RU2181113C2 - Complex fertilizers production process - Google Patents

Abstract

FIELD: fertilizer production. SUBSTANCE: in particular, invention relates to production of humates enriched in trace minerals. Potassium and/or sodium humates are mixed in solid phase with components containing trace minerals. Resulting mix is subjected to mechanochemical activation followed by treatment with potassium permanganate and potassium carbonate. Trace minerals are contained in complex fertilizers in the form of soluble complexes (chelates) with humin acids. EFFECT: allowed wide application of fertilizers for plant growth activation and development. 4 cl, 1 tbl, 2 ex

Description

 The invention relates to the production of fertilizers, in particular humates, enriched with trace elements.

 There is a method according to which a complex humic fertilizer is obtained (US patent 4786307, class C 05 F 11/02) by extraction from brown coals of a water-soluble fraction of humic acids (fulvic acids), mixing the obtained extract by heating with solutions of nitrates or sulfates of iron, zinc, copper, manganese, magnesium and cobalt in the presence of hydroxy acids: citric, malic, ascorbic, etc. As a result, complex water-soluble salts (chelates) of these metals with humic and hydroxy acids are obtained. The resulting mixture with a pH value of 2.5-3.0 is treated with anhydrous ammonia to pH values of 7.7-9.0 in order to stabilize water-soluble chelates.

 The disadvantages of this method are that, firstly, they use exclusively metal cations, which narrows the fertilizer complexity, since a number of important trace elements, such as boron and molybdenum, are usually part of anionic complexes, and secondly, the use of individual hydroxy acids - citric, malic, ascorbic, etc. significantly increases the cost of the product, thirdly, only a part of brown coal humic acids is used, moreover, insignificant - fulvic acids, and the bulk of the most valuable raw materials goes into waste rows and, finally, fourthly, the final product in the form of a solution is inconvenient for transportation and storage.

 The closest in technical essence to the claimed invention is a method for producing peat fertilizer according to the patent of the Russian Federation 2102362, class. C 05 F 11 | 02, according to which fertilizer is obtained by mixing a humic-containing product - peat with an aqueous solution of mineral salts and subsequent granulation and drying of the resulting fertilizer. In the process of preparing the solution, first, components that give an acid reaction in the solution are dissolved - phosphates and salts of trace elements, and then potassium carbonate (potash) is added to the solution. The final product is characterized by the following content of components, wt. %: peat 62.5-65.4, potassium carbonate 1.2-2.8, magnesium carbonate 1.56-1.63, manganese sulfate 0.03-0.1, boric acid 0.01-0.03, zinc sulfate 0.04-0.13, copper sulfate 0.01-0.03, ammonium molybdenum 0.0002-0.001, cobalt sulfate 0.0005-0.003.

The disadvantages of this method are as follows:
1) fertilizers are obtained by mixing peat with a solution of trace elements, while humic acids of peat, reacting with cations K, Mg, Mn, Zn, Cu, Co and anionic complexes MoO ₄ and BO ₃ , form water-insoluble salts, which makes them difficult to access plants. (See book. "Microelements in soils and plants" A. Kabata-Pendias et al. M: Mir, 1989, pp. 76-77);
2) the content of a number of valuable trace elements, such as boron, copper, manganese, is too low to take into account the factor noted above to have a noticeable effect on plant growth and development.

 An object of the invention is to provide a method that allows to obtain dry complex fertilizer containing trace elements in the form of soluble complexes (chelates) with humic acids.

This goal is achieved by mixing powdered humates of potassium and / or sodium with salts of trace elements in the solid phase, the resulting homogeneous mixture is subjected to mechanochemical activation, and then wetted with vigorous stirring by spraying a solution containing 10% potassium permanganate and 30% potassium carbonate in this way so that the specified mixture upon dissolution showed a solubility of at least 80%, and the pH value was in the range of 8.4-9.0. The mixing of solid components is carried out in the following proportions, wt.%:
Powder of potassium and / or sodium humate with a content of humates of at least 70% and iron 3.0% - 83.1-86.0
Copper sulfate - 2.3-3.1
Zinc sulfate - 2.3-3.1
Manganese sulfate - 3.4-4.2
Ammonium Molybdenum Acid - 0.1-0.16
Cobalt sulfate - 0.1-0.16
Boric acid - 5.7-6.2
This technical solution is justified as follows.

 One of the most important functions of humates, as regulators of plant growth and development, is the transportation of the necessary amounts of trace elements (Cu, Zn, Mn, B, Fe, Co, Mo) to the plant cell. All of these elements are capable of forming complex salts with humic acids. However, if the formation of these salts occurs in an aqueous solution, then the resulting complexes are insoluble, since metal ions try to occupy all the valencies of a complex humic acid molecule. As a result, we get compounds practically inaccessible for assimilation by the plant. In our proposed technical solution, this reaction proceeds in the solid phase in the process of mechanochemical activation (ultrafine grinding). In this case, when the crystal lattice of metal salts is destroyed, cations are mechanically distributed in the mass of humate and interact with the carboxyl and hydroxyl groups of humic acid only at their location, since their migration in the mass of the solid phase is impossible. Therefore, maintaining a certain ratio between the number of metal ions and active groups of humic acid, we create conditions when trace elements replace only part of the active groups of the humic acid molecule, leaving the remaining groups free and, therefore, ensuring the solubility of the molecule as a whole. In order to further stabilize the water-soluble chelates, the proposed method includes an additional operation — wetting with vigorous stirring of the product obtained after activation of the product with a solution containing potassium carbonate and potassium permanganate. Potassium carbonate regulates the pH of the mixture in the range necessary for stabilization, and potassium permanganate oxidizes the humate to form carboxyl groups that increase solubility.

 Thus, the proposed method meets the criterion of "inventive step", as it allows to achieve a new qualitative effect - obtaining solid complex fertilizers with a high degree of solubility of humic acid chelates with trace elements.

 The method is as follows.

 The above components are loaded into the mixer in the above ratios, the resulting mass is mixed for 15-20 minutes until a homogeneous mixture is obtained, which is then loaded into a mechanochemical activator, where it is subjected to impact treatment. After this, the mixture is loaded into a vane mixer with a hollow shaft, which provides a metered supply of liquid into the dry mixture, through which, in the process of intensive mixing, a previously prepared solution containing 30% potash and 10% potassium permanganate is fed. The solution is fed in small portions (5-6% by weight of the dry mixture), with a frequency of 3-5 minutes a sample of the moistened product is taken, which is dissolved in water (2 g / l), pH and solubility are determined. Upon reaching a pH of 8.4-9.0 and a solubility of at least 80%, the process is terminated.

 Examples.

 Example 1. 100 kg of a mixture of potassium and sodium humates (humate content 70%, moisture 13%, insoluble residue 17%), copper, zinc, manganese and cobalt sulfates, ammonium molybdenum acid and boric acid in the ratio indicated in the table were thoroughly mixed and subjected to shock treatment in a mechanochemical activator, passing the mixture through it at a speed of 50 kg / h A sample taken from the resulting mixture was analyzed for the content of humates and trace elements (see table). Trace elements were determined by spectral analysis. After activation, the dry mixture was placed in a hollow shaft mixer and, with vigorous stirring, a solution of potash (30%) and potassium permanganate (10%) was sprayed through the hollow shaft in five doses of 3 l each, controlling the pH and solubility after each injection. After the fifth spray, the pH was 9.0 and the solubility 82%. At this process was stopped, and the sample was analyzed similarly to the previous one. The results of the analysis are presented in the table. For quality control purposes, 1 g of the obtained product was dissolved in 1 l of water and the content of trace elements in the solution was determined by atomic absorption. The results presented in the table show that the bulk of trace elements obtained in soluble form.

 Example 2. The mixture was prepared in the ratios indicated in the table, and subjected to its processing analogously to example 1. Upon reaching a pH of 8.4 (4 spraying of a solution of 3 l each was required) and the solubility of 84%, the process was stopped. The results are presented in the table.

 It was established by additional experiments that mixtures with a humate content of more than 86% are impractical to use, since the amount of trace elements is reduced, and in mixtures with a humate content of less than 83.1%, the solubility of chelated forms of trace elements is reduced.

 Thus, the data table indicate that the technical task is achieved. A product containing more than 50% humates and a complete set of essential trace elements in the form of water-soluble chelates with humic acids was obtained. The product is highly soluble in water and can be successfully used as a regulator of plant growth and development and as a reducing agent for microelement soil balance. The method does not require the use of expensive food products, the final product is obtained in a dry, loose state, convenient for packaging, transportation, storage and use in agricultural production.

Claims (3)

 1. A method of producing a complex fertilizer, according to which a humic-containing fertilizer is mixed with components containing microelements and potassium carbonate to obtain a homogeneous mass, characterized in that potassium and / or sodium humates are used as a humic-containing fertilizer, mixing said fertilizer with microelement-containing components , produced in the solid phase, and the resulting mixture is subjected to mechanochemical activation, followed by treatment with a solution of potassium permanganate and potassium carbonate. 2. The method according to p. 1, characterized in that the dry mixture for mechanochemical activation is prepared in the following proportions, wt. %:
Humate of potassium and / or sodium - 83.0 - 86.0
CuSO ₄ • 5H ₂ O - 2.3 - 3.1
ZnSO ₄ • 7H ₂ O - 2.3 - 3.1
MnSO ₄ • 5H ₂ O - 3.5 - 4.2
(NH ₄ ) ₆ Mo ₇ O ₂₄ • 4H ₂ O - 0.1 - 0.2
CoSO ₄ • 7H ₂ O - 0.1 - 0.2
N ₃ VO ₃ - 5.7 - 6.2
3. The method according to p. 1, characterized in that the mixture after mechanochemical activation is treated with a solution of potassium permanganate and potassium carbonate to achieve a pH of 8.4-9.0.  4. The method according to PP. 1 and 2, characterized in that the mixture after mechanochemical activation is treated with a solution containing 10% potassium permanganate and 30% potassium carbonate in an amount of 12-18% by weight of the mixture.

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