SU954376A1 - Method of producing liquid complex fertilizerz - Google Patents

Description

The invention relates to the production of mineral fertilizers, in particular the production of liquid complex fertilizers.

A known method of producing liquid complex fertilizers by mixing the products of the interaction of potassium salts with phosphoric acid with further ammoniation of the resulting mixture by ammonia. This method allows to obtain solutions that do not contain chlorine, which satisfies the requirements of agriculture l.

A significant disadvantage is the complexity of the process associated with the disposal of chlorine.

Closest to the proposed technical essence and the achieved result is the way in which the production of NPK. Fertilization in the form of solutions provides for the mixing of ammonium phosphate solutions obtained in the high temperature mode of ammonizing phosphoric acid ammonia with nitrogen and potassium compounds, and ammonium and urea nitrate are used as nitrogen, and potassium chloride. potassium is used as nitrogen. Mixing is carried out

with vigorous stirring and a temperature of 30-50s. As a result of mixing, different ratios of H: Pj05: K20 are obtained with the nutrient content of 21-32% 2 in total.

However, this method has significant drawbacks: the presence of chlorine ion gives the solutions an increased corrosivity with respect to black steel (the corrosion rate of steel 3 in such solutions is 0.4-0.5 mm / year), which significantly increases the capital costs both in the field of production and in the field of application; difficulty in organizing storage and use, solutions due to their tendency to precipitate crystalline precipitates. The accepted storage times for such solutions are no more than seven days.

The purpose of the invention is to reduce the corrosivity of solutions and increase the stability of fertilizers.

This goal is achieved by the method of producing liquid complex fertilizers, which consists in mixing ammonium phosphate solutions with nitrogen and potassium-containing components with vigorous stirring. Sme

The components are suspended in the presence of a bivalent metal nitrate in a quantity of 0.2-6.0% by weight of the fertilizer.

It is advisable to use calcium, magnesium, zinc and manganese nitrates as a nitrate of a two-stage metal.

This makes it possible to obtain stable transparent solutions with a nutrient content of 21-32%. The stability of the solutions is due to the formation of ammonium metal phosphate complexes, which lower the temperature of precipitation of crystals. Solutions remain transparent for at least two to three months. The fertilizer has a low corrosion activity {0.05-0.3 mm / year for steel 3), which allows using equipment from ferrous, lei.

The proposed method allows to significantly increase the economic efficiency of using liquid complex fertilizers by reducing capital costs when replacing alloyed steels with black ones.

The amount of salts of divalent metals in the range of 0.2-6.0%

The ratio to the mass of the solution is due to the fact that if the content of metal salts exceeds 6.0%, homogeneity is disturbed in the system and precipitation is observed due to exceeding the limit of solubility of the added salts in fertilizers; while reducing the salt content to less than 0.2%, the presence of additional added nitrate ions will not be enough to suppress the corrosive action of chlorine ions.

Example: To 350 kg of a solution of ammonium phosphate of composition 10-34-0, 76 kg of carbamide containing is added gradually with stirring and temperature. 46.0% nitrogen, 371 kg of water, 193 kg of potassium chloride, containing 62%. Then, 9 kg of calcium nitrate-Ca (NO) salt is additionally introduced.

The resulting solution of grade 1: 1.5:: 1.5 has a total of 27% of nutrients, of which 7% is nitrogen, 10%, 10% KjO. The corrosion rate of art. 3 in the resulting solution is 0.08 mm / year, the storage time without precipitation is 3.5 months.

Other examples of the method are given in the table.

to obtain a liquid NPK complex fertilizer with low corrosivity / despite the presence of chlorine ion, and stable for storage for at least 3 months.

The use of these fertilizers can significantly reduce investment at the stage of both production and use.

in connection with the use of black steel instead of alloyed. The expected economic effect from the application of the proposed method will be ..12 rubles per 1 ton of PfOf due to the replacement of the ° material of the equipment with cheaper black steel (Art. Z or Art. 45).

Thus, the expected economic effect from the use of the invention is approximately 65 2 4pn. rub.

Claims (2)

Invention Formula 1, a method of producing liquid complex fertilizers by mixing ammonium phosphate solutions with nitrogen and potassium-containing components with vigorous stirring, characterized in that, in order to reduce the corrosive activity of the fertilizer and increase their shelf life, the components are mixed in the presence of 0-divalent metal nitrates, 2-6.0% by weight of fertilizer. 2. Method POP.1, excellently and with the fact that as nitrates of divalent metals use nitrates of calcium, magnesium, zinc and manganese. Sources of information taken into account in the examination 1. Patent Art. 3784367, cl. 71-36, 1974. 2.Jong R.D. Advances In fertilizer technology that wM I nawe Significant Japact. - Agrlc. 1971, V. 26, 3, p. 12-31.