RU2473205C2 - Pyrotechnical composition for formation of gygroscopic aerosol - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to field of active influence on hydrometeorological processes, in particular, for dispersion of fog and clouds by generation of adsorbing aerosol in burning of pyrotechnical charge, which includes salts of oxygen-containing acid halogens. Pyrotechnical composition includes, wt %: potassium periodide 55-65, aluminium-magnesium alloy powder 5-15, potassium iodide 10-20, phenolformaldehyde resin 12-18.

EFFECT: increased efficiency of pyrotechnical composition due to multiple increase of specific volume of aerosol generation with larger condensed particles, which are productive centres of atmospheric moisture condensation, which results in their fast saturation with water.

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Description

The invention relates to the field of active influence on hydrometeorological processes, in particular for dispersing fog and clouds by generating an adsorbing aerosol during the combustion of a pyrotechnic charge, including halogen salts of oxygen-containing acids.

The level of this technical field is characterized by pyrotechnic compositions intended for exposure to supercooled clouds and fog (below -5 ° C), which contain an oxidizing agent, fuel, ice-forming reagent and technological additives, during the combustion of which an aerosol is generated based on silver iodide or lead iodide, actively ice-forming forming centers (US patents No. 3677841, С06В 15/02; England, No. 1110768, С10G 5/00; France, No. 1460540, A01G 15/00; Russia, No. 2175185, А 0115/00, С06 В 29/00).

As the oxidizing agent in these formulations, perchlorates and nitrates of alkali or alkaline earth metals, as well as ammonium, are used.

As technological additives ensuring the manufacturability of the manufacture and processing of pyrotechnic compositions, various oils, graphite, aerosil, titanium oxide, iron oxide and other chemicals are used.

The disadvantage of these pyrotechnic compositions is the temperature threshold for the use of reagents, which is the crystallization temperature of -4 ° C, -6 ° C, and their inefficiency for warm (above 0 ° C) clouds and fogs, where, as a rule, the listed compositions are neutral.

For this purpose, use the pyrotechnic composition according to patent RU No. 2090549, C06D 3/00, A01G 15/00, including, wt.%: 10-18 urea, 35-55 alkali metal nitrate, 27-53 magnesium alloy powder.

The introduction of urea is dictated by the need to reduce the combustion temperature of the thermal base to increase the aerosol yield.

The decomposition during the pyrolysis of the urea composition participating in the combustion does not form harmful substances, therefore, the targeted use of this pyro-compound is environmentally friendly.

The main disadvantage of the described universal (from -30 to + 22 ° C) pyrotechnic composition for use in dispersing fogs and clouds is the low yield of the target products in the form of an aerosol.

As the closest analogue to the proposed composition according to the purpose and the number of matching features, the one described in US patent No. 3630950, A01G 15/00, 1971, which contains (wt.%): 29 potassium nitrate (oxygen-containing oxidizing agent), 35 aluminum powder, or magnesium as a metal fuel, 21 halide - table salt and 15 organic binder - paraffin for pressing charges.

This composition is characterized by an increased yield of target substances, as a result of which a charge charge of 200 g of the composition is sufficient to cause dissipation of fog and clouds with a volume of 0.5 km ³ , which are scattered over 5 minutes.

A disadvantage of the known pyrotechnic composition is the low yield of target substances in the combustion wave (the maximum yield of condensation centers is 5.45 mol per 1 kg of composition), which determines the unsatisfactory efficiency of the intended action and the high charge consumption for dispersion in a given area of fog and clouds.

This, in particular, is explained by the fact that only potassium and sodium chlorides are formed in the combustion products, which also salinize the soil of the territory of active operations.

The finely dispersed metal fuel powder helps to increase the coagulating abilities of the pyrotechnic composition of the aerosol generated during combustion, which actively adsorbs water fog.

Powder of aluminum as a metal fuel in a thermally based composition is available on the market and relatively cheap, with stable combustion provides a sufficiently high temperature and good dispersion of the aerosol. The disadvantage is the difficulty of initiating ignition due to the oxide film on the surface of the powder particles.

The use of magnesium powder provides high chemical activity of interaction with the components of the mixture at room temperature, which requires mandatory safety measures during processing. For this reason, paraffin is introduced into the composition, which is applied to the particles of magnesium powder before mixing with potassium nitrate to prevent explosion, especially when drying the mixture.

Small particles of the generated aerosol are ineffective for use as centers of condensation of atmospheric moisture due to the relatively long saturation time.

The technical problem to which the present invention is directed is to increase the efficiency of the intended use of a functional pyrotechnic composition, more technologically advanced in the manufacture by mixing the components.

The required technical result is achieved by the fact that the known pyrotechnic composition for the formation of a hygroscopic aerosol, including an oxygen-containing oxidizing agent, metal fuel, a halide and an organic fuel binder, according to the invention, contains potassium periodate as an oxidizing agent, and an aluminum-magnesium alloy powder as a metal fuel, in the quality of the halide is potassium iodide and phenol-formaldehyde resin as an organic combustible binder, in the following ratio of components, ma from.%:

potassium periodate 55-65 aluminum-magnesium alloy powder 5-15 potassium iodide 10-20 phenol formaldehyde resin 12-18.

Distinctive features provide increased efficiency of the main action for the intended purpose due to a multiple increase in the specific volume of aerosol generation with larger condensed particles, which are productive centers of atmospheric moisture condensation, which leads to their water saturation twice as fast as in the prototype.

Introduction to a functional pyrotechnic composition as an oxygen-containing oxidizing agent of potassium periodate (KIO ₄ ) is aimed at obtaining potassium iodide (KI) as a result of thermal decomposition, which sublimates with the formation of aerosol particles with a more effective action, as a highly hygroscopic substance that actively adsorbs the moisture of fog and clouds.

When the potassium periodate contains more than 65 wt.%, With a concomitant excess of oxygen, the yield of KI, a producer of functional aerosol, sharply decreases.

When the content of potassium periodate in the composition is less than 55 wt.%, The rate and temperature of chemical combustion reactions decrease, which will slow down the yield of potassium iodide and, therefore, dissipation.

The use of aluminum-magnesium alloy (PAM) as a metal combustible powder made it possible to neutralize the negative properties of unitary aluminum and magnesium powders while maintaining their positive qualities as a component of the thermal basis of the pyrotechnic composition.

When the content of PAM is less than 5 wt.%, The burning rate is insufficient to effectively affect clouds and fog.

When the content of PAM exceeds 15 wt.%, The combustion temperature sharply increases, at which most of the generated potassium iodide does not sublimate, but thermally decomposes, resulting in a significantly reduced yield of functional aerosol.

Potassium iodide as a producer of a hygroscopic substance is, by definition, better than sodium chloride (NaCl) in the structure of the prototype composition, while soil salinization in the area of application is excluded.

The choice of phenol formaldehyde resin (industrial grade SF-0112A) as an organic combustible binder is determined by the fact that during its thermal decomposition soot particles are formed, which serve as additional condensation centers, which increases the efficiency of the proposed pyrotechnic composition.

The content of phenol-formaldehyde resin in the composition of more than 20 wt.% Is ballast, since it does not lead to an increase in the dispersion rate of fog and clouds, because the mass of the thermal base and the composition of aerosol particles generated during combustion are reduced.

When the content of phenol-formaldehyde resin in the pyrotechnic composition is less than 10 wt.%, Its burning rate drops sharply and the yield of functional aerosol substances decreases.

The proposed pyrotechnic composition is prepared on existing pyrotechnic production equipment by simple mixing of components, and it is explosion-proof during processing and in official use.

Therefore, each essential feature is necessary, and their combination is sufficient to obtain a novelty of quality that is not inherent in the signs of disunity, that is, the stated technical problem is solved not by the sum of the effects, but by a new super-effect of the sum of the essential features.

The quantitative ratio of the selected components of the proposed pyrotechnic composition was optimized by calculations on the mathematical model of the experimental design and confirmed by testing prototypes of charges in which the content of the components varied within the declared quantitative ranges, at their borders and outside of these ranges.

The achieved results of comparative with the prototype tests of the compositions according to the invention and the parameters of hygroscopic aerosols generated during their combustion are shown in the table below.

Table Composition component Parameter value prototype invention combustion temperature, ° С 2050 1400 the number of target products of combustion, mol / kg 5.45 6.85 atmospheric combustion rate, mm / s 3.12 2.80 relative content of condensation nuclei,% 23 67 counting concentration in 1 cm ³ : - up to 1 micron (small) more than 100 5 - up to 10 microns (large) 0.02 0.12 effective aerosol particle diameter, microns 1-2 3-5 yield of condensation nuclei from 1 g of composition 4 × 10 ¹¹ 1.5 × 10 ¹²

From the table it follows that the more active hygroscopic centers according to the proposed technical solution are six times more (large) than the prototype, which at the same time faster and four times more relative quantitative yield during combustion of the composition provide the earliest possible formation of raindrops and, accordingly, fog dispersion and clouds.

The decrease in the burning rate of the proposed pyrotechnic composition, compared with the prototype, provides a longer allocation of active centers of condensation of atmospheric moisture and the uniformity of their distribution in the zone of influence during the entire time of burning of the charge.

At the same time, the scattering time of treated clouds and fog is reduced to three minutes.

100 g of the proposed pyrotechnic composition provides processing of the cloud with a volume of 1 km ³ , against 0.5 km ³ according to the prototype, for a time 2-3 times shorter.

A comparative analysis of the proposed technical solution with the 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 practical serial production of a composition that generates hygroscopic aerosol using industry-leading technology, Conclusion of eligibility for patentability.

Achieved significantly higher levels of destination of the proposed target functional composition of comparable cost allow us to recommend it for the industrial production of new technical means of active influence on warm clouds and fog with the aim of their dispersion and precipitation.

Claims (1)

A pyrotechnic composition for the formation of a hygroscopic aerosol, including an oxygen-containing oxidizing agent, metal fuel, a halide and an organic fuel binder, characterized in that it contains potassium periodate as an oxidizing agent, aluminum-magnesium alloy powder as a metal fuel, and potassium iodide as a halide, and as an organic combustible binder - phenol-formaldehyde resin in the following ratio of components, wt.%:
potassium periodate 55-65 aluminum-magnesium alloy powder 5-15 potassium iodide 10-20 phenol formaldehyde resin 12-18