UA81362C2 - Method for desintegration and utilization of ammunition equipped with explosive substances of amatol type and installation for its realization - Google Patents

Abstract

The invention relates to ammunition and can be used for disintegration and utilization of those, in particular for mines and artillery shells equipped with explosive substances of amatol type, with simultaneous obtaining of components of explosive substances suitable for following industrial use. A method for disintegration and utilization of ammunition consists in that heated to given temperature heat carrier is supplied to surface of explosive substance, this is washed out of the body to collector-separator. Then extracted explosive substance in collector-separator is separated to trotyl melt and solution of ammonium nitrate after that melt of trotyl through throttle opening is fed to granulator and solution of ammonium nitrate is by pump fed to nozzles of crystallizer where it is sputtered and cooled with air counter-flow cooled to prescribed temperatures at which ammonium nitrate is crystallized and precipitated together with liquid heat carrier to separator from which liquid heat carrier flows to unit for purification of liquid heat carrier and crystallized ammonium nitrate is supplied through filter-precipitator to drying unit, with obtaining product ready for repetitive use. Installation for realization of the method is proposed. The invention makes it possible to extract completely explosive substances with simultaneous separation of those to components and to process components to ready product for repetitive use in industry.

Description

Description of the invention

The invention belongs to the field of munitions and can be used for the disposal and disposal of 2 munitions, in particular mines and artillery shells equipped with explosives of the amatol type, while simultaneously obtaining components of explosives suitable for subsequent industrial use.

There is a known method of disposal of ammunition with the simultaneous disposal of explosives, according to which a working substance (melt, or suspension of ammonium nitrate, or mineral oil 70) is applied to the surface of the explosive at a temperature of 30...1802C and a pressure of 0.01...10000 kg/ cm?, and the mixture of the explosive substance with the working body that arises in this case is processed separately into granules (ZU patent for the invention Mo1795962, СО6В21/00, 19931.

The disadvantage of this method is inefficient and energy-consuming extraction of the explosive due to high pressure and the need for constant supply of fresh working fluid in large quantities.

There is a known method of disposal of ammunition, which includes the extraction of explosives from the cases by the action on them of an inert liquid coolant, insoluble in the explosive melt, with a temperature of 80-130 2C, by feeding it under a pressure of 0.1-20 atm through a nozzle with subsequent separation of the explosive and coolant, passing the mixture of the extracted explosive substance and coolant through a filter, laminarization, gravity separation and feeding into the collector, returning the coolant to the technological cycle |KO 2090543 C1,

SobV 21/00, 428 33/006 1997). 720 The specified method does not allow obtaining components ready for repeated use from complex explosives such as amatols.

A known installation for the disposal of ammunition, which contains a device for supplying ammunition, a device for hydrodynamic washing, which includes a hollow rod with a movable nozzle, a device for supplying a liquid coolant, a collector-separator, a drain pipe with a filter (КО 2090543 С1, СО6В21/00, Е42833/00, 19971. cm 25 The indicated installation does not allow obtaining components ready for repeated use from complex mixtures such as amatols.

The invention is based on the task of creating a method of disposal of ammunition equipped with explosives of the amatol type, and an installation for its implementation, which would allow the complete removal of high explosives while simultaneously separating them into components and processing the components into a finished product for 30 repeated use in industry. (Se)

The problem is solved by the fact that in the method of disposal and disposal of ammunition equipped with explosive substances of the amatol type, by applying under pressure a coolant heated to a given temperature to the surface of the explosive substance, washing it out of the case into a collector-separator with subsequent processing of the extracted substance , according to the invention, the extracted explosive substance in the collector-separator is divided into a melt of 35% TNT and a solution of ammonium nitrate, after which the melt of TNT is sent to the granulator through a throttle opening, and the solution of ammonium nitrate is fed by a pump to the nozzles of the crystallizer, where it is atomized and cooled by a counterflow of air , cooled to the specified temperatures, at which ammonium nitrate crystallizes and falls together with the coolant into the separator, from which the liquid coolant flows into the liquid coolant cleaning device, and the crystallized ammonium nitrate is fed through a filter sump to the dryer from the device, obtaining a product ready for repeated abuse becoming c Water is used as a heat carrier. :z» The temperature of the coolant does not exceed the temperature of vaporization.

The pressure of the high-pressure pump is 0.01-20Mpa.

The temperature of crystallization of ammonium nitrate is regulated by the flow of air cooled by a refrigerating chamber and a fan.

The task is also solved by the fact that the installation for the disposal and disposal of ammunition, equipped with explosive substances of the amatol type, which contains a device for supplying ammunition, a device for hydrodynamic washing, which has a hollow rod with a movable nozzle, a device for supplying liquid coolant, a collector-separator of melt from the solution, the filter-separator, according to the invention, additionally contains (22) 50 a melting device placed between the hydrodynamic washing device and the collector-separator of the melt

Kz from the solution, which is connected to the granulator and through the ammonium nitrate solution supply pump with the ammonium nitrate crystallizer, connected to the refrigerating chamber and to the separator for separating the nitrate from the liquid coolant, connected to the settling filter and the device for cleaning the liquid coolant.

In the lower part of the collector-separator there is a device for throttling the melt, which is connected to the granulator.

The ammonium nitrate crystallizer is made in the form of a column, in the upper part of which a number of nozzles are placed

HF) for spraying the solution, and in the lower part there are louvres for the supply of cooled air, made with the possibility of adjusting their angle.

The liquid coolant supply device contains a series-connected valve, filter, high-pressure pump, and liquid coolant heater connected to a hydrodynamic washing device. Because the proposed method and installation allow for the complete removal of amatol-type explosives from various types of ammunition through a narrow opening of the ammunition with the simultaneous separation of the explosive into components (Tortyl and ammonium nitrate) and to process the extracted components into a product ready for reuse in industry.

The invention is explained by the scheme, which shows the installation of the disposal of ammunition, equipped with b5 explosive substances of the amatol type.

The installation includes a device 1 for supplying ammunition, connected to a device 2 for hydrodynamic washing, which has a hollow rod with a movable nozzle (not shown), connected to a device for supplying a liquid coolant, which is water.

The device for supplying the liquid coolant contains a valve 3, a filter 4, a high-pressure pump 5 and a heater 6 of the liquid coolant connected in series.

The steam generator 7 is connected back to the heater b of the liquid coolant, which is water, and the melting device 8, connected to the hydrodynamic washing device 2 and the collector-separator 9, in the lower part of which there is a device for throttling the melt, which is connected to granulator 10 and through the pump 11 of supplying the ammonium nitrate solution with the ammonium nitrate crystallizer 12. Crystallizer 12 of ammonium nitrate is made in the form of a column, in the upper part of which there are a number of nozzles for spraying the solution, and in the lower part there are louvers for the supply of cooled air, made with the possibility of adjusting their angle (not shown in the diagram).

A refrigerating chamber 14 is connected to the ammonium nitrate crystallizer 12 through a fan 13. The u/5 crystallizer 12 is also connected to a separator 15 for separating nitrate from the liquid coolant, which is connected to a settling filter 16 and a device 17 for cleaning the liquid coolant, which is connected through a non-return valve 18 to high pressure pump 5.

The filter-separator 16 is connected to the device 17 for cleaning the liquid coolant.

The method is carried out as follows.

Ammunition, equipped with explosives of the amateur type, is fed to the ammunition supply device 1, from where it enters the hydrodynamic washing device 2. Water from the water supply after opening the valve

Through the filter 4, the high-pressure pump 5 (0.01-20MPa), through the water heater b, where it is heated to a temperature that does not exceed the temperature of vaporization, is fed to the nozzle of the nozzle of the hydrodynamic washing device 2. Under the action of jets of hot water and pressure, explosive substances (TNT and ammonium nitrate) are washed out of the ammunition case, while the TNT melts; and ammonium nitrate dissolves in water and flows into the melting device 8, which is heated by the steam generator 7. In the melting device 8, TNT particles i) that did not melt in the hydrodynamic washing device 2 are melted and the melt together with the ammonium nitrate solution flows into the collector-separator 9 melt from solution. In the collector-separator 9, the TNT melt settles to the bottom and flows into the granulator 10, where it is processed into the final product - TNT granules. From the granulator 10, the finished product enters the package 20.

The ammonium nitrate solution from the collector-separator 9 is fed to the ammonium nitrate co-crystallizer 12 by the ammonium nitrate supply pump 11. The hot solution is sprayed with nozzles and, meeting the flow of air, cooled by the refrigerating machine 14 and the fan 13 to the temperature of crystallization of ammonium nitrate, crystallizing it. Ammonium nitrate is crystallized from the solution due to the supply of a counterflow of air, which is cooled to the specified temperatures. The mixture of ammonium nitrate crystals and water flows into the separator 15, where the ammonium nitrate is separated from the water, goes to the settling filter 16, and then to the drying device 19, and the water through the circulating water treatment device 17 and the non-return valve 18 enters for recirculation use in the technological process.

From the drying device 19, ammonium nitrate, ready for reuse, enters the packaging 21. « - с

Claims (9)

The formula of the invention with 1. The method of disposal and disposal of ammunition, equipped with explosive substances of the amatol type, BY means of supplying under pressure a heat carrier heated to a given temperature to the surface of the explosive substance, or washing it out of the case into a collector-separator with subsequent processing of the extracted substance, which is distinguished by the fact that the extracted explosive the substance in the collector-separator is separated into a TNT melt and an ammonium nitrate solution, after which the TNT melt is sent through the throttle to the granulator, and the ammonium nitrate solution is pumped to the nozzles of the crystallizer, where it is atomized and cooled by a counterflow of air cooled to the specified temperatures, at in which ammonium nitrate crystallizes and falls together with the coolant (2) into the separator, from which the liquid coolant flows into the device for cleaning the liquid coolant, and the crystallized HA ammonium nitrate is fed through a filter-separator to the drying device, obtaining a product ready for reuse. 2. The method according to claim 1, which differs in that water is used as a heat carrier. C. The method according to claims 1 or 2, which differs in that the temperature of the coolant does not exceed the temperature of vaporization. (F; 4. The method according to claim 1, which differs in that the pressure of the high-pressure pump is 0.01-20 MPa. GI 5. The method according to claim 1, which differs in that the temperature of crystallization of ammonium nitrate is regulated by the flow of air cooled by a refrigerating chamber and a fan. in 6. Installation for the disposal and disposal of ammunition equipped with explosives of the amatol type, which contains a device for supplying ammunition, a device for hydrodynamic washing, which has a hollow rod with a movable nozzle, a device for supplying a liquid coolant, a collector-separator of the melt from the solution, a filter-separator, which differs in that it additionally contains a melting device placed between the hydrodynamic washing device and the collector-separator of the melt from the solution, which is connected to the granulator and where through the ammonium nitrate solution supply pump - to the ammonium nitrate crystallizer, connected to the refrigerating chamber and to the separation separator nitrates from the liquid heat carrier, combined with a settling filter and a device for cleaning the liquid heat carrier. 7. Installation according to point b, which differs in that in the lower part of the collector-separator there is a device for throttling the melt, which is connected to the granulator. 8. Installation according to claim 6, which differs in that the crystallizer of ammonium nitrate is made in the form of a column, in the upper part of which there are a number of nozzles for spraying the solution, and in the lower part there are louvres for the supply of cooled air, made with the possibility of adjusting their angle. 9. Installation according to claim 6, which is characterized by the fact that the device for supplying a liquid coolant contains a valve, a filter, a high-pressure pump and a liquid coolant heater connected in series with a hydrodynamic washing device 70. c schi 6) c (Se) (ze) "- d) - and? (ee) - (95) (o) Ko) ime) 60 b5