SU1692969A1 - Method for obtaining chlorine-free potassium fertilizer - Google Patents

Abstract

The invention relates to the production of chlorine-free potash fertilizers by reacting calcium chloride with additives. The aim of the invention is to increase the growth of plants and reduce the content of chlorine ions in the soil. The goal is achieved by the fact that in the method of producing chlorine-free potassium fertilizer by mixing potassium chloride with additives, the acidic treatment product of volcanic slag is used as an additive, and the mixing is carried out in the presence of boric acid, followed by the introduction of potassium permanganate. 1 hp f-ly, 1 tab.

Description

The invention relates to the production of chlorine-free potash fertilizers by the interaction of potassium chloride with additives.

The purpose of the invention is to increase the growth of plants and reduce the content of chlorine ions in the soil.

Example. Volcanic slag composition, wt.%: SI02 42,0-56,0; A1203 8.0712.0; CaO 35.0-75.0; MDO 1.8–7.8; (N20 + VD series; FeO 0.1–0.3; ReaO3 3.0–5.0; MpO 0.5–1.0; subclause 0 , 5-1.0, treated with nitric acid, concentration of 0.5-2 at 103 ° C W: T 2-6 for 0.5-3 hours. From the resulting mixture, an insoluble residue of the composition, wt.%, Is isolated: SI02 55-68; ABOz 5.0-8.0; CaO 15.0- 20.0; MgO 0.5-1.4; (FeO + ReaOz) 1.0-3.0; MpO 0.8-1.3 , ppp 1.5-3.0, the product of acid treatment of volcanic slag, which is mixed with potassium chloride, and boric acid to obtain a homogeneous suspension, then potassium permanganate is introduced into the resulting suspension. eats 180-220 g per 10 l of water; for flowers 100-140 g 10 liters of water.

The table shows data on the effect of the quantitative ratio of the reacting components on the process of the interaction of potassium chloride with additives.

From the analysis of the table, it follows that, under the conditions of the indicated ratios of the initial components (examples 1-3), it is possible, as compared with the known method, to increase the yield from 3-4 times from one bush to 7–9 pcs. increase the plant life from 2-3 to 5-7 days and reduce the content of chlorine ions in the soil after introduction from 1600 to 550-700 mg / l. A change in the quantitative ratios of the reacting substances outside the specified intervals (examples 4 and 5) shows that a decrease or increase in the ratio of the initial components leads to an increase in the content of chlorine ions in the soil, a decrease in the yield and lifetime of the plants.

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The economic feasibility of the proposed method for producing chlorine-free potassium fertilizer is due to the reduction of potassium chloride losses, the introduction of trace elements and the possibility of affecting the soil in order to improve its properties.

Claims (2)

Claims 1. Method for producing chlorine-free potassium fertilizer, comprising mixing potassium chloride with additives, characterized in that, in order to increase the production of plants and reduce the amount of chlorine ions in the soil, the product of acidic treatment of volcanic slag is used as an additive, and mixing is carried out in the presence of boric acid, followed by the introduction of potassium permanganate. 2. The method according to claim 1, characterized in that the starting components are taken in the following ratio, wt%: potassium chloride 36.7-47.9; acidic product of volcanic slag 50.0-60.0; boric acid 0.1-0.3; potassium permanganate 2.0-3.0. The content of components, wt.%: potassium chloride alkaline acid product of processing finely ground volc Control composition. 2.3 7.9 35.2 oh oh