SU1711787A1 - Method for production of carbohydrate-mineral food addition - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to agriculture and relates to the production of fodder using pulp and paper production waste. In order to increase the nutritional value of the feed by reducing the content of toxic substances, it is proposed to neutralize spent sulfite liquids. - 360 ° C, and at the output 90-95 ° C and the duration of contact of the evaporated product with the coolant 10-20 s. The invention makes it possible to obtain a valuable product and create an environmentally friendly production. The use of carbohydrate-mineral supplements reduces the cost, increase in live weight of farm animals by 4-11%. 1 tab.

Description

The invention relates to agriculture and can be used in the production of feed for farm animals using pulp and paper waste.

The purpose of the invention is to increase the nutritional value of food by reducing the content of toxic substances and improving its technological characteristics.

Note e, p 1. Spent sulfite liquor after stripping, having the following characteristics: pH 3.0; content,%: solids 1.76, reducing substances (PB) 2.8. volatile acids (LK) 1.68, neutralized with lime milk to a pH of 6.9., Neutralized liquor is evaporated in a 5 - case battery to a dry matter concentration of 28.0%. Drying of the evaporated product is carried out in a Niro-Atomizator spray dryer, the heat medium entering the dryer being 320 ° C, the heat medium leaving the dryer 95 ° C, and the contact time of the evaporated product with the heat carrier was 20 seconds. A carbohydrate-mineral additive (DMD-1) is obtained with the quality indicators presented in the table.

PRI mme R 2. Waste sulfite liquor after Stripping, having the following characteristics: pH 2.1; content,%: solids 9.5, mineral substances 1.57, PB 2.08, LK 1.50, neutralized with ammonia water to 3.5 and evaporated to a solids content of 25%. The pH of the liquor after evaporation was 3.7. One stripped off liquor is re-neutralized with ammonia water to a pH of 8.2 and then dried

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in the spray dryer with the following parameters; the temperature of the coolant at the entrance to the dryer is 360 ° С, at the exit of the dryer is 90 ° С, the duration of contact of the evaporated product with the heat carrier is 10 s. A carbohydrate-mineral additive (UMD-2) is obtained with the quality indicators presented in the table.

Example The spent sulphite liquor after stripping, having the characteristics as in Example 1, is neutralized with caustic soda to a pH of 5.5 and evaporated to a solids content of 30.0%. One stripped off the product is dried in a spray dryer with the following process parameters: the temperature of the coolant at the entrance to the dryer is 300 ° C, the output of 92.5 ° C, the duration of contact of the evaporated product with the coolant 12c. A carbohydrate-mineral additive (UMD-3) is obtained with the quality indicators presented in the table.

The zootechnical characteristics of a powdered DMD were determined in experiments on various species of animals.

The experiment was conducted on 2 experimental groups of black-and-white breeding bulls 10 heads each, the mass of bulls at the beginning of the experiment was 240 kg. The animals in the diet fed powdered UMD-1. The ration included feed, in which 10 or 15% of grain was replaced by UMD-1. In the control, the animals were given the usual feed with grain waste. The experiment lasted for 6 months. The average daily weight gain at the end of the experiment in the 1st test group was 835 g; in the 2nd 828 g, in the control 796 g. The cost price of the unit of increase in live weight by bulls groups was 96.98.4, respectively, 100%, i.e. in experienced groups it is somewhat lower. The formation of rations with a dry additive, the possibility of their mechanized distribution, and eating were characterized by high efficiency.

UMD-2 powder was fed to rams in the composition of hay-concentrate diet in an amount of 0.8 and 1 g / kg of live weight of animals. Digestibility

dry matter rations in the experimental groups, respectively, amounted to 71.2 and 70.5%, in the control 70.5%, i.e. was at the level of control (where instead of adding

fed concentrate on a grain basis). The increase in live weight of rams in the experimental groups was 6-8.5% higher than in the control. The cost of feed per unit of weight gain tends to

decrease when giving dry UMD-2.

Powdered UMD-3 was fed to the pig. In the mixed feeds of the experimental groups, 7–15% of the grain part was replaced with dry UDM-3. The experience went on-i

with for 120 days. The average daily increase in live weight was 526 g in the 1st experimental (where 7% of the grain was replaced by UMD-3), 560 in the 2nd experimental (the grain was replaced by 12%), and 15% in the 3rd experimental (grain was replaced ) 530 g

in control 520 g

The unit cost of the increase in live weight in the experimental groups was 4-11% lower than in the control. The inclusion of 7-12% dry UMD in the feed for fattening of gilt allowed to reduce the period of their fattening by 5-18 days compared to the control fattening on the usual feed ration. No abnormalities in the physiological state of the animals when feeding dry UMD compared with the control were not found. The quality of meat according to the results of tasting among the experimental groups was higher (average score 4.7-5.0 versus 4.5-4.6 in the experimental group).

Claims (1)

The invention of the method of obtaining carbohydrate-mineral feed additives by neutralizing the sulfite liquor cellulose production, followed by evaporation, characterized in that, in order to increase the nutritional value of the feed by reducing the content of toxic substances, sulphite liquor is neutralized to pH 5.5-8.2, evaporated to a final solids concentration of 25-30% and, after evaporation, dried in an apparatus for 10-20 seconds at the inlet at 300-360 ° C and at the output up to 90-95 ° C.