RU2470506C1 - Pyrotechnic composition for acting on supercooled clouds - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to pyrotechnic compositions containing perchlorate and an organic component which is not explosive, which, during combustion, form an aerosol which affects the weather, for dispersing clouds and fog from supercooled clouds using ice nuclei obtained from burning reactive filler of means of delivering pyrotechnic charges into the volume to be processed. The pyrotechnic composition contains ammonium perchlorate, phenol-formaldehyde resin, dicyandiamide, a mixture of finely ground powder of silver, potassium and copper iodides, and graphite and industrial oil as process additives.

EFFECT: improved technological effectiveness and safety of producing a more efficient pyrotechnic charge due to complete sublimation of functional reactants; the composition has high rate and temperature of combustion with formation of a large volume of aerosol products, performs additional functions of solid fuel pellets of rocket engine, which considerably simplifies the design of weather rockets for processing clouds.

Description

The invention relates to pyrotechnic compositions containing perchlorate and an organic component that is not explosive, which when burned form an aerosol that affects the weather. The invention can be used, in particular, for dispersing clouds and fog, preventing hail, and for causing precipitation from supercooled clouds using ice-forming cores obtained by burning reactive filling equipment for delivering pyrotechnic charges to the treated volume.

The level of this technical field is characterized by a pyrotechnic composition for active exposure to supercooled clouds and fog according to patent RU No. 2175185 C1, A01G 15/00; C06B 29/08; C15D 3/00, 2001, which contains an oxidizing agent - ammonium perchlorate, an organic combustible binder - phenol-formaldehyde resin, dicyandiamide as a combustion rate regulator and flame arrestor, a mixture of finely powdered silver iodide powders (the main ice-forming reagent) and potassium iodide and processing aids (graphite , Aerosil, industrial oil).

The described pyrotechnic composition contains components in the following ratio (wt.%):

ammonium perchlorate 48-58 phenol formaldehyde resin 13-17 dicyandiamide 9-11 silver iodide 7-9 potassium iodide 11-13 graphite 0.5-1 aerosil 0.5 industrial oil 0.5-1

The quantitative ratio of the components of this pyrotechnic composition provides an ice-forming action threshold in the range of minus 4-5 ° С, the yield of active crystallization nuclei at a temperature of minus 10 ° С is (1-2) × 10 ¹³ s 1 g of the composition, and at minus 6 ° С - up to 7.5 × 10 ¹² with 1 g of the composition, sufficient for the practical effective impact of anti-hail and precipitation meteorological agents.

The composition used was a well-sublimated additional activator - potassium iodide, which condenses water vapor and removes the resulting slag from the combustion zone, and most importantly, contributes to the sublimation of silver iodide, which significantly increases the efficiency of the aerosol pyrotechnic composition generated during longer burning for its intended purpose. However, potassium iodide does not fully ensure the activation of silver iodide, as a result of which it is partially thermally decomposed and is not used for its main purpose, which reduces the efficiency of creating ice formation centers.

A disadvantage of the known pyrotechnic composition is the relatively high burning rate and low threshold of the crystallizing action of the generated aerosol, which limits the efficiency of ice formation along the height of the lower layer of the treated clouds, with the aim of forced precipitation at a higher atmosphere temperature close to 0 ° C.

In addition, Aerosil technological additive is imported, which increases the consumer value of anti-hail agents and limits the industrial production of functional pyrotechnic composition.

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

The problem to which the present invention is directed, is the creation on the basis of the known pyrotechnic composition of a technologically advanced universal composition of complex action that generates gaseous products in an amount sufficient for the working fluid of the rocket engine, in which a dispersed amount of active crystallization centers serving as ice formation nuclei in the process supercool cloud and fog.

The required technical result is achieved by the fact that the known pyrotechnic composition for acting on supercooled clouds, including ammonium perchlorate, phenol-formaldehyde resin, dicyandiamide, a mixture of finely powdered silver, potassium and copper iodides, and industrial graphite and oil as industrial additives, additionally contains carbon black in the following ratio of components, wt.%:

ammonium perchlorate 48-52 phenol formaldehyde resin 12-16 dicyandiamide 7-9 silver iodide 6-8 potassium iodide 10-12 copper iodide 4-6 graphite 0.5-1 carbon black 3-4 industrial oil 0.5-1,

while the iodides of silver, potassium and copper are contained in a mass ratio of 1: 1.6: 0.7.

Distinctive features ensured an improvement in the manufacturability and safety of manufacturing a more effective pyrotechnic charge according to the main action as a result of more complete sublimation of functional reagents forming active crystallization centers distributed in the aerosol cloud generated during combustion.

The charge of the proposed pyrotechnic composition, which has an increased burning speed and temperature with the formation of a large volume of gaseous products, performs additional functions of a solid propellant rocket engine jet, which greatly simplifies the design of a meteorological rocket for processing clouds.

The introduction into the pyrotechnic composition of additional finely dispersed carbon black, which serves as a technological additive that reduces the sensitivity of the composition during mixing and processing by pressing, is necessary to increase the efficiency of the generated aerosol, in which the distributed finished carbon particles act as centers of moisture condensation and crystallization, initiating ice formation in supercooled clouds.

At the same time, it became possible to reduce the mass fraction of the main ice-forming reagent to be sublimated, which occurs more fully, by one third, excluding unreacted ballast.

An adequate decrease in the proportion of dicyandiamide, which is used for flame extinguishing when controlling the burning rate of the composition, to the optimum content in the range of 7--9 wt% is necessary to stabilize the sublimation of potassium iodide without thermal degradation, thereby providing a more complete exit of ice-forming nuclei to the aerosol.

The introduction of carbon black into the pyrotechnic composition automatically creates ready-made condensation and crystallization centers in the form of solid carbon particles distributed in the charge volume, which activates the beginning of the formation of ice crystals in supercooled clouds and, as a result, reduces the proportion of the main ice-forming component - silver iodide, sublimated in the process burning a functional charge more actively and fully in the presence of sublimation activators, the relative mass of which significantly increased Camping.

The optimum ratio of the components of the thermal base of the composition — ammonium perchlorate and phenol-formaldehyde resin — remained unchanged to ensure a sufficiently long time of active combustion and effective aerosol formation.

When the content of ammonium perchlorate in the pyrotechnic composition is less than 48 wt.% And / or phenol-formaldehyde resin less than 12 wt.%, The burning rate and the degree of sublimation of silver iodide, the main ice-forming agent, decrease and the traction force of the jet stream of gaseous products of combustion decreases.

When the content of ammonium perchlorate in the pyrotechnic composition is more than 52 wt.% And / or phenol-formaldehyde resin more than 16 wt.%, The generation time of a functional aerosol sharply falls below a predetermined one, which noticeably worsens the efficiency of exposure to supercooled clouds and the thermodynamics of a jet engine.

A relative increase in the mass content of phenol-formaldehyde resin is aimed at isolating an additional amount of soot particles into the combustion products, which serve as centers of moisture condensation and crystallization and contribute to an increase in ice formation of the generated aerosol as a whole.

A content of dicyandiamide in the pyrotechnic composition according to the invention of less than 7 wt.% Is insufficient for stable sublimation of silver iodide, which is not protected from thermal degradation.

The content in the pyrotechnic composition of dicyandiamide of more than 9 wt.% Is ballast and does not contribute to increasing the effectiveness of the main action for the intended purpose.

The mass content of silver iodide sublimation activators (potassium iodide and copper iodides) was preserved with a 40% increase in their mass relative to the reduced fraction of silver iodide, which ensured the completeness of its sublimation and, as a result, the efficiency of the ice-forming effect of the generated aerosol on supercooled clouds and fog.

Empirically, within the framework of this technical solution, the mass ratio between silver, potassium and copper iodides is optimized as 1: 1.6: 0.7, respectively, the interaction in which in the structure of the proposed pyrotechnic composition provides maximum efficiency for the release of crystallization nuclei into the treated cloud.

When the content of silver iodide in the pyrotechnic composition is in the range of 6-8 wt.%, The completeness of its sublimation in the presence of a complex activator is guaranteed and the increased temperature and burning rate of the charge are achieved.

When the content of potassium iodide in the pyrotechnic composition is less than 10 wt.%, Slagging of copper iodide thermal decomposition products occurs, which reduces the dynamics and efficiency of formation of ice formation nuclei, and thermal decomposition of the main ice-forming reagent (AgJ) in the flame, which reduces the effectiveness of the intended action.

When the content of potassium iodide in the pyrotechnic composition is more than 12 wt.%, The burning rate decreases and the volume of functional aerosol decreases to the level of an analogue.

When the content of copper iodide in the pyrotechnic composition is more than 6 wt.%, Slagging of the combustion products occurs and the ballast does not pass into aerosol, which reduces the effectiveness of the main action.

When the content of copper iodide in the pyrotechnic composition is less than 4 wt.%, The yield of ice-forming nuclei in the structure of the generated aerosol sharply decreases, which limits the use of the composition in clouds with high temperature.

The use of finely dispersed carbon black in the pyrotechnic composition as an technological additive in an optimized amount of 3-4 wt.% Provides the formation of additional centers of condensation and crystallization of moisture of the supercooled cloud as a result of the fact that when the charge burns, the prepared soot particles are dispersed into the aerosol structure, initiating the formation of them ice crystals.

The introduction of 0.5-1 wt.% Graphite as a technological additive reduces the sensitivity of the pyrotechnic composition to friction when mixing the components and pressing charges.

The content in the pyrotechnic composition of industrial oil in an amount of 0.5-1 wt.% Eliminates dusting during the operation of mixing the components.

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

The proposed pyrotechnic composition according to the technology adopted in the pyrotechnic production using existing equipment is prepared by sequential mixing of the components (wt.%):

50 ± 2 ammonium perchloride according to GOST B22544 (ammonium perchlorate);

14 ± 2 resin brand SF-342A according to GOST 186694 (phenol-formaldehyde resin);

8 ± 1 dicyandiamide according to GOST 6988;

7 ± 1 silver iodide according to Tu 6-09-02-405 (silver iodide);

11 ± 2 potassium iodide according to GOST 4332 (potassium iodide);

5 ± 1 copper iodide (copper iodide);

0.5-1 grade P graphite (GOST 8295);

3.5 ± 0.5 carbon black in accordance with GOST 7885;

0.5-1 oils of industrial grade I-12A according to GOST 20799.

The ratio of the components of the proposed pyrotechnic composition was calculated by the mathematical model of the planning of the experiment and worked out on model charges.

Moreover, for experimental verification of the composition according to the invention, pyrotechnic compositions were prepared and tested with the contents of the components at the boundaries of the selected ranges, inside and outside their limit values.

The prepared pyrotechnic compositions were tested in model generators structurally similar to the actual structures of meteorological rockets and pyro cartridge, at the stand for the formation of representative aerosol samples, which were introduced into the climate chambers of the hygrostats to obtain exposed sediment replicas on a glass slide.

Bench tests of prototypes of delivery vehicles with charges from the proposed pyrotechnic composition as a solid propellant rocket showed that when it burns, a tractive effort develops that is guaranteed to be sufficient to lift products to the processed supercooled clouds without special jet fuel, which simplifies the design of rockets and rockets with increase payload complex action.

As a result of testing prototype charges from the pyrotechnic compositions prepared according to the invention, the calculated ratio of the proposed mass content of the components was confirmed, in which the efficiency of the main action of the generated aerosol on ice formation in supercooled clouds and fog is steadily provided.

In particular, the output of active crystallization nuclei is biased towards higher temperatures, namely in the range of 3-4 ° C, against minus 5-6 ° C according to the prototype.

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 taking into account the possibility of industrial serial production of pyrotechnic charges from a modernized pyrotechnic composition for exposure to supercooled clouds, one can make a conclusion on its compliance with the criteria of patentability.

Claims (2)

1. Pyrotechnic composition for exposure to supercooled clouds, including ammonium perchlorate, phenol-formaldehyde resin, dicyandiamide, a mixture of finely powdered silver, potassium and copper iodides, and industrial additives as graphite additives, characterized in that it additionally contains carbon black in the following the ratio of components, wt.%:
ammonium perchlorate 48-52 phenol formaldehyde resin 12-16 dicyandiamide 7-9 silver iodide 6-8 potassium iodide 10-12 copper iodide 4-6 graphite 0.5-1 carbon black 3-4 industrial oil 0.5-1 2. The pyrotechnic composition according to claim 1, characterized in that the iodides of silver, potassium and copper are contained in a mass ratio of 1: 1.6: 0.7.