RU2663613C1 - Method for producing a carbon fodder additive with a displaced centroid - Google Patents

Abstract

FIELD: fodder production.SUBSTANCE: invention relates to forage production, in particular to a method for producing a carbon fodder additive with a displaced centroid. Method is characterized in that a fine fractionated activated carbon obtained from softwood species having a particle size of 0.1–2 mm, is treated with an aqueous solution of a bioactive extract of bark of aspen or linden, at the following component ratio, %: fine activated carbon 93–95; aqueous solution of bioactive extract 5–7, and the additional oxidation-cooling step is carried out.EFFECT: use of the invention will allow producing a carbon fodder additive with a more branched porous structure.1 cl, 1 ex

Description

The invention relates to a method for producing a carbon feed additive intended for the prevention of digestive disorders of farm animals and poultry.

Gastrointestinal diseases of calves cause enormous damage to animal husbandry due to high morbidity and mortality, costs of medical measures, decrease in productive qualities and breeding value of animals.

A known method of producing activated carbon [and.with. USSR N 1567515, class СВВ 31/08, September 28, 87, (1)], including grinding coal to a particle size of less than 0.5 mm and heating to 1000-1200 ° C, followed by activation at this temperature in a vortex furnace with an activating agent containing water vapor. The disadvantage of this method is the low total yield of the finished product (20-23%).

A known method of producing granular activated carbon [and.with. USSR N 1528729, class СВВ 31/10, 11.27.87, (2)] with an increased adsorption capacity of coal, on which brown coal is crushed, granulated in the presence of water, a layer of brown coal is rolled onto granules in the presence of a 12.5-25% aqueous solution of sulfite-alcohol mash, dried , carbonate and activate at 700-750 ° C for 20-30 minutes

The disadvantage of this method is the technological complexity in implementing the method on an industrial scale, the high cost of finished products.

Closest to the proposed method according to the technical nature and the achieved result is a method of producing activated carbon [and.with. USSR N 1020371, class СВВ 31/08, September 29, 80, (3)], including carbonization of ground carbon-containing waste, water supply to carbonized waste at a water flow rate of 0.4-0.8 m ³ per ton of waste, activation up to 700-750 ° C. The result is activated carbon with a specific surface area of 190-210 m ³ / g, density 1.5-1.9 g / cm ³ , strength 35%.

The disadvantages of this method include the following: grinding of raw materials; periodicity of the process (separate stages of carbonization and activation, carried out sequentially in the same apparatus).

Known methods for the preparation and use of bentonite for the production of environmentally friendly products for livestock. Bentonite is a natural clay material that has the property to swell 14-16 times during hydration. With limited space for free swelling in the presence of water, a dense gel forms, which prevents further penetration of moisture. The disadvantages of using this method are the caking of bentonite and the ability to desorption.

Closest to the proposed one is a feed additive for poultry [patent RU 2032354, BI No. 10, 1995 (4)], containing electroactive water with a redox potential of 800 to 900 mV and zeolite in the following ratio of components, wt. %: electroactive water 10-18; zeolite - the rest.

The disadvantage of this additive is the impossibility of its use in animal husbandry, since it has the ability to desorption of 3-5%.

There are many ways to use herbal remedies for dyspepsia of calves. For example, an herbal gather, consisting of 3 parts of St. John's wort grass, 1 part of goose cinquefoil grass, 1 part of grass of the mountaineer rachis, 2 parts of large plantain seeds, 2 parts of coltsfoot leaves. Two tablespoons of the collection pour 1 liter of boiling water, insist and drink 3-4 times a day for 20-30 minutes before feeding [Avakayants BM, 1997 (5)]. However, herbal remedies have a therapeutic effect only in the initial stage of the disease and only with simple dyspepsia. In addition, they must be used in conjunction with other drugs, because they practically have no therapeutic effect on their own.

In animal husbandry, various types of sorbents are used for the prevention and treatment of gastrointestinal disorders (clay materials, cyolites, verminites, bentonites and various polymeric substances), but the use of activated carbon for the prevention and treatment of poisoning of farm animals with mycotoxins and other harmful substances is of particular interest.

The aim of this invention is to obtain a carbon feed additive with a shifted center of gravity for the prevention of gastrointestinal diseases of farm animals.

This goal is achieved in that the production of a carbon feed additive with a shifted center of gravity consists in processing finely fractioned activated carbon obtained from soft-leaved species of wood having a particle size of 0.1-2 mm with an aqueous solution of a bioactive extract of aspen or linden bark in the following ratio of components . %: finely fractionated activated carbon 93-95, an aqueous solution of bioactive coniferous extract 5-7 and an additional oxidation step.

Bioactive coniferous extract is prepared as follows. The crushed bark of aspen or linden is extracted with a hydrophobic organic solvent at a bark / extractant ratio of 1/7 for 2-3 hours. After extraction and sedimentation, the extract is diluted with water in a ratio of 1/1.

A method for producing a carbon feed additive with a shifted center of gravity is as follows: carbon containing material (sawdust of deciduous and coniferous species of wood) is fed via a loading device to carbonization, which is carried out at a temperature of 450-600 ° C for 20-30 min. The obtained carbonizate is sent for activation at a temperature of 650-800 ° C with a steam-gas mixture at the rate of 3-12 kg of steam per 1 kg of carbonizate, after which the carbonizate is cooled. Cooling is carried out in a thin layer on a mesh conveyor, when reaching a temperature of 90 ° C, finely fractionated activated carbon is treated (fine spray) with an aqueous solution of a bioactive extract, the temperature is increased to 200 ° C and additional oxidation-cooling is carried out, when the temperature reaches 20-30 ° C the finished carbon additive is kept for 5 hours in a thin layer on pallets at room temperature and packaged in consumer packaging.

Example 1. Sawdust of deciduous and coniferous wood using a loading device serves for carbonation, which is carried out at a temperature of 450-600 ° C for 20-30 minutes The obtained carbonizate is sent for activation at a temperature of 650-800 ° C with a steam-gas mixture at the rate of 3-12 kg of steam per 1 kg of carbonizate, after which the carbonizate is cooled. Cooling is carried out in a thin layer on a mesh conveyor, when the temperature reaches 90 ° C, fine-activated carbon is finely sprayed with a 5% aqueous solution of bioactive extract, after processing in the apparatus, the temperature is raised to 200 ° C and additional oxidation-cooling is carried out, when the temperature reaches 20- At 30 ° C, the finished carbon additive is kept for 5 hours in a thin layer on pallets at room temperature and packaged in consumer packaging. The resulting carbon additive has an iodine adsorption capacity of 30%, an ash content of 15%.

Example 2. The experiment is carried out as in example 1, a fine atomization of finely fractionated activated carbon is carried out with a 7% aqueous solution of a bioactive extract, the temperature in the apparatus is increased to 200 ° C and additional oxidation-cooling is carried out, when the temperature reaches 20-30 ° C the prepared carbon additive is maintained for 5 hours in a thin layer on pallets at room temperature and packaged in consumer packaging. The resulting carbon additive has an iodine adsorption capacity of 25%, an ash content of 18%.

An additional oxidation-cooling stage contributes to the burnout of the lower edge of the carbon feed additive and an increase in the ash content, consisting of a mixture of oxides of alkali, alkaline earth and other metals and elements (Si, Fe, Al, Ca, Mg, Mn, B), which leads to a shift the center of gravity of the feed additive particles.

This method allows to obtain a carbon feed additive with a displaced center of gravity with a more branched porous structure of directed action with the required parameters and adsorption properties, allowing it to be used for the prevention of treatment of digestive disorders of animals.

A bench installation was made, technological parameters were tested, samples were developed, their analysis was carried out, and work is underway to introduce the technology into production.

Information sources

1. USSR author's certificate No. 1567515 of 09/28/1987, dated 05/30/90 "Method for producing activated carbon."

2. USSR author's certificate No. 1528729 of 11.27.87 "Method for producing granular activated carbon."

3. USSR author's certificate No. 1020371 of 09.29.80 “Method for producing activated carbon” (prototype).

4. Patent RU 2032354, BI No. 10, 1995.

5. Avakayants B.M. Herbal medicine and prevention for gastroenteritis of young animals. - Veterinary medicine, - 1997, - 1, p. 35-38.

Claims (1)

A method of producing a carbon feed additive with a shifted center of gravity, characterized in that finely fractionated activated carbon obtained from soft-leaved species of wood, having a particle size of 0.1-2 mm, is treated with an aqueous solution of bioactive extract of aspen or linden bark, in the following ratio, wt . %: finely fractionated activated carbon 93-95; an aqueous solution of bioactive extract 5-7, and an additional oxidation step is carried out.