PL195199B1 - Preparation for mineral fertilizer conditioning, particularly phosphatic and npk fertilizers - Google Patents

Abstract

1. Preparation for conditioning mineral fertilizers, especially phosphorus and NPK fertilizers, consisting of mineral and vegetable oils and paraffins and obtained by melting and mixing ingredients, characterized in that it contains refined products in the form of slack wax and possibly paraffin masses up to 90 parts by weight, with a melting point from 25 to 80 ° C, linseed oil and / or linseed varnish in an amount up to 50 parts by weight, siccatives in an amount of up to 0.3% in relation to the amount of linseed oil and / or linseed varnish used, epoxidized vegetable oil in the amount of up to 40% of the preparation mass, organosilicon compound in the amount of up to 50 parts by weight, nonionic surfactant in the amount of up to 15% of the preparation mass, UV heliophore in the amount of up to 1% in relation to the preparation mass.

Description

Description of the invention

The subject of the invention is a preparation for conditioning mineral fertilizers, especially phosphorus and NPK fertilizers, reducing production dust, preventing the formation of secondary dust and caking. The preparation is solid under ambient conditions.

Mineral fertilizers show a significant tendency to dust in the production process as well as during storage and use. They contain compounds that are easily soluble under the influence of the moisture contained in the granules, as well as the moisture absorbed from the air, and are relatively easy to agglomerate. Dust, constituting a part of the fertilizer mass, is a factor significantly accelerating caking. The dust surrounding the granules absorbs moisture from the air and causes the granules to stick together, especially during fertilizer storage or sea transport. Dusts occurring in all fertilizer operations also create burdensome working conditions for people.

One of the ways to improve the properties of fertilizers is to treat the finished product with various preparations by applying them to the surface of the fertilizer or by using them in the fertilizer granulation process.

Formulations and compositions to reduce caking are known. The preparations are mixtures of waxes, oils, fatty amines and often surfactants and mineral powders.

EP 813 902 describes an agent containing hydrophobic and anti-caking compositions containing fatty amines, for example stearylamine, fatty alcohols such as stearic alcohol, phosphoric acid and fatty acids, most preferably hydrogenated fats or fatty acids from rapeseed.

EP Patent No. 872,461 describes the preparation of a virtually dust-free solid fertilizer after treatment with a mixture of water or another solvent with certain distillation residues. These residues are obtained below 60 ° C in the production of alcohols, most preferably 1,6-hexanediol.

U.S. Patent No. EP 908480 is disclosed a means for the coating of fertilizers, in order to eliminate the caking and dusting which are obtained from a mixture of primary and secondary fatty monoamines _20 ₁₄ C in an amount of 10-25% aluminum stearate in an amount of 2-8% alcohol 2 to 8% of fatty acids and conventional ingredients. Preferred amines are hardened fat amines and octadecyl alcohol is the preferred fatty alcohol.

Another FR No. 2,536,300 states that granular and dusty substances, especially fertilizers, are powdered at 20 ° C with a composition containing 20% fatty amines and oil in an oil / amine ratio of 2: 1 to 1:10.

FR 2723085 states that meliorants and fertilizers are treated to eliminate dusting with vegetable oils - most often rapeseed or soybean oil, most preferably mixed with molasses or other binders.

The use of mineral powders or silica with a developed surface and then covering the fertilizer granules with agents designed to adhere the powders to the fertilizer prevents agglomeration, but does not eliminate dust formation. The use of preparations based on mineral oils gives short-term effects, because the oils migrate from the surface into the granules, leaving the outer layer of the fertilizer granules unprotected. Preparations in the form of water emulsions cause secondary reactions on the surface and inside the granules of fertilizer components under the influence of water contained in these emulsions. Own research showed low effectiveness of water emulsions in permanent dust control. After applying water emulsions to the surface of some fertilizer granules, an additional amount of dust, the so-called secondary dust, is generated over time as a result of exfoliation and cracking of the outer surface of the fertilizer granules.

The preparation according to the invention is characterized in that it contains refinery products in the form of slack wax and, optionally, paraffin masses in an amount of up to 90 parts by weight, with a melting point from 25 to 80 ° C, linseed oil and / or linseed oil in an amount of up to 50 parts by weight. , siccatives in the amount of up to 0.3% in relation to the amount of linseed oil and / or linseed varnish used, epoxidized vegetable oil in the amount of up to 40% of the preparation weight, organosilicon compound in the amount of up to 50 parts by weight, non-ionic surfactant in the amount of up to 15 % of the mass of the preparation, UV heliophore in the amount of up to 1% in relation to the mass of the preparation.

The preparation, as refining products, contains saturated iso- and n-paraffin hydrocarbons with a content of 15 to 48 carbon atoms per molecule, and the content of iso-paraffins in the composition is up to 40%. Iso-paraffin hydrocarbons are characterized by greater plasticity and adherence to

And n-paraffinic hydrocarbons form crystals of varying size depending on the molecular weight. In the refinery products used, their ability to form crystals increases with the increase of the melting point of the individual components of the mixture. Slack waxes obtained by dewaxing petroleum distillates and slack wax filtrate were used as components of the hydrocarbon composition.

Optionally, a paraffin mass obtained as a result of de-oiling and refining of slack waxes and then modified with the addition of polyethylene waxes can be used as a component of the composition.

As siccatives, which catalyzes the resin process of drying oils, the preparation contains manganese naphthates - Mn siccative or cobalt naphthates - Co sicative Co. The use of siccatives accelerates the hardening process of linseed oil in the conditions of increased temperature of the melted preparation applied to the fertilizer surface.

The formulation contains mustard oil and / or soybean oil as epoxidized vegetable oils. These oils have a lower amount of unsaturated bonds in the molecule of their fatty acids than linseed oil and / or linseed varnish, and therefore, penetrating deep into the fertilizer granules, they harden more slowly.

As an organosilicon compound, the preparation contains methylsilicon oils with a viscosity of 10 to 50 mm ² / s (cSt). The oils used have the ability to creep on the surface of the coated material and show strong hydrophobic properties.

As surfactant it contains 1,4 sorbitan mono-oleate: product of the esterification of d-sorbitol with unsaturated fatty acid. The surfactant used facilitates the homogenization of ingredients.

As a UV heliophore, it contains a 200 nm UV phosphor, clearly visible when exposed to light with a wavelength of 200 nm, in the form of a 4,4'-diaminostilbene 2,2'-disulfonic acid derivative. The use of UV heliophore facilitates the quality control of fertilizer coating in the technological process. Illumination of the fertilizer mass with light of the appropriate wavelength causes intense illumination of the UV heliophore included in the preparation, which allows visual observation of the uniformity of the fertilizer coating.

The preparation for conditioning granular mineral fertilizers is applied in a molten state to a movable bed of mineral fertilizer.

As a result of the research, it was unexpectedly found that a properly selected composition of the above-mentioned refining products and linseed oil, siccatives, other than linseed - epoxidized vegetable oil, organosilicon compound and non-ionic surfactant, melted at a temperature of 60-100 ° C and applied in a liquid state on fertilizer granules, significantly eliminates fertilizer dusting and prevents granules from clumping.

In the strength tests, no deterioration of the mechanical strength of the granules against crushing and impacts was found. During the tests it was found that the preparation applied to the surface of the granules causes the surface of the fertilizer to "whiten", eliminates dusting at work stations during its production, transport and use. The coating obtained on the surface of the granules increases the mechanical resistance of the fertilizer to abrasion and crushing, which prevents the formation of secondary dusting. The preparation ensures complete flow of the fertilizer over several months of storage under load.

The hydrophobic coating on the fertilizer granules makes it difficult for moisture to penetrate deep into the granules, which slows down the dissolution of the fertilizer in the soil, and thus its more effective use by plants.

The preparation also acts as a carrier for the introduction of other additives, e.g. heliophore compounds that show the ability to glow intensely at a specific wavelength. Such compounds can be used to determine in a simple way the uniformity of coating granules with an anti-dusting preparation. The preparation is obtained in a molten state, and after solidification, even after a long period of storage, it does not change its properties.

P r z k ł a d 1

30 g of slack wax with a melting point of 44 ° C, 10 g of slack wax with a melting point of 54 ° C, 10 g of slack wax with a melting point of 62 ° C, 10 g of slack wax with a temperature of melting 68 ° C, 30 g of paraffin mass with a melting point of 44 ° C, 30 g of a paraffin mass based on polyethylene wax with a melting point of 52 ° C, 40 g of paraffin mass with a melting point of 48 ° C, 8 g of slack wax filtrate containing as the main component is hydrocarbon

N-paraffinic with a solidification point of 28 ° C. The contents of the reactor were heated to 80 ° C and 15 g of linseed oil, 0.2 g of Mn siccative, 10 g of epoxidized mustard oil, 10 g of methyl silicone oil OM 10, 2 g of sorbitan 1,4-mono-oleate and 0.1 g of phosphor were added. UV 200 nm. The resulting melt was stirred at 75 ° C for 0.5 hour.

The preparation was applied in the molten state to a movable bed of fertilizer heated to a temperature of 55 ° C.

P r z k ł a d 2

30 g of slack wax with a melting point of 44 ° C, 20 g of slack wax with a melting point of 54 ° C, 10 g of slack wax with a melting point of 62 ° C, 20 g of slack wax with a temperature of mp 68 ° C, 40 g of a paraffin mass with a melting point of 44 ° C, 22 g of a paraffin mass based on polyethylene wax with a melting point of 52 ° C, 21 g of a paraffin mass with a melting point of 48 ° C. The content of the reactor was heated to 80 ° C and 15 g of linseed oil varnish, 0.2 g of Mn siccative, 15 g of epoxidized soybean oil, 10 g of methyl silicone oil OM 20, 2 g of sorbitan 1,4-monooleate and 0, were added. 1 g of UV phosphor 200 nm. The resulting melt was stirred at 75 ° C for 0.5 hour.

The preparation was applied in the molten state to a movable bed of fertilizer heated to a temperature of 55 ° C.

P r z k ł a d 3

30 g of paraffin with a melting point of 44 ° C, 40 g of slack wax with a melting point of 54 ° C, 15 g of slack wax with a melting point of 62 ° C, 25 g of slack wax with a melting point of 68 ° C, 10 g of a paraffin mass with a melting point of 44 ° C, 21 g of a paraffin mass based on polyethylene wax with a melting point of 52 ° C, 20 g of a paraffin mass with a melting point of 48 ° C. The contents of the reactor were heated to 80 ° C and 22 g of linseed oil, 0.1 g of Mn siccative, 10 g of epoxidized mustard oil, 10 g of methyl silicone oil OM 30, 2 g of sorbitan 1,4-mono-oleate and 0.1 g of phosphor were added. UV 200 nm. The resulting melt was stirred at 75 ° C for 0.5 hour.

The preparation was applied in the molten state to a movable bed of fertilizer heated to a temperature of 55 ° C.

P r z k ł a d 4

60 g of slack wax with a melting point of 44 ° C and 100 g of slack wax with a melting point of 68 ° C were successively introduced into the reactor with a foot stirrer and the heating system on. The contents of the reactor were heated to 80 ° C and 25 g of linseed oil, 0.25 g of Mn siccative, 5 g of epoxidized mustard oil, 10 g of methyl silicone oil OM 50, 5 g of mono-sorbitan 1,4-oleate and 0.1 g of phosphor were added. UV 200 nm. The resulting melt was stirred at 75 ° C for 0.5 hour.

The preparation was applied in the molten state to a movable bed of fertilizer heated to a temperature of 55 ° C.

P r z k ł a d 5

100 g of slack wax with a melting point of 44 ° C and 60 g of slack wax with a melting point of 68 ° C were successively introduced into the reactor with a foot stirrer and the heating system on. The contents of the reactor were heated to 80 ° C and 25 g of linseed oil, 0.25 g of Mn siccative, 5 g of epoxidized mustard oil, 10 g of methyl silicone oil OM 10, 5 g of sorbitan 1,4-mono-oleate and 0.1 g of phosphor were added. UV 200 nm. The resulting melt was stirred at 75 ° C for 0.5 hour.

The preparation was applied in the molten state to a movable bed of fertilizer heated to a temperature of 55 ° C.

Claims (7)

Patent claims 1. Preparation for conditioning mineral fertilizers, especially phosphorus and NPK fertilizers, consisting of mineral and vegetable oils and paraffins and obtained by melting and mixing components, characterized in that it contains refined products in the form of slack wax and possibly paraffin masses in an amount up to 90 parts by weight, with a melting point from 25 to 80 ° C, linseed oil and / or linseed varnish in an amount up to 50 parts by weight, siccatives in an amount of up to 0.3% in relation to the amount of linseed oil and / or linseed varnish used, epoxidized vegetable oil in the amount of up to 40% of the preparation mass, organosilicon compound in the amount of up to 50 parts by weight, non-ionic surfactant in the amount of up to 15% of the preparation mass, UV heliophore in the amount of up to 1% in relation to the preparation mass. 2. Preparaa according to asss. f), wherein the iso- and n-paraffin saturated hydrocarbons contain from 15 to 48 carbon atoms per molecule, wherein the iso-paraffin content in the composition is up to 40%. 3. Preparation according to z ^^ si ^. 1, zi ^^ r ^ i ^ i ^ and ^^ in that it comprises manganese naphthates or cobalt naphthates. 4. A formulation according to claim 1 The process of claim 1, wherein the epoxidized vegetable oils are mustard oil and / or soybean oil. 5. Preparaa according to principles. f), characterized in that the organo-organic compound comprises methylsilicon oils with a viscosity of 10 to 50 mm ² / s. 6. Preparation according to zassrz. 1, wherein the surfactant is 1,4 sorbitan mono-oleate: a product of the esterification of d-sorbitol with an unsaturated fatty acid. 7. Preparaa according to the rules. f, zr ^ c ^ r ^ i ^ nr ^ yr, in that as helloror UV contains 200 nm UV uminor, visible when exposed to light with a wavelength of 200 nm, in the form of a derivative of the acid 4,4'-diaminostilbene 2,2 '-disulfone.