RU2060982C1 - Method for production of granulated ammonium nitrate - Google Patents

Abstract

FIELD: production of ammonium nitrate. SUBSTANCE: aqueous solution which contains magnesium sulfate and boric acid is added into melt of ammonium nitrate. Waste of production of boric acid is used as mentioned above aqueous solution. It contains (mass %): magnesium sulfate 39-60, boric acid 11-20 and water. EFFECT: improves mechanic strength of granules, improves quality of desired product. 2 cl, 1 tbl

Description

 The invention relates to the technology of mineral fertilizers and can be used in the production of granular ammonium nitrate.

A known method of producing granular ammonium nitrate, in which borogypsum containing CaSO ₄ · 2H ₂ O, SiO ₂ and B ₂ O _{3 is} used as an additive [1] The additive is introduced into the melt of ammonium nitrate.

 The disadvantage of this method is the need for preliminary heat treatment, crushing and sieving of borogypsum, the uneven distribution of it in the melt volume of ammonium nitrate. In addition, the presence of a small amount of boron in the insoluble form in the additive does not give a positive agrochemical effect.

Closest to the invention in technical essence is a method for producing granular ammonium nitrate, comprising the steps of neutralizing, evaporating, granulating and introducing a boron-containing additive into the melt of ammonium nitrate. An additive in the form of a powder containing calcium and magnesium borates is introduced into the saltpeter melt before granulation [2]
However, this method has disadvantages associated with the need for additional operations for the preparation of additives, including grinding and dehydration of raw materials, which entails the cost of building new units in the production of ammonium nitrate. In addition, the introduction of insoluble additives in the melt leads to complication of the conditions of granulation.

 The objective of the invention is to increase the mechanical strength of the granules of ammonium nitrate and increase the agrochemical effectiveness of the product.

 The technical result of the invention is achieved due to the joint content in the added additive of magnesium sulfate and boron in a water-soluble form.

 The complex boron-containing additive is introduced into a concentrated 88-92% solution of ammonium nitrate, followed by evaporation and granulation of the product.

Preparation of the additive is performed by dissolving in water at 90 ^C. The raw material is a waste product of boric acid and requires no prior training. The introduction of additives based on these raw materials gives a qualitatively new effect in improving the properties of ammonium nitrate: increasing the strength of granules by 30-40% and a significant increase in agrochemical efficiency due to the addition of boron and magnesium sulfate.

Example 1. 100 g of ammonium nitrate are melted in a smelter. The melting at ¹⁸⁰ ° C is made 1.2 g complex boron additives in powder form c ≅250 micron particle size. The melt with the additive is thoroughly mixed for 2 minutes and granulated into a liquid (hexane). Then, the physical and mechanical properties of the obtained granules are determined: strength, caking, hygroscopicity.

EXAMPLE Example 2 was dissolved in water at 90 ° ^C and addition of magnesium sulfate and boric acid was prepared 40% solution with magnesium sulfate ≈ 32% and ≈ boric acid 8% Then, 110 g of 90% strength smelt ammonium nitrate contribute 3 g (2.7%) of the prepared solution. A solution of ammonium nitrate with the addition of concentrated at 180 ^C to a moisture content of 0.3-0.5% The melt granulated and determine the properties of the resulting granules.

 PRI me R 3. The conditions for the preparation of the additive and its introduction into the melt of ammonium nitrate are similar to example 2, but in 90% of the melt of ammonium nitrate contribute 1.5 g (1.4%) of the prepared solution of the additive.

 PRI me R 4. The conditions for preparation of the additive and its introduction into ammonium nitrate are similar to example 2, but in 90% of the melt of ammonium nitrate contribute 4.5 g (4.1%) of the prepared solution of the additive.

 Physico-mechanical results are shown in the table.

 Thus, the proposed method for producing ammonium nitrate provides improved physicomechanical properties of this fertilizer by introducing a complex additive containing magnesium sulfate and a trace element boron in a water-soluble form.

As can be seen from the data presented in the table, the best quality indicators are noted when conditioning ammonia nitrate with a complex additive obtained from a solution, when it is added to a 90% solution of ammonium nitrate in an amount of 2.7% (example 2). The strength of the granules is 2.0 kg / gran. caking 12 kg / cm ² . Improving the physical and mechanical properties of nitrate is ensured by the presence of magnesium sulfate in the complex additive.

The optimal concentration of magnesium sulfate, which provides an improvement in the physicomechanical properties of ammonium nitrate when a complex additive is added, is 0.9% including 0.3% MgO and 0.48% SO ₂ (Example 2). The decrease in its content (example 3) does not provide durable granules. An increase in the concentration of magnesium sulfate in excess of 0.9% (Example 4) does not improve the quality compared to Example 2, but in this case, the consumption of raw materials and energy increases to evaporate the additional amount of water introduced into the nitrate with a solution of a complex additive.

 The complex additive is a waste product of boric acid, the content of which in the raw material is 11-20%. The presence of a trace element of boron in ammonium nitrate with a complex additive increases the agrochemical effectiveness of this fertilizer. Agrochemical tests of ammonium nitrate with a complex additive showed that when it is added to the soil, not only does the yield of agricultural crops (potatoes, carrots, cotton) increase, but their quality also significantly improves.

Claims (2)

 1. A method of producing granular ammonium nitrate, comprising introducing a complex additive into a melt of ammonium nitrate, followed by granulation, characterized in that an aqueous solution containing magnesium sulfate and boric acid is used as a complex additive.  2. The method according to claim 1, characterized in that as a complex additives use waste production of boric acid of the following composition, wt. Magnesium Sulfate 39 60
Boric acid 11 20
Water Else

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