RU2209197C1 - Explosive composition - Google Patents

Abstract

FIELD: explosives. SUBSTANCE: invention relates to developing explosive compositions suitable for blasting operations by blast- hole and borehole charges in mining industry. According to invention, explosive composition contains 93.8-90.8% granulated porous ammonium nitrate, 4,8-1.8% liquid petroleum product, and 1.4-7.4% peat. Content of petroleum product and peat, which corresponds to stoichiometric ratio oxidation/combustible, is determined in terms of relationship Y=K-aX, where X is content of liquid petroleum product (%), Y content of peat (%), K=11.49-10.53, and a=1.93-2.10. Liquid petroleum product can be diesel fuel or mineral oils, or mixtures thereof. EFFECT: enhanced explosive efficiency for breaking different-rigidity rocks. 3 cl, 1 dwg, 1 tbl

Description

 The invention relates to industrial explosive compositions based on non-explosive components for blasting using hole and borehole charges in the mining industry.

 Ammonium nitrate, sensitized by the addition of liquid or solid fuel, is the cheapest source of explosion energy [1-3]. The most common explosive composition is a binary mixture of ammonium nitrate - diesel fuel, the main disadvantage of which is that it easily loses its detonation ability under the influence of water and as a result of the migration of liquid fuel due to the insufficient holding capacity of nitrate granules. It is known that the physical stability of the mixture of ammonium nitrate - diesel fuel can be improved through the use of porous ammonium nitrate produced by special technology, as well as by treating nitrate with finely divided solid combustible materials, for example aluminum powders, wood flour, coal powders and other additives [3-9 ].

Known explosive composition containing (wt.%):
Ammonium nitrate - 84.5-89.95
Liquid petroleum product - 2.5-5.0
Water or aqueous glycol solution - 1.0-4.0
Perlite sand - 0.05-5.0
Powdered organic fuel with a particle size of 0.05-3.25 mm - 1.0-6.0
adopted by the authors for the prototype [10].

 As a powdery organic fuel in the composition of the prototype used peat, or lignin, or wood flour, or a mixture thereof.

 The disadvantage of the composition of the prototype is the multicomponent composition, and therefore, the high complexity of manufacturing, large critical diameter of the charge and low detonation speed, which does not allow using it as an industrial explosive for efficient breaking of rocks, including strong, and also used for loading holes and wells pneumatically due to intense dusting of powdered combustible and perlite sand.

 An object of the invention is to increase the efficiency of explosive composition by increasing detonation parameters, reducing the complexity of manufacturing, expanding the scope and volume of aircraft.

The problem was solved by creating an explosive composition including an oxidizing agent - granular ammonium nitrate porous, and fuel - liquid oil and powder peat, while the content of liquid oil and powder peat, corresponding to the stoichiometric oxidizer - fuel ratio, is determined by the dependence Y = K-aX, where X - peat content, wt. %; Y is the content of liquid oil, wt.%; K = 11.49-10.53; a = 1.93-2.10 in the following ratio of components (wt.%):
Porous granular ammonium nitrate - 93.8-90.8
Liquid oil - 4.8-1.8
Powdered peat - 1.4-7.4
The coefficients "K" and "a" are determined by the oxygen balances of the liquid oil product and peat, depending on their elemental composition.

 The proposed aircraft contains up to 2 wt.% In excess of 100% water (moisture), which is introduced with ammonium nitrate and peat, since drying them to an absolutely dry state during their production is not economically feasible.

 It is known that the heat and composition of the explosion products of the aircraft are optimal with a stoichiometric ratio of oxidizer and fuel corresponding to zero or close to zero oxygen balance. But the performance of the aircraft is also determined by detonation indicators, physical stability during storage, constancy and uniformity of composition along the height of the charge column, which are largely determined by the properties of ammonium nitrate.

 Depending on the manufacturing method, ammonium nitrate has a different holding capacity with respect to liquid fuel, which varies from 2.5% of the mass. for the so-called "dense" ammonium nitrate, up to 6.5 wt.% for porous ammonium nitrate.

 The stoichiometric ratio for the ammonium nitrate - liquid oil system is 94.54: 5.46. Ammonium nitrate, even treated with liquid oil (oily), remains very sensitive to moisture (water). Ammonium nitrate compounds lose their flowability, are caked during storage. To prevent caking, powdered dusting additives are used. Dusting solid additives should be porous, capable of absorbing part of the liquid fuel and protect the surface of the granules from moisture, prevent caking of the aircraft and ensure its flowability when charging wells. As such an additive in the composition of the prototype selected peat and perlite sand. In the presence of non-porous ammonium nitrate and porous additives in the form of peat and perlite sand, the liquid fuel is mainly sorbed not by nitrate, but by inert additives, which leads to a low sensitivity of such aircraft to detonation momentum, a large critical diameter of detonation, and uneven distribution of components. Perlite sand, being an inert non-combustible additive, phlegmatizes the explosive composition in terms of energy characteristics. In the inventive BC, peat components and porous ammonium nitrate are used as porous components.

Powdered peat is a polydisperse system consisting of particles of different sizes from large, visible with the naked eye, to colloidal sizes [11]. Dried peat loses its ability to be saturated with water to its original volume. Peat gross formula - C _45.8-50 H _57-60 O _20-25 N _1.1-2.1 ; oxygen balance minus (170-154); stoichiometric ratio of the mixture of ammonium nitrate - peat = (89.5-88.5) :( 10.5-11.5), but this binary system is physically unstable, this amount of peat is not held by granules ammonium nitrate. In the process of storage and loading of wells, partial peat particles from granules of ammonium nitrate are partially poured out - separation of the explosive composition.

 The presence of a porous structure in ammonium nitrate allows the liquid petroleum product to easily penetrate into the granules, as a result of which a fairly uniform distribution of the combustible additive in the mass of ammonium nitrate is ensured, and powdery peat, dusting the surface of the oiled granules, reduces their caking, eliminates the migration of the liquid combustible phase from the sun. In addition, porous ammonium nitrate reduces the critical diameter of the detonation of the charge and increases the detonation speed of the inventive aircraft.

 Liquid petroleum products and peat are organic fuels and in the proposed aircraft are considered as interchangeable components in a stoichiometric ratio with ammonium nitrate. Powdered peat partially absorbs liquid oil and at the same time as fuel participates in the invasive transformation reaction.

The dependence of the zero or close to zero oxygen balance of mixtures, including ammonium nitrate - liquid petroleum product - peat, on their ratio is shown in the drawing, where:
the abscissa axis (X) - wt.% liquid oil; point A corresponds to the stoichiometric ratio of ammonium nitrate: liquid oil = 94.54: 5.46;
the ordinate axis (Y) - wt.% peat; point B corresponds to the stoichiometric ratio of ammonium nitrate: peat = 89.0: 11.0 (the oxygen balance of peat is taken equal to minus 162);
1 - line of zero or close to zero oxygen balance of the three-component system ammonium nitrate - liquid petroleum product - peat, is described by the dependence Y = K-aX, where X is the content of liquid petroleum product, wt.%; Y - peat content, wt.%; K = 10.53-11.49, a = 1.93-2.10; the coefficients "K" and "a" depend on the elemental composition of peat and liquid fuel (oxygen balance).

 The working area “V-G” of the stoichiometric ratio of BC is established experimentally and is determined by physical stability: the point “B” characterizes the stability of the component composition by the absence of caking and preserving the flowability of explosives, and the point “G” corresponds to the beginning of stratification of the BC with the formation of a peat layer by pouring it from granules of ammonium nitrate.

 When using porous ammonium nitrate and porous peat, liquid fuel is simultaneously sorbed by granules of ammonium nitrate and particles of peat, and due to adhesive forces, the distribution and adhesion of powdered peat with granules of porous ammonium nitrate is improved, thereby increasing the physical stability of the inventive grade.

 Due to the oiling of peat particles and their better adhesion to ammonium nitrate granules, the inventive composition does not dust, which allows the use of existing air chargers for mechanized loading of holes and wells.

 The inventive aircraft is a three-component (prototype composition - five-component), which reduces the complexity of its manufacture by reducing the time to prepare the components and their combination with stirring.

 The table shows the compositions and main characteristics of the proposed aircraft and the composition of the prototype.

 The inventive aircraft provides the main technical result of the invention: increasing detonation parameters, the possibility of mechanized loading of holes and wells of any diameter in the rocks of various strengths, reducing the complexity of manufacturing.

 The specified technical result is achieved due to the proposed components and their ratio, selected from the conditions of a balanced ratio of oxidizer - fuel, providing optimal values of the completeness of the chemical transformation, the stability of the component composition, improved detonation parameters. The inventive aircraft does not dust, maintains flowability during the guaranteed storage period.

 Aircraft are manufactured in existing mixers and mixing-charging machines for the production of ammonium nitrate explosives.

 As a liquid petroleum product, diesel fuel, or mineral oils, or a mixture thereof is used, since they have almost the same thermodynamic properties and close operational characteristics.

 For the manufacture of the proposed aircraft used raw materials produced by domestic industry according to the existing regulatory and technical documentation.

 An example of the manufacture of a sample according to the invention: peat with a moisture content of 15.8 wt.% Was used (we take an oxygen balance of minus 162; dependence Y = 11.0-2.01X), ammonium nitrate with a moisture content of 0.4%.

Composition, wt.%:
Porous granular ammonium nitrate - 93.0
Diesel - 4.0
Peat - 3.0
Water (humidity), in excess of 100% - 0.8
The heat of the explosion, kJ / kg - 3675
Oxygen balance,% minus - 0.1
The volume of explosion products, l / kg - 965
The volume of toxic gases in terms of CO, l / kg - 7
Knock speed, km / s - 4.0
The critical diameter of the detonation of an open charge, mm - 40
Bulk density, kg / m ³ - 800
Sensitivity to shock,% adult - 0
Sensitivity to friction, R _about , MPa - 485
The proposed explosive composition is made and tested with positive results when blasting rocks of various strengths with hole and borehole charges in the temperature range of plus or minus 50 ^o C.

Sources of information
1. L.V. Dubnov, N.S. Bakharevich, A.I. Romanov. Industrial explosives. - M .: Nedra, 1988.

 2. US patent 3279965.

 3. Patent of Russia 2147018.

 4. USSR patent 1784620.

 5. Patent of Russia 2142446.

 6. Patent of Russia 2021240.

 7. UK patent 2192627.

 8. USSR patent 1811520ya.

 9. US patent 3103457.

 10. Patent of Russia 2121471.

 11. Chemical encyclopedic dictionary. - M .: Soviet Encyclopedia, 1983, p. 566.

Claims (2)

1. An explosive composition comprising an oxidizing agent - granular ammonium nitrate, fuel - liquid petroleum product and powder peat, characterized in that it contains porous granular ammonium nitrate as granular ammonium nitrate, and the content of liquid petroleum and powder peat corresponding to stoichiometric ratio is determined by the dependence
Y = K-aX,
where X is the content of liquid oil in wt.%;
Y — peat content in wt.%;
K = 11.49-10.53;
a = 1.93-2.10,
in the following ratio of components, wt.%:
Porous granular ammonium nitrate - 93.8-90.8
Liquid petroleum product - 1.8-4.8
Powdered peat - 7.8-1.4
2. The composition according to claim 1, characterized in that it additionally contains up to 2 wt.% Water in excess of 100 wt.%.  3. The composition according to claim 1, characterized in that as a liquid fuel it contains diesel fuel, or mineral oils, or a mixture thereof.

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