RU2688816C1 - Composition for prevention of dusting mineral fertilizers - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to agriculture. Composition for preventing the dusting of mineral fertilizers contains a liquid petroleum product, includes a wax-forming component, and mineral oil is used as a liquid petroleum product in a volume of from 59.0 to 59.009 %, and petroleum or synthetic wax or polyethylene in a volume of 40 % is used as a wax-forming component, and the composition additionally includes 70 % of 2-ethyl-2-(8-heptadecenyl)-2-oxazoline-4-methanol in a volume from 0.001 to 1 %.EFFECT: invention allows to create a composition that provides reduction of dustiness to minimized values.1 cl, 1 tbl

Description

The invention relates to the production of conditioning compositions for mineral fertilizers and can be used for the conditioning of nitrogen and / or phosphorus and / or potassium-containing fertilizers and products based on them.

To reduce the caking of mineral fertilizers, conditioning additives are widely used, forming a hydrophobic adsorption protective film on the surface of fertilizer particles.

In the production and transportation of mineral fertilizers, there are two problems - caking and dusting. Caking is associated with natural fluctuations in ambient temperature and humidity, which are accompanied by repeated cycles of dissolution and re-crystallization of fertilizers with the formation of crystalline bridges at the points of contact of the granules. Fertilizer dustiness is observed during long-term transportation by all types of transport, during transshipment in warehouses, loading and unloading, and is associated with the tendency of the pellets to deform, mechanical abrasion and destruction. At the same time, the agglomerates have a lower strength than the initial granules, and, accordingly, under mechanical action they are prone to more intensive dust formation.

For a long time, the most promising were the methods of conditioning granulated phosphate fertilizers with industrial oils (Technology of phosphate and complex fertilizers. M: Chemistry, edited by SD Evenchik, AA Brodsky, 1987, p. 260-261). However, such processing of porous granules can significantly reduce dustiness, but during further transportation and storage, dustiness was resumed, and the strength dropped. This effect was especially observed on fertilizers obtained with the use of weak phosphoric acid.

Dustiness of certain types of mineral fertilizers, primarily monoammonium phosphate or mixtures containing monoammonium phosphate and diammonium phosphate, is a serious problem during their production and use, since with a large dust formation the working conditions and working conditions of equipment for the production, packaging, handling and distribution of mineral fertilizers worsen on farmland.

When developing anti-caking compounds, it is necessary to pay attention simultaneously to two aspects of the existing problem. The role of anti-caking agents to a certain extent comes down to ensuring the formation of a solid and dense crystalline structure of mineral fertilizer granules, which increases their resistance to caking and dustiness, as well as to the binding and retention of already existing dust particles and simultaneous hydrophobization of the surface of granules of fertilizers.

Today, the most promising for modifying the surface of mineral fertilizer granules is the use of cationic or anionic surfactants and organic hydrophobic agents.

At the moment, it is accepted that cationic surfactants (CPAS) have maximum efficiency. Fatty amines, especially those with a long carbon chain, like hexa-, hepta-, and octadecylamine, etc., predominate in the field of CPAS. They are oil-soluble compounds with a polar amine group, which, sorbed on the surface of the granules, form a hydrophobic spatial framework that reduces the ability of fertilizers to caking and agglomeration. Mineral oils are the most common hydrophobic agent, which, being actually the solvent of all components, provides ease of dosing, effective distribution of surfactant over the entire surface of the granules, increased hydrophobic action in combination with a decrease in fertilizer dusting. It is important to understand that the effect of dust removal is temporary until the moment when there is a sufficient oil layer that holds dust particles.

The effect of hydrophobization when using only oil and alkylamine under the action of temperature, time, mechanical and other factors can also weaken, and some of the moisture begins to penetrate to the surface of the granules. This is especially noticeable for highly hygroscopic fertilizers.

To enhance the hydrophobic and anti-caking properties of the spatial framework, special organic hydrophobic components are used - paraffins, waxes, etc., which enhance the hydrophobic barrier between the granules, preventing wetting at the contact points and inhibiting moisture absorption from the ambient air. At the same time, subject to a number of factors - viscosity, hardening rate of surface modifier, temperature of the treated granules, spraying efficiency, etc., a decrease in fertilizer dusting is observed - no less effective than with the use of dual oil-amine systems, but prolonged in time (dust that bound in the volume of frozen anti-caking agent, it is held more firmly, and in real conditions of transportation of fertilizers, can again go into a pulverized state only under the action of mechanical influences).

Traditionally, petroleum products and / or mixtures of petroleum products with aliphatic amines, mainly the primary amine of stearic acid, are used to suppress dusting. The consumption of oil product is about 300 g per 1 ton of mineral fertilizer. In this case, liquid petroleum products suppress the formation of dust about 5 times, and mixtures of petroleum products with aliphatic amines even about a hundred times.

So, a known composition for conditioning mineral fertilizers, including primary aliphatic amines of the C ₁₇ -C ₂₀ fraction or tallow amines, surfactants, low molecular weight polyisobutylenes with a molecular weight of 5000-30000 and solid hydrocarbons with a melting point of not less than 50 ° are introduced into the composition C, while paraffinic hydrocarbons of the C ₁₄ -C ₁₇ fraction are introduced into the composition as a solvent, and nonionic surfactants are introduced as surface-active substances in the form of ethoxylated fatty acid amides, with the following content of components in the composition, wt. %:

Primary aliphatic amines with the length of the hydrocarbon chain With ₁₇ -C ₂₀ or tall amines 10-25

Paraffin hydrocarbons fraction With ₁₄ -C ₁₇ 30-60

Nonionic surfactant-ethoxylated fatty acid amides 1-3

Solid hydrocarbons 20-40

Low molecular weight polyisobutylene with a molecular weight of 5000-30000 5-15

(RU 2240297, C05G 3/10, C05C 1/02, B01J 2/30, published on November 20, 2004)

The use of the claimed composition for the conditioning of granular fertilizers containing nitrogen and / or phosphorus, and / or potassium and products based on them, according to information given in the patent, reduces their caking by 95-98%, dusting - up to 90% and moisture absorption - 40-45%.

The disadvantage of this composition is that its preparation is carried out at a temperature not lower than 80 ° C, and this composition is applied to fertilizer granules by spraying at a temperature of 80-90 ° C. The choice of these temperatures is due to the specific properties of low molecular weight polyisobutylene. Low molecular weight polyisobutylene (up to 40,000) is a viscous additive, with which thickened compositions are prepared for industrial oil-containing compositions. At temperatures above 90 ° C, but below 157 ° C, low molecular weight polyisobutylenes exhibit an increase in viscosity activity, which leads to non-formation of fertilizer on the granules due to the increased fluidity of composition A at a temperature below 80 ° C, the viscosity of the composition rises sharply, making it impossible to spray the composition. Naturally, the use of temperature levels of 80-90 ° C translates the process of creating a composition and its application to fertilizer granules to the category of hazardous to humans.

In addition, low molecular weight polyisobutylene under normal conditions have good stability, but under the influence of ultraviolet irradiation exhibit a noticeable darkening, indicating some chemical changes in the polymer. And during prolonged exposure, liquid polymers and their solutions can gradually undergo photochemical destruction in diffused light. The remains of products of decomposition of the catalyst and other technological impurities preserved in the polymer introduce changes in the initial composition.

The present invention is directed to the achievement of the technical result, which consists in creating a composition that ensures the reduction of dustiness to minimized values.

This technical result is achieved in that the composition to prevent dusting of mineral fertilizers containing a liquid petroleum product, including a wax-forming component, characterized in that mineral oil is used as a liquid petroleum product in a volume from 59.0 to 59.009%, and as a wax-forming component petroleum or synthetic wax or polyethylene in a volume of 40%, while the composition additionally includes 70% of 2-ethyl-2- (8-heptadecenyl) -2-oxazolin-4-methanol in a volume of from 0.001 to 1%.

These signs are essential and interrelated with the formation of a stable set of essential features, sufficient to obtain the desired technical result.

According to the claimed invention, a new composition is considered to prevent the dusting of mineral fertilizers, allowing for a long time to keep the encapsulation of mineral fertilizer granules, providing virtually no dustiness with a high degree of safety for humans.

The subject of the present invention is an ultra-efficient product for suppressing fertilizer fertilizer mineral fertilizer consisting of a liquid petroleum product, preferably mineral oil, from petroleum or synthetic wax or polyethylene, preferably petroleum petrolatum or ceresin, as well as containing a technical additive in the form of 70% 2-ethyl- 2- (8-heptadecenyl) -2-oxazolin-4-methanol with the consumption of the latter from 0.001 to 1%.

Modern trends in improving conditioning additives in terms of enhancing the effect of dust removal are considering the introduction of polymeric components — polyethylene, polyisobutylene or petroleum or synthetic wax, etc. into their composition. The polymer component, hardening, binds the existing dust even more firmly and increases the resistance of the protective sheath to subsequent mechanical effects during transportation and, as a result, to additional dust formation. In the course of industrial experiments, it was confirmed that the use of polyethylene or wax allows reducing the fertilizer dust level by at least 84% (on average by 90%), which is significantly higher than the results obtained using a composition that does not contain polyethylene or wax.

In this case, the following two conditions must be met:

1) oil or synthetic wax should provide the desired consistency of the product, in accordance with the technology applied by the manufacturer of mineral fertilizers. Usually, the product is introduced during the drying process of a mineral fertilizer at a temperature of about 75 ° C. Accordingly, it is desirable that the product had a pasty consistency at a temperature of about 60 ° C and a liquid consistency at a temperature of 75 ° C. The consistency of the product can be controlled by measuring the dropping temperature, which in this case should be in the range of 55-65 ° C. If the application temperature is different, at a low application temperature, wax consumption is reduced, or, at a high application temperature, polyethylene or synthetic wax is used, since they can provide a higher dropping point than petroleum wax.

2) for safety reasons, it is desirable that the product qualifies as safe for the environment and human health. Therefore, it is desirable to use purified petroleum oil as the above-mentioned petroleum product. In the framework of the present invention, mineral oil is used as a liquid petroleum product.

Thus, the authors have developed a new composition to prevent the dusting of mineral fertilizers, which contains a liquid petroleum product, including a wax-forming component. At the same time, mineral oil in a volume of from 59.0 to 59.009% was used as a liquid petroleum product, and petroleum or synthetic wax or polyethylene in a volume of 40% was used as a wax-forming component, and the composition additionally included 70% 2-ethyl-2 - (8-heptadecenyl) -2-oxazolin-4-methanol in a volume of from 0.001 to 1%.

Ceresin is a connecting mixture of solid carbon atoms that are synthesized as a result of ozokerite (mountain wax) treatment. The melting point of solid wax ranges from 65-88 degrees. Ceresin contains no volatile components, it is insoluble in alcohol and water. The main advantage of this mixture over paraffin is a higher coefficient of viscosity and thickening of oils. To improve the properties of wax, ceresin is added to it. The latter is inferior to paraffin in resistance to chemical reagents.

There are two types: synthetic and petroleum. The latter is found in limestone and sand, and the designation is determined by adding the letter “H” (65H, 70H, 80H) to the figure. Petroleum ceresins are mined in the process of de-oiling petrolatum (cosmetic petroleum jelly). Artificial ceresins (100, 200) are made to order in the laboratory. This wax has a high degree of fusibility, has in its structure small granules of white color. Synthetic wax is used in the manufacture of thermoregulation indicators. The artificial material is also suitable as a thickener in food production. Ceresin itself is also subdivided according to the dropping temperature (65, 70, 75, 80, 85, etc.).

Petrolatum - a mixture of paraffin, ceresin and oil (7-38%), obtained by dewaxing residual petroleum oils of sulfuric acid or selective purification; viscous light brown mass, dropping point 55-65 ° C. Used as raw material for ceresin, component lubricants, electrical insulating compounds, antiozonant for rubber. Also part of the children's clay. From vacuum-distillate petroleum fractions, petrolatum, paraffin and ceresin are thickened with petroleum jelly.

Paraffin is a hydrocarbon wax from certain distillates distilled petroleum fractions or fractions derived from shale or other bituminous minerals. This wax is translucent, white or yellowish in color and has a relatively pronounced crystal structure.

Microcrystalline paraffin is also a hydrocarbon wax. It is extracted from residues of oil or from fractions of lubricating petroleum oils obtained by vacuum distillation. It is more light-tight than paraffin wax and has a thinner and less pronounced crystal structure. It usually has a higher melting point than paraffin. It can vary from a soft and plastic state to a hard and brittle, and from dark brown to white.

As indicated, the components used in the claimed composition are categorized as fairly non-hazardous to humans.

The introduction of solid hydrocarbons - petroleum or synthetic wax or polyethylene - is caused by the need to eliminate the fluidity of the composition within the storage temperatures of the treated fertilizers (the pour point of the composition is not less than 50 ° C), which reduces the absorption of the additive into fertilizer granules during storage and, thus, uniform distribution of the composition on the surface of the granules during storage. Solid hydrocarbons are hydrocarbons with a melting point not lower than 50 ° C, for example, petrolatum, solid paraffin. When dissolved with the help of a technical additive, 2-ethyl-2- (8-heptadecenyl) -2-oxazolin-4-methanol in mineral oil at the temperature required for flow, a composite film shell is formed on the surface of the mineral fertilizer granules, which has a high stability to nondestructive under the action of ultraviolet radiation and durability to destruction.

In order to show the effectiveness of the product, conducted the following experiment.

Prepared the product of the following composition:

Mineral oil I-20A according to GOST 20799-88 - 59.8%; ceresin oil grade ceresin 75 according to GOST 2488-79 is 40%, and a technical product containing more than 70% 2-ethyl-2- (8-heptadecenyl) -2-oxazolin-4-methanol CAS 68140-98-7-0, 2%.

The components of the product were mixed using a mechanical stirrer at a temperature of 90 ° C.

In order to make sure that the quality of the product complies with the requirements of the mineral fertilizer industry, we carried out tests of dusting according to the technique practiced in the mineral fertilizer industry. The molten product was applied in the process of drying monoammonium phosphate at a temperature of about 75 ° C, followed by cooling to a temperature of 40 ° C. The consumption rate of the product was 300 g per 1 ton of monoammonium phosphate. The dust content of untreated monoammonium phosphate was 246 g / 1 ton, this manufacturer allows 5 g / 1 ton. Then, tests of the dustiness were carried out according to a standard factory procedure in comparison with three known products containing mineral oil, primary amine of stearic acid and polyethylene or polyethylene wax, applied in an identical manner. Dustiness was checked after 1, 14 and 30 days of storage of the monoammonium phosphate treated with products.

Received the following results of measurements of dustiness:

From the data obtained, it follows that our invention allows us to achieve excellent results in suppressing the dustiness of mineral fertilizers and, at the same time, its effectiveness exceeds a number of modern similar products.

It is noted that the percentage of each component is selected in a strictly narrow range. During the tests, it was found that it is precisely with this exact content of the components in the composition that a mixture is formed with pronounced final properties that change dramatically when they exceed the specified values. While theoretically the mechanism of such a manifestation has not been proved, there is only evidence of its presence, which are presented in the comparative table. It is assumed that such a property as the complete or almost complete absence of the fertilizer mineral fertilizer is the result of the fact that the conditions for the production of a stoichiometric mixture are created in the mixture of the composition. This explains the abrupt manifestation of the new property. The absence of non-regurgitated components made it possible to eliminate the negative destructive influence of the residues of such a component on the obtained enveloping granules shell.

The present invention is industrially applicable and can be used for certain types of mineral fertilizers, primarily monoammonium phosphate or mixtures containing monoammonium phosphate and diammonium phosphate, with the aim of long and complete exclusion of their dustiness.

Claims (1)

Composition to prevent dusting of mineral fertilizers containing a liquid petroleum product, including a wax-forming component, characterized in that mineral oil is used as a liquid petroleum product in a volume from 59.0 to 59.009%, and petroleum wax or synthetic wax in a volume is used as a wax-forming component 40%, while the composition additionally includes 70% 2-ethyl-2- (8-heptadecenyl) -2-oxazolin-4-methanol in a volume of from 0.001 to 1%.