SU1697696A1 - Method of iodide stabilization in premixes - Google Patents

Abstract

The invention relates to the feeding of farm animals, namely to the preparation of iodine-containing premixes. The purpose of the invention is to increase the safety of iodine and the storage time of the premix. Before introducing potassium iodide into the premix, it is mixed with 8-24% (by weight of iodide) of a natural zeolite with a particle size of 0.05-0.5 mm. This makes it possible to increase the safety of iodine by 3.5 times, the storage time of the premix from 4 months to 12 months and significantly increase the iodine content in the organism of animals compared to the known method of stabilizing iodine by mixing potassium iodide with 4% sodium sulphate. 3 tab.

Description

This invention relates to the feeding of farm animals, namely the preparation of iodine-containing premixes.

The purpose of the invention is to increase the safety of iodine and the storage time of the premix, as well as to increase the iodine content in the organism of animals.

PRI me R 1. Determine the effectiveness of using natural zeolites as an iodide stabilizer in the standard KS-3 premix (Table 1) used in feeding pigs on industrial complexes and containing a set of biologically active substances, including those decomposing iodides. (copper, manganese, organic acids, etc.).

Prepared 6 batches of premix on the recipe KS-3. Non-stabilized potassium iodide (osg. GOST 4232-74) was introduced into the 1st batch, potassium iodide stabilized with 8% sodium bicarbonate stabilized in the 2nd batch, and potassium iodide stabilized with the mixture consisting of 4% NOH3 and 4% sodium sulphate (N328203) (1). In the 4.5 and 6th batch of premix, potassium iodide was mixed with 8, 16, 24% of natural zeolite, which was pre-ground to a particle size of 0.05-0.5 mm and dried at 105 ° C to constant weight . In the premix, the additives were injected at the rate of 105 mg iodine / kg, i.e. according to the input standards in premix KS-3. All batches of premix were stored in four-ply paper bags in a warehouse for 1 year. Periodically, they determined the iodine content in the kinetic rodanide-nitrate method.

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Unstabilized potassium iodide during the first month of storage is decomposed by 25% (Table 2), after two months by 50%, and after five months (the maximum storage time of premixes) only 22% of the original iodine is stored. Addition of potassium iodide stabilized with sodium bicarbonate to the second batch reduces iodine decomposition only in the first three months of storage of the premix, and then the stabilizing effect of sodium bicarbonate does not appear. A mixture of sodium bicarbonate and sodium sulfate (thiosulfate) prevents iodine from multiplying during the 4 months of storage of the premix, and in the last eight months of storage its level remains within 26-24% of the added one. Therefore, such a premix can be stored no more than 4 months.

With the addition of 8% zeolite, potassium iodide in the premix was maintained at 92% for six months and 78% when stored for a year. Even more effective was the stabilization of potassium iodide by 16% and 24% of zeolite — after 12 months of storage of iodine, 87 and 94% were contained, respectively. Thus, the stabilization of iodides by the proposed method increases the safety of iodine in premixes by 3.5 times when stored for five months compared to the known (by adding bicarbonate and sodium sulphate) and increases the shelf life of premixes from 4 to 12 months.

PRI mme R 2. Porosta of a 66-147-day-old large white breed received feed of the following composition, wt%: corn 41.5; wheat 20; chmeni 10; skimmed milk powder 17.6; sunflower meal 8.0; chalk 0.7; dicalcium phosphate 0.8; table salt 0.4; premix KS-3 1.0; The first group of potassium iodide was introduced to the premix in unstabilized (GOST 4232-74), the second group - potassium iodide, stabilized by mixing with a mixture consisting of 4% sodium bicarbonate and 4% sodium sulfate (by weight of potassium iodide), and the third - potassium iodide, stabilized by mixing with zeolite (8% by weight of iodide) with a particle size of 0.05-0.5 mm. Potassium iodide supplements were administered at the rate of 20 mg iodine / kg premix, i.e. according to the existing standards for pigs of this age (2), Premix was prepared for the entire period before the start of the experiment,

which lasted 81 days.

With the inclusion of unstabilized potassium iodide in the premix, the iodine content in the studied organs and tissues was the lowest (Table 3). Chemical stabilization ki

reagents (MANSOz + N328203) contributed to a significant increase in the concentration of iodine in the thyroid gland by 44% and in the blood by 30%. When iodides were stabilized by the zeolite by the proposed method, the content of iodine in all studied tissues of the body was significantly higher in the liver by 3.2 times, lungs 2.8 times, by the thyroid gland by 30%, in blood plasma by 23% (,, 01), than when stabilized by the known

in a way. These data indicate that zeolite-stabilized iodine is readily available for absorption and is effectively used in animals.

Thus, the use of the proposed method for stabilizing iodides makes it possible to increase the preservation of iodine in premixes by 3.5 times, to increase their shelf life by 2-3 times and to significantly increase the iodine content in animals

Claims (1)

compared with the known method. Claims of Invention A method for stabilizing iodides in premixes, which involves dosing and mixing potassium iodide with stabilizer. rum and the introduction of the mixture into the premix, characterized in that, in order to increase the preservation of iodine and the storage time of the premix, natural zeolite is used as a stabilizer and particle size of 0.05-0.5 mm in the amount of 8-24% by weight of potassium iodide. Table 1 Components Unit of measure Vitamins: A-Micro A D-videoin E-microcapsule K-Vikasol Bi-thiamin B2 riboflavin Calcium Pantothenate B-choline chloride Bs-nicotinic acid Ve-pyridoxine B12-feed C-ascorbic acid Iron Manganese Copper Zinc Cobalt Iodine enoxymethylpenicillin Dihydrostreptomycin Oxytetracycline Furazolidone Sulfadimezin Methionine Lysine Santokhin Wheat bran thousand IE thousand IE mg g mg mg to 1 kg 1 kg of premix yy IE yy IE mg g mg mg about 1 kg 5950 600 3200 300 300 1200 1012 15 3000 2 4.4 100 2544 6006 7500 6000 25 105 2500 2500 6000 ten 9 50 52 500 table 2 Table 3