SE508313C2 - Ways to remove explosives from ammunition parts - Google Patents

Abstract

A method for removing explosives, including metal-powder-containing explosives, which contain at least one meltable component, from ammunition parts by flushing a heating medium in direct contact with the explosive and recovering the explosive mixed with the heating medium. As heating medium, a combustible substance is selected, which is in the liquid state at the process temperature concerned and which has no available oxygen or only alow content thereof. The combustible substance may consist of hydrocarbons, alcohols, ketones, esters and mixtures thereof. Suitable readily available substances are fuel oil, lubricating oil and meltable wax. The recovered mixture of explosive and heating medium can be processed to a liquid/suspension suitable for combustion, as disclosed in WO 93/17295.

Description

508 313 coming in mainly marine combat parts, reacts with water during heat generation with the attendant risk of self-ignition of the explosive. This technique has therefore not been able to be used for melting down metal powder-containing explosives.

An object of the present invention is to provide an improved method for removing the explosive heat from ammunition parts, in which the above-mentioned disadvantages of previously known methods have been eliminated.

This is accomplished by a method defined by the claims.

The invention relates to a method of removing explosives containing at least one fusible component from ammunition parts by flushing a heating medium heated to a selected process temperature in direct contact with the explosive and recovering the explosive mixed with the heating medium.

According to the invention, a flammable substance which has no or low content of active oxygen at the process temperature is selected as the heating medium.

The method is applicable to mainly cast explosives, which are castable precisely due to the presence of a fusible component, but also extruded explosives which, for example, have been made compressible by mixing in wax, can be removed by melting and dissolving the wax component so that the sieve becomes flushable.

In the process, the combustible substance is flushed directly against the explosive, which is then gradually released and transported out of the ammunition part mixed with the combustible substance. The release takes place as the fusible component melts and / or dissolves in the combustible substance.

By mixing the explosive with a substance with no or low content of active oxygen, the risk of the explosive detonating decreases. The ability of an explosive to explode is determined primarily by its chemical composition and, in particular, by its balance between oxygen and other elements. By adding a sufficiently large amount of other substances when the explosive substance is flushed out, which shifts the oxygen balance of the explosive substance in the oxygen-poor direction, the resulting 508,313 mixture can no longer detonate. Such substances are liquid combustible substances without their own active oxygen or with only a low content of active oxygen.

The combustible substance must thus be free of oxygen bound such as peroxide, nitro group, nitrate group, nitramine group, etc. Suitable combustible substances are hydrocarbons, alcohols, ketones, esters, and mixtures thereof.

Suitable mixtures are, for example, various petroleum fractions which are liquid at the current process temperature and can thus be flushed against the explosive and act as a transport liquid for the removal of the explosive out of the ammunition part. Such substances can also be used in direct contact with metal powder-containing explosives, such as those containing aluminum or magnesium powder, without adverse side reactions occurring.

The heating medium is selected with regard to the temperature which is the process temperature in the case in question and with regard to how the recovered mixture is to be further processed, eg for extraction of the explosive components or for destruction.

Since most cast explosives contain trotyl as a fusible component and trotyl has a melting point of about 80 ° C, the heating medium must in many cases have a temperature of 80-110 ° C during the process. Many organic substances that can be used as a heating medium, however, have the ability to dissolve trotyl, which is why process temperatures below the melting point of the trotyl can also be used. However, the solubility increases with increasing temperature, which is why a certain heating is preferred.

Easily available substances that are suitable as a heating medium according to the invention are heating oils, whereby both light and heavy heating oil can be used, mineral oils such as lubricating oils and fusible waxes. Fuel oils are particularly attractive to use in cases where the explosive is to be destroyed, whereby this can advantageously take place in accordance with what is described in the international patent application WO 93/17295. WO 93/17295 describes a method of destroying explosives by transferring them to a pumpable liquid or suspension, which is not detonable but combustible and can be burned in conventional boilers.

The explosive is dissolved or suspended in a flammable liquid with no or low content of active oxygen, the proportion of liquid being so large that the energy content of the mixture without access to the oxygen in the air drops to 508 313 1 MJ / kg or lower. The same liquid used to dissolve or suspend the explosive for destruction can, according to the present invention, be used as a heating medium in rinsing the explosive out of the combat part.

The mixture of explosive and heating medium obtained during the flushing can be used directly to produce a destructible liquid / suspension in accordance with H0 93/17295.

The invention will be exemplified in the following in connection with Figure 1 which schematically shows a system for leaching explosive substance from an ammunition part.

The figure shows an example of removal of a cast explosive 2 from a grenade 1 from which the bottom screw has been removed. The heating medium is sprayed against the explosive through a lance 3 which is inserted through the opening in the bottom of the grenade. To avoid fumes and aerosols in the ambient air, it may be advisable to carry out the process in a closed system. The opening of the grenade can then be sealingly connected to an outlet line 4 and the lance for injecting the combustible substance be axially displaceable inside the outlet line. As the explosive melts and is released from the cast charge, it is transported out of the grenade mixed with the combustible substance. The mixture, which may contain more or less large aggregates of non-molten explosive, non-digestible explosive components, metal powder, etc., is led to a work-up which is schematically shown as a block 5.

The reprocessing may include separation steps such as sedimentation, filtration and centrifugation as well as steps for precipitation and granulation of the molten component, etc. to recover the various components from the explosive. Molten components, eg trotyl emulsified in the heating medium, can be crystallized out by cooling the mixture.

The heating medium can be recirculated via a tank 6 in which new heating medium (make up) is added through a line 7 and a heating to process temperature takes place. From the tank 6, the heating medium is pumped via lines to the lance 3.

In many cases, it is not appropriate to recover the components in the explosive, for example due to age and chemical changes, but the explosive must be destroyed. A solution or suspension suitable for combustion 508 313 can then be prepared in accordance with what is described in WO 93/17295.

The same substance used as the heating medium can be used as the dissolution medium / suspension medium in the liquid adapted for combustion. The work-up of the recovered mixture of exposures and heating medium can thereby be limited to achieving a homogeneous mixture and adapting the batch history of suspended components. The adaptation of the party history can e.g. is done by wet-maining the expository in the heating medium.

Claims (10)

sus sis is 10 15 20 25 30 Patent claim: A method of removing explosives containing at least one fusible component from ammunition parts by flushing a heating medium heated to a selected process temperature in direct contact with the explosive for melting the fusible component and recovering the explosive mixed with the friendly medium characterized in that a heating medium is selected the process temperature liquid substance, which has no or low content of active oxygen. Process according to Claim 1, characterized in that the combustible substance is selected from a group consisting of hydrocarbons, alcohols, ketones, esters and mixtures thereof. A method according to claim 2, characterized in that the combustible substance is fuel oil. 4. A method according to claim 3, characterized in that the combustible substance is so-called heavy fuel oil. 5. A method according to claim 2, characterized in that the combustible substance is lubricating oil 6. A method according to claim 2, characterized in that the combustible substance is a narrow wax. 7. A method according to claim 1, characterized in that the explosive contains metal powder. A method according to claim 1, characterized in that the fusible component is trotyl. A method according to claim 1, characterized in that the explosive is separated from the mixture and that the heating medium is recycled. Process according to Claim 1, characterized in that the mixture of explosive and heating medium is worked up into a liquid / suspension suitable for combustion.