SU1421728A1 - Method of producing microelement-containing granulated carbamide - Google Patents

Abstract

The invention relates to the technology of mineral fertilizers and can be used in the preparation of granular urea containing trace elements. In order to prevent the decomposition of urea, the retrogradation of trace elements and simultaneously increase the strength of fertilizer granules, sulphates and / or trace element hydroxides, which are pretreated with ammonia in the presence of hydrohalic acids and / or their salts, are molar in MeSO and / or Me (OH): hapoid: Shz

Description

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The invention relates to the production of mineral fertilizers and can be used to produce nitrogenous fertilizers containing microelements.

The aim of the invention is to prevent the decomposition of urea and: the retrogradation of trace elements and the simultaneous strength of the granules; fertilizers. . ,

Example 1 .2.87 g of zinc sulfate ZnS04 was added 2.43 g of 30% HC1, then treated with 1.02 g NH3 which is molar ratio of ZnSO: HC1: MHZ 1: 2: 4. The resulting solution is introduced into 108.21 g of 80% molten carbamide, evaporated at temperatures up to 140 ° C and granulated. 86.6 g of carbamide B, 89.9 g of fertilizer containing 0.727% Zn are obtained in the form of the Xp complex salt (HH ,,);

Cl, j and 1.4% ammonium sulfate, h. At the same time, 99.8% of Zn is in the form of a water-soluble salt.

Example2. 2.49 g of sulphate between CuSO-4 and ZN O is dissolved in 2.43 g of 30% HC1, treated with 1.02 g of W, which is in molar ratio, CuSO: HCl: NH 2: 4. The target is introduced into 222.1 g of a 70% urea solution, evaporated at 140 ° C to an anhydrous melt and granulated. 155.5 g of carbamide is obtained in the composition of 158.8 g of fertilizer containing 0.4 g of Cn in the form of a complex salt of Cu (III, ...) 41C1a and 0.83% ammonium sulfate.

Example 3. K2.8g of nickel sulphate NiS04-7H jD is dissolved in 2.51 g of 29% HC1, treated with 1.36 g of NHj which is molar ratio of NiS04: HCl: no. Lii, l: 2: 6 . The resulting solution is introduced into 972.3 g of a 60% urea solution, evaporated at 1–40 ° C to a highly concentrated water and granulated. 583.4 carbamide is obtained in the composition of 587 g of fertilizer containing 0.1% Ni as a complex salt and 0.22% ammonium sulfate.

EXAMPLE 4. To 42.81 g of cobalt seven-hemihydrate CoS04 7H-20, 2.28 g of 32% HCl is added, and 1.36 r NHj is treated, which is in a molar ratio of CoS04. : HCl; lH.j 1: 2: 6. The resulting solution was introduced into 323.3 g of a 90% carbamide solution, packed and granulated. Get 295 g of fertilizer containing 291 g

carbamna and 0.2% Co as a complex salt of CO (NH,) J 01.7 and 0.45% ammonium sulfate,

Example5. 11 g of anhydrous calcium chloride at 30 ° C are dissolved in 24 g of water, 16.14 g of non-anhydrous zinc sulfate ZnSO2 are added, and 68 g of NHj are treated; which is the molar ratio of ZnS04: CaClg; MH3 1: 2: 4. The resulting solution is introduced into 366.3 g of an 80% urea solution, evaporated at a temperature of up to 140 ° C to an anhydrous melt and granulated. 292.9 g of carbamide containing 2% Zn in the form of zincaminochloride C2p (INS) and 4.16% calcium sulphate are obtained. Total fertilizer weight 327 g

Example 6. 2.11 g of semivod} 1st crystalline hydrate of sulfate and manganese MnSO ,,. 711-20 is dissolved in 3. g of water, 2.9 g of ammonium iodide is added, it is treated with 0.68 g of ammonia, which in a molar ratio is: Shz 1: 2: 6. The resulting solution is introduced into 903.2 g of a 60% urea solution, evaporated at 135-140 ° C. I get 544.9 g of urea containing 0.1% Mn and 0.46% J in the form of the 1Mn (W) J complex salt as well as 0.24% ammonium sulfate, with a total mass of fertilizer 550 g.

Example 7: 2.49 g of hydrous copper sulfate dissolved in 5 g of water, 1.96 g of ammonium bromide was added, treated with 0.68 g of ammonia, which was molar ratio CuSO, 4 -NB4Br: NH3 l: 2: 4. The resulting solution was introduced into 220.7 g of a 70% aqueous solution of Co (III) 25, evaporated to an almost anhydrous state and granulated. 154.5 g of urea containing 0.4% of Cu in the form of a complex salt of Cu (Shz) 4 Bg, and 0.01% of ammonium sulfate are obtained.

EXAMPLE 8: 0.95 g of anhydrous magnesium chloride, MgCl, is dissolved in 1.8 g of water, 1.5 g of anhydrous ferrous sulfate (I) are added, 9.68 g of ammonia are treated, which is in molecular terms, REVOD: 1% C1: W 3 1: 2: 4. The resulting solution is introduced into 306.3 g of a 90% urea solution, sharpened at temperatures up to 140 ° C and granulated. 275.8 g of carbamide are obtained in the composition of 279 g of fertilizer containing 0.29% Fe in the form of a complex compound Fe (NHj) 4 0.43% copper sulfate.

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PRI me R 9. To 0.98 g of copper hydroxide, 2.43 g of 30% HC1 is added and then treated with 1.02 g NHj, which is in molar ratio Cu (OH) 2: HC1 : Ne 1: 2: 4. The resulting solution is introduced into 222.1 g of a 70% urea solution, evaporated at 140 s to anhydrous melt and granulated. 155.5 g of carbamide is obtained in the composition of 158.8 g of fertilizer containing 0.4 g of Cu in the form of the complex salt of GSI (TS) Jci. The strength of the granules is 320 g / granule, 98.2% copper is in the form of a water soluble salt.

Example 10 KO, 55 g of zinc hydroxide was added 2.43 g of 3% HCl, then it was treated with 1.02 g of NHj. The molar ratio of Zn (OH), j: HC1: NH 1: .2: 4. The resulting solution is introduced into 108.21 g of urea-melt, evaporated in a teshterura to 140 ° C and granulated. 86.6 g of carbamide are obtained in g of fertilizer containing 0.727% Zn as a complex salt Zn (NH ,,) 43 Cl2. At the same time, 99.8% of Zn is in the form of a water soluble salt. The strength of the granules is 365 g / granule.

In tab. 1 presents the data on the substantiation of the claim. the ratio of components 1: 2: (4-6).

Reducing this ratio in ammonia reduces the agrochemical efficiency of fertilizer, in particular, the mass fraction of micro elements in water-soluble form decreases, the content of biuret increases. In addition, the in-. ammonia sting leads to formation

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insoluble hydroxides, which contribute to the clogging of equipment and communications.

In tab. 2 shows a comparative characteristic of indicators of fertilizers obtained by the proposed method and the known.

The data given in table. 2 show that using the proposed method allows increasing the content of trace elements in fertilizer in water-soluble form by 17.5%, reducing the content of biuret, increasing the strength of the granules.

Claims (1)

Invention Formula The method of obtaining granulated carbamide containing trace elements in the form of complex salts with ammonia in the inner sphere, including the introduction of trace elements into the melt of carbamide compounds, evaporation and granulation of the melt, in order to prevent decomposition of the carbamide and retrogradation of trace elements and simultaneous increase in the strength of granules Fertilizers, sulphates and / or hydroxides of trace elements are pretreated with ammonia in the presence of hydrohalic acids and / or their salts in a molar ratio of MeS04 and / or Me (OH): ha Loid: МН5 1: 2: (4-6), where Me are the elements: copper, zinc, cobalt, nickel, manganese, iron, and halides - hlsgr, bromine, iodine. Table 1 1: 2: 3 1: 2: 4 1: 2: 6 1: 2: 7 Mass fraction of microelement in water-soluble form,% Mass share of moisture-H,% Content biuret,% Granule strength g / granule Compiled by G.Salnikov Editor N.Gunko TehredM .Morgent Proofreader A.T. Order 4387/23 Circulation 425 VNGOSHI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab. „4/5 Subscription