RU2501775C1 - Method of recycling combustible case wastes - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention proposes to use combustible case wastes to produce pyrotechnic compositions for fireworks. To this end, combustible case wastes containing trinitrotoluene, pyroxylin and cellulose are pre-dried at temperature of 40-50°C for 3-5 hours to moisture and volatile substance content of not more than 0.5 wt %, ground to particle size of not more than 100 mcm and added in form of a granular component to a pyrotechnic mixture as an active oxygen-containing oxidant and combustible substance.

EFFECT: invention enables to recycle production wastes containing nitro compounds and enables complete combustion of components of pyrotechnic compositions when using charges as intended and improves basic technical characteristics thereof.

Description

The proposed invention relates to pyrotechnics, that is, to pyrotechnic means for illumination, entertainment, entertainment and signaling purposes, and more particularly to compositions containing an inorganic oxygen-containing salt and a finely divided metal alloy in combination with a component of the thermal base, which is a recyclable industrial waste.

The level of this technical field is characterized by patent RU 2331619 C1, C06B 33/04; СВВ 31/24, 2007, which describes the pyrotechnic composition for fireworks and signaling devices made using recyclable pyroxylin gunpowder waste (obsolete arsenal or production), which make up a third to half the mass of charges.

This composition, which burns with the formation of a white light, a steadily pulsating flame in a given mode, includes nitrocellulose or pyroxylin powder, barium nitrate as an oxidizing agent, metallic fuel - finely divided aluminum-magnesium alloy powder and a combustible binder - dibutyl phthalate, in the following ratio of components (oil .%):

nitrocellulose or pyroxylin powder 35-53 barium nitrate 25-34 aluminum-magnesium alloy powder 20-30 dibutyl phthalate 1-2.

The pyro-powder composition of the white fire of the flickering flame described during combustion is made as follows.

The crushed pyroxylin powder or nitrocellulose of the calculated mass is poured into a paddle mixer together with dibutyl phthalate and half filled with the amount of ethyl alcohol necessary for plasticization, after which it is stirred at room temperature for 20 minutes, resulting in a technological and thermal basis of the composition.

Then, barium nitrate and aluminum-magnesium alloy powder are successively added to the plasticized base with a selectivity of selective particles of 60-160 μm and poured with the second half of ethyl alcohol to the total mass (30-40% by weight of the composition), and then stirred for 10-15 minutes at normal temperature.

The prepared mixture is suitable for continuous pressing of a functional cord with a diameter of 2-7 mm with an axial channel.

The cord wound in a riot is kept at a temperature of 20-30 ° C for 20 minutes to dry the mixture so that it does not stick to the cutting tool during the subsequent manufacture of measured pyropohora elements (stars). At the same time, the cord does not wrinkle and cutting is explosion-proof.

The disadvantage of the described technical solution for the disposal of pyroxylin powder by introducing it into the structure of the firework composition is the multi-stage process caused by the need to plasticize pyroxylin powder for its mixing with the components of the composition.

The pyro-gunpowder composition of a flickering flame made by the described method during combustion is characterized by a low purity of the color of the flame, which determines its targeted use.

A more advanced technical solution is a method for manufacturing pressed pyropohoric elements from a functional composition containing a crumb of recyclable pyroxylin gunpowder, barium nitrate, aluminum-magnesium alloy powder, a color enhancer, polyvinyl chloride and a binder - phenol-formaldehyde resin described in the invention according to patent UA 39607, F426060 / 00, 1996

The method of preparation of pyropochion elements from the specified composition, containing, wt.%:

pyroxylin powder crumb 25-29 barium nitrate 39-47 aluminum-magnesium alloy powder 10-11 phenol formaldehyde resin 4-5 polyvinyl chloride 14-16, - includes the following operations.

A mixture of metal fuel in an alcohol solution of phenol-formaldehyde resin is preliminarily prepared, for which a weighed portion of aluminum-magnesium alloy powder is poured into the binder solution and mixed for 20-25 minutes.

At the same time, a mixture of barium nitrate, polyvinyl chloride and powder of pyroxylin gunpowder is prepared in a dispersant at room temperature, which is then portioned into the mixer with periodic addition of a varnish mixture with metal fuel for 25-30 minutes until a homogeneous homogeneous mass is obtained.

Next, the resulting mixture of components of the composition is granulated, after which the granules are dried in a cabinet at a temperature of 55-60 ° C for 2.5-3.0 hours.

From a granular pyropohovoi composition in a special press tool on the press at a pressure of 2.5 tf / cm ² form tablets of a functional charge for equipping fireworks.

The functional charge made according to the described method is characterized by improved flammability, a contrasting color of the flame, complete combustion of the components during the intensification of uniform combustion of the composition with the release of a large amount of thermal energy.

The disadvantage of this non-technological method is the high complexity, which limits its industrial applicability.

In addition, the functionality of the use of pyro-powder elements obtained by the known method is limited for narrow purposes because of their heterogeneous structure: the pyroxylin powder crumb has millimeter sizes, and the particles of the remaining powder components are an order of magnitude smaller, which makes it difficult to achieve uniform distribution when mixed in standard technological processes mixers of pyrotechnic production.

The uneven mass ratio of the components in the mixture does not guarantee the achievement of the specified targets for all pyrotechnic charges made from this composition.

The known composition is suitable only for creating a colorful spark-force effect for fireworks and salutes, which is formed due to the fact that the pyroxylin powder crumbs are ignited in the charge and the gaseous products of combustion of the composition are carried out into the torch, where they burn out in the air with sparking, creating sheaves of sparks .

This narrowly-targeted use of the composition limits the use of recyclable pyroxylin powder chips in color-flame and signal charges, which should provide an even, continuous glow during combustion.

When pyro-powder elements obtained by the described method are burned, in which pyroxylin powder is crushed, a large release of environmentally harmful substances (ammonia, hydrogen cyanide and carbon monoxide) occurs due to incomplete combustion of the components. This problem is not completely solved when grinding pyroxylin gunpowder because it contains a relatively small amount of oxygen necessary for complete combustion of the components of the composition.

As the closest in technical essence and purpose to the analogue of the proposed method is selected, disclosed in the book of L.A. Smirnova, O.V. Tinkova, Conversion, Part IV, Disposal of decommissioned ammunition and solid propellant rockets, M., MGAHM, 1966, p. 88, 116-117, method of disposal of waste material from a burning cartridge case.

The technical problem to which the present invention is directed is to improve the known method for the disposal of waste material from a burning sleeve to be included after pretreatment, in the form of a granular component in a pyrotechnic mixture, ensuring the universality of safe use in compositions for various purposes.

The required technical result is achieved by the fact that in the known method for the disposal of waste material from a burning sleeve, industrial waste from a burning sleeve containing trinitrotoluene, pyroxylin and cellulose is pre-dried at a temperature of 40-50 ° C for 3-5 hours to a moisture and volatile content of not more than 0 , 5 wt.%, Crushed to a particle size of not more than 100 microns and included in the form of a granular component in a pyrotechnic mixture for salutes and fireworks as an active oxygen-containing oxidizing agent and combustible substance.

Distinctive features of the method allow you to create an industrial technology for the disposal of industrial waste material of a burning sleeve in the manufacturing process of pyrotechnic compositions for various functional purposes.

In this case, almost complete combustion of the components of the pyrotechnic compositions during their functioning and improvement of the main technical characteristics of the purpose of firework charges from them are achieved.

Additional processing of industrial waste generated in the manufacture of combustible cartridge cases, the material of which includes (wt.%): 50 trinitrotoluene, 25 pyroxylin and 25 cellulose, is necessary to create compatibility conditions with the components of the pyrotechnic composition.

Improving the waste material of the burning cartridge case in terms of physical characteristics and fractionality makes them suitable for use as an activating additive in the pyrotechnic composition, which ensures the burning of the condensed phase in the charge, which sharply increases the intensity of the glow suitable for color-flame signals and lighting charges, increases the colorful effect in fireworks, fireworks, etc.

Slow safe drying of the material of the burning sleeve (3-5 hours at a temperature of 40-50 ° C) to a moisture and volatile content of not more than 0.5 wt.% Is necessary for automatic grinding of the material into particles with a size of not more than 100 microns, comparable with the fractionality of the rest components, which ensures the uniformity of their distribution in volume when mixing.

At the same time, the combustion surface of the composition increases with high temperature and speed, since the material of the burning sleeve contains a more powerful (compared to analog pyroxylin powder) oxidizer from active nitro compounds, of increased calorific value, thereby ensuring complete combustion of the components directly in the charge.

Drying the material of the burning sleeve at a temperature of less than 40 ° C is not technologically advanced due to the long duration of the process.

When drying the material of a burning sleeve with a temperature of more than 50 ° C, ignition is possible, which makes the process explosion-proof.

When the drying time of the material of the burning sleeve is less than 3 hours, the specified level of moisture and volatile content is not achieved, which is necessary for grinding in an automatic disperser without sticking the material to the tool.

Drying for more than 5 hours requires additional production space, which leads to an increase in the consumer cost of the material.

The level of moisture and volatiles in the material of the burning sleeve not exceeding 0.5 wt.% Is the industry standard limit for the components of pyrotechnic mixtures, which meets the technical conditions and safety requirements.

At this level of moisture and volatiles, the material of the burning sleeve is crushed without problems in an automatic dispersant.

The relevance of the proposed invention is justified by the fact that in the manufacture of combustible sleeves, industrial waste is 40%, the simple burning of which is associated with the release of substances of 2-4 hazard classes: chlorine, hydrogen chloride, carbon oxides and nitrogen, which is unacceptable according to existing environmental standards (Y.M Grushko, “Harmful inorganic compounds in industrial emissions into the atmosphere”, Handbook, L., Chemistry, 1987, 191 pp.).

The proposed method is implemented on existing pyrotechnic equipment according to the adopted technology, which does not create obstacles to the practical use of the invention.

The method is a simple, reliable and safe method for disposing of waste from the production of material of a burning cartridge case by burning in pyrotechnic charges without exceeding the MPC norms for harmful substances emitted at the same time due to the almost complete combustion of structural components of the composition with an increased oxygen content in the nitro compounds of the material of the burning cartridge case.

A comparative analysis of the proposed technical solution with identified analogues of the prior art, from which the invention does not explicitly follow for a pyrotechnic specialist, showed that it is unknown, and given the possibility of industrial processing of waste into universal pyrotechnic charges, it can be concluded that the patentability criteria are met. -I

Claims (1)

A method of disposing waste material from a burning sleeve, characterized in that the production waste of a burning sleeve containing trinitrotoluene, pyroxylin and cellulose is pre-dried at a temperature of 40-50 ° C for 3-5 hours to a moisture and volatile content of not more than 0.5 wt. %, crushed to a particle size of not more than 100 microns and included in the form of a granular component in a pyrotechnic mixture for salutes and fireworks as an active oxygen-containing oxidizing agent and combustible substance.