RU2819321C1 - Method of producing a milk-and-vegetable fodder additive - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture, namely to production of a fodder additive for use in rations of farm animals and poultry. Method of producing a milk-and-vegetable fodder additive involves mixing fresh or reconstituted milk whey and secondary vegetal raw materials. Dry beet pulp is mixed with milk whey at ratio of 1:15. Mixture is held at temperature of 40 °C for 4 hours and cooled to temperature of 25 °C. Then pectinolytic enzyme Lallzyme C-Max is added at rate of 5 g per 1 ton of the mixture and dry yeast Saccharomyces cerevisiae in amount of 0.1 % of the mixture weight, and fermented for 24 hours with periodic stirring. Value of Ph=6.0–6.5 is set in the mixture by adding ammonium hydroxide. NOLA® Fit lactase enzyme is added to the prepared mixture in amount of 0.1 % of the mixture weight. Finished mixture is held at temperature of 30 °C for 12 hours, pasteurized, cooled and delivered for packing.

EFFECT: invention usage will make it possible to produce bifidogenic fodder additive with increased nutritional value and high functional value.

1 cl, 3 tbl, 5 ex

Description

The invention relates to agriculture, namely feed production, mainly to a method for producing feed additives for birds and farm animals, and can be used on farms and complexes for raising birds and farm animals.

There is a known method for preparing a biologically active feed additive for farm animals, birds and fish. During the production process, separate deep cultivation of Bacillus subtilis strains is carried out to obtain liquid cultures. Solid-phase fermentation of liquid cultures is carried out and applied to a previously prepared carrier for solid-phase fermentation - sterile beet pulp treated with cellulolytic enzyme and enriched with fermentolysate of feed yeast Saccharomyces cerevisiae. The invention improves the productivity of animals, birds and fish, increases the safety of livestock, enhances metabolic processes in the body and prevents mycotoxication of animals [RU 2477614 C1 A23K 1/16 (2006.01), A23K 1/14 (2006.01), 03/20/2013].

The disadvantage of this method is the excessive complexity and duration of the technological process.

There is a method for producing feed additives from plant raw materials, including its maceration and extraction in cavitation-type devices, characterized in that fresh or dried amaranth phytomass is used as plant raw materials, and extraction is carried out by sequential chemical treatment of raw materials macerated for 2-4 hours with hydrolyzing agents. agents in rotary-pulsation devices at a rotor speed of 3000-4500 min-1 under conditions of mechanical-acoustic influence on the treated feed mixture at a hydromodulus of 1:5-15 (for dry phytomass) and 1:0.5-5 (for fresh phytomass), for 0.5-6 minutes at each stage of processing at 25-50°C [RU 2168908 C2 A23K 1/12 (2000.01), 06.20.2001].

The disadvantage of this method is the complexity of the technological process and the need for special equipment.

The closest solution (prototype) is a method for producing a dairy-vegetable feed additive, which includes mixing fresh whey, pumpkin cakes, table salt, powdered bischofite at a ratio of 1:4.0-4.5:0.06:0.12. The method is aimed at solving the problem of reducing energy consumption and improving the quality of the additive [RU 2363238 C1 A23K 1/08 (2006.01), 08/10/2009].

The disadvantage of this method is the complexity of the technological process, the high acidity of the mixture and the possibility of acidosis when feeding it, as well as the fact that with daily and too long use of bischofite, tissue irritation and allergic reactions are possible.

The objective of the invention is to develop a simple and affordable method for producing a bifidogenic prebiotic feed additive intended to increase productivity and prevent infectious diseases of the gastrointestinal tract of agricultural animals.

The problem is solved due to the fact that dry beet pulp is used as a secondary plant raw material, which is mixed with whey, a complex of pectinolytic enzymes and dry yeast are added, kept at a given temperature, and after fermentation the mixture is set to pH = 6.0-6, 5 and add lactase enzyme Fit.

The technical result of using the method is that the method makes it possible to obtain a bifidogenic feed additive of increased nutritional value and high functional value, while the method is accessible and easy to implement.

The essence of the invention is that fresh or reconstituted curd whey is purified, pasteurized by any known method, cooled to 40°C and mixed with dry beet pulp in a ratio of 15:1. The mixture is kept to allow the beet pulp to swell for 4 hours, stirring occasionally. Then it is cooled to 25°C, the pectinolytic enzyme Lallzyme C-Max is added at the rate of 5 g per 1 ton of the mixture and 0.1% by weight of the dry yeast product Saccharomyces cerevisiae. The resulting mixture is thoroughly mixed for 10-15 minutes and left in the presence of air and the specified temperature for 24 hours to hydrolyze the pectin, with periodic stirring for 10-15 minutes every 2 hours. After the hydrolysis time has passed, pH = 6.0-6.5 is set in the mixture by introducing ammonium hydroxide and lactase enzyme is added to 0.1% by weight of the mixture Fit. After which the mixture is stirred again for 10-15 minutes and kept at a temperature of 30°C for 12 hours with periodic stirring for 10-15 minutes every 2 hours. The finished product is pasteurized at a temperature of 85-90°C for 10 minutes to inactivate the enzymes.

In this case, each stage of processing is carried out in the same container. As a result of this processing, a total product is obtained that can be used as a feed additive in the form of a mixture, and it is also possible to separate it into liquid and solid fractions and use them separately. The result is a feed additive enriched with nutritional components of a certain composition. The total product includes proteins, pectin, pectin oligosaccharides, monosaccharides and is a feed additive of increased nutritional value.

The technological solution of the claimed method is aimed at the step-by-step production of a complex of galactose-containing prebiotics pectin oligosaccharides by hydrolysis of the natural galactose-containing polymer beet pulp pectin through the complex action of the pectinolytic commercial drug Lallzyme C-Max and enzymes of the yeast Saccharomyces cerevisiae. The use of the yeast Saccharomyces cerevisiae makes it possible to reduce the dosage of a commercial preparation of pectinolytic enzymes and enrich the feed additive with easily digestible protein. Lactase enzyme Fit allows you to reduce the lactose content in feed additives and increase the yield of yeast due to the appearance of easily digestible monosaccharides in the mixture. Whey in the described method allows you to create an optimal environment for technological processes and increase the nutritional value of the feed additive due to its composition.

Technological parameters were selected experimentally and ensure maximum efficiency in obtaining the target components.

The method for obtaining the feed additive is illustrated by the following examples of its implementation:

Example 1

Fresh or reconstituted curd whey in the amount of 935.6 kg is purified, pasteurized by any known method, cooled to 40°C and mixed with 62.4 kg of dry beet pulp. The mixture is kept to allow the beet pulp to swell for 4 hours, stirring occasionally. Then cool to 25°C, add the pectinolytic enzyme Lallzyme C-Max in the amount of 5 g and 1 kg of dry yeast Saccharomyces cerevisiae. The resulting mixture is thoroughly mixed for 10-15 minutes and left in the presence of air and the specified temperature for 24 hours to hydrolyze the pectin, with periodic stirring for 10-15 minutes every 2 hours. After the hydrolysis time has passed, pH = 6.0-6.5 is set in the mixture by introducing ammonium hydroxide and 1 kg of lactase enzyme is added Fit. After which the mixture is stirred again for 10-15 minutes and kept at a temperature of 30°C for 12 hours with periodic stirring for 10-15 minutes every 2 hours. The finished product is pasteurized at a temperature of 85-90°C for 10 minutes to inactivate the enzymes.

Example 2

Fresh or reconstituted curd whey in the amount of 925.33 kg is purified, pasteurized by any known method, cooled to 40°C and mixed with 71.17 kg of dry beet pulp. The mixture is kept to allow the beet pulp to swell for 4 hours, stirring occasionally. Then cool to 25°C, add the pectinolytic enzyme Lallzyme C-Max in the amount of 10 g and 3 kg of dry yeast Saccharomyces cerevisiae. The resulting mixture is thoroughly mixed for 10-15 minutes and left in the presence of air and the specified temperature for 24 hours to hydrolyze the pectin, with periodic stirring for 10-15 minutes every 2 hours. After the hydrolysis time has passed, pH = 6.0-6.5 is set in the mixture by introducing ammonium hydroxide and 0.5 kg of lactase enzyme is added Fit. After which the mixture is stirred again for 10-15 minutes and kept at a temperature of 30°C for 12 hours with periodic stirring for 10-15 minutes every 2 hours. The finished product is pasteurized at a temperature of 85-90°C for 10 minutes to inactivate the enzymes.

Example 3

Fresh or reconstituted curd whey in the amount of 935.6 kg is purified, pasteurized by any known method, cooled to 40°C and mixed with 62.4 kg of dry beet pulp. The mixture is kept to allow the beet pulp to swell for 4 hours, stirring occasionally. Then cool to 30°C, add the pectinolytic enzyme Lallzyme C-Max in the amount of 5 g and 1 kg of dry yeast Saccharomyces cerevisiae. The resulting mixture is thoroughly mixed for 10-15 minutes and left in the presence of air and the specified temperature for 24 hours to hydrolyze the pectin, with periodic stirring for 10-15 minutes every 2 hours. After the hydrolysis time has passed, pH = 6.0-6.5 is set in the mixture by introducing ammonium hydroxide and 1 kg of lactase enzyme is added Fit. After which the mixture is stirred again for 10-15 minutes and kept at a temperature of 35°C for 12 hours with periodic stirring for 10-15 minutes every 2 hours. The finished product is pasteurized at a temperature of 85-90°C for 10 minutes to inactivate the enzymes.

Example 4

Fresh or reconstituted curd whey in the amount of 935.6 kg is purified, pasteurized by any known method, cooled to 40°C and mixed with 62.4 kg of dry beet pulp. The mixture is kept to allow the beet pulp to swell for 4 hours, stirring occasionally. Then cool to 25°C, add the pectinolytic enzyme Lallzyme C-Max in the amount of 2.5 g and 3 kg of dry yeast Saccharomyces cerevisiae. The resulting mixture is thoroughly mixed for 10-15 minutes and left in the presence of air and the specified temperature for 24 hours to hydrolyze the pectin, with periodic stirring for 10-15 minutes every 2 hours. After the hydrolysis time has passed, pH = 6.0-6.5 is set in the mixture by introducing ammonium hydroxide and 1.5 kg of lactase enzyme is added Fit. After which the mixture is stirred again for 10-15 minutes and kept at a temperature of 25°C for 12 hours with periodic stirring for 10-15 minutes every 2 hours. The finished product is pasteurized at a temperature of 85-90°C for 10 minutes to inactivate the enzymes.

Example 5

Fresh or reconstituted curd whey in the amount of 938.36 kg is purified, pasteurized by any known method, cooled to 40°C and mixed with 58.64 kg of dry beet pulp. The mixture is kept to allow the beet pulp to swell for 4 hours, stirring occasionally. Then cool to 25°C, add the pectinolytic enzyme Lallzyme C-Max in the amount of 7.5 g and 2 kg of dry yeast Saccharomyces cerevisiae. The resulting mixture is thoroughly mixed for 10-15 minutes and left in the presence of air and the specified temperature for 24 hours to hydrolyze the pectin, with periodic stirring for 10-15 minutes every 2 hours. After the hydrolysis time has passed, pH = 6.0-6.5 is set in the mixture by introducing ammonium hydroxide and 1 kg of lactase enzyme is added Fit. After which the mixture is stirred again for 10-15 minutes and kept at a temperature of 30°C for 12 hours with periodic stirring for 10-15 minutes every 2 hours. The finished product is pasteurized at a temperature of 85-90°C for 10 minutes to inactivate the enzymes.

To determine the efficiency of the processes, samples are taken to analyze the total content of proteins, pectins and sugars in the hydrolysates. The results of the characteristics of the resulting feed additives are presented in Table 1.

The method performed according to example 1 most fully meets the task to which the technological solution is aimed.

Changes in technological parameters and quantitative ratios of components led to changes in organoleptic characteristics, unjustified consumption of components, the process of yeast development slowed down or was excessively intense, which led to excessive gas formation. The content of the target components in the feed additive decreased: pectin oligosaccharides, pectin and protein.

The resulting feed additive was tested in order to increase growth intensity, optimize homeostasis and intestinal microbiocenosis in calves. Taking into account the breed, age and live weight, using the analogue pair method, 3 groups of calves of 12 heads of the Aubrac breed, 1-1.5 months old, were formed. The first group of animals was control, 2 and 3 were experimental.

Calves of the first group were fed the main diet adopted on the farm, calves of the 2nd group received 100 grams of feed additive in addition to the main diet, and 3 groups received 200 grams of feed additive for 2 months.

The calves were kept in conditions that met veterinary and zoohygienic requirements and received an economic diet in accordance with generally accepted standards. Since the feed additive has a sweetish taste and a pleasant milky-beet aroma, it took 2 days for calves to become accustomed to this additive.

During the study, the physiological state of the animals and the increase in live weight were monitored.

It was found that the introduction of a feed additive into the diet of calves contributed to an increase in immunity in calves and their resistance to diarrhea (Table 2) and a more intensive increase in live weight (Table 3).

Since diarrhea in calves affects the willingness to eat feed and, as a result, the increase in live weight, it is necessary to prevent this disease.

Feeding calves with a feed additive had a positive effect on the physiological state and resistance of calves in the experimental groups to diarrhea. If at the beginning of the experiment all the animals were healthy, then after 30 days in the control group 1, 3 heads fell ill with diarrhea; in the calves of the 2nd and 3rd experimental groups during this period, signs of diarrhea appeared in only 1 animal and were not pronounced. After 60 years of the study period, diarrhea was found in 2 animals in group 1, in 1 animal in experimental group 2, and there were no sick animals with diarrhea in experimental group 3. This indicates that feeding the feed additive has a positive effect on the immune status of experimental animals.

The live weight of the animals in the experimental groups did not differ significantly before the start of the experiment. 1 month after using the supplement, a tendency towards higher live weight was noted in calves of groups 2 and 3 by 1.7 and 1.9%, and after 2 months a significantly significant increase in this indicator was found in animals of groups 2 and 3 by 2.4 and 3.2%, respectively, a month after the end of feeding the feed additive, a significantly higher live weight was also established in calves of groups 2 and 3 compared to the control (by 2.7 and 3.9%, respectively), with a tendency to a higher value of this indicator in animals of group 3 compared to calves of group 2 (by 1.2%, respectively).

Claims (1)

A method for producing a dairy-vegetable feed additive, including mixing whey and secondary plant raw materials, characterized in that dry beet pulp is used as a secondary plant raw material, which is mixed with whey in a ratio of 1:15, the mixture is kept at a temperature of 40 ° C in for 4 hours, cooled to a temperature of 25°C, then the pectinolytic enzyme Lallzyme C-Max is added at the rate of 5 g per 1 ton of the mixture and dry yeast Saccharomyces cerevisiae in the amount of 0.1% by weight of the mixture and fermented for 24 hours with periodic stirring , then the mixture is set to pH = 6.0-6.5 by adding ammonium hydroxide, then the lactase enzyme is added to the prepared mixture Fit in an amount of 0.1% by weight of the mixture, after which the finished mixture is kept at a temperature of 30°C for 12 hours, pasteurized, cooled and sent for packaging.