RU2813897C1 - Method for production of liquid feed mixtures enriched with carotene - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture. Invention discloses a method of producing carotene-enriched liquid fodder mixtures, according to which wood wastes are milled, mixed with grain, milled, heated and fermented with a polyenzyme, and the finished product is obtained. Milled coniferous boughs is additionally used. Barley grains are used as grains.

EFFECT: invention ensures production of a product having high nutritional value, having biological activity and increased digestibility.

4 cl, 1 tbl

Description

The invention relates to agriculture and can be used in the preparation of liquid grain feed mixtures with a high content of easily digestible sugars, digestible protein and carotene, mainly for cattle.

There is a known method for producing products from fir greenery, which consists in crushing the greenery, distilling it off with steam, pouring a reagent, maintaining it at a temperature of 30-60°C, filtering, cooling and settling [1]. This method is intended primarily for the production of chlorophyll-carotene paste and vitamin flour.

There is a known method for producing feed products from coniferous greenery, characterized by the fact that waste wood and woody greenery are crushed together, divided into fractions, the resulting pine mixture is subjected to vapor-liquid extraction, heated, an enzyme-yeast component is introduced, kept, the fractions are partially mixed at the final stage , and then dried or granulated [2].

This method is a complex and multi-stage process of complex closed processing of greenery and wood waste obtained from felling trees into feed products. The method ensures a reduction in the consumption of raw materials, while maximizing the preservation of nutritional and vitamin compounds in it.

There is also a known method for producing granulated feed, which consists in the fact that wood waste is crushed, treated with preparations, heated, kept, dried, mixed and simultaneously crushed with grain materials and granulated [3].

This method is intended for obtaining complete feed from raw materials with high (wood waste 60-80%) and low (grain 20-30%) content of crude fiber by weight, therefore it is accompanied by the complexity and energy intensity of the process, since after grinding the wood waste the resulting material is sorted mass into sawdust and greens, their separate treatment with preparations, saturated water steam at a temperature of 160-220°C, and then drying before mixing with grain at a temperature of 90-100°C and granulation.

The closest in technical essence is the method of preparing extruded roughage feed for farm animals, which consists in grinding wood waste and mixing it with grain, loading the resulting components into a technological container, additionally grinding, heating, fermenting with polyenzymes, holding and unloading the finished product [ 4].

This method allows you to obtain roughage with improved quality characteristics. This technology makes it possible to reduce the cost of feed due to the high proportion of processed wood waste in the extruded roughage. To obtain feed, an initial mixture containing 70-80% wood waste and 20-30% grain is used, which requires significant energy expenditure and the use of special equipment: fermentation is carried out at a temperature of 50-55°C, the mixture is subjected to mechanical activation in a disintegrator, extrusion occurs at temperature 110-160°C and pressure 40-80 atm.

The purpose of the present invention is to develop a relatively simple method for producing carotene-enriched liquid feed mixtures consisting of water, grain material, wood waste and pine foot.

This goal is achieved by the fact that in the proposed method, wood waste and pine foots are first crushed, and the technological container is filled with the required volume of water. Set the three-way valve to the position for circulation in a closed circuit, turn on the pump, heat the water to a temperature of 30...40°C due to circulation. Then crushed wood waste, crushed pine foot are mixed with polyenzyme and grain in appropriate proportions. The resulting mixture of components is loaded into a technological container with water heated and circulating in a closed circuit. The components are further ground, their concentration in the volume of water is equalized and the temperature of the prepared mixture is brought to 58...60°C, and then the pump is turned off and the mixture is kept in the technological container for 1.0...1.5 hours. After this, the three-way valve is switched to unloading the finished product. product and turn on the pump.

The use of a three-way valve in the method allows one technical means to control the technological process. The use of wood flour in the method enriches the prepared feed mixture with fiber and fat, and the use of pine foot with carotene and fiber. Pine needles are a cheaper source of carotene than hay, carrots, and grass meal. In terms of a number of indicators of biological nutritional value, it is superior to the green mass of herbs, and spruce needles are close in composition to hay. The needles contain carotene, chlorophyll, xanthophyll, vitamins C, B2, K, E, R. Pine and spruce needles contain iron, manganese, copper, zinc, cobalt, potassium, sodium, calcium, etc., as well as resinous substances, essential oils and phytoncides that have a bacteriostatic effect on the intestinal microflora. The digestibility of organic matter of natural pine needles ranges from 33 to 80%, which characterizes it as a highly nutritious and easily digestible product.

The polyenzyme in the method breaks down high-molecular compounds of the mixture components into low-molecular compounds, which facilitates their absorption by the animal body.

Grinding wood waste, pine blades and grain material in the method increases their contact area with the polyenzyme, thereby accelerating the metabolic process, causing chemical changes in organic components under its action.

Setting the three-way valve to the position for circulation in a closed loop and turning on the pump ensures gradual uniform heating of water first to a temperature of 30...40°C, and then mixing the mixture of components with water and heating them together to 58...60°C. In this case, additional grinding of the incoming components occurs, homogenization and equalization of their concentration in the volume of the mixture.

Smooth heating of the mixture of components from a temperature of 30...40°C to 58...60°C due to circulation in a closed loop contributes to a constant increase in reactivity associated with an increase in the phase contact surface, as well as energy saturation of the state of the components, facilitating the entry and occurrence of chemical processes.

Turning off the pump when the temperature of the mixture of components with water reaches 58...60°C, in principle, eliminates overheating of the components, preventing the destruction of biologically active substances, including carotene. Keeping the mixture in a technological container for 1.0...1.5 hours guarantees high-quality and complete completion of the fermentation process of the feed mixture.

The use of devices in the method (chip cutter and deck crusher with an end sieve) together ensures a reduction in energy costs for obtaining a high-quality granulometric composition of the feedstock (size less than 1.2 mm) by two-stage grinding of wood waste and pine blades.

Barley grains have the highest strength of grain crops. In order to obtain a high-quality grain component before mixing and reduce energy costs, barley grain is pre-crushed using specialized equipment, for example, a deck crusher with an end sieve. This allows you to achieve the desired mechanical composition and an overall reduction in energy costs when preparing the feed mixture. Other grain crops, for example, rye grains, are crushed in the process of repeated circulation in a closed circle (technological container-pump-three-way tap-technological container).

Grain infected with pests and (or) dangerous bacteria, as well as mold, is treated with steam and kept in an air conditioner for up to 240 s before mixing with crushed wood waste, pine foot and polyenzyme. These operations will ensure complete disinfection of the grain component and guarantee the safety of using the resulting product for feed purposes.

Thus, the set of essential features is new, meets the criterion of “inventive step” and ensures the achievement of a technical result: a simple and sufficiently effective method for producing carotene-enriched liquid feed mixtures consisting of water, grain material, wood waste and pine foots.

The proposed method is characterized by the following sequence of operations. The initial components are prepared in the required volumes in separate containers (hoppers). To do this, wood waste and pine foot are sequentially crushed in two stages: first with a wood chipper, and then with a deck crusher with an end sieve to a size of less than 1.2 mm. Grain infected with pests and (or) dangerous bacteria, as well as mold, is pre-treated with steam and kept in an air conditioner for up to 240 s. When barley grains are used in the feed diet, the latter are crushed using a deck crusher with an end sieve.

The technological container is filled with the required volume of water, and the three-way valve is set to the position for circulation in a closed loop. Turn on the pump and heat the water to a temperature of 30...40°C due to circulation. Mix crushed wood waste, crushed pine foot with grain and polyenzyme in appropriate proportions, for example, with a screw mixer. When the water temperature reaches 30...40°C, the mixture of components is loaded into a technological container with circulating heated water. The components are further ground, their concentration in the volume of water is equalized and the temperature of the mixture is brought to 58...60°C due to the continued circulation of the mixture of components with water in a closed circuit. Turn off the pump when the temperature reaches 58...60°C. Maintain the mixture in the technological container for 1.0...1.5 hours until the fermentation process is completely completed, and then switch the three-way valve to unload the finished product and turn on the pump.

The table shows the results of the analysis of the nutritional value of three feed mixtures obtained in accordance with the proposed method

Table - Initial composition and nutritional value of the prepared feed mixture Compound Initial components, chemical composition and nutritional value of feed in an air-dry state Rye grains, % 34 32 33 Wood flour, % 0 2 0 Coniferous foot, % 0 0 1 Water and polyenzyme, % 66 66 66 Moisture, % 67.21 72.53 72.02 Protein, % 7.13 7.0 7.0 Fat, % 1.0 1.10 1.0 Cellulose, % 2.1 7.30 3.0 Sugar, g/kg 513.0 446.0 348.0 Ash,% 2.1 2.0 2.2 Calcium, g/kg 0.6 0.6 0.7 Phosphorus, g/kg 2.8 2.4 2.5 EKE, kg 0.79 0.79 0.79 OE, MJ 9.26 9.19 9.21 Transl. protein, g/kg 53.0 52.0 52.0 Carotene, mg/kg 0 0 7.0 Starch, g/kg 42.0 46.0 74.0

In all three feed mixtures, water and polyenzyme made up 66%. The total composition of the remaining initial components (rye grain, wood flour, crushed pine foot) was 34%. This combination of components makes it possible to isolate the effect of separately wood flour and crushed pine foot on the nutritional value of the prepared liquid feed mixture in comparison with a composition based only on water, enzyme and rye grain.

Replacing the proportion of rye grain (2%) with wood flour or (1%) crushed pine foot had virtually no effect on the energy value of animal feed (energy feed unit EKE = 0.79 kg; respectively, metabolic energy OE = 9.26; 9 ,19: 9.21 MJ), and also did not change the protein nutritional value of crude and digestible protein. The use of crushed pine foot and especially (more than 3 times) wood flour led to an increase in fiber content in the feed. The use of wood flour and to a greater extent (almost 2 times) crushed pine foot increased the starch content, which to some extent explains the decrease in sugar content in the prepared mixture. As expected, as a result, the introduction of crushed pine foot into the mixture led to the appearance of a significant amount (7 mg/kg) of carotene. In addition, the smell of pine needles will have a beneficial effect on the microclimate of the room, a kind of disinfectant, increase resistance to stress and protect against infections, and the taste will improve the palatability of food.

Thus, the results of a study of the chemical composition and nutritional value of liquid feed mixtures convincingly confirm the performance and effectiveness of the proposed method for producing carotene-enriched liquid feed mixtures

Literature

1. A.S.. 1375226 USSR, IPC A 23 K 1/00. Method for producing products from fir greenery / Yu S.M. Burrs; ON THE. Chuprova; N.D. Barabash; G.V. Tikhomirov; V.G. Nolik; O.S. Apartsev (RF). No. 3833094/30-15: Announced 12/28/1984: Published 02/23/1988.

2. Pat. 2032359 RF, IPC A 01 K 1/12. Method for producing feed products from coniferous green trees / A.T. Diordiychuk; V.G. Kharchenko (RF). - No. 92011739/15: Declared 12/14/1992: Published 04/10/1995.

3. Pat. No. 2673753 RF, IPC A 23 K 50/10. Complete feed for cattle and its method / D.B. Prosvirnikov; I.R. Akhmetshin; V.A. Saldaev; S.R. Zakirov; D.Sh. Gainullina (RF).- No. 201115755: Declared 05/04/2017: Published 11/29/2018.

4. Pat. No. 2509476 RF, IPC A 23 K 1/00. Method for preparing extruded roughage feed for farm animals / F.P. Abramov; R.R. Mukhamedshin; V.G. Sofronov; N.I. Danilova; E.I. Yamaev; N.M. Shamilov. (RF).- No. 2012112176/13: Declared 03/29/2012: Published 10/10/2013.

Claims (4)

1. A method for producing carotene-enriched liquid feed mixtures, which consists in grinding wood waste, mixing it with grain and loading the resulting components into a technological container, additionally grinding, heating and fermenting with a polyenzyme, storing and unloading the finished product, characterized in that the pine foot is additionally crushed, the technological container is filled with water, the three-way valve is set to the position for circulation in a closed circuit, the pump is turned on, the water is heated to a temperature of 30...40°C due to circulation, the crushed wood waste, the crushed pine foot are mixed with grain and polyenzyme, load the mixture of components into a technological container with circulating heated water, grind the components further, equalize their concentration in the volume of water and bring the temperature of the mixture to 58...60°C, turn off the pump, keep the mixture in the technological container for 1.0...1.5 hours, then switch the three-way valve to unload the finished product and turn on the pump. 2. The method according to claim 1, characterized in that wood waste and pine foot are sequentially crushed first with a wood chipper and then with a deck crusher with an end sieve to a size of less than 1.2 mm. 3. Method according to paragraphs. 1, 2, characterized in that barley grain is used as grain, which is first crushed by a deck crusher with an end sieve, and then mixed with crushed wood waste, pine foot and enzyme. 4. Method according to paragraphs. 1, 2, characterized in that grain infected with pests and (or) dangerous bacteria, as well as mold, is pre-treated with steam and kept in an air conditioner for up to 240 s.