SU1074846A1 - Process for producing granulated mineral fertilizers - Google Patents

Abstract

1. METHOD FOR OBTAINING GRANULATED MINERAL FERTILIZERS by introducing sulphite-yeast binder into their melts, followed by granulation, in order to increase the strength of the product and decrease its solubility while at the same time enriching with microelements together with defecate - a by-product of sugar beet production. 2. A method according to claim 1, characterized in that the sulphite yeast mash and the defecate are taken in an amount of 0.5-1.5% of each of the fertilizer, at their equal ratio. (L with

Description

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The invention relates to the production of mineral fertilizers and can be used to obtain granulated urea with improved physicochemical and agrochemical properties. A known method for producing granulated urea with improved properties is by introducing the last addition of carboxymethylcellulose Cl to the melt. The disadvantage of this method is the high cost and scarcity of the additives introduced. The closest to the proposed technical essence and the achieved result is the method of obtaining granulated mineral fertilizers, for example potassium chloride, by introducing sulf of yeast brew in mixture with potassium chloride C2J into the melt of the latter. The disadvantage of this method is the low strength of the product obtained and the high solubility. The purpose of the invention is to increase the strength of the product and reduce its solubility during simultaneous enrichment with microelements. The goal is achieved by the method of obtaining granular mineral fertilizers by introducing sulphite-yeast based binder additives into their melt; brews followed by granulation, sulphite-yeast brew are used in common with the defecate, a by-product of sugar beet production. It is advisable to take a sulfite-draw brew and defekat in an amount of 0.5-1.5% of each of the weight of the fertilizer when they are equal. The introduction of this mixture of 1% does not have a noticeable effect on the improvement of the physicomechanical properties of the finished product, and an increase in the additive is impractical due to a decrease in the content of the main component and a deterioration in the properties of the finished product. Defecate is a by-product of beet sugar production and is formed during the purification of beet juice. The yield of the defect is 10% of the weight of the processed beets, which is millions of tons. The following substances are included in the defecate, May.%: Phosphoric acid, 1.7 Sugar, 2.0 Pectinous substances, 1.7 Non-nitrogenous organic substances, 9.5 Nitrogenous organic substances, 5,9 Calcium salts of various acids, 2,8 Mineral elements (В, Mg, S, Мп , Co, etc.) 2.2 Calcium carbonate Else. It has a significant neutralizing ability and a good particle size that does not require additional grinding, as well as due to the presence in its composition of a number of plant nutrients, such as N, Mg, S, B, Mn ,. Co-defect is a very effective additive to fertilizers and is superior to conventional lime additives. Especially valuable is the presence of deficient phosphorus, organic matter and trace elements. Example 1. In 990 g of urea melt with a concentration of 99.6%, immediately before granulation, 5 g of a sulfite yeast concentrate concentrate and 5 g of a defecation are introduced, which is 0.5% of each by weight of the fertilizer. After stirring for 1-2 minutes, the urea melt is fed to the granulation. Example 2. The process is carried out as in Example 1, but in 980 g of urea melt 10 g of sulfite yeast concentrate concentrate and 10 g of defecate are injected, which is 1% of each. Example 3. The process is carried out in the same manner as in Example 1, but in 97C g of urea melt 15 g of a sulfite yeast concentrate concentrate and 15 g of a defecate are added, which constitute each component. An experimental test of the proposed extended method of obtaining granulated urea with an extended period of time confirmed its high efficiency. In tab. 1 shows the experimental data on the effect of the ratio of sulfite-yeast brew (ADD): potassium chloride by a known method on the strength and solubility of granulated urea.

Table 1

Therefore, the optimal ratio of BDB: CSg in the preparation of granulated urea is 1: 0.5.

In tab. 2. shows the results of the fusion of the amount of the mixture of sulfite-yeast brew with chloride

As it follows from the above data, the strength of urea obtained by the proposed method is 1.31, 6 times higher, and the solubility is 1.2 g-1.5 times lower than urea, which contains in 1 quality of binder additive a mixture of DBB with potassium chloride. The positive effect of using the BDB as a binding additive together with the defect can be explained by the fact that the components contained in the defecate contribute to the flow of reactions by polycalyum (SDB: CS 1 1: 0.5) and a mixture of the sulfite-yeast brew with the defect for compressive strength granules of 20 samples of urea weighing 5 g and for solubility in 100 ml of water for 10 minutes. Urea granulation is carried out by pouring the melt into cylindrical shapes.

table 2

merization and condensation of low molecular weight fractions of lignosulfonates,

contained in MDB to form higher molecular weight lignosulfonates, which have better binding properties. At the same time, potassium chloride does not have the ability to accelerate polymerization and condensation reactions of lignosulfonates.

The use of small additives cheap (30 rubles / ton) and non-deficient

sulphite-yeast braze concentratef10748466

ki and defecation without changing the substance significantly improves the agro-technology; it allows the semi-chi and the FIc properties of urea. To fertilize fertilizer with an extended period of implementation of this method

action and improved physicome-me-allows to utilize significant mechanical properties. Available part of sugar beet sugar

in defective valuable nutrient ele-production.

Claims (2)

1. METHOD FOR OBTAINING A GRAN- LIQUIDED MINERAL FERTILIZERS by introducing into their melt binders based on sulfite-yeast mash with subsequent granulation, characterized in that, in order to increase the strength of the product and reduce its solubility while enriching with microelements, sulfite-yeast mash is used together with defecate - a by-product of sugar beet production. 2. The method of pop. 1, characterized in that the sulfite-yeast mash and defecate taken in an amount of 0.5-1.5% of each of the Weight: fertilizer in their equal ratio. ’© ω p.