RU2692313C1 - Pyrotechnic aerosol-forming composition for exposing clouds and fog - Google Patents

Abstract

FIELD: pyrotechnics.SUBSTANCE: invention relates to pyrotechnic compositions which, during combustion, form an aerosol which acts on hydrometeorological processes. Invention can be used to dissipate clouds and fogs, prevent hailstorms and induce precipitation from supercooled clouds, by generating adsorbing aerosol when burning pyrotechnic charge, which includes salts of active halides. Pyrotechnic aerosol-forming composition contains ammonium perchlorate as an oxidising agent, phenol-formaldehyde resin as fuel and calcium stearate as an ice-forming agent – a composition of ingredients promoting formation of nuclei of crystals – a mixture of finely ground silver iodide powder, potassium iodide, copper iodide, as a combustible binder for excluding stratification and increasing strength of the pressed composition – natural linseed, for controlling combustion rate – ferrocene (catalytic additive) and process additive – graphite.EFFECT: composition is characterized by high efficiency of action of pyrotechnic composition on clouds, providing universality of meteorological effect in a wide range of temperatures, with high threshold of ice formation and output of active nuclei of crystallisation.1 cl, 2 tbl

Description

The invention relates to pyrotechnic compositions containing perchlorate and organic filler, which is not explosive, which, when burned, form an aerosol affecting hydrometeorological processes. The invention can be used to disperse clouds and fogs, prevent hailstorms and induce precipitation from supercooled clouds, by generating an adsorbing aerosol during combustion of a pyrotechnic charge, including salts of active halides.

The level of this technology is characterized by a pyrotechnic composition for influencing supercooled clouds and fog, used in mass production in Alazan-6 anti-hail rockets, PV-26 and PV-50 cloud impact cartridges, SAG-26 aircraft aerosol generators, described in the RU patent 2175185, A01G 15/00, С06В 29/08, С06D 3/00, containing the following components, in a ratio (wt.%):

48-58 ammonium perchlorate as an oxidizing agent

- 13-17 phenol formaldehyde resin, as a fuel,

- 9-11 dicyandiamide - burning rate regulator, flame arrester,

- 7-9 silver iodide, 11-13 potassium iodide - ice-forming reagents,

- 1-3 technological additive (graphite, aerosil, industrial oil).

The quantitative ratio of the components of the pyrotechnic composition provides an ice-forming action threshold in the range of minus (4-5) ° C, and the yield of active crystallization nuclei, according to the results of laboratory tests of FSB "TsAO", for the period (2009-2016), at a temperature of minus 10 ° C is (1.0-1.7) × 10 ¹³ with 1 gram of composition, and at minus 6 ° C - (1.0-3.26) × 10 ¹² with 1 gram of composition.

The composition used is a well-sublimated additional activator - potassium iodide, which condenses water vapors and removes slag from the combustion zone, and most importantly, contributes to the sublimation of silver iodide, which significantly increases the efficiency of the pyrotechnic composition of the aerosol generated during longer burning.

However, potassium iodide does not fully activate silver iodide, as a result of which it partially decomposes thermally and is not used for its intended purpose, thus reducing the efficiency of creating crystallization centers.

An additional disadvantage of the known pyrotechnic composition is the relatively low threshold of the crystallizing effect of the generated aerosol, which limits the efficiency of ice formation over the height of the lower layer of the clouds being processed, with the aim of forcing precipitation at a higher atmosphere temperature close to 0 ° C, and the absence of complete sublimation of the ice-forming reagent - silver iodide, which requires a large consumption of expensive ice-forming reagent.

Noted deficiencies are eliminated to some extent in a more advanced pyrotechnic composition for influencing supercooled clouds and fog according to the patent RU 2470506, A01G 15/00, СВВ 29/08, 2011, which is selected as the prototype for the proposed composition.

Known pyrotechnic aerosol-forming composition contains the following components, in a ratio (wt.%):

Ammonium Perchlorate - 48.0-52.0 Phenol formaldehyde resin - 12.0-16.0 Dicyandiamide - 7.0-9.0 Silver yodite - 6.0-8.0 Potassium Yodite - 10.0-12.0 Copper iodide - 4.0-6.0 Graphite - 0.5-1.0 Carbon black - 3.0-4.0 Industrial oil - 0.5-1.0

The specified pyrotechnic composition, like its counterpart, provides a sufficiently high yield of active nuclei at temperatures of minus (10–5) ° C, however, the threshold of the crystallizing effect is slightly shifted towards higher temperatures.

In addition, the qualitative composition and quantitative ratio of the components of the known pyrotechnic composition are not optimized for the maximum completeness of sublimation, ice-forming reagents, which determines the relatively low efficiency of the action for the intended purpose and requires additional consumption of aerosol-generating products to solve the tasks.

The task, which the present invention is directed to achieve a technical result, is to create a pyrotechnic composition containing components that increase the crystallization threshold of active nuclei from minus 6 ° C to minus 3 ° C, providing the most complete sublimation of expensive ice-forming agent - silver iodide, with the ability to control burning rate of the composition in a wide range (from 1 mm / s to 2 mm / s); with a lower cost of composition, while maintaining and increasing efficiency compared with the known analogues.

The required technical result is achieved by the fact that the known pyrotechnic azrozole-forming composition for treating clouds and mist containing ammonium perchlorate, phenol-formaldehyde resin, silver iodide, potassium iodide, copper iodide, graphite, ferrocene is additionally introduced, and dicyandiamide, carbon black and industrial oil are replaced by calcium stearate and natural drying oil, in the following ratio of components, wt. %:

Ammonium Perchlorate - 56.0-62.0 Phenol formaldehyde resin - 13.0-17.0 Calcium Stearate - 3.5-5.0 Silver iodide - 2.5-3.5 Potassium iodide - 12.0-14.0 Copper iodide - 1.0-2.0 Drying oil natural - 2.0-5.0 Graphite - 0.0-1.0 Ferrocene - 0.0-2.0

Distinctive features of the claimed invention have provided an improvement in the processability and safety of manufacturing a composition effective for the main action of the pyrotechnic charge as a result of a more complete sublimation of the functional reagents forming active crystallization centers distributed in the aerosol cloud generated during combustion.

The composition according to the invention contains ammonium perchlorate (NH ₄ , ClO ₄ ) as an oxidant, phenol-formaldehyde resin (C ₁₃ H ₁₂ O ₂ ) and calcium stearate (C ₃₆ H ₇₀ CaO ₄ ) as an ice-forming reagent - composition as a fuel. ingredients that contribute to the formation of nuclei of crystals - a mixture of fine powdered silver iodide (AgI), potassium iodide (KI), copper iodide (CuI) powders, as a combustible binder, to eliminate delamination and increase the strength of the pressed composition - natural drying oil, to regulate the speed of mountains eniya - ferrocene (catalytic additive) and technological additive - graphite.

The composition has increased ice-forming action:

- the ice-forming threshold is up to minus 3 ° С;

- the yield of active crystallization nuclei at a temperature of minus 10 ° С - (1.2-1.6) × 10 ¹³ with 1 g of composition, at a temperature of minus (5.5-6.0) ° С - (8.0-11 , 0) × 10 ¹² with 1 g of the composition, at a temperature of minus 3 ° C to 7.0 × 10 ¹¹ with 1 g of the composition, which at temperatures of minus (3-6) ° C significantly exceeds the performance of all known similar compositions, while the content of the most expensive and scarce component of AgI is 2.5-3 times lower. Due to its low cost and high output characteristics, the composition is able to replace the currently used serial compositions, both in existing and newly developed hail and precipitating agents.

When burning a pyrotechnic composition containing calcium stearate instead of previously used dicyandiamide, highly hygroscopic calcium compounds are formed, which, at a content of (2.5-3.5)% silver iodide in combination with known iodine-containing functional reagents, provides the proposed composition with a synergistic effect of the resultant result, allowing ensure output of active cores (1,2-1,6) × 10 ^13, 1 g of the composition at a temperature of minus 10 ° C as in prior art formulations containing 8-10% silver iodide and increase crystallized threshold tion of active cores with minus (5-6) ° C to -3 ° C in a yield of active nuclei of crystallization at minus 3 ° C to 7,0 × ¹⁰ November with 1 g of the composition.

Natural drying oil plays the role of fuel and at the same time eliminates stratification of the components that are heterogeneous in density during processing (for the heaviest silver iodide, the density is 5.675 g / cm ³ , and for the lightest calcium stearate, the density is 1.08 g / cm ³ ) , increases the strength of the pressed composition as a result of drying (polymerization) of drying oil with the formation of a durable elastic film, which contributes to a uniform burning of the composition and obtaining a uniform in density and ice-forming prices The crystallization of the aerosol cloud.

Ferrocene (catalytic additive) allows you to change the burning rate of the pressed composition without reducing the ice-forming activity of the composition, which expands the technological capabilities in the design of specific means of action.

Graphite is introduced into the composition to increase the strength of the charge from the pressed composition.

Components of the composition have a wide resource base.

The preparation of the composition according to the invention is performed on planetary-type mixers used in the pyrotechnic industry by mechanical mixing in three stages:

1. A bag of powdered dry ingredients for 10-20 minutes;

2. Enter the liquid component and additional mixing for 10-15 minutes;

3. Production of charges from the prepared composition by the method of deaf pressing on hydraulic presses.

The burning rate of the composition in a charge pressed at a specific pressure of (1300 ± 130) kg / cm ² is (1.0–2.0) mm / s and is governed by the size of the components and the introduction of a catalytic additive.

For experimental verification, the compositions were made and tested, the formulations of which, in comparison with the composition of the analogue and the prototype, are given in Table 1.

Indicators of the effectiveness of ice formation are shown in table 2.

The tests of prototypes of compositions in installations for modeling various meteorological conditions confirmed a significant increase in the efficiency of ice formation, including in the range of elevated temperatures up to minus 3 ° C. Analysis of the data given in Table 2 shows that the formulation of the composition according to the invention greatly expands the possibilities of using the composition, both for supercooled clouds and relatively warm clouds and fogs.

Comparative analysis of the proposed technical solution with identified analogues of the prior art shows compliance with the criteria of patentability "novelty" and "inventive step", and taking into account the possibility of mass production of pyrotechnic composition and use in products intended to actively influence supercooled clouds and fogs, we can conclude compliance with the patentability criteria "industrial applicability".

Claims (2)

Pyrotechnic azrozole-forming composition for exposure to clouds and mist containing ammonium perchlorate, phenol-formaldehyde resin, silver iodide, potassium iodide, copper iodide, characterized in that it contains ferrocene, calcium stearate, natural oil and optionally graphite and ferrocene, with the following and with the following ratio, the following ratio of the following stearate, calcium, natural oil, and graphite and ferrocene, and , wt. %: Ammonium Perchlorate - 56.0-62.0 Phenol formaldehyde resin - 13.0-17.0 Calcium Stearate - 3.5-5.0 Silver iodide - 2.5-3.5 Potassium iodide - 12.0-14.0 Copper iodide - 1.0-2.0 Drying oil natural - 2.0-5.0 Graphite - 0.0-1.0 Ferrocene - 0.0-2.0.