RU2525336C2 - Method for production of leather waste-based fodder additive for ruminant animals - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: invention relates to feedstuff industry, in particular, to a leather waste-based fodder additive for ruminant animals. The method for production of a leather waste-based fodder additive for ruminant animals envisages milling of ingredients of the leather wastes-containing fodder additive into particles sized 5-10 mm and the produced fodder mixture extrusion at a temperature of 400°C under a pressure of 50 MPa during 180 sec. The fodder is produced from the following initial components, wt %: leather wastes - 20.0, hullless barley - 45.0, red carrots - 5.0, carbamide - 20.0, bentonite - 10.0. 1 kg of the fodder contains the following ingredients: fodder units - 0.99, digestible protein - 320.0 g, calcium - 27.5 g, phosphorus - 13.2 g, starch - 205.0 g, sugar - 21.0 g, carotene - 50.0 mg.

EFFECT: invention usage will allow to enhance animals productiveness and reduce the product prime costs.

2 cl, 2 tbl

Description

The invention relates to the feed industry, and in particular to a method for the production of feed additives for ruminants based on leather waste.

A known method of producing a feed additive for farm animals and poultry based on leather waste, which provides for the hydrolysis of skin collagen under the influence of pressure and chemicals. (Auth. 351528, 1972).

The method has limitations: it requires energy-intensive welding, grinding of raw materials with expensive chemicals in rotating horizontal vacuum boilers, followed by drying of the hydrolyzate. As a result of prolonged heat exposure, a feed additive with a low protein value and high cost is obtained.

Closest to the claimed solution is a feed additive from raw materials of animal origin and a method for its production, providing for the processing of raw materials in the following ratio of components, wt.%: Waste chrome leather (97.0-99.9), sodium nitrate (0.1-3 , 0) by extrusion at 100-300 ° C and 1-40 MPa for 2-160 s. (Patent RV 2203559, 2003).

The disadvantage of this method is the small compression, heating and time of advancement of the feedstock in the gap between the wall of the press extruder and the channel of the working body of the extruder-worm, leading to incomplete hydrolysis of collagen of chromium waste and reducing the nutritional value of the final feed additive. The proposed ranges of temperature (100-300 ° C), pressure (1-40 MPa) and time (2-160 s) do not lead to the hydrolysis of disulfide bonds (-SS-) of keratin protein molecules of chromium waste, therefore proteolytic enzymes of the digestive juices of ruminants unable to digest such a feed additive. The inclusion of sodium nitrate (nitrite) in the feed additive causes generalized amide toxicosis and methemoglobinuria in animals.

The objective of the present invention is to provide a method for producing a highly nutritious feed additive for ruminants based on leather waste, increasing the quality of feeding, contributing to an increase in animal productivity and a reduction in production costs.

The method is as follows: leather waste together with other ingredients of the feed additive (bare barley, red carrot, urea, bentonite) are poured into a rotary grinder in the proportions provided for by the feed additive recipe, crushed to a particle size of 5-10 mm. Then the raw material enters the 2008 R INSTO-PROZ model press extruder, which is interlocked with the grinder and has the following improved characteristics: hole size 0.6-1.2 cm, screw rotation speed - 1250 rpm, feed mixture feed rate - 1.2 t kg / h A pressure of 50 MPa is created on the feed mixture in the press extruder, and the feed mixture is heated to 400 ° C as a result of friction. In this case, urea melts and is evenly distributed in the feed mixture. The whole process of passing the feed mixture through the extruder press takes 180 s. When processing feed mixtures in this way, two continuous processes proceed: 1 - mechanical and physico-chemical deformation; 2 - “explosion” of the product. The latter is due to the rapid movement of the feed mixture from the high pressure zone in the press extruder to the external atmospheric region. As a result of this “explosion”, a homogeneous feed mass swells and a product of microporous structure is formed. Due to the gelatinization of starch, the destruction of cellulose lignization of new formations, the feed value of the initial feed mixture is significantly improved. With a slight decrease in the amount of starch (by 12%), the amount of dextrins needed by the body (6-7 times) and sugars (by 17%) increases very significantly. In this case, pathogenic microflora and mold fungi are completely destroyed. In addition, the “explosion” effect destroys polypeptide (-SS-) bonds of skin waste keratin protein that is difficult to hydrolyze by proteolytic enzymes, barley starch cells and red carrots, and urea melted during extrusion penetrates inside starch grains, keratin protein molecules, making them more nutritious and digestible by ruminants. The feed additive leaves the press extruder in the form of a porous tow with a smooth surface, with a pleasant taste and smell. The tourniquet at the exit of the press extruder is crushed by single-blade fan into granules with a length of 1.5-3.0 cm and a diameter of 0.6-1.2 cm. Next, the finished granules are transported by pneumatic conveyor to a hopper for storage, weighing and packaging in bags.

The second object of the invention is a feed additive for ruminants based on leather waste, characterized in that it is obtained in accordance with the method according to claim 1 and contains the following composition and nutrition (%): leather waste - 20.0; bare barley - 45.0; red carrots - 5.0; urea - 20.0; bentonite - 10.0. 1 kg contains: feed units - 0.99; digestible protein - 320 g; calcium - 27.5 g; phosphorus - 13.2 g; starch - 205 g; sugar - 21 g; carotene - 50.0 mg. Preservation - 5 months.

The resulting feed additive based on leather waste (KDKO) was significantly improved in composition and nutrition. This happened due to the additionally introduced feed components: holozerny barley, red carrots, urea, bentonite. Characterization of the ingredients of the FDC is given below.

Leather waste. These are by-products obtained at meat processing plants, tanneries and organizations of recyclables. These include: mezdra-shavings, chiseled chrome, subcutaneous and hard leathers, chrome trimmings, small and medium flaps, paws, loboshes, etc. They contain up to 90% protein, 65% dry matter, 3% fat, 10% ash. The main substance that is part of the leather waste is the digestible protein keratin with a complete set of all the essential amino acids. To increase the digestibility of keratin, tanning wastes are subjected to hydrolysis in hydraulic boilers under high pressure, temperature, with simultaneous exposure to alkalis, acids, enzymes and other chemicals. These methods require a large consumption of expensive chemicals, enzymes, electricity, water. The methods are lengthy, multi-stage, include a large number of equipment, maintenance personnel with special clearance.

Golozerny barley. It is introduced into the feed mixture as high-energy (1.2 k. Units per 1 kg) protein top dressing (143 g of protein per 1 kg) and a high-starchy culture (565 g of starch in 1 kg). Compared with ordinary film barley, in the grain of bare-grain barley, protein is 26.5% more, starch 16.4% more digestible by their body, 5-7% higher. The latter is explained by the fact that there is very little fiber in 10 grams of fiber in barley barley (10 grams of fiber per kg), while 4.9 times more in film barley (49 grams of fiber per kg). The more indigestible fiber is contained in the feed product, the worse its organic matter is digested and the lower its energy value. Qualitative indicators of the amino acid nutrition of bare barley are significantly higher than film barley. The excess in methionine is 38.9%, lysine - 47.7%, arginine, cystine - 28.0%, proleucine and leucine - 42.8%. The amount of amino acids in bare barley is 52.4% higher than in film barley. The starch of barley barley gelatinizes at the time of extrusion with urea, which will help to slow the excessive decomposition of urea in the rumen to ammonia. Gelatinization guarantees the safety of urea and increases the protein nutritional value of the feed mixture by 2.5 times in comparison with separate feeding.

Red carrot. Valuable starchy (7 g / kg), sugar (35 g / kg) and carotene feed (250 mg / kg). It is introduced into the feed additive to improve the extrusion process and enrich the feed mixture with starch, sugar, carotene. In the process of heat treatment in a press extruder, the availability of carotene for an animal organism increases from 5 to 60%. In this case, two molecules of vitamin A are formed from each molecule of carotene.

Urea (CO (NH ₂ ) ₂ , a protein substitute in ruminant diets, has a preferably brackish taste for animals. Urea contains 44-46% nitrogen, 1 g of urea is equivalent to 2.6 g of digestible protein. When purely ruminated, urea is quickly hydrolyzed in rumen to ammonia and leads to poisoning of animals.After extrusion with starchy feeds (glazerny barley, red carrots), slowly hydrolyzed keratin (leather waste), the decomposition of urea in the rumen to ammonia is slowed down. its use in animal feeding. It is introduced into the feed in order to increase its protein nutrition. During the extrusion process, which is accompanied by an increase in temperature (up to 400 ° C) and a pressure drop (from 50 MPa to 0 MPa), urea breaks down the indigestible protein molecules of keratin of leather waste into easily digestible and easily digestible polypeptides, peptides and amino acids.

Bentonite is a natural mineral with a high binder, structure-forming, adsorption, cation-exchange, moisture-absorbing ability and pronounced viscosity, dispersion, swelling. The feed additive includes bentonite of the Khakasskoye deposit “10th Khutor”, belonging to the montmorillonite type. Bentonite has unique feed properties: moisture-absorbing, adsorption, catalytic, detoxification and prolonging. During the extrusion process, it promotes the gelatinization of starch, the better passage of the feed mixture through a press extruder, binds urea, which prevents its rapid hydrolysis in the rumen of ruminants, ensures the gradual flow of urea ammonia into the blood, thereby improving the absorption of urea nitrogen and preventing animal poisoning. Prevents the destruction of finished granules, provides a longer storage. Its chemical composition is represented by the following basic mineral elements (%): Al ₂ O ₃ - 17; SiO ₂ - 52; CaO - 6; F ₂ O ₃ - 9; K ₂ O - 1; Na ₂ O - 5; P ₂ O ₅ - 1.1; MgO - 3; S is 1.4. It is introduced into the feed additive to bind the excess moisture, gelatinization of starch, barley barley, red carrots, while acting as a plasticizer, ensuring the advancement of the feed mixture through a press extruder. It enriches the feed mixture with useful minerals: ferrous iron, calcium, sodium, phosphorus, magnesium, sulfur.

EXAMPLE. A comparative study of the methods for producing a feed additive for ruminants based on leather waste was carried out in the State Enterprise OPKh Solyanskoye, OPKh Kazachinskoye, and maral farms LLC Rus in the Krasnoyarsk Territory. The finished feed product was fed to cows, sheep, antler deer stags. In ruminants of the control (prototype) group, 5% of the grain mixture of the main diet (OR) was replaced with the well-known chrome leather waste feed additive (KDOK), and in experimental groups of 5% grain mixture, it was replaced with a new leather waste feed additive (KDKO) with the formula and the nutritional value indicated in table 1. In comparison with the prototype, the new feed additive (FDC) was significantly preferable in nutritional quality and for ruminants. It contained 59.7% more feed units, 93.9% of digestible protein, 1.4 times of phosphorus, 205 times of starch, 21 times of sugar, 50 times of carotene, with 3 months longer shelf life and cost 1 t is 6.2 thousand rubles (1.6 times) lower.

The test results of the prototype and new feed additives for ruminants of different species are shown in table 2.

The experimental data showed that the cows of the experimental group fed with FDTC had the best digestibility of the diet (by 9.8%), increased milk yield (by 12.1%) and lower cost of milk produced (by 6.1%). Experienced fattening sheep showed higher rates compared to counterparts in the control group: in terms of digestibility of the diet (by 7.3%), in terms of increase in live weight (by 11.7%), the cost of increase in live weight was lower (by 11.9 %). Antler deer stag of the experimental group had a higher mass of antlers (by 7.6%) than in control and lower production costs (by 24.1%).

Table 1 Composition and nutritional value of prototype and new feed additives Feed supplement Indicator prototype new (KHOKhK) (FTCO) Component (wt.%): leather waste 97 twenty barley barley - 45 red carrots - 5 urea - twenty bentonite - 10 sodium nitrate 3 - 1 kg contains: feed units 0.62 0.99 digestible protein, g 165 320 calcium g 13,2 27.5 phosphorus, g 17.1 23,2 starch, g - 205 sugar, g - 21 carotene, mg - 50,0 Preservation, months 2 5 Cost of 1 ton, thousand rubles. 16.3 10.1

table 2 Test results of a prototype (control group) and a new (experimental group) feed additive for ruminants Group Indicator control (OR + 5% KDOKhK) experienced (OR + 5% KDKO) Cows Number of animals 10 10 Digestibility of the organic matter of the diet,% 64,4 74,2 The average daily milk yield, kg 14.8 16.6 Cost of 1 centner of milk, rub. 870 820 Fattening Sheep Number of animals 17 17 Digestibility of the organic matter of the diet,% 62,4 69.7 The average daily gain in live weight, g 539 602 The cost of 1 kg of gain in live weight, rubles. 52.8 47.2 Antler deer stag Number of Stags fifty fifty The mass of antlers with 1 stag, kg 6.6 7.1 Cost of 1 kg of antlers, rub. 4850 3909

Claims (2)

1. A method of obtaining a feed additive for ruminants based on leather waste, characterized in that it involves grinding the ingredients of the feed additive, including leather waste, to a particle size of 5-10 mm and extruding the resulting feed mixture at a temperature of 400 ° C and a pressure of 50 MPa 180 s 2. A feed additive for ruminants based on leather waste, characterized in that it is obtained by the method according to claim 1 and made from the following starting components, wt.%:
leather waste 20,0 barley barley 45.0 red carrots 5,0 urea 20,0 bentonite 10.0 while 1 kg contains: feed units 0.99 digestible protein, g 320,0 calcium g 27.5 phosphorus, g 13,2 starch, g 205.0 sugar, g 21.0 carotene, mg 50,0