RU2181011C2 - Feed additive production method - Google Patents

Abstract

FIELD: feed production. SUBSTANCE: method involves preparing starch paste and aqueous solution of microelements, such as sodium selenite, used in the ratio of 1:50; adding into cooled starch paste at the rate of 9-10 ml of solution of microelement per 400-500 ml of starch paste; mixing for 20-30 min; boiling out and drying at 40-50 C to obtain constant mass; grinding to powder state. Usage of starched sodium selenite enables prophylaxis and curing of pigs against toxic hepatic dystrophy, farm animals from white-muscle disease, allows metabolism to be normalized, general resistance of organism to be increased. EFFECT: simplified method and increased animal productivity. 1 ex

Description

 The invention relates to feed production.

 A known method of producing a feed additive for livestock (see NDP z. 268833, class A 23 K, 1989), where to obtain 1 kg of a vitamin supplement per 500 g of bone meal and 480 g of brewer's yeast add and mix 20 g of magnesium carbonate , 50 g of copper carbonate and 0.5 g of sodium selenite.

 A disadvantage of the known food supplement with sodium selenite is that sodium selenite is in a free state, not structurally related to the filler, quickly evaporates or oxidizes, thus reducing the concentration of sodium selenite in the mixture after 2-3 months of storage.

 Sodium selenite, being in a free state, can also concentrate, accumulating in the lower layers of the feed mixture, which leads to an increase in the concentration of selenium in the underlying layers of the feed mixture, and subsequently to overdose and poisoning of animals.

 The invention is also known where, to obtain a feed additive (see ed. St. 1687222, class A 23 K 1/16, 1991 - prototype), the components with starch are dissolved in water and mixed, followed by drying.

 However, the feed additive is not subject to long-term storage due to the fact that the components are in a free state and, as they are located in different layers or sections of the mixture, can either oxidize or volatilize, or concentrate over time in the lower layers, in addition, heat treatment is carried out at high temperatures.

 The technical solution to the problem is to increase the shelf life of feed additives.

The objective is achieved in that in the method for producing a feed additive, comprising dissolving the components with starch in water, mixing them, followed by drying, a starch paste is preliminarily prepared, then an aqueous microelement solution is prepared, for example, sodium selenite in a ratio of 1: 50, and added to the chilled to +50 ^o С paste based on 9-10 ml of a trace element solution per 400-500 ml of paste and mixed for 20-30 minutes, then the mixture is evaporated and dried at 40-50 ^o С to constant weight and ground to a powder state.

 The novelty of the proposed proposal is due to the fact that the use of starch paste for enveloping a long molecular chain of starch microelement complicates the oxidation or volatilization of the latter from the mixture, increasing the shelf life up to 15 months.

 In addition, the uniformity of the concentration of trace elements, such as selenium in starch grains, prevents overdose of trace elements and the possibility of poisoning animals.

 Being in starch grains, the microelement is slowly released in the gastrointestinal tract of animals, which also helps to prevent poisoning and personal use of selenium.

 According to the patent and scientific and technical literature, no similar set of features has been found that allows us to judge the inventive step of the proposal.

 A comparative analysis with known technical solutions allows us to conclude that the claimed composition of the mixture differs from the known mixtures by the introduction of a new component, namely a starch paste, which envelops sodium selenite with a chain of its molecule, which complicates the volatilization of the latter from the mixture, increasing the shelf life up to 15 months.

 The uniformity of the concentration of selenium in starch grains prevents an overdose of sodium selenite and the possibility of poisoning animals.

 Thus, the claimed technical solution meets the criterion of "novelty."

 Analysis of the known compositions of sodium selenite with sodium chloride with a content of 26 mg of selenium in 1 kg of the mixture and premixes with 200 mg of selenium in 1 kg of the mixture showed that their use in these combinations does not provide long-term storage, uniformity of the mixture and prevention of possible poisoning of animals. They do not show an increase in the absorption and saturation of the mixture.

 The proposed technology for the preparation of a preparation containing selenium gives the mixture new properties, which allows us to conclude that the proposed solution meets the criterion of "significant differences".

 An example of a specific implementation of the method of obtaining a feed additive.

To prepare a feed additive, 100 g of starch are taken, dried at 65 ^° C to constant weight, mixed with 200 ml of distilled water. Stirring the prepared mixture, pour into 2 liters of boiling water. The resulting liquid paste is cooled. Prepare an aqueous solution of a trace element, for example, sodium selenite. For this, 1 g of sodium selenite is dissolved in 50 ml of water. The sodium selenite solution is poured onto a starch paste chilled to 50 ^{° C.} , thoroughly mixed for 30 minutes. The mixture of sodium selenite solution and starch paste is evaporated, and then dried at 50 ^o C to constant weight and crushed.

 1 g of feed additive contains 10 mg of stabilized sodium selenite.

 Mixtures were prepared where sodium selenite with sodium chloride, mixtures of sodium selenite with barley tar and starch selenium were used as trace elements using the proposed method. The mixture was stored under the same conditions in kraft bags and dark glass jars. Monthly in the mixtures, the selenium content was determined using 2, 3-diaminonaphthalene and on a Zhoben-Yvon plasma spectrometer (model 1I-48).

 The decrease in selenium concentration occurred in a mixture with barley tar from the 2nd month of storage, and in a mixture with sodium chloride - from the 3rd month of storage. A decrease in the concentration of selenium in starchy selenium began to occur from a 15-month shelf life.

 Various mixtures were shaken in glass jars and the concentration of selenium in the lower layers of the mixture was measured. The highest concentration of selenium was found in barley dermat and in a mixture of sodium selenite with sodium chloride. In starchy selenium, the level of selenium did not change. Therefore, changes in the concentration of selenium in various layers of starchy sodium selenite does not occur.

 The proposed method for stabilizing sodium selenite can be implemented at any agricultural enterprise and does not require special equipment.

 The use of starchized sodium selenite is most effective in the prevention and treatment of toxic liver dystrophy of piglets, white-muscle disease of farm animals, to normalize metabolism and increase the overall natural resistance of the body and animal productivity.

Claims (1)

A method of obtaining a feed additive, comprising dissolving the components with starch in water, mixing them, followed by drying, characterized in that the starch paste is preliminarily prepared, then an aqueous solution of the components, for example sodium selenite, is prepared in a ratio of 1: 50, and it is added to the cooled paste from calculation of 9-10 mg of solution per 400-500 ml of paste and mixed for 20-30 minutes, then the mixture is evaporated and dried at 40-50 ^o C to constant weight and ground to a powder state.