RU2143661C1 - Method for preparation of water-containing commercial gel-like explosives - Google Patents

Abstract

FIELD: mining industry and construction at preparation of explosives directly in situ with employment of mixing-loading machines. SUBSTANCE: originally, by mixing water, thickener and hexamethylenetetramine and by nitrolysis of hexamethylenetetramine in the process of mixing until dinitrate of hexamethylenetetramine is obtained, a liquid mother liquor of explosive is produced, which is conveyed to at least one accumulating vessel, ammonium nitrate is oiled by liquid combustible, and then the mother liquor and oiled ammonium nitrate are mixed in a separate mixer or vessel of the mixing-loading machine. Besides, in the process of production of the mother liquor ammonium nitrate is additionally introduced in the mixture. This process is accomplished in a separate room, and the liquor from the accumulating vessel or vessels is conveyed directly to the plant or group of plants carrying out blasting operations. Polyacrylamide or sodium salt of carboxymethylcellulose is used as thickener, and alum or salts of metals - as structuring additive. EFFECT: enhanced safety, quality and reduced cost of explosive preparation. 5 cl

Description

 The invention relates to mining and construction, namely to blasting, and can be implemented in the preparation of water-containing gel-like industrial explosives (BB) at the application site using mixing and charging machines (SPM). It is also possible to use the invention in the preparation of patronized explosives at stationary cooking points (SPP), which serve simultaneously for SPM equipment.

 A known method of preparing a water-containing gel-like industrial explosives based on ammonium nitrate, TNT, water, liquid fuel, a thickener and a structuring additive, including mixing the components of the explosive [1]. At the same time, a thickened solution of an oxidizing agent (ammonium nitrate) is prepared in the heating-mixing plant operating on the principle of aerodynamic heating, which is pumped into the SPM. An explosive is obtained directly in the process of loading wells by mixing a thickened solution of an oxidizing agent with liquid fuel, dry ammonium nitrate, TNT, and a structuring additive (a fast-acting cross-linking agent).

The method has the following main disadvantages:
- the use of an expensive, environmentally harmful and poisonous sensitizer - trotyl, which is a standard factory-made explosive;
- with a decrease in the content of TNT in explosives, the energy characteristics of explosives and its detonation ability decrease;
- large expenditures of time, energy for the preparation of a hot thickened oxidizer solution;
- the possibility of stratification of explosives.

 The closest technical solution to the claimed method is a method of preparing a water-containing gel-like industrial explosives (BB) based on ammonium nitrate, hexamethylenetetramine dinitrate, water, liquid fuel, a thickener and a structuring additive, including mixing the components to produce explosives [2].

 In this method, hexamethylenetetramine dinitrate (sensitizer) is introduced into the composition of explosives in the form of a finished product. However, hexamethylenetetramine dinitrate (urotropine) is an explosive whose sensitivity is higher than that of TNT. Therefore, this cooking method relates to explosive industries and requires special safety measures, which complicates the preparation of explosives and increases its cost. In addition, the introduction of liquid fuel into a loaded solution of an oxidizing agent and hexamethylenetetramine dinitrate reduces the completeness of the explosive conversion of explosives, and hence its quality, since however, there is minimal contact of liquid fuel with dry ammonium nitrate. All this reduces the technical and economic indicators of the method.

 The objective of the invention is to increase the technical and economic indicators of the method of preparation of water-containing gel-like industrial explosives, in which hexamethylenetetramine dinitrate is used as a sensitizer.

 Moreover, the technical result consists in increasing safety, quality and reducing the cost of preparing explosives.

 The specified technical result is achieved by the fact that in the known method for the preparation of water-containing gel-like industrial explosives based on ammonium nitrate, hexamethylenetetramine dinitrate, water, liquid fuel, a thickener and a structuring additive, comprising mixing the components to produce explosives, initially by mixing water, a thickener and hexamethylenetetramine and nitrolysis hexamethylenetetramine in the process of mixing to obtain hexamethylenetetramine dinitrate produce a liquid mother liquor BB, which trans ortiruyut in at least one storage container, ammonium nitrate omaslivayut liquid fuel and then mixed omaslenny mother liquor and ammonium nitrate in a separate mixer or container mixing-charging machine.

 In addition, during the production of a liquid mother liquor of explosives, ammonium nitrate is additionally introduced into the mixture.

 In this case, the production process of the liquid mother liquor of the explosives is carried out in a separate room, and from the storage tank or containers, the liquid mother liquor of the explosives is transported directly to the enterprise or a group of enterprises performing blasting operations.

 Also, polyacrylamide or carboxymethyl cellulose sodium salt is used as a thickener, and alum or metal salts are used as a structuring additive.

 The set of features indicated in the independent claim, includes essential features, each of which is necessary, and all together are sufficient to obtain a technical result.

 The production of hexamethylenetetramine dinitrate by nitrolysis of hexamethylenetetramine in the process of obtaining a liquid mother liquor of explosives using SPM transfers the method from the category of explosive to the category of fire hazardous industries, which have less stringent requirements, which increases safety and reduces the cost of preparing explosives. This becomes possible because all initial components of explosives are not explosive, and the final product is converted into explosives only in SPM during loading of wells by additional sensitization of explosive composition by mechanical aeration, the introduction of gas-generating additives or microspheres. The safety of the method is also increased in the preparation of cartridge explosives, because these explosives are less sensitive than alluvial “pure” hexamethylenetetramine dinitrate. At the same time, the SPP is serviced by the SPM most of the time, and patronage is carried out periodically, and the finished cartridges are immediately sent to the explosive materials warehouse (VM), where they can be stored for up to 1 year.

 The oiling of ammonium nitrate with liquid fuel before mixing with the mother liquor of explosives increases the fraction of fuel in direct contact with dry ammonium nitrate and the area of this contact, which increases the quality of explosives due to the greater completeness of explosive conversion of explosives.

 Mixing the mother liquor of explosives and oily ammonium nitrate in a separate mixer or in an SPM tank provides the ability to produce equipment for charging machines on one SPP and to prepare cartridges for explosives.

The introduction of ammonium nitrate into the liquid mother liquor during the preparation of ammonium nitrate makes it possible to safely and efficiently carry out the nitrolysis of hexamethylenetetramine at an ambient temperature of more than 25-30 ^o C, since ammonium nitrate, when dissolved, reduces the temperature of nitrolysis and the mother liquor, which the result does not exceed 40 ^o C at a pH of about 6.5.

 The implementation of the process of obtaining a liquid mother liquor of explosives in a separate room further increases the safety of the method, because on SPP in the place of SPM equipment or the preparation of cartridges of explosives there is no special chemical production of a new substance (hexamethylenetetramine dinitrate) using nitric acid, and there is only a supply of ready-made practically neutral components to the SPM or into a separate mixer and their mechanical mixing.

 Transportation of a liquid mother liquor of explosives from a storage tank or tanks directly to an enterprise or a group of enterprises performing blasting operations is advisable when servicing several enterprises with a relatively small volume of blasting operations or one large enterprise when it is technically impossible to locate the SPP in the immediate vicinity of the blasting site because this significantly reduces transportation costs.

 Using as a thickener polyacrylamide or sodium salt of carboxymethyl cellulose, and as a structural additive of alum or metal salts is economically more advantageous in comparison with guargam, as is the case in the prototype. Guargam is expensive and scarce (not produced in Russia and the CIS), and it is necessary to use two types of guargam with different composition and properties (one as a thickener and the second as a structuring additive).

The sequence of operations during the implementation of the method is given in the examples of its implementation. Moreover, in all examples, a composition was used with the following ratio of starting components, wt.%:
Ammonium nitrate (granular or crystalline) - 78.7
Hexamethylenetetramine - 7.0
Water - 10.0
Weak nitric acid (52% concentration) - 2.0
Liquid fuel (diesel fuel) - 2.0
Thickener (polyacrylamide) - 0.3
Structuring additive (technical potassium dichromate) in excess of 100% on a dry matter basis - 0.01
It is possible to replace polyacrylamide with the sodium salt of carboxymethyl cellulose, and potassium dichromate with sodium dichromate, chromium potassium alum, iron sulfate and other thickeners and structuring additives, taking into account their properties and features.

Example 1. On SPP at ambient temperature up to 25 ^o C in a separate room prepare a liquid mother liquor of explosives. For this, water is poured into the same mixer (minus its amount necessary for preparing a solution of a structuring additive with a mass fraction of 10%), hexamethylenetetramine is loaded, stirred until it is completely dissolved and nitric acid is added, performing nitrolysis of hexamethylenetetramine. It is known that under the action of weak nitric acid (50-60%) on an aqueous solution of hexamethylenetetramine, the maximum amount of hexamethylenetetramine dinitrate is obtained, which is formed instantly, is removed from the reaction sphere and is easily dissolved in water. The obtained hexamethylenetetramine dinitrate and water are continued to mix and polyacrylamide is introduced into the mixer. Stirring is stopped after the formation of a uniform fluid mass of a thickened liquid mother liquor BB.

 The mother liquor of explosives is piped into one or several storage tanks installed in a second room isolated from the first room, which is designed as an equipment site for SPM, the SPM has a rotating mixer-mixer type concrete mixer, a ready-made explosive storage hopper with a screw and a screw pump, the main a pipe connecting the storage hopper with a charging hose placed on the drum, a tank for an aqueous solution of a structuring additive with a pump for supplying this solution to the main pipe, a static mixing unit Ia structuring additive with explosives ready and control panel.

 SPM calls in under a bunker with ammonium nitrate, which is poured into its tank-mixer. Then ammonium nitrate is oiled with liquid fuel (diesel fuel), feeding it into a rotating car mixer. The mother liquor of explosives is poured there, and this additive is added to the tank for an aqueous solution of a structuring additive. SPM goes to the charging unit, its auto-mixer tank can rotate while continuing to mix the mother liquor of explosives and oily ammonium nitrate.

The resulting composition is not explosive and it needs additional sensitization. This is achieved by reducing the density of the finished composition from 1.45-1.40 to 1.20-1.31 g / cm ^{3 by} mechanical aeration during mixing of the explosive components to the required consistency with the capture of air bubbles.

 On the block, the charging hose is lowered into the well. When the desired density is reached, reverse rotation is turned on and the finished explosive is poured into the storage hopper, from where it is fed to the charging hose by the screw and screw pump of the explosives. Before feeding into the hose into the pipe from the tank, an aqueous solution of a structuring additive (potassium dichromate) is introduced, which is mixed with the mass of explosives supplied through the charging hose to the well.

To reduce the density of the finished explosive less than 1.2 g / cm ³ and increase its susceptibility to detonation, it is possible to use other known methods of sensitizing the explosive composition, for example, by introducing microspheres into the car mixer or into the main pipe behind the feed point of the gas-generating additive (sodium nitrite, etc.). )

Example 2. In contrast to example 1, the preparation of BB is carried out at an ambient temperature of more than 25 ^o C. In this case, for the normal course of the process for producing a liquid mother liquor BB, it is preferable to lower the temperature of nitrolysis of hexamethylenetetramine and the mother liquor to 40 ^o C. For this, before pouring 5-10% ammonium nitrate is additionally introduced into the mother liquor in the nitric acid mixer. All other operations of the method are carried out as in example 1, but only the remaining 90-95% of ammonium nitrate is subjected to oiling.

 Example 3. In this case, the preparation of a liquid mother liquor BB is carried out in the same way as in examples 1 or 2, but simultaneously with the loading and further preparation of the BB in the SPM or instead of it, periodically prepared cartridge BBs are prepared. To do this, the SPP has a separate mixer and a pipe-making apparatus for manufacturing cartridges BB connected to it. In this mixer, the oil is first oiled with liquid fuel, and then the mother liquor BB is fed from the storage tank or containers and this solution is mixed with oily ammonium nitrate. The resulting composition through the pipeline enters the apparatus for manufacturing a cartridge BB and at the same time microspheres are introduced into this pipeline through the built-in supply unit. The apparatus is made as a mixer, may have any suitable design and submission units of finely dispersed aluminum and (or) coal dust. After mixing all the BB components located in the apparatus, a structuring additive is introduced into the BB at the outlet of the apparatus, and it enters the cartridge unit, where it fills the segments of polyethylene sleeves, the ends of which are sealed. Ready-made BB cartridges are placed in boxes, loaded into special vehicles and sent to explosive material depots.

 Example 4. On the SPP, located at a distance of 100 km or more from the places of blasting, they only prepare the liquid mother liquor BB and turn it into a storage tank or tanks, as shown in examples 1 and 2. Next, this solution is transferred to prepared accordingly, auto suppliers also transport directly to an enterprise or a group of enterprises performing blasting operations. These enterprises have an additional stationary station with a hopper for ammonium nitrate, a tank for liquid fuel and a tank for an aqueous solution of a structuring additive, located from several hundred meters to several kilometers from the places of explosions.

 SPM drives up to this point under the ammonium nitrate hopper, after which the rest of BB is prepared in accordance with examples 1 and 2. In this case, it is preferable to load BB mother liquor into the SPM tank mixer directly from the auto suppliers of this solution. However, the item may be equipped with its own capacity or tanks.

Sources of information
1. Shemenev V. G., Pavlyutenkov V. M. Water-containing explosives: state of development, prospects for use. - Mountain Journal, 1996, N 11-12, p. 48 and 49.

 2. US patent N 3318740, 149-38, 1967.

Claims (5)

 1. A method of preparing a water-containing gel-like industrial explosives (BB) based on ammonium nitrate, hexamethylenetetramine dinitrate, water, liquid fuel, a thickener and a structuring additive, comprising mixing the components to produce explosives, characterized in that initially by mixing water, a thickener and hexamethylenetetramine and nitrolysis of hexamethylenetetramine in the mixing process to obtain hexamethylenetetramine dinitrate produce a liquid mother liquor BB, which is transported to at least Leray one storage container, ammonium nitrate omaslivayut liquid fuel and then mixed omaslenny mother liquor and ammonium nitrate in a separate mixer or container mixing-charging machine.  2. The method according to claim 1, characterized in that during the production of a liquid mother liquor of explosives, ammonium nitrate is additionally introduced into the mixture.  3. The method according to p. 1 or 2, characterized in that the production process of a liquid mother liquor of explosives is carried out in a separate room.  4. The method according to one of claims 1 to 3, characterized in that from the storage tank or tanks, the liquid mother liquor BB is transported directly to the enterprise or group of enterprises performing blasting operations.  5. The method according to one of claims 1 to 4, characterized in that polyacrylamide or carboxymethyl cellulose sodium salt is used as a thickener, and alum or metal salts are used as a structuring additive.