RU47093U1 - EXPLOSIVE WELL CHARGING (OPTIONS) - Google Patents

Abstract

The utility model relates to borehole charges for blasting in flooded wells in open pit mining. The essence of the utility model: a loose explosive mixture with a density of more than 1000 kg / m for the formation of borehole charges by cartridges or in polymer sleeves during the loading of wells during drilling and blasting operations on rocks of any strength and water cut contains: wt.%: - option 1: powder explosive 40-60; non-porous granular ammonium nitrate 60-40; liquid fuel 2.0-4.0; option 2: granular explosive 60-40; nonporous powdery ammonium nitrate 40-60; liquid fuel 2.0-4.0. The invention is aimed at increasing the efficiency of blasting with bore charges from ammonium nitrate explosives in flooded wells, uniformity and intensity of crushing of rocks, reducing the cost of drilling and blasting.

Description

The utility model relates to the development of borehole charges with an explosive density of more than 1000 kg / m ³ and can be used in explosive breaking of rocks and ores in dry and flooded wells.

One way to increase the efficiency of drilling and blasting is to use explosive charges with a density of more than 1000 kg / m ³ based on ammonium nitrate as the most common and cheapest component of explosives.

Ammonium nitrate explosives are mixtures of ammonium nitrate with liquid fuel or mixtures of ammonium nitrate with liquid and solid fuel. As fuels in ammonium nitrate explosives, use liquid fuels (oil products, mineral oils), powdered organic (peat, coal and others), powdered metal fuels, explosive fuels (trotyl, hexogen, dinitronaphthalene, etc.) with a negative oxygen balance, which simultaneously act as an explosive sensitizer and an energy-bearing component (1-9). The disadvantage of borehole charges from ammonium nitrate explosive compositions is the solubility of ammonium nitrate in water when charging flooded wells;

low density of explosives (less than 1000 kg / m), which does not allow their use for loading waterlogged wells with cartridges in waterproof shells due to their unsinkability. Attempts by a number of authors to increase the density of ammonium nitrate explosive compositions by introducing weighting additives (iron ore concentrate, iron oxides, barium salts, an aqueous solution of ammonium nitrate), using polydisperse ammonium nitrate, and water-in-oil emulsions are known (10-15). The disadvantage of borehole charges containing these explosive compositions is a decrease in their performance due to the introduction of inert additives.

Well charges are known for flooded wells of ammonium nitrate explosives placed in sealed one- or two-layer polymer shells. To ensure the flooding of such charges in the process of loading wells, the shell is cut, a certain amount of water is poured, or the shell is made in such a way that when immersed

cartridge into the water, water is poured into it (16-18). The disadvantage of these borehole charges is the increased consumption of explosives due to the solubility of ammonium nitrate and low values of the explosive technical parameters of the charge (detonation speed, efficiency, etc.).

A well-known charge is formed of sealed cartridges made of a single or two-layer polymer shell and filled with an explosive mixture with a density of more than 1000 kg / m ³ containing granular and powder explosives (19), adopted by the authors as a prototype.

The disadvantage of the prototype charge is the limited raw material base for the production of cartridges and their high cost. As a rule, granular and powder explosives used for the manufacture of an explosive charge-prototype mixture contain expensive granular (flaky) and powdered TNT, the content of which in the explosive mixture is quite high (at least 21 wt.% - powdered ammonite 6ZHV, granular grammonite 79 / 21). The cost of explosives is significantly affected by the high rates of transportation of explosives to the place of production of the explosive mixture, almost two times higher than the rates of transportation of non-explosive components, which leads to a rise in the cost of explosives and in general to an increase in the cost of drilling and blasting operations. In addition, the production of an explosive charge-prototype mixture of two explosives is quite dangerous, environmentally harmful due to dusting, since the above explosives do not contain a liquid phase.

The technical task of creating a utility model was to increase the efficiency of blasting by optimizing the filler (explosive mixture) of the borehole charge, reducing the cost, expanding the raw material base and area of use, including blasting of watered rocks.

The technical problem was solved by developing a borehole charge and its variant, consisting of an explosive substance in a polymer shell and explosive means, which as an explosive substance contains a loose explosive mixture with a density of more than 1000 kg / m ^{3 of the} following component composition, wt.%:

- option 1:

Powder explosive 40-60  Nonporous Granular Ammonium Nitrate 60-40  Liquid fuel 2.0-4.0

option 2:

Granular explosive 60-40 Nonporous Powdered Ammonium Nitrate 40-60 Liquid fuel 2.0-4.0

 As a liquid fuel, it contains a liquid petroleum product - diesel fuel and / or mineral oils.

Granular and powdery substances belong to the group of granular materials; they consist of discrete granules or powdery particles in contact with each other and voids between them. In granular granular materials, voids (intergranular space) can be filled with smaller particles. Due to the more compact laying of granules and powder particles of a substance, it is possible to increase the density, and hence the volumetric energy of an explosive composition containing a mixture of the same granular and powder materials.

The particle size of the granular product is 5-20 times the size of the powder product. Powdered components fill the free space between the particles of granular components, leading to denser packing of the components, and their processing with liquid fuel ensures flowability and prevents caking of the explosive mixture during storage, transportation and use.

Given that explosives based on granular and powder components are polydisperse systems consisting of irregularly shaped elements having different masses and contact surfaces, it is not possible to calculate the volumetric and density characteristics of these mixtures. The choice of the ratio between granular and powder components of the explosive mixture was carried out experimentally. The experimentally selected ratio between granular and powder components from 40-60 to 60-40 provides a bulk density of the declared explosive of more than 1000 kg / m ³ , which makes it possible to produce cartridges of various overall mass characteristics to form well charges for dry and flooded wells. Cartridges from the inventive explosive mixture with a density of more than 1000 kg / m ³ are made by mechanically filling the explosive mixture into polymer shells (without pressing), followed by their use for loading waterlogged

wells; or by filling the explosive mixture into polymer sleeves, lowered in a known manner to the bottom of the wells. Cartridges made by free filling the explosive mixture into polymer shells without subsequent prepressing reduce the cost of producing well charges, and therefore the cost of blasting.

The use of the ratio between granular and crushed components of less than 40-60 and more than 60-40 is impractical, since it is not achieved optimal packing of crushed particles in the voids between the granules, which leads to a decrease in the density of the explosive mixture; a liquid fuel content of less than 2.0% and more than 4.0% leads to a violation of the optimum oxidizer-fuel ratio.

Non-porous waterproof ammonium nitrate of ZhVG brand GOST 14702-79 and the so-called dense ammonium nitrate of GOST 2-85 have almost the same particle size distribution, bulk density, so they are interchangeable.

The choice of components and their ratio were determined by the need to ensure operational, energy and detonation characteristics of explosive mixtures and well charges based on them.

In the inventive explosive mixture, the ratio of granular and powder components is used as the main factor in ensuring the density of the explosive mixture is more than 1000 kg / m ³ , and energy, detonation, operational properties are provided by the selected ratio of components.

The need for two options for borehole charges, formed from cartridges containing the inventive explosive mixtures, is determined by the location of the manufacturers of explosives and ammonium nitrate.

Cartridges for forming a borehole charge in flooded wells are made in any known manner, for example: a cartridge consists of an inner polymer shell and an outer polypropylene shell. Both shells are tied or clipped from one of the ends, inserted one into the other, an explosive mixture is poured into the inner shell, the end of the shell is assembled into a “forelock”, pinched with the displacement of the air volume and tied or clipped at a distance of 10-15 cm, bent by 180 and once again tied or clipped. Left unoccupied explosive mixture volume of the shell protects it from rupture when the cartridge hits the water when it is lowered into the well. Outdoor

the polymer sheath is tied, stitched or clipped above the pinch point of the inner polymer sheath.

Downhole charges are formed by lowering cartridges into waterlogged wells. A downhole charge can be formed directly in the process of loading wells into sealed polymer hoses, one of the ends of which is sealed by any known method, the sleeve is lowered into the well, filled with the inventive explosive mixture with a density of more than 1000 kg / m, or the lowering of the sleeve and its filling are carried out simultaneously.

When loading dry and drained wells, a borehole charge can be formed by filling the explosive mixture directly into the borehole, while the volumetric energy of the explosion of the borehole charge increases due to the use of an explosive mixture with a density of more than 1000 kg / m ³ , which allows you to expand the grid of drilling wells, which means reduce the cost of drilling and blasting.

In the table. 1 shows the characteristics of borehole charges of the inventive explosive mixture in comparison with the prototype.

Table 1 Indicators Prototype charge The claimed charge Option 1 Option 2 Density, kg / m ³ 1100-1200 1100-1250 1100-1250 The heat of the explosion, kJ / kgkJ / dm ³ 4300
4730-5160 3950-4200 4350-5250 3950-4200
4350-5250 The coefficient of performance relative ejection funnel (K _cc = K _appl. / K _prot.) 1,0 0.95 0.96 Cost, rub / t 8860-9100 6800-7900 6500-6700

As follows from the table. 1, the inventive explosive mixture and its variant, and hence the downhole charges from them are not inferior to the prototype in density, heat of explosion, health, but have a lower cost. The production of cartridges from the inventive explosive mixture and its variant is safer. The energy parameters of the claimed explosive mixture and its variants allow drilling and blasting operations on rocks of any strength. The explosive mixture and its variant does not dust, does not cake during use, storage and transportation.

The means for initiating a borehole charge are set in accordance with the design of the explosion, the initiation is carried out in any known manner.

The utility model provides the claimed technical effect:

- improving the safety and environmental friendliness of the production of explosive mixtures and their variants, cartridges and well charges based on them;

- the expansion of the raw material base for the formation of borehole charges through the use of various types of granular and powder explosives and non-porous granular and non-porous powdered ammonium nitrate;

- the extension of the methods of formation of borehole charges in flooded wells through the use of cartridges or polymer sleeves filled in the process of loading wells with explosive mixtures with a density of more than 1000 kg / m ³ ;

- improving the efficiency and lowering the cost of drilling and blasting operations on rocks of any strength with borehole charges formed from the inventive explosive mixtures having different energy characteristics;

- expanding the field of use of borehole charges from water-soluble nitrate-containing explosives - loading of dry and flooded wells.

The proposed borehole charges of various diameters from cartridges or in the form of polymer sleeves filled with the inventive explosive mixture and its variant with a density of more than 1000 kg / m ³ were tested during breaking of rocks of different strength and water cut in the temperature range from minus 40 to plus 40 ° C . No failures were recorded.

Sources of information:

1 TU 7276-01-04683349-96

2 TU 727680-001-00173901-94

3 TU 84-1076-85

4 TU 84-075078.08.98-94

5 Patent of Russia No. 2033521

6 Russian Patent No. 2209198

7 Patent of Russia №2142446

8 Patent of Russia №2155739

9 Russian Patent No. 2219151

10 Patent of Ukraine No. 29296

11 Patent of Ukraine No. 37640

12 Patent of Ukraine No. 29294

13 Application WO 99/613 95

14 British Patent No. 2192627

15 French Patent No. 2086735

16 Patent of Russia №2201575

17 Patent of Russia №2133942

18 Patent of Russia №2117912

19 Russian Patent No. 2205168

Claims (7)

1. The downhole charge, consisting of an explosive in a polymer shell and means of initiation, characterized in that as an explosive it contains a loose explosive mixture with a density of more than 1000 kg / m ³ in the following ratio of components, wt.%: Powder explosive 40-60    Nonporous Granular Ammonium Nitrate 60-40  Liquid fuel 2.0-4.0 2. The charge according to claim 1, characterized in that as non-porous granular ammonium nitrate is taken ammonium nitrate GOST 2-85 and / or GOST 14702-79. 3. The charge according to claim 1, characterized in that the liquid petroleum product is taken as a liquid combustible explosive mixture. 4. The charge according to claim 3, characterized in that diesel fuel and / or mineral oils are taken as the liquid petroleum product of the explosive mixture. 5. Downhole charge, consisting of an explosive in a polymer shell and means of initiation, characterized in that as an explosive it contains a loose explosive mixture with a density of more than 1000 kg / m ³ in the following ratio of components, wt.%: Granular explosive 60-40 Nonporous Powdered Ammonium Nitrate 40-60 Liquid fuel 2.0-4.0 6. The charge according to claim 5, characterized in that the liquid petroleum product is taken as the liquid combustible explosive mixture. 7. The charge according to claim 6, characterized in that diesel fuel and / or mineral oils are taken as the liquid petroleum product of the explosive mixture.