SU1105651A1 - Method and apparatus for well-production of frozen separately grained rock - Google Patents

Abstract

I. Method of borehole hydrodynamic production of frozen separate granular rocks, including drilling a working well through the reservoir under development to the horizon of the underlying rocks, injecting water into the well, selecting a mineral from a slurry-lifting well into the surface, which is different in that, in order to intensify the hydraulic mining due to the use of the heat of the Earth, an additional well is drilled to thawed rocks with relatively high temperature, deep water is taken from it, divided into two parts and at the same time one part is fed through the interval of the developed frozen rocks into the horizon of thawed rocks with a relatively high temperature, and the other - into the pulp-lifting column. (L oel 05 JV

Description

2. Device for borehole hydrodynamic production of frozen separate granular rocks, including casing, water supplying air supply columns and a pulp-lifting column with a bottom hole and a sand receiving port, characterized in that, in order to intensify hydraulic production by utilizing the heat of the Earth, it is additionally equipped with a pipe, one end which is located in the interval of the reservoir under development above the sand-receiving hole, and the other is located on the horizon of permeable rocks with a relatively high temperature, while pulp-lifting column communicates with the column of the water supply in the range between peskopriemnym bore and the downhole plug.

The invention relates to mining, in particular, borehole hydraulic mining of minerals, preferably frozen, partially dissolved and soaked in water rocks, can be used to create underground tanks, to take large technological samples in the exploration of mineral deposits, for immersing various building structures. in the permafrost, such as reinforced concrete lining of mine wells, pits, etc.

The well-known method of borehole hydraulic mining of minerals, in which the filtration flow 1 is used to destroy the structure of separate-grained rocks.

However, this method does not provide treatment of frozen rocks, as there is no water filtration in them.

The closest in technical essence to the present invention is a method of downhole hydraulic extraction of separate-grained rocks, including drilling a working well through the reservoir under development to the horizon of the underlying rocks, injecting water with a relatively high temperature into the well, and extracting mineral resources into the well 2 through this well .

The known method does not provide intensive destruction of frozen rocks due to the gradual decrease in the temperature of the working water used in a closed cycle.

A device for borehole hydraulic mining, including casing, air supply and lifting columns with valves and fittings at the mouth 1.

Closest to the present invention is a device for borehole hydraulic mining of minerals, including a water supply and air columns and a pulp-lifting column equipped with a bottom hole, side sand-receiving opening 2.

However, this device does not provide

maintaining a relatively high temperature of the working water, since it involves lifting the cooled slurry from the bottom of the chamber, and the heat of the working coolant is taken into the slurry when these agents move counter-axially through the wellbore.

The purpose of the invention is to expand the field of application of the method by ensuring the development of permafrost rocks and the intensification of hydro-mining due to

5 using the heat of the earth.

The goal is achieved by the fact that, according to the method, the hydrodynamic production of frozen separate granular rocks, including drilling a working well through the reservoir under development to the horizon of the underlying rocks, injecting water into the well, extracting minerals in the form of slurry to the surface through the slurry recovery column to the surface, drilling additional well to the horizon of thawed rock with

5 with relatively high temperature, deep water is withdrawn from it, divided into two parts and simultaneously fed one part through the interval of the frozen rocks being developed into horizon thawed rocks with relatively high temperature, and the other inside the pulp-lifting column.

In addition, a device for borehole hydraulic mining of frozen separate granular rocks, including casing, water supply, air supply columns, and pulp-lifting column, with a downhole plug and sand-receiving hole, is additionally equipped with a pipe, one end of which is located in the interval of the developed reservoir above the sand-receiving hole, which is located in the interval of the reservoir being developed above the sand-receiving hole the other - on the horizon, prichnitsa.mykh rocks with relatively high temperatures, with

Claims (2)

1. The method of borehole hydraulic production of frozen separate-granular rocks, which includes drilling a working well through a developed formation to the horizon of underlying rocks, injecting water into a well, taking a mineral through a slurry lifting column in the form of a hydraulic fluid mixture to the surface, characterized in that, for the purpose of intensifying hydraulic production by using the heat of the Earth, they drill an additional well to the horizon of thawed rocks with a relatively high temperature, take deep water from it, divide it into two parts and under simultaneously dissolved one part in interval permafrost developed in melted horizon rocks _with relatively high tempera- ture, and another - inside pulpopodem- hydrochloric S column. SU „„ 1105651 2. A device for downhole hydraulic production of frozen separate-granular rocks, including a casing, water supplying air supply column and a slurry lifting column with a bottomhole plug and a sand receiving hole, characterized in that, in order to intensify hydraulic production by using the heat of the Earth, it is additionally equipped with a pipe, one end which is located in the interval of the developed formation above the sand-receiving hole, and the other on the horizon of permeable rocks with a relatively high temperature, while pulp-lifting Olona communicates with the water supply column in the range between peskopriemnym bore and the downhole plug.