band, on the strike line of the reservoir. After the strip (column) 8 is prepared, the installation (unit) 3 located on the upper horizon hydraulically heals the coal from the well 5 from the bottom upwards, leaving technological pillars 9 with a slope for guiding the pulp to the axis of the well 5 and further to the transport 7 and tape pillars 10d of fencing out of the working chamber of the strip 11 from breaking rocks out of the exhaust chamber of strip 12. After completion of the excavation work, unit 3 is transferred for drilling a new well 5. During strip development coal 8 by installation 3 - the bottom installation flushes the broken off coal that enters 3 and 7 and further transports it along well 6 to accumulation drift 1. Then, after working the upper part of the strip, installation 4 dredges the coal strip from well 6 to accumulating drift 1. After completion of the operation, installation 4 transfers work in the next lane. The proposed method of reservoir mining allows, without reducing the productivity of hydrotreatment, by drilling wells and clearing the excavations made from the workings of the lower and upper horizons, to increase the length of the washed strip twice, and to develop layers to the entire height of the floor without conducting additional workings and dividing into sub-floors.

Claims (1)

METHOD FOR HYDRAULIC DEVELOPMENT OF LAYERED DEPOSITS, including drilling wells by dip and rising of the reservoir from preparatory workings and remote hydraulic breaking of minerals from these wells in long strips, leaving pillars in the worked out space, which differs in that, in order to increase labor productivity in hydraulic development, the wells are drilled towards one another with a shift of their axes in the reservoir plane by an amount equal to the projection length of the axis of the inter-well transport failure from the current deviation towards the dip of the formation, which these wells are knocked down in the middle of the fall of the strip to be removed, to the strike line of the formation, after which hydraulic breakdown is carried out sequentially by two installations: first, the upper part of the strip is installed from the top well in ascending order with simultaneous washing of the broken useful fossil in the inter-well transport failure, 1¾ installation from the lower well, and 1 ^ then, after the upper hour is paid off | These strips, using the same installation, hydrotest the remaining part of the stripped strip in descending order. 122826