RU2124839C1 - Compound for obtaining pesticide aerosols - Google Patents

Abstract

FIELD: agriculture, in particular, production of pesticide for protecting animals, birds and plants from fungi and parasitic diseases, as well as for disinfecting agricultural objects. SUBSTANCE: compound contains gunpowder crumb or nitrocellulose, combustion stabilizer, pesticide and difficulty volatilizing solvent. Method allows old gunpowder to be utilized. EFFECT: wider range of usage, reduced production cost and increased efficiency in pest control. 4 cl, 5 tbl

Description

 The invention relates to agriculture and can be used to protect animals, birds and plants from numerous fungal diseases, arthropod pests and disinfection of agricultural objects.

 Aerosol systems are widely used in agriculture for plant protection and disinfection of various premises. Various types of generators have been developed and are used to create aerosols, in which the liquid is crushed into droplets when they flow out of the nozzles under pressure or in a high-speed air stream, or under the influence of electromagnetic or centrifugal forces. And finally, mists and fumes that are formed through evaporation or sublimation of the pesticide, followed by condensation of its vapor.

One of the effective ways to spray pesticides is to create aerosols using smoke pyrotechnic means, which are equipped with a pyrocomposition containing a toxic chemical and a thermal base that sublimates the toxic chemical. In addition to the pesticide, smoke-forming compositions usually include a combustible substance, phlegmatizers and flame arresters (for example, ammonium chloride, thiourea, dicyandiamide) and an oxidizing agent. As oxidizing agents, nitrates, chlorates and other oxygen-containing compounds, as well as mixtures thereof, are used. For the disinfection of granaries, poultry houses, livestock buildings and for the destruction of mosquitoes and midges, compositions containing, in wt.%:
Hexachloran (HCH) - 51 -
Dichlorodiphenyl trichloroethane (DDT)) - - 50
Bertoletova salt - 24 25
Ammonium Chloride - 10 14
Anthracene - 10 6
Dicyandiamide - 5 5
(Shidlovsky A.A., Sidorov A.I., Silin N.A. Pyrotechnics in the national economy.- M .: Mechanical Engineering, 1978, p. 103-109.)
The main disadvantages of these formulations are that the pesticides used in them (hexachloran, dichlorodiphenyltrichloroethane) are recognized as toxic enough, are prohibited for use and are not currently available on the market.

 Of modern products, the Insecticidal Tablet - PIROCID (TU-7275-013-075143-07-93) is known, containing: Bertholetova salt, thiuram, urea, permethrin, aerosil and resins. This tablet is currently used to control harmful insects when processing poultry houses, to protect animals from gnats and gadflies, and to disinfect various rooms. The disadvantages of this composition include multicomponent and their scarcity.

 Of the known thermosetting type aerosol pesticidal formulations, the sulfur aerosol generator is the closest in technical essence to the claimed invention. This generator uses a composition containing, by weight. %: nitrocellulose 40-45, diphenylamine 1.5-2.5, potassium sulfate 2.0-4.0, potassium bisulfate 0.5-1.0, sulfur - the rest (Sulfur aerosol generator, TU 2449-005-2745577 -94, RF patent N 2042658 from 08.27.95). The disadvantage of this composition is that it can be used to protect plants only from parasitic diseases sensitive to sulfur preparations. Another disadvantage of this composition is that it is prone to volumetric combustion under conditions of use.

 The objective of the present invention is to provide a composition for producing a pesticidal aerosol, which provides stable combustion and universal use of pesticides for the protection of plants, animals and birds, and disinfection of agricultural objects.

 This problem is solved due to the fact that powder crumb is used as a thermal base - a product of the processing of pyroxylin powders or nitrocellulose, plasticized by a hardly volatile solvent, and silicon dioxide or quartz sand with a particle size of 300-500 μm is used as a combustion stabilizer. This provides a stable combustion of the composition without breakthrough of flame and sparks. Synthetic pyrethroids are used as pesticides: permethrin, cypermethrin, alfamethrin, deltamethrin, neopinamine. The listed pyrethroids simultaneously play the role of an additional plasticizer. In addition, thiabendazole can be used as a pesticide. Refractory solvents, preferably triacetin, diphenylamine or dibutyl phthalate and others, can be used as the main plasticizer.

The proposed composition contains these components in the following ratio, wt.%:
Powder chips or nitrocellulose - 40-60
Quartz sand or silicon dioxide - 5-15
Pesticides - 25-50
Hard Volatile Solvent - Other
In the process of preparing the composition, the components are used in powder form, with the exception of the hardly volatile solvent and cypermethrin, which are in a liquid state. The proposed composition is prepared according to plastisol technology as follows: powder crumb (or pyroxylin powder) or nitrocellulose is mixed with a hardly volatile solvent, or mixed with the active substance for 5-15 minutes, then the remaining components are introduced and the composition is mixed until the components are evenly distributed among themselves. After that, the composition is dosed into the body of the product of the specified overall dimensions. The equipped product is thermostated at a temperature of 50-60 ^o C for 0.5-1.0 hours

 The ratios of the components used are justified experimentally. The main options for the proposed composition are given in table. 1-5.

 The main component of the thermal base of the composition is powder powder or nitrocellulose. A change in its content in the composition below 40% (compositions N 1.10, tab. 1-5) sharply reduces the flammability and the possibility of burning the composition. Excess in the composition of powder crumbs or nitrocellulose above 60% (compositions N 8, tab. 1-5) leads to the formation of sparks during operation of the product and ignition of the resulting aerosol, which is the cause of destruction, decomposition and partial combustion of the pesticide. An increase in the pesticide in the composition over 50% leads to a decrease in flammability or attenuation of the composition during combustion (compositions N 10, table. 1-5). A similar result is obtained with an increase in the composition of quartz sand or silicon dioxide over 15% (compositions N 11, tables 1-5). Quartz sand or silicon dioxide (particle size 300-5000 microns) plays the role of a combustion stabilizer that accumulates heat in the reaction zone of the condensed phase, thereby providing layer-by-layer ignition of elementary layers of the composition. In the slag zone, the combustion stabilizer plays the role of a filter, the resulting gaseous products of combustion, prevents the dispersion of burning particles of the composition into the aerosol formation zone, providing flameless combustion of the compositions (compositions N 2,3,6,9, table 1-5). The content in the composition of quartz sand or silicon dioxide is less than 5%, also causes flame combustion and partial combustion of the pesticide (compositions N 7, table. 1-5).

 To ensure the manufacturability of the composition, hardly volatile solvents are used as the main plasticizer in the composition: triacetin, diphenylamine or dibutyl phthalate in an amount of 3-7%. This allows the use of plastisol technology for the preparation of the composition. The content of a non-volatile solvent in a composition of less than 3% does not allow the preparation of the composition (compositions No. 4, Table 1-5) using plastisol technology, and its content of more than 7% phlegmatizes combustion, makes it difficult to ignite the composition and the formation of a pesticidal aerosol (compositions No. 5, table . 1-5).

 A pesticide content of less than 25% is not practical, because to achieve the desired effect when used for its intended purpose, a larger amount of composition will be required, which will entail an increase in the cost of the measures taken (formulations N 3.9, Table 1-5).

 In the proposed composition, pesticides can be used as a mixture. This will allow to achieve the effectiveness of the action several times more than each pesticide individually (formulations N 12, table. 1-5).

 Equivalent experimental results were obtained in a given range of ratios of all components in the proposed composition. The proposed composition for producing a pesticidal aerosol allows the use of one of the listed assortment of pesticides (formulations N 2, 6, 12, Table 1-5), which ensures the universality of its effective use to protect animals, birds and plants from numerous fungal diseases, arthropod pests and disinfection of agricultural facilities.

 Plastisol technology for the preparation of the composition allows it to be dispensed directly into the body of the product with its complete monolithic filling, which prevents volumetric combustion in the composition under application conditions.

 The proposed composition was tested both in laboratory conditions and during preventive and destructive measures against various pathogens of plants, animals and birds, during the disinfection of industrial and agricultural facilities.

 The use of powder crumbs in the proposed composition allows us to solve the problem of disposal of old gunpowder in the elimination of various ammunition with an expired shelf life and loss of serviceability.

 Serial production of the proposed structure can be easily organized at defense enterprises during conversion activities.

Claims (3)

1. A composition for producing pesticidal aerosols during sanitary and veterinary measures in agricultural premises, protecting animals, birds and plants, containing a thermal mixture and a pesticide, characterized in that for creating a thermocondensation aerosol of the active substance, it contains powder powder or nitrocellulose as a thermal mixture , a volatile solvent and a combustion stabilizer in the following ratio of components, wt.%:
Powder chips or nitrocellulose - 40 - 60
Combustion stabilizer - 5 - 15
Pesticide - 25 - 50
Hard Volatile Solvent - Else
2. The composition according to claim 1, characterized in that it contains silicon dioxide or silica sand with a particle size of 300-500 microns as a combustion stabilizer.  3. The composition according to claim 1 or 2, characterized in that as a pesticide it contains permethrin, and / or cypermethrin, and / or alfamethrin, and / or deltamethrin, and / or neopinamine, and / or thiabendazole.  4. The composition according to any one of paragraphs. 1-3, characterized in that it contains triacetin, diphenylamine or dibutyl phthalate as a non-volatile solvent.

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