UA71743A - A method for making the simplest explosive mix of a high density - Google Patents

Abstract

A method for making the simplest explosive mix of a high density consists in that the mix solid phase is at first made by mixing granulated ammonium nitrate with non-explosive fuel at a given amount. The non-explosive fuel consists of the solution of solid hydrocarbon in the liquid one. The solid state of solution is provided at the temperature of solid phase conservation at a ratio of components providing a zero oxygen balance in the explosive mix after mixing liquid and solid phases. Liquid and solid phases mixing is performed by a portion charging the liquid phase in an intergranular space of the solid phase to a complete filling thereof under an action of liquid phase gravitational forces before charging boreholes into the waterproof sleeve. The technical result consists in a simplification of the process for preparation of the simplest explosive mix of high density and in simplification of the process of charging the boreholes with it.

Description

Description of the invention

The invention relates to the mining industry and can be used for the production of explosives. 2 The closest technical solution, chosen as a prototype, is the method of manufacturing the simplest explosive mixture with high density, which includes the production of the liquid phase of the explosive mixture from a saturated aqueous solution of an inorganic oxidizer, such as ammonium nitrate, and the solid phase of a mixture of granular ammonium nitrate mixed with non-explosive fuel in the form of hydrocarbons with a given ratio of components before the production of explosives, mixing of the liquid phase of the mixture with a solid 70 phase at a ratio of components that ensure a zero oxygen balance before the production of explosives with filling of the intergranular space of the solid phase. When making the liquid phase of the explosive mixture, non-explosive fuel, for example diesel fuel, is added in an amount that ensures a zero oxygen balance of the liquid phase, while the liquid phase is an emulsion with increased viscosity. The production of this emulsion is a complex and expensive process. The viscosity of the explosive mixture does not allow charging it in 72 wells using gravitational forces, and requires special expensive injection equipment, which complicates and increases the cost of the process of charging wells. Production of the solid phase of the explosive mixture, by mixing granular ammonium nitrate with non-explosive fuel in the form of hydrocarbons at a given ratio of components, is done at normal temperature with the provision of zero oxygen balance, as well as in the liquid phase, which, when mixing the liquid and solid phases, leads to obtaining 20 of the simplest explosive mixture with high viscosity density. (Baron V.L., Kantor V.H. Technique and technology of explosive works in the USA. - Moscow: Nedra, 1989. - pp. 82,83, 88,89,92 - 95).

The disadvantages of the known method are the technological complexity of manufacturing the simplest explosive mixture with a high density and its high cost, and the complexity of the well charging process with its high cost, due to the fact that the production of the liquid phase is a complex and expensive process, since its production 22 is mixing a large amount of a saturated solution of an inorganic oxidizer, for example, ammonium nitrate with a small amount of non-explosive fuel, for example, diesel fuel in a ratio of 10:11, and each microdrop of the solution must be surrounded by a film of fuel, which is possible only at a high temperature 85-9022 with the use of expensive emulsifiers and a high degree of mixing, while the resulting liquid phase has a zero oxygen balance and will be viscous. In addition, the production of the solid phase of this Shk 30 mixture by mixing ammonium nitrate with non-explosive fuel in the form of hydrocarbons at a given ratio of the components is done at ordinary temperature with a zero oxygen balance as well as in the liquid phase, which when mixing these phases will lead to obtaining in of the simplest explosive mixture with high density. The viscosity of this mixture will not allow the use of gravitational forces when charging wells, and "- requires special expensive injection equipment.

The following are the reasons that prevent the achievement of the technical result of the invention claimed by the prototype: - the production of the liquid phase of the explosive mixture in the form of an emulsion with a zero oxygen balance is a complex and expensive process, since its production is done by mixing a large amount of a saturated solution of an inorganic oxidant , for example, ammonium nitrate with a small amount of non-explosive fuel, for example, Z7Z diesel fuel in a ratio of 10:1 with the coating of each microdroplet of the solution at a temperature of 85-9090 with the use of expensive emulsifiers and with a high degree of mixing. The resulting liquid phase will have zero oxygen balance, but will be viscous; - mixing of a viscous liquid phase with a zero oxygen balance with a solid phase, made by mixing ammonium nitrate with non-explosive fuel in the form of hydrocarbons at a given ratio of components at -1 15 normal temperature, which will ensure a zero oxygen balance and lead to the production of a viscous simplest explosive mixtures with high density. - Such an explosive mixture requires special expensive injection equipment when charging it in -1 well.

The task of the invention is to develop a method of manufacturing the simplest explosive mixture with a large one

Its 50 density, in which by maintaining the stability of the zero oxygen balance of the explosive mixture with c" ensuring its fluidity, both when filling the intergranular space of the solid phase with a liquid, and after its filling due to ensuring the solid state of a given amount of non-explosive fuel after the production of the solid phase of the explosive mixture , achieve the simplification of the manufacturing technology of the simplest explosive mixture with a high density with a decrease in its price and a simplification of the process of charging the Wells with a decrease in its price.

The task is achieved by the fact that in the known method of manufacturing the simplest explosive mixture with high density, which includes the production of the liquid phase of an explosive mixture from a saturated aqueous solution of an inorganic oxidizer, such as ammonium nitrate, and the solid phase of a mixture of granular ammonium nitrate mixed with non-explosive fuel in the form of hydrocarbons at a given ratio of components before the production of explosives, mixing the liquid phase of the mixture with solid phase with a ratio of components, 60 providing a zero oxygen balance during the production of explosives with filling of the intergranular space of the solid phase, according to the invention non-explosive fuel, necessary for obtaining a zero oxygen balance of the explosive mixture, before the production of explosives in a given amount is placed in the solid phase of the mixture that is manufactured by mixing granular ammonium nitrate with this non-explosive fuel in the form of hydrocarbons, which consists of a solution of a solid hydrocarbon in a liquid hydrocarbon, for example, paraffin in bo diesel fuel at a ratio of components, providing their liquid state of the solution at a lower permissible heating temperature of ammonium nitrate and diesel fuel and their solid state at the storage temperature of the solid phase in the ratio of components that ensure a zero oxygen balance in the explosive mixture after mixing the liquid and solid phases by filling by pouring under the action of the gravitational forces of the liquid phase into the intergranular space of the solid phase before loading the wells into the waterproofing sleeve.

Essential features of the claimed invention are: - production of the liquid phase of an explosive mixture from a saturated aqueous solution of an inorganic oxidizer, for example, ammonium nitrate; - production of a solid phase mixture of granulated ammonium nitrate with non-explosive fuel in the form of 7/o Hydrocarbons with a given ratio of components before production of explosive works; - mixing of the liquid phase of the mixture with the solid phase at a ratio of components that ensure a zero oxygen balance during the production of explosives with filling of the intergranular space of the solid phase; - placement of non-explosive fuel necessary for obtaining a zero oxygen balance of the explosive mixture before the production of explosive works in a given amount in the solid phase of the mixture; - production of the solid phase of the mixture by mixing granular ammonium nitrate with non-explosive fuel in a given amount in the form of hydrocarbons, which consists of a solution of solid hydrocarbon in liquid hydrocarbon, for example, paraffin in diesel fuel with a ratio of components that ensure a liquid state of the solution at a lower permissible heating temperature of ammonium nitrate and diesel fuel; - ensuring the solid state of the solid phase solution at the storage temperature of the solid phase in the ratio of components ensuring a zero oxygen balance in the explosive mixture after mixing the liquid and solid phases by filling the intergranular space of the solid phase under the action of gravitational forces of the liquid phase before charging the wells into the waterproofing sleeve.

New essential features of the claimed invention are: - placement of non-explosive fuel, necessary for obtaining a zero oxygen balance of the explosive blast before the production of explosive works in a given amount in the solid phase of the mixture; - production of the solid phase of the mixture by mixing granular ammonium nitrate with non-explosive fuel in a given amount in the form of hydrocarbons, which consists of a solution of a solid hydrocarbon in a liquid hydrocarbon, for example, paraffin in diesel fuel with a ratio of components that ensure a liquid state of the solution at a lower permissible heating temperature of ammonium nitrate and diesel fuel; c zo - ensuring the solid state of the solid phase solution at the storage temperature of the solid phase in the ratio of components that ensure a zero oxygen balance in the explosive mixture after mixing - liquid and solid phases by filling under the action of gravitational forces the liquid phase into the intergranular space M of the solid phase before charging the wells in waterproofing sleeve.

Due to the fact that the non-explosive fuel, necessary for obtaining a zero oxygen balance of the explosive mixture, is placed in the solid phase of the mixture in a given quantity before the production of explosives, which is produced by mixing granular ammonium nitrate with this non-explosive fuel in the form of hydrocarbons, which consists of of a solid hydrocarbon solution in a liquid hydrocarbon, for example, paraffin in diesel fuel at a ratio of components that ensure a liquid state of the solution at a lower permissible temperature of heating ammonium nitrate and diesel fuel and a solid state at the storage temperature of the solid phase at a ratio of components that ensure a zero oxygen balance in the explosive mixture after mixing with the liquid and solid phases by filling with the liquid phase under the influence of gravitational forces in the intergranular. the space of the solid phase before loading the wells into the waterproofing sleeve, then after filling with filling under the due to the action of the gravitational forces of the liquid phase with a positive oxygen balance into the intergranular space of the solid phase with a negative oxygen balance, the pores of the solid phase ammonium nitrate granules are filled with solid non-explosive fuel, which cannot float to the surface of the liquid phase ammonium nitrate solution, due to the fact that no can be displaced from the pores of the granules by a solution with a high density of liquid phase ammonium nitrate. As a result, the negative oxygen balance in each granule of solid phase ammonium nitrate is not disturbed, which, together with - the positive oxygen balance of the liquid phase, after their mixing, will ensure a zero oxygen balance on -I the entire volume of the formed liquid explosive mixture before the production of explosive works and for the period of their production during mass explosions. This will make it possible to simplify the technology of manufacturing the simplest and most explosive mixture with a high density, making it cheaper, and to simplify the process of charging wells with it, making it cheaper.

A set of known and new essential features are necessary and sufficient in all cases of implementation of the claimed method.

The method is carried out as follows.

To make the simplest explosive mixture with a high density, a solid phase is first made

P" mixture. For this purpose, non-explosive fuel is prepared in the form of hydrocarbons, which consists of a solution of a solid hydrocarbon in a liquid hydrocarbon, for example, paraffin in diesel fuel with a ratio of components that ensure a liquid state of the solution at a lower permissible heating temperature of ammonium nitrate and diesel fuel.

In a container, for example, a tank with diesel fuel heated to 40-506, paraffin is loaded in the form of small particles or granules in a given ratio of components, respectively 2:3. The solution is mixed with a stirrer until the paraffin is completely dissolved in diesel fuel, which ensures a liquid state of the solution. Then ammonium nitrate, dried at a temperature of more than 32.59C, at the same temperature is mixed in a special device with 65 Prepared liquid solution of a solid hydrocarbon. The resulting mixture in a hermetic container is subjected to high air pressure for a period of time, for example 10-15 minutes, which will ensure the "pressing" of non-explosive fuel into the pores of the ammonium celery granules, resulting in a solid phase of the mixture with a negative oxygen balance, which is cooled to a temperature that will ensure the solid state of the fuel in the pores of ammonium nitrate. Then the resulting solid phase of the mixture is packed in bags and sent to storage, or during the production of explosives, sent to the place of their production. The liquid phase (saturated solution) of the explosive mixture prepared earlier by dissolving granular (or in another form) ammonium nitrate in heated water is delivered in containers to the place of production of explosive works until the solution is completely saturated at a temperature of 25-30 C, provided that this constant temperature is maintained in container with heating, or dissolving it in hot - 70 C water until mixing with the solid phase.

Before charging the wells, in the dispenser of the charging machine, the liquid phase, which is fed through the water line, is mixed with the solid phase. The liquid phase is fed in portions by pouring it under the action of gravitational forces into the intergranular space of the solid phase until it is completely filled, which is controlled visually through the dispenser window, and the finished explosive mixture with a high density is released into the waterproofing sleeve, previously placed in the well and attached to the dispenser in its mouth. Due to the high density (higher density of water in the well) and sufficiently high fluidity, a portion of the mixture expands the walls of the sleeve and descends to the bottom of the well, squeezing the water above it. The process is repeated until the end of the design height charge formation.

Example.

It is necessary to prepare ZOT of the simplest explosive mixture with a high density of 1.3-1.5 kg/dm?, which has high fluidity. Fluidity is necessary for productive charging of watered blast wells with a waterproofing sleeve with an explosive mixture under the action of gravitational forces.

First, 20T of the solid phase of the mixture is made, which consists of non-explosive fuel and granular ammonium nitrate.

Non-explosive fuel in the amount of 1800Okg is made in a tank with a volume of 4.5 m by dissolving 200kg of paraffin in the amount of diesel fuel in the amount of 1200kg. Paraffin was dissolved in diesel fuel at a temperature of 502C and stirred until it was completely dissolved. "

Then, granular ammonium nitrate in the amount of 18.27 was dried at a temperature of 409C and at the same temperature, portions of 2.51 were mixed in this tank by stirring with the obtained liquid solution of non-explosive fuel.

Each portion of the mixture is subjected to a pressure of 5 atmospheres in a hermetic tank with a volume of 5 m? within 1 minute with the formation of a solid phase of the mixture. "

Then they make a liquid phase in a tank with a volume of 7 m? of the explosive mixture in the amount of 10 tons, by dissolving 7 tons of ammonium nitrate in 3T water at an initial temperature of 709C until the solution is completely saturated at a temperature of - 2596. "- with Before the start of blasting, the solid phase of the explosive mixture is loaded into the M3-8 type transport-charging machine and directed to the place of production of explosive works. The liquid phase of the mixture is delivered to this place in tanks.

After that, the tank with the liquid phase of the mixture is connected to the dispenser of the charger using a hose

M3-8. The operator fills a 100 kg dispenser with the solid phase of the mixture. Then pour the liquid liquid 20 phase of the mixture into the dispenser until it fills the intergranular space of the solid phase under the action of gravitational forces. Visually, through the window of the dispenser, the completeness of the filling is determined. The ready-made mixture with zero oxygen balance is released into the hydrosolizing sleeve, previously placed in the well, and under the action of gravitational forces, the ready-made explosive mixture with high density descends through the hydrosolizing sleeve to the bottom of the well. The process is repeated similarly until the charge is fully formed.

The application of the claimed invention will allow to simplify the manufacturing technology of the simplest explosive mixture with a high density and to make it cheaper and to simplify the process of charging wells with it and to make it cheaper by ensuring the solid state of a given amount of non-explosive fuel after the production of the solid phase of the explosive mixture by maintaining stability zero oxygen balance -1 of the explosive mixture with ensuring its fluidity, as when filling the intergranular space of the solid phase with a liquid, vro So and after its filling. The technical result is achieved due to the fact that before the production of such explosive works, non-explosive fuel in a given amount is placed in the solid phase of the explosive mixture to "c" obtain a zero oxygen balance. The solid phase of the mixture is made by mixing granular ammonium nitrate with this non-explosive fuel in the form of hydrocarbons with a negative oxygen balance.

Non-explosive fuel consists of a solution of a solid hydrocarbon in a liquid with a ratio of 5 components providing a liquid state of the solution with a positive oxygen balance. Mixing of the liquid liquid phase of the mixture with the solid phase in the intergranular space of the solid phase under the influence of gravitational forces before the production of explosive works until this space is completely filled contributes to the production of the simplest liquid explosive mixture with a high density and a zero oxygen balance.

Claims (1)

60 Formula of the invention The method of manufacturing the simplest explosive mixture with high density, which includes the production of the liquid phase of the explosive mixture from a saturated aqueous solution of an inorganic oxidizer, for example, ammonium nitrate, and the solid phase of the mixture from granular ammonium nitrate mixed with non-explosive fuel in the form of hydrocarbons, because at the given ratio of components before the production of explosives, mixing of the liquid phase of the mixture with the solid phase at a ratio of components that ensure a zero oxygen balance during the production of explosives with filling of the intergranular space of the solid phase, which is distinguished by the fact that non-explosive fuel is necessary to obtain a zero oxygen balance of the explosive mixture , before the production of explosive works, a specified amount is mixed in the solid phase of the mixture, which is made by mixing granular ammonium nitrate with this non-explosive fuel in the form of hydrocarbons, which consists of a solution of a solid hydrocarbon in a liquid hydrocarbon and, for example, paraffin in diesel fuel, with a ratio of components that ensure a liquid state of the solution at a lower permissible heating temperature of ammonium nitrate and diesel fuel and a solid state at the storage temperature of the solid phase in a ratio of 7/0 Components that ensure a zero oxygen balance in the explosive mixture after mixing the liquid and solid phase by filling with a filling under the action of gravitational forces of the liquid phase into the intergranular space of the solid phase before loading the wells into the waterproofing sleeve. Official bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated 7/5 Microcircuits", 2004, M 12, 15.12.2004. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. " (ze) " in "- and - - and? -i - -i sh» syu» 60 b5