RU2201103C2 - Method of producing fodder additive for farm animals - Google Patents

Abstract

FIELD: fodder production. SUBSTANCE: method involves using of raw sugar which is added in aqueous solution of ferric sulfate with formation of complex compound. Then prepared solution is boiled for 25 min, cooled to 80 C, neutralized with zinc oxide at mixing for 10 min, settled for 12 h, and filtered. EFFECT: increased overweights and survival rate of animals. 2 tbl, 2 ex

Description

 The invention relates to animal husbandry, in particular to feed production.

 Known feed additive (see AS USSR 1148601, class A 23 K 1/16, 1979) from a mixture of iron sulfate, zinc carbonate, copper sulfate and other compounds of chemical elements.

 A disadvantage of the known feed additives is the multicomponent composition, which requires large economic costs and leads to slagging of the animal.

 A feed additive is also known (see AS 1212404, class A 23 K 1/16, 1982 - prototype), which are used complex compounds of zinc and iron with polyhydric alcohols. In a known technical solution, xylitol edema is used to obtain complex compounds of zinc and iron. However, xylitol edema is a scarce material, in addition, the feed additive does not provide sufficient weight gain and preservation of animals and has a short shelf life.

 The technical solution to the problem is to increase the weight gain, the safety of animals, the shelf life of the feed additive, expanding the range and reducing economic costs in the manufacture.

 The problem is achieved in that as a feed additive, the preparation of complex compounds of zinc and iron with raw cane sugar is used.

 The novelty of the proposed proposal is due to the fact that the use of cane raw sugar provides a chemical reaction, which results in a complex zinc and iron-containing agent that provides better digestion. Since the production of cane raw sugar requires less technological and economic costs than in the manufacture of xylitol edema and is not a scarce product, in the manufacture of the proposed feed additive, the economic costs will be significantly lower, which makes it possible for a wide industrial production.

 According to the patent and scientific and technical literature, no similar technical solution was found to solve the problem.

The feed additive is a homogeneous liquid of a dark color, without sediment. The density of the liquid is 1.03-1.15 g / cm ³ . Solubility in water is not limited, not flammable. Studies of a feed additive for toxicology confirmed its non-toxicity, which is confirmed by a toxicological passport.

 A distinctive feature of the proposed additives is the presence of a new component - cane raw sugar, which provides the chemical reaction of complexation of the feed additive. To prepare the feed additive, cane raw sugar in the amount of 135 g, ferric sulfate oxide 80 g, zinc oxide 45 g and water 1 l are used.

 An example of a specific feed additive.

In a two-liter container made of heat-resistant glass, 1 liter of water is poured and heated to 70 ^o C. Then, iron sulfate oxide nine-water is dissolved in this water, while continuing to heat the container. After the iron is completely dissolved, 135 g of cane raw sugar is added and dissolved in the container, if you take it in a smaller amount, for example 125 or 130 g, then the chemical reaction will not occur, i.e. the complex compound will not form and the medium will have a high pH of 3- 4, and if you take the maximum amount of 140-145 g, the reaction will not occur, a precipitate will form and a complex compound will not form. Thus, the optimal amount of cane raw sugar to obtain the complex compound is 135 g. Next, the contents of the container are brought to a boil and boiled for 25 minutes, cooled to 80 ^° C and the solution is neutralized with zinc oxide in an amount of 45 g with stirring for 10 minutes. The finished solution is left to stand for 12 hours and then filtered.

 Supplements were fed to animals along with feed. Young farm animals were fed a feed additive into milk, and adult animals were fed into mixed feed. The effectiveness of the feed supplement was confirmed by studies conducted on calves and piglets.

 Example 1. Piglets at 30 days of age were formed into two groups of 70 animals each, one of which was a control. In the experimental group, the piglets received a feed supplement in an amount of 3 ml per day for 10 days with milk, and in the control a similar amount of milk was drunk without a feed additive. Piglets were weighed before and after the experiment. The results of weighing and percent safety are presented in table 1.

 Example 2. According to the analogue method, 2 groups of monthly calves were formed with 10 animals each (control and experimental). The calves of the experimental group were given 30 ml of feed additive daily with milk for 10 days. The calves of the control group received a similar amount of milk without feed additives. The rest of the diet in both groups was the same.

 The results of weighing and safety are presented in table. 2.

 The data presented in tables 1 and 2 prove the effectiveness of the feed additive in order to increase the weight gain and the safety of animals.

Claims (1)

A method of producing a feed additive for farm animals, including the use of a sugar-containing substance, characterized in that as a sugar-containing substance, cane raw sugar is used, which in an amount of 135 g is added to an aqueous solution of ferrous sulfate obtained by dissolving 80 g of ferrous sulfate in 1 liter water at a temperature of 70 ^o C, then boil for 25 min, followed by cooling to 80 ^o C, neutralize 45 g of zinc oxide with stirring for 10 min, then defend t 12 hours and filtered.

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