EA003051B1 - Method of blasting operations in water-bearing massifs - Google Patents

Abstract

1. A method of blasting operations in water-bearing massifs, comprising drilling of wells, injecting an explosive and a blasting it, characterized in that after drilling the well is initially filled with water and an active water-soluble composition is further introduced, the solution is maintained in the well for a period of time sufficient for the solution active components to penetrate into the rock over a distance equal to a half distance between wells in a series of wells, then injecting the explosive in the well and blasting it, wherein the explosive is injected directly beneath the water column. 2. The method of claim 1, characterized in that an emulsion explosive substance is used as an explosive substance. 3. The method of claim 1 and 2, characterized in that metal chlorides are used as an active water-soluble composition. 4. The method of claim 1 and 2, characterized in that a mixture of a surfactant and an alkali electrolyte is used as an active water-soluble composition. 5. The method of claim 1 and 2, characterized in that alkali salts of naphthenic acids are used as an active water-soluble composition. 6. The method of claim 1 and 2, characterized in that a mixture of ammonium nitrate and iron chloride is used as an active water-soluble composition.

Description

The invention relates to the mining industry, in particular to a method for conducting open cast mining in waterlogged rocks.

It is well known that the economic indicators of drilling and blasting in flooded massifs are determined by the high cost of explosives (BB) - mainly granulotol or alumotol. To reduce the cost of explosive blasting in conditions of water cut, a number of technologies have been proposed based on the use of cartridge explosives in waterproofing shells, the use of ammonium nitrate explosives with a waterproof coating of nitrate granules, waterproof emulsion explosives and their mixtures with ammonium nitrate (Baron V.L., Kantor V .Kh. Technique and technology of blasting in the USA, M., NEDRA, 1989, 376 pp., Ill.)

The main disadvantages of drilling and blasting using these explosives are as follows.

The use of cartridge explosives significantly complicates the process of loading wells. At the same time, even when using polyethylene hoses, the coefficient of efficiency of the well volume under the charge is 0.8-0.9. To compensate for this volume, an increase in drilling volume is required. In addition, the relatively inexpensive polyethylene sleeves do not guarantee the water resistance of the charge due to possible damage to the shell during loading, which leads to a deterioration in the quality of the explosion or to failure of detonation. In general, the use of cartridge explosives increases the cost of blasting by at least 20-30%.

The use of ammonium nitrate explosives with a waterproof coating of nitrate granules (much more expensive compared to conventional ammonium nitrate explosives), as well as the use of cartridges, requires preliminary drainage of the well. Since any drying device leaves a certain amount of water at the bottom of the well, before filling up the waterproof ammonium nitrate explosive in the well, a patched explosive is usually placed so that the upper cartridge protrudes above the water level; moreover, waterproof ammonium nitrate explosives cannot be used in wells with high water inflow .

Closest to the proposed one is a method of drilling and blasting operations in quarries, including drilling wells, filling them with various types of explosives, clogging and initiation (RF patent No. 2059965, publ. 10.05.98, bull. No. 13).

According to this method, in a water-filled well, a combined charge of TNT and ammonium nitrate explosives is formed in a tiered fashion, the mass of TNT with a high detonation rate being taken to be 20-25% of the weight of the well charge. The known method provides improved characteristics of the crushing of the rock due to the rational location in the well of the explosives with high and low detonation speeds.

However, this method is also characterized by a high consumption of expensive trotyl-containing explosives. In addition, the scheme for the formation of combined charges proposed in the indicated method complicates the mechanized loading of wells and requires the use of a water-resistant ammonium nitrate explosive, which also makes blasting more expensive.

The aim of the invention is to increase the technical and economic indicators of explosive breaking of flooded massifs, improving the quality of crushing rocks, as well as reducing the cost of drilling and blasting in general.

This goal is achieved by the fact that in the method of drilling and blasting in flooded arrays, including drilling wells, loading an explosive charge and carrying out an explosion, a water-soluble active composition is initially introduced into the well filled with water after it is drilled, and the solution formed in the well is exposed for a period of time, sufficient for active components to penetrate into the rock at a distance equal to half the distance between the wells in the series of wells, then an explosive charge is generated in the well and drive an explosion. The formation of the explosive charge in the well is carried out by pouring the explosive charge directly under the column of water. As an explosive, an emulsion explosive is used. As a water-soluble active composition, either metal chlorides, or a mixture of a surfactant and an alkaline electrolyte, or alkaline salts of naphthenic acids (when breaking quartz rocks), or a mixture of ammonium nitrate and iron chloride (when breaking sulfide rocks) are used.

The essence of the proposed method of drilling and blasting in flooded arrays is as follows.

Initially, wells are drilled that are naturally filled with water from the aquifer. A water-soluble active compound is poured into a well filled with water (solid) or a (liquid) water-soluble active composition, the aqueous solution of which reduces the work of destruction and the strength of the rocks of the beating massif. Depending on the mineralogical composition of the rocks and the composition of groundwater, various active compounds should be used; when breaking granites and quartzites, it is preferable to use metal chlorides or, for the strongest quartz rocks, alkaline salts of naphthenic acids and mixtures of anionic surfactants with alkalis (KOH, ΝαΟΗ )

When breaking off carbonate rocks, it is preferable to use a mixture of surfactants with alkaline electrolytes. When breaking off sulfide ores, it is advisable to use mixtures of ammonium nitrate or ammonium chloride with iron chloride. The rational choice of the active composition reduces the work of rock destruction by 2-4 or more times. After the introduction of a water-soluble active composition into a well filled with water, exposure is carried out for a period of time sufficient for the active components to penetrate into the rock at a distance equal to half the distance between the wells in a series of wells. An emulsion explosive is pumped under a liquid column through a charging hose and blown up.

Improving the economic performance of drilling and blasting operations in flooded massifs can also be achieved through the use of waterproof emulsion explosives (for example, such as peraemites) or their mixtures with igdanite (granemites). Emulsion explosives are inverse emulsions of the water-in-oil type, in which each micro drop of an oxidizing agent (an aqueous solution of ammonium nitrate) is coated with a thin film of liquid fuel. This structure of the emulsion protects it from dilution with external water in flooded wells and provides sufficient water resistance. Poremites and some types of granemites are applicable in wells of almost any flow rate and can be pumped directly under a column of water through a charging hose.

The proposed method is implemented as follows.

Example 1

In a flooded massif composed of sulfide rocks, a vertical well is drilled. After filling the well with water to the maximum level, a paper bag with 7 kg of ammonium nitrate and 1.2 kg of potassium hydroxide is lowered to the bottom. After one day of exposure under a column of liquid, 800 kg of MT-N brand poremit are pumped through a charging hose. After blasting, the average size of a piece of broken rock is about 300 mm, the total mass of oversized materials is 0.2% of the total broken rock with a standard of up to 5%.

Example 2

In a flooded massif of heavy ferruginous quartzites, vertical wells are drilled. After filling the well with water by 2/3, 0.8 kg of cetyltrimethylammonium bromide and 1.2 kg of sodium hydroxide are poured into it. After 12 hours of exposure under a column of liquid, 1200 kg of granemite 30/70 are pumped through a charging hose. After the blasting, the average size of a piece of broken rock was 400 + 100 mm, the mass of oversized items did not exceed the standards.

Thus, the proposed method of drilling and blasting in flooded massifs can improve the technical and economic indicators of explosive blasting of flooded massifs, improve the quality of crushing, and also reduce the cost of drilling and blasting in general.

Claims (6)

CLAIM 1. The method of drilling and blasting operations in flooded arrays, including drilling wells, loading explosives charges and blasting, characterized in that initially a water-soluble active compound is injected into the well filled with water after it has been drilled, the solution formed in the well is maintained for a period of time sufficient to penetrate the active components into the rock at a distance equal to half the distance between the wells in a series of wells, then a blasting charge is formed in the well th substance and produce an explosion, the formation downhole explosive charge is carried out by pouring the charge immediately below the water column. 2. The method according to claim 1, characterized in that as an explosive emulsion explosive is used. 3. The method according to PP.1, 2, characterized in that metal chlorides are used as a water-soluble active compound. 4. The method according to PP.1, 2, characterized in that a mixture of surfactant and alkaline electrolyte is used as a water-soluble active compound. 5. The method according to PP.1, 2, characterized in that the alkaline salts of naphthenic acids are used as the water-soluble active compound. 6. The method according to PP.1, 2, characterized in that a mixture of ammonium nitrate and ferric chloride is used as a water-soluble active compound.