SU1511251A1 - Method of producing ammonium sulfate-nitrate - Google Patents

Abstract

The invention relates to the technology of mineral fertilizers and can be used in the processing of nitrate-sulphate wastewater molybdenum production for fertilizer. The aim of the invention is to improve the physicochemical properties of the fertilizer. This goal is achieved by the method of producing ammonium sulfate-nitrate by neutralizing a mixture of sulfuric and nitric acids to a pH of 7.5-8.0, evaporation, drying and granulation of fertilizer, in which the hydrometallurgical production of molybdenum is used as a mixture of acids. The strength of the obtained fertilizer is 1.1-1.2 MPa, the product is not compressed. 1 tab.

Description

The invention relates to the technology of mineral fertilizers and can be used in the processing of nitrate-sulphate waste for fertilizer,

The purpose of the invention is to improve the physicochemical properties of the fertilizer.

Example 1. Acid molybdenum sewage production, containing, by weight,%; nitric acid 6.0; sulfuric acid 3.0; molybdenum 0.024 ;, copper 0.022; cobalt 0.005; The water is basal, neutralized with ammonia gas to pH 7.5, evaporated to a density of 1.32 g / cm, then dried and granulated in a drum granulator - dryer (BGS) with a diameter of 0.7 m. a length of 2 m at a temperature of 120 ° C. The performance of the finished product 9 kg / h. The result is a fertilizer with a granule size of 1-4 mm, containing, in wt.%: Ammonium nitrate 67.84; ammonium sulfate 30.10; molybdenum 0.24; copper - 0.31; cobalt 0.05; total nitrogen 30.18; moisture 1.5; granule strength 1.2 MPa, hygroscopic point of 56%. Not clogged.

Example 2. Acid molybdenum production effluent containing wt.%: Nitric acid 5.6; sulfuric acid 3.4; molybdenum 0,030; copper 0.033; cobalt 0.006; water the rest. Further, as in Example 1, a fertilizer was obtained that contained, in wt.%: Ammonium nitrate 64.35; ammonium sulfate 33.4; molybdenum 0.29; copper 0.35; cobalt 0.061; total nitrogen 29.66; moisture 1.6, Granule strength 1.17 MPa, Hygroscopic point 57.3. Not clogged.

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i Example 3, Acid molybcene production effluents containing, | wt.%: nitric acid 5.3; sulfuric acid 3.9; molybdenum 0.036; copper g 0.035; cobalt 0.0074; water the rest. Next, as in Example I,

The result is a fertilizer containing, wt.%: Ammonium nitrate 62,10; ammonium sulfate 35.00; molyb-Yu prices 0.35; copper 0.37; cobalt 0.073; total nitrogen 29,22; moisture 2; the strength of the granules is 1.1 MPa, the hygroscopic point of 58, is not observable.

The composition of the products obtained by the 15 known and proposed methods are given in the table.

As can be seen from the data in the table, the resulting fertilizer has 20

greater strength, not caking and has a higher hygroscopic point. In addition, the use of wastewater enriches fertilizer with micronutrients.

A method of producing ammonium sulfate nitrate, including neutralizing a mixture of nitric and sulfuric acids with ammonia to a pH of 7.5-8.0, evaporation, drying and granulating the product, characterized in that, in order to improve the physicochemical properties of the fertilizer, as a mixture Nitric and sulfuric acids use wastewater hydrometallurgical production of molybdenum.

Claims (1)

Claim 10 A method of producing ammonium sulfate nitrate, including the neutralization of a mixture of nitric and sulfuric acids with ammonia to a pH of 7.5-8.0, evaporation, drying and granulation of the product, distinguish 15 with the fact that, in order to improve the physicochemical properties of fertilizers, sewage from the hydrometallurgical production of molybdenum is used as a mixture of nitric and sulfuric acids. Components Content, wt.%, According to the method famous suggested by examples ¹ 1 2 3 Total nitrogen 25.5-26.5 30.18 29.66 _O 29.22 Molybdenum - 0.24 0.29 about. 0.35 Copper - 0.31 0.35 0.37 Cobalt - 0,050 0,061 0,073 Ammonium nitrate 33-35 67.84 64.35 62,1.0 Ammonium sulfate 65-67 30.10 33,4 35.00 Moisture 2,5 1,5 1,6 2.0 Hygroscopic point 49.6-50 56.0 57.3 58.0 Strength, MPa 0.9 1,2 1.17 1,1 Trackability Tracked down Not tracking Not tracking Don't follow is is is