EA015140B1 - Blended granulated explosive material (options) - Google Patents

Abstract

The invention relates to blasting operations, in particular to compositions of industrial granulated blended explosive materials used in blasting operations in open-pit mines, sand-pits, underground mines, and coal mines involving manual or mechanized charging of blast-holes. Granulated blended explosive material (1-st option) contains granulated trotyl with granule size at least 1,2 mm in amount at least 97 wt.% and with granule size from less than 3.2 mm at least 85 wt.%, less than 5 mm up to 100 wt% with the following component ratio: water 0.025-1.1 wt%, granulated trotyl 4,0-56,0 wt% and granulated ammonium nitrate up to 100 wt%. Granulated blended explosive material (2-nd option) contains granulated trotyl with granule size at least 1.2 mm in amount at least 97 wt.% and with granule size from less than 3.2 mm at least 85 wt.%, less than 5 mm up to 100 wt% with the following component ratio: water 0.025-1.1 wt%, additionally granulated carbamide 0.5-30.0 wt%, granulated trotyl 3.5-26.0 wt%, granulated ammonium nitrate up to 100 wt%, wherein the total amount of granulated trotyl and carbomide is within 4.0-56.0 wt%. Granulated blended explosive material (3-rd option) contains granulated trotyl with granule size at least 1,2 mm in amount at least 97 wt.% and with granule size from less than 3.2 mm at least 85 wt.%, less than 5 mm up to 100 wt% with the following component ratio: water 0.025-1.1 wt%, additionally surfactant (sulfonol or auxiliary agent OΠ -10) 0.00002-0.012 wt%, granulated trotyl 4,0-26,0 wt% and granulated ammonium nitrate up to 100 wt%. Granulated blended explosive material (4-th option) contains granulated trotyl with granule size at least 1.2 mm in amount at least 97 wt.% and with granule size from less than 3.2 mm at least 85 wt.%, less than 5 mm up to 100 wt% with the following component ratio: water 0.025-1.1 wt%, additionally surfactant (sulfonol or auxiliary agent OΠ -10) 0.00002-0.012 wt%, granulated trotyl 3.5-26.0 wt% and granulated ammonium nitrate up to 100 wt%, wherein the total amount of granulated trotyl and carbomide is within 4.0-56.0 wt%. All proposed granulated blended explosive materials containing granulated trotyl with an additional fraction with granule size exceeding 0.9 mm and in amount at least 98 wt%. Lesser surface of trotyl granules and reduction of friction forces of trotyl granule surfaces between each other due to the surfactant influence lead to a considerable decrease of trotyl concentration in the air of working zone.

Description

The invention relates to blasting, and in particular to compositions of industrial granular mixed explosive materials (CBM) used in blasting operations at open pits, open pits, mines and mines with manual and mechanized loading of holes, wells and chambers.

Granular CBMs are widely known for use on the earth's surface and in underground workings of mines (mines), granules M, AC-4, and AC-8, which are not hazardous in gas or dust.

Granulite M is a stoichiometric mixture of ammonium nitrate and mineral oil (5.5%). It is known [1. from. 33] that mineral oil makes it difficult to pneumatically transport granulite M, which adheres to the inner surface of the transported pipe. Granulit M - granular CBM of medium power of factory production [2, p. 91]. To increase the energy of industrial CBM, aluminum is introduced into their composition [3, p. 235].

Granulite AC-4 is a metallized CBM in which the granules of ammonium nitrate moistened with a combustible additive are coated with aluminum powder.

However, aluminum powder sharply increases the electric capacity of CBM, in addition, it is a fire hazardous material with a low flash point. Significant dusting of aluminum powder during pneumatic charging also worsens the sanitary and hygienic conditions in the face.

Moreover, despite the reduced amount of mineral oil (4.2%) compared to granulite M (5.5%), when pneumatically transporting AC-4 granulite over the entire inner surface of the pipe, a sufficiently strong and dense film of aluminum powder and mineral oil is formed, which with increasing time of pneumatic conveying, it grows and completely overlaps the internal cross section of the pipe. The process of pneumatic charging must be periodically stopped to clean the internal section of the pipe (hose).

The closest to the claimed invention in terms of essential features is a mixed explosive material (options according to the invention patent KI 2209807 [4, p. 3-4, claims, claims 1, 3], which is adopted as a prototype. In the recipe mineral oil The mixed explosive material contains granulated TNT with granule sizes of more than 1.2 mm and not more than 5 mm in an amount of not less than 96 wt.%, up to 3.2 mm - not less than 80 wt.%; in the following ratio of components, wt. .%:

granulated TNT 17.5 - 46.0 granular ammonium nitrate The rest is up to 100.

The mixed explosive material contains water with the following content of components, wt.%: Water 0.03 - 1.0 granulated TNT 17.5 - 46.0 granular ammonium nitrate The rest is up to 100.

The prototype contains granulated TNT with granule sizes of more than 1.2 mm and not more than 5 mm in an amount of not less than 96 wt.%, That is, contained in a mixture of small granules with a size of less than 1.2 mm to 4%. And small granules create a high concentration of TNT in the air of the working zone during pneumatic recharging of wells. In this case, the average size of small granules is (0 + 1.3) / 2 = 0.6 mm. Monitoring the sanitary-hygienic state of the air of the working area is carried out by the content of TNT - the most dangerous of the components of the prototype.

When creating the invention, the task was to obtain a granular CBM with the lowest concentration of TNT in the air of the working area during its pneumatic recharging of wells (chambers).

To achieve this technical result, a granular mixed explosive material (1 option) containing granular ammonium nitrate, granulated TNT and water contains granulated TNT with granule sizes of more than 1.2 mm in an amount of at least 97 wt.%, Less than 3.2 mm - not less than 85 wt.%, less than 5 mm all 100 wt.% in the following ratio of components, wt.%: water 0.025 -1.1 granulated TNT 4.0 - 56.0 granular ammonium nitrate, the rest is up to 100.

Granular mixed explosive material contains granulated TNT with an additional fraction - granule sizes of more than 0.9 mm in an amount of not less than 98 wt.%.

The proposed granular CBM contains granulated TNT with granule sizes of more than 1.2 mm in an amount of not less than 97 wt.%, That is, it contains small granules of a size of less than 1.2 mm to 3 wt.%, Which is less than in the prototype (up to 4 wt.%) 4/3 = 1.3 times. A smaller number of small granules during pneumatic recharging of wells creates a reduced concentration of TNT in the air of the working area.

The content in the mixture of granulated TNT of an additional fraction with granule sizes greater than

- 1 015140

0.9 mm in an amount of not less than 98 wt.%, Creates an average size of small granules (up to 1.2 mm) equal to ^. (100-98) ₊ <2 ^. (98-97) ------ --------------------------- = 0.65lsh, '

which is larger than the average size of small granules (0.6 mm) of the prototype by [(0.65-0.6) / 0.6] 100 = 8.3%. A larger average size of small granules creates a lower concentration of TNT in the working area during the pneumatic loading of wells with explosive material.

When the content of TNT in granular CBM is less than 4.0 wt.%, The effectiveness of the explosion is sharply reduced. An increase in TNT content of more than 56.0% significantly increases its cost.

A decrease in the concentration of water in the granular CBM of less than 0.025 wt.% Leads to significant energy costs, and an increase of more than 1.1 wt.% Leads to caking of the mixture.

To further reduce the concentration of TNT in the air of the working zone, granular CBM additionally contains granular carbamide.

In this case, granular mixed explosive material (option 2), containing granular ammonium nitrate, granulated TNT and water, contains granulated TNT with granule sizes of more than 1.2 mm not less than 97 wt.%, Less than 3.2 mm - not less than 85 wt. .%, less than 5 mm, all 100 wt.% and additionally contains granular urea in the following ratio, wt.%:

water 0.025-1.1 granular urea 0.5-30.0 granular TNT 3.5-26.0 granular ammonium nitrate, the rest is up to 100, while the total amount of granulated TNT and urea contains in the range 4.0-56.0 wt. .%.

Granular mixed explosive material contains granulated TNT with an additional fraction - granule sizes of more than 0.9 mm in an amount of not less than 98 wt.%.

A decrease in the total content of TNT in the mixture from 56.0 to 26.0 wt.% (56.0 / 26.0 = 2.2 times) leads to an additional decrease in the concentration of TNT in the air of the working area due to a decrease in the amount of dust that is formed due to the friction of the surfaces of the granules with each other and due to the friction of the granules on the surface of the pneumatic tube.

The smaller surface of TNT granules results in less dust formation during pneumatic conveying. Moreover, the content in the urea mixture allows the use of granular CBM on sulfide-containing ores.

The carbamide content in the mixture of less than 0.5 wt.% Does not lead to a significant decrease in the concentration of TNT in the air of the working zone, and when the content is more than 30.0 wt.%, It leads to a significant decrease in the efficiency of the explosion of granular CBM.

To enhance the achievement of a technical result (a decrease in the concentration of TNT in the air of the working zone), the granular CBM additionally contains a surfactant.

Granular mixed explosive material (option 3) containing granular ammonium nitrate, granulated TNT and water, contains granulated TNT with granule sizes of more than 1.2 mm, at least 97 wt.%, Less than 3.2 mm, at least 85 wt.%, less than 5 mm, all 100 wt.% and additionally contains a surfactant in the following ratio of components, wt.%:

water 0.025-1.1 surfactant 0.000002-0.012

granulated TNT 4.0-26.0 granular ammonium nitrate the rest is up to 100.

Granular mixed explosive material contains granulated TNT with an additional fraction - granule sizes of more than 0.9 mm in an amount of not less than 98 wt.%.

Granular mixed explosive material as a surfactant contains sulfonol or excipient OP-10.

The surfactant, located on the TNT granules, reduces the friction of the surface of the granules with each other and reduces the friction of the granules on the surface of the pneumatic tube, which leads to a decrease

- 20155140 concentration of TNT in the air of the working area.

At a surfactant concentration of less than 0.000002 wt.%, There is no sharp decrease in the amount of TNT dust.

It is not advisable to contain surfactants in granular CBM in an amount of more than 0.012 wt.% Due to the increase in the cost of explosive material.

To further reduce the concentration of TNT in the air of the working zone, granular CBM additionally together contains a surfactant and granular urea.

In this case, granular mixed explosive material (option 4), containing granular ammonium nitrate, granulated TNT and water, contains granulated TNT with granule sizes greater than 1.2 mm, not less than 97 wt.%, Less than 3.2 mm, not less than 85 wt. .%, less than 5 mm, all 100 wt.% and additionally together contains a surfactant and granular urea in the following ratio, wt.%:

water 0.025-1.1

surface-active substance 0.000002-0.012 granular urea 0.5 - 30.0 granulated TNT 3.5-26.0

granular ammonium nitrate, the rest is up to 100, while the total amount of granulated TNT and granular urea is contained in the range of 4.0-56 wt.%.

Granular mixed explosive material contains granulated TNT with an additional fraction - granule sizes of more than 0.9 mm in an amount of not less than 98 wt.%.

Granular mixed explosive material as a surfactant contains sulfonol or excipient OP-10.

The combined additional influence of a surfactant (a decrease in the friction forces of the surfaces of TNT granules between themselves and on the surface of a pneumatic tube) and carbamide (a decrease in the surface of TNT granules due to a decrease in its amount in the mixture) leads to a significant decrease in the concentration of TNT in the air of the working zone.

The table shows the results of comparative tests of various CBMs. The dispersed (fractional) composition of TNT granules was determined on sieves GOST 3826-82. The table shows that when using the patent KP 2209807 (prototype), the concentration of TNT in the air of the working area varies within 0.490-0.500 mg / m ³ , and when testing the proposed mixtures (1-4 options), the concentration of TNT in the air of the working area is less and changes in the range of 0.455-0.480 mg / m ³ . Therefore, comparative tests showed that the proposed granular mixed explosive material surpasses the prototype and the task is achieved - to obtain a granulated CBM with the lowest concentration of TNT in the air of the working area.

Information sources

1. Demidyuk G.P., Bugaysky A.N. Means of mechanization and blasting technology using granular explosives. M., Nedra, 1975.

2. Pozdnyakov Z. G., Rossi B. D. Handbook of industrial explosives and explosives. Ed. 2, rev. and add. M .. Subsoil. 1977.

3. Dubnov L.V., Bakharevich N.R., Romanov A.I. Industrial explosives. 3rd ed., Revised. and add., M., Nedra, 1988.

4. Patent for the invention of KI 2209807, 10.10.2001.

- 3 015140

The results of comparative tests of various CBM

Composition of the CBM, May. % Concent Naimenova- Water Granulated Surfactant traction nie Sul OP-U TNT CBM phonol in the air ammonia TNT (dispersed composition), wt.% Kar- he work whose ra More than 5 mm - lack MFA us (less than 5 mm all 100) mg / m ³ more than 0.9mm more than 1.2mm less than 3.2mm less than 0.9mm less 1.2mm more than 3.2mm wt.% wt.% wt.% 98 96 97 80 85 2 4 3 twenty fifteen one 2 3 4 5 6 7 8 nine 10 and 12 Patent Βϋ 2209807 (prototype) one 0,03 82.47 - 16.8 - 14.0 - - - - 0.490 0.7 3,5 2 0.52 67.48 - ' 30.72 - 25.6 - - - - 0.496 1.28 6.4 3 1,0 53.0 - 44.16 - 36.8 - - - - 0,500 1.84 9.2 one 2 3 4 5 6 7 8 nine 10 and 12 Offering my mixes 1 option 1.1 0,025 95.75 3.92 - 3.88 - ZL - 0.475 0.08 0.12 0.6 1.2 0.56 69.44 29.4 - 29.1 - 25.5 - - - 0.478 0.6 0.9 4,5 1.3 1,1 42.9 54.88 - 54.32 - 47.6 - - 0.480 1.12 1.68 8.4 Option 2 2.1 0,025 95,975 3.43 - 3,395 - 2,975 0.5 - - 0.470 0,07 0.105 0.525 2.2 0.56 69.44 14.7 14.55 - 12.75 15.0 - - 0.472 0 ^ 0.45 2.25 2.3 1,1 42.9 25.48 - 25.22 - 22.1 30,0 - - 0.474 0.52 0.78 3.9 3 option 3.1 0,025 95,974998 3.92 - 3.88 zts - 2x10 ' ⁶ - 0.469 0.08 0.12 0.6 2x10 ' ⁶ 3.2 0,025 95,974998 3.92 - 3.88 evil - - 0.468 0.08 0.12 0.6 3.3 1,1 72,888 25.48 - 25.22 21.1 - 0.012 - 0.465 0.12 0.78 3.9 3.4 1D 72,888 25.48 - 25.22 - 21.1 - - 0.012 0.460 0.12 0.78 3.9 one 2 3 4 5 6 7 8 nine 10 eleven 12 4 option 4.1 0,025 95,974998 3.43 - 3.395 - 2,975 0.5 2x10 ' ⁶ - 0.459 0,07 0.105 0.525 4.2 0,025 95,974998 3.43 - 3,395 - 2,975 0.5 - 2x10 ' ⁶ 0.458 0,07 0.105 0.525 4.3 1,1 42,888 25.48 - 25.22 - 21.1 30,0 0.012 - 0.457 0.12 0.78 3.9 4.4 1,1 42,888 25.48 - 25.22 - 21.1 30,0 - 0.012 0.455 0.12 0.78 3.9

CLAIM

Claims (10)

1. Granular mixed explosive material containing granular ammonium nitrate, granulated TNT and water, characterized in that it contains granulated TNT with granule sizes of more than 1.2 mm in an amount of at least 97 wt.%, Less than 3.2 mm - at least 85 wt.%, Less than 5 mm all 100 wt.% In the following ratio of components, wt.%: - 4 015140 water 0.025 -1.1 granular TNT 4.0 - 56.0 granular ammonium nitrate; the rest is up to 100. 2. The granular mixed explosive material according to claim 1, characterized in that it contains granulated TNT with an additional fraction with granule sizes of more than 0.9 mm in an amount of not less than 98 wt.%. 3. Granular mixed explosive material containing granular ammonium nitrate, granulated TNT and water, characterized in that it contains granulated TNT with granule sizes of more than 1.2 mm - not less than 97 wt.%, Less than 3.2 mm - not less than 85 wt.%, less than 5 mm all 100 wt.% and additionally contains granular urea in the following ratio, wt.%: water 0.025-1.1 granular urea 0.5-30.0 granular TNT 3.5-26.0 granular ammonium nitrate, the rest is up to 100, while the total amount of granulated TNT and urea contains in the range of 4.056.0 wt.%. 4. The granular mixed explosive material according to claim 3, characterized in that it contains granulated TNT with an additional fraction with granule sizes of more than 0.9 mm in an amount of not less than 98 wt.%. 5. Granular mixed explosive material containing granular ammonium nitrate, granulated TNT and water, characterized in that it contains granulated TNT with granule sizes of more than 1.2 mm — not less than 97 wt.%, Less than 3.2 mm — not less than 85 wt.%, less than 5 mm all 100 wt.% and additionally contains a surfactant in the following ratio of components, wt.%: water 0.025-1.1 surface-active substance 0.000002-0.012 granulated TNT 4.0 - 26.0 granular ammonium nitrate the rest is up to 100. 6. The granular mixed explosive material according to claim 5, characterized in that it contains granulated TNT with an additional fraction with granule sizes of more than 0.9 mm in an amount of not less than 98 wt.%. 7. The granular explosive material according to claim 5, characterized in that it contains sulfonol or an auxiliary substance OP-10 as a surfactant. 8. Granular mixed explosive material containing granular ammonium nitrate, granulated TNT and water, characterized in that it contains granulated TNT with granule sizes of more than 1.2 mm — not less than 97 wt.%, Less than 3.2 mm — not less than 85 wt.%, less than 5 mm, all 100 wt.% and additionally contains a surfactant and granular urea in the following ratio, wt.%: water 0.025-1.1 Surface-active substance 0.000002-0.012 granular urea 0.5-30.0 granulated TNT 3.5-26.0 granular ammonium nitrate the rest is up to 100, while the total amount of granulated TNT and granular urea contains in the range of 4.0-56.0 wt.%. 9. Granular mixed explosive material according to claim 8, characterized in that it contains granulated TNT with an additional fraction with granule sizes greater than 0.9 mm in an amount not - 5 015140 less than 98 wt.%. 10. Granular mixed explosive material according to claim 8, characterized in that it contains sulfonol or an auxiliary substance OP-10 as an antistatic agent. About Eurasian Patent Organization, EAPO Russia, 109012, Moscow, Maly Cherkassky per., 2