RU2512366C2 - Method for treatment of poultry droppings to be used as animal fodder - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: invention refers to fodder production. The method for treatment of poultry droppings to be used as animal fodder includes thermal disinfection of poultry droppings at 95-100°C for at least 30 minutes and their mixing with dairy whey prior to and/or during and/or after such thermal disinfection. Prior to and/or during and/or after such thermal disinfection, poultry droppings and/or a mixture of poultry droppings and dairy whey is/are mixed with grains of cereal crops, mainly - barley and wheat, the dry substance weight ratio of grains to droppings being no more than 1.5:1.0. The produced mixture is maintained at a temperature of 55-100°C for at least 30 min.

EFFECT: invention implementation ensures enhancement of the organoleptic and nutritional properties of a mixture of poultry droppings and dairy whey.

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Description

The invention relates to feed production.

The purpose of the invention is to increase the organoleptic and nutritional properties of a mixture of bird droppings and whey.

A known method of processing animal feed for bird droppings or litter, in which bird droppings or litter is treated with a preparation containing formaldehyde, and then subjected to heat treatment in an extruder at a temperature of 100-150 ° C (1).

The disadvantages of this method are the need to use formaldehyde, which reduces the nutritional value of the feed, and significant losses of non-protein nitrogen with evaporating ammonia. In addition, the lack of sugar in the feed reduces its nutritional properties.

This method is an analogue of the present invention, as it provides for the heat treatment of litter, which coincides with the restrictive part of the independent claim of the invention, free from the disadvantages indicated in the analogue.

A known method of processing animal feed for bird droppings, in which it is thermally disinfected at a temperature of 95-100 ° C for at least 30 minutes and mixed before, and / or during and / or after thermal disinfection with whey.

The disadvantage of this method is that the result is a monoprotein feed, in which there are no sugars and starch, while for microbial protein synthesis in the rumen of ruminants, a sugar-starch-protein complex is necessary, such as, for example, green plants, which reduces nutritional properties of the resulting feed.

The specified method is the closest analogue (prototype) of the present invention, as it provides for thermal disinfection of litter at a temperature of 95-100 ° C for at least 30 minutes, mixing bird droppings before and / or during and / or after thermal disinfection of milk serum, which coincides with the restrictive part of the independent claim of the invention, free from the disadvantages indicated in the prototype.

Bird droppings are thermally disinfected at a temperature of 95-100 ° C for at least 30 minutes. Before and / or during and / or after thermal disinfection, the litter is mixed with whey. Grain grains are added to the litter or mixture of litter and serum before and / or during and / or after thermal disinfection of the litter based on the ratio of the mass of dry matter of cereal grains to the dry matter of bird droppings not more than 1.5: 1.0. The mixture, including cereal grains, is kept at a temperature of 100-55 ° C for at least 30 minutes.

The ammonia contained in wet bird droppings, giving it the smell of ammonia, chemically interacts with serum lactic acid to form ammonium lactate, a non-toxic, odorless, water-soluble salt suitable for use by ruminant rumen microorganisms as a protein substrate.

The cereal grain starch has a granular structure. During thermal exposure, starch is partially converted into sugar and easily digestible sugar-like substances and gelatinized. Mineral substances and proteins contained in bird droppings - uric acid and an aqueous solution of ammonium lactate - are intensively absorbed into gelatinizing starch grains, while the grains swell, resulting in the formation of easily digestible sugar-starch-protein complex, which is a qualitatively new type of feed with bread smell and the necessary energy and protein for the synthesis of bacteria rumen animal protein.

During thermal disinfection of bird droppings, litter and / or a mixture of litter and whey, and / or a mixture of litter, whey and cereal grains are heated with steam by barbation at a vapor pressure of 0.3-0.4 MPa, which minimizes steam consumption and condensate droppings.

Before adding litter and whey to the litter or mixture, cereal grains are crushed, which, when subjected to heat, accelerates the partial conversion of grain starch into sugar and sugar-like substances, their gelatinization and swelling with uric acid and an aqueous solution of ammonium lactate and, therefore, the formation of sugar-starch-protein complex.

As cereal grains, wheat and barley grains taken in a mass ratio of 1: 1 are used, which allows the entire temperature range from 100 to 55 ° C to be used for gelatinization of starch of cereal grains when cooling the mixture.

Example 1. Conducted four experiments. Litterless litter of young egg chickens, stored for no more than a day, with a moisture content of 75%, was mixed separately with milk serums having acids of 50, 70 and 90 ° T, at the rate of 600 and 800 g of serum per 1 kg of dry matter of the litter. The litter was mixed: in the first experiment - 800 g of serum with an acidity of 50 ° T, in the second - 600 g of serum with an acid of 70 ° T, in the third - 800 g of serum with an acid of 70 ° T, in the fourth - 600 g of serum with an acid of 90 ° T.

The resulting mixtures of litter and serum were subjected to thermal steam disinfection by barbation at a vapor pressure of 0.3 MPa and a temperature of 95-100 ° C for 70 min. During disinfection, milled wheat and barley grains, taken in a 1: 1 ratio, were added to the resulting litter and serum mixtures, based on the ratio of the dry matter mass of grains to the dry matter mass of litter 0.9: 1.0.

An organoleptic evaluation showed that in the mixture of bird droppings and whey obtained in the first experiment, there was a smell of bread and the smell of ammonia. In the second experiment, when mixing litter and serum with an acidity of 70 ° T, based on 600 g of serum per 1 kg of dry matter of the litter, the mixture had a bread smell and traces of ammonia odor. In the mixtures obtained in the third and fourth experiments, there was a smell of bread and no smell of ammonia.

Example 2. Conducted four experiments.

Litterless broiler poultry litter, kept for no more than a day, with a humidity of 78% was mixed with milk serum with an acidity of 87 ° T at the rate of 700 g of whey per 1 kg of dry matter of the litter.

The resulting mixture of litter and serum was subjected to thermal steam disinfection by barbation at a vapor pressure of 0.35 MPa and a temperature of 95-100 ° C for 50 minutes.

After thermal disinfection, the mixture of bird droppings and whey was mixed with crushed grains of wheat and barley, taken in a 1: 1 ratio, based on the ratio of the dry matter mass of grains to the dry matter mass of litter 1.2: 1.0 separately at a mixture temperature of 100, 70, 55 and 40 ° C. The mixtures were kept: in the first experiment - at 100 ° C for 30 minutes, in the second - at 70 ° C for 30 minutes, in the third - at 55 ° C for 30 minutes, in the fourth - at 40 ° C for 60 min

An organoleptic evaluation showed that in the mixture obtained in the first experiment, the smell of ammonia was absent and there was a bread smell; in the mixture obtained in the second experiment, the smell of ammonia was absent and there was a bread smell; in the mixture obtained in the third experiment, the smell of ammonia was absent and a faint bread smell was present; in the mixture obtained in the fourth experiment, the smell of ammonia was absent and there was no bread smell.

Example 3. Conducted four experiments. Litterless broiler chickens litter, stored for no more than 24 hours, with a humidity of 80% and milk whey with an acidity of 80 ° T, was mixed at the rate of 800 g of whey per 1 kg of dry matter of the litter, after which the resulting mixture was subjected to thermal steam disinfection by barbation at a vapor pressure of 0 , 4 MPa and a mixture temperature of 95-100 ° C for 60 minutes

Before, during and after thermal disinfection, the resulting mixture of litter and whey was mixed with crushed wheat and barley grains taken in a ratio of 1: 1, based on the ratio of the weight of dry matter of grains to the weight of dry matter of litter in the first experiment, 0.5: 1; in the second experiment, 1.0: 1.0; in the third experiment, 1.5: 1.0. In the fourth (control) experiment, grains were not added to the mixture of bird droppings and whey.

An organoleptic evaluation of the mixtures obtained showed that in the first three experiments the mixtures did not smell ammonia and there was a bread smell. In the fourth (control) experiment, the mixture lacked both the smell of ammonia and the smell of bread.

Evaluation of the nutritional properties of the mixtures obtained in four experiments was carried out during the fattening of calves in the economy. The obtained experimental mixtures were used separately as components in the preparation of fodder diets for gobies. In structure and nutrition, the diets of gobies were the same in all four experiments.

Judging by the visual assessment, the bulls more readily ate feed mixtures, in which the experimental mixtures obtained in the first three experiments containing wheat and barley were present as components. Less willing bulls ate the feed mixture, the component of which was the experimental mixture obtained in the fourth (control) experiment, not containing wheat and barley.

The average daily gain in live weight of gobies in the first experiment was 1028 g / goal. per day (50 goals, average weight of 292 kg, 1519 fodder days); in the second experiment - 1222 g / goal. per day (55 goals, average weight 331 kg, 1705 feed days)); in the third experiment - 1095 g / goal. per day (54 heads, cf. weight 258 kg, 1674 feed days); in the fourth (control) experiment - 985 g / goal. per day (72 heads, cf. weight of 294 kg, 2232 feed days).

On a diet that does not contain a mixture of poultry manure and whey, there were 182 bulls with an average live weight of 352 kg, 5136 fodder spends were spent, and an average daily gain in live weight of 631 g / goal was obtained. per day.

Raw materials necessary for the implementation of the invention.

1. Bird droppings according to GOST R53765-2009 “LITTER OF THE BIRD. Raw materials for the production of organic fertilizers. Technical conditions. "

2. Milk whey in accordance with GOST P53438-2009 "DAIRY SERUM. Technical conditions. "

3. Feed wheat.

4. Feed barley.

Information sources

1. Copyright certificate, USSR, No. 976931, M. Cl., A23K 1/00, 1982

2. Patent, Russian Federation, No. 2091037, M. Cl., 6 A23K 1/10, 1997

Claims (3)

1. A method of processing poultry manure for animal feed, including its thermal disinfection at 95-100 ° C for at least 30 minutes, mixing before, and / or during and / or after thermal disinfection with whey, characterized in that before, and / or during and / or after thermal disinfection, bird droppings and / or a mixture of litter and whey are mixed with grains of cereals, mainly barley and wheat, based on the ratio of the weight of dry matter of grains to the weight of dry matter of litter not more than 1.5: 1.0, the resulting mixture is maintained at a temperature of 55-100 ° C for at least 30 minutes 2. The method according to claim 1, characterized in that the bird droppings are mixed with whey with an acidity of at least 70 ° T based on at least 600 g of serum per 1 kg of dry matter of the litter. 3. The method according to claim 1, characterized in that the thermal disinfection of bird droppings is carried out with water vapor by barbation at a vapor pressure of 0.3-0.4 MPa.