SU1713928A1 - Method of producing food yeast - Google Patents

Abstract

The invention relates to the production technology of active dry yeast and can be used in the food and microbiological industry. The purpose of the invention is to improve the quality of the product and reduce energy consumption. The method for the production of food yeast involves growing them under aeration conditions on a nutrient medium containing sources of carbon, nitrogen, phosphorus, mineral salts and trace elements, followed by release of biomass, its formation in the form of harness with simultaneous drying and followed by dehydration equilibrium water & The diameter of the formed bundles is 1.5-5.0 mm, and their drying is carried out in a stream of heated air at 65-70 ° C, the air supply rate is 2.5-3.0 m / s for 5-7 min Dehydration is carried out in two stages; the first stage (o is carried out at an air temperature of 34-40 ° C at a flow rate of 1.6-1.8 m / s for 50-70 minutes with simultaneous grinding and granulation, and the second at a temperature of 32- ^ 35 ° C, the flow rate 1.2-1.5 m / s for 15-25 minutes. During the dewatering process, the conditioned product is separated from the obtained product and cooled by supplying a counter-flow of air. The remaining unconditioned fraction is grown in the flow of heat-transfer agent at 50-65. 0, the flow rate is 1.3-1.5 m / s for 1p-2Q min by spraying the culture liquid at a ratio of liquid and the solid phase of 1: 1-1:. 2.5 Table 3, 1-yl..

Description

FIELD: technology.

production of active dry yeast and

can be used in enterprises

food and microbiological industry.

The purpose of the invention is to improve the quality of the product and reduce energy consumption.

The supplied chain is achieved by the fact that in the method of producing edible yeast, which involves growing them under aeration conditions on a nutrient medium containing sources of carbon and nitrogen.

phosphorus, mineral salts and microelements, followed by release of biomass and its dehydration by passing heated air through the h layer; asters, before dehydration, the biomass is formed as harness Dimeter 1.5-5.0 mM while drying in a stream of heated air at 65- 70 ° C. air supply speeds of 2.5-3.0 m / s for 5-7 minutes. The dehydration is carried out in two stages: the first stage is carried out at an air temperature of 34-40 ° C. flow rates

1.6-1.8 m / s for 50-70 minutes with simultaneous grinding and granulation, and the second at 32-35 ° C, flow rates of 1.2-1.5 m / s for 15-25 minutes. after which the conditioned fraction is separated and cooled by supplying a counter-flow of air, and the non-conventional fraction is grown in the coolant flow at 5065 ° C, the flow rate is 1.3-1.5 m / s for 10-20 minutes by spraying the culture fluid in the ratio of liquid and solid az 1: 1-1: 2.5.

The method for the production of edible dry yeast active yeast) includes the following stages: the cultivation of biomass: the selection of the culture fluid in the solution of the culture; separation of the obtained culture liquid (suspension) into the spent culture liquid and biog / faccy; biomass molding and drying; grinding

biomass and pelleting; product dehydration; the selection of the conditioned fraction; rearing small substandard fraction while dehydrating; . The modes given are optimized for obtaining high quality dry food yeast. .

Thus, the temperature of 65-70 ° C contributes to the rapid heating of the inner layers of the granules, and the presence of a heat carrier flow at a speed of 2.5-3.0 m / s ensures drying from (| reinforced biomass harness, eliminates their sticking (formation of their lumps) and allows to grind to the size of granules close to the set (conditioned), while reducing the amount of fine fraction (dust). At a temperature above and a speed higher than 3.0 m / s, a dense crust with high diffusion resistance is formed on the surface of the tows and granules, which increases time of heat treatment of the product and leads to overheating of the surface layer and a decrease in the quality of the product (yeast lift). At a temperature below 65 ° C, the drying time v, as a result, adhesion of the cords and lumping, is significantly increased. Subsequent decrease in temperature to 35-40 ° C at a flow rate of 1.6-1.8 m / s, it ensures uniform moisture removal from the product granules, eliminates its local overheating and at the same time reduces the dehydration time. During the first stage of drying, most of the moisture is removed from the product, the binders are concentrated on the surface of the particles constituting the granules, thereby fixing the existing interparticle fluid bonds and converting them into hardened bridging contact clots. At these temperatures and air velocities, concentration gradients and temperatures in the granules level off, moisture movement in

fluid form from the central layers to the periphery does not occur. Moisture from all layers is removed by steam. In addition, with such a parity of moisture transfer gradients, there is no reason to fear granule rupture, since

the particle folding structure in the granule is almost unchanged.

In the process of molding and dewatering, a product that is conditional on the grain size distribution is obtained. AT

processes, the formation of a small amount (7-12%) of small non-commodity fraction. When it enters the target product, its quality and consumer properties deteriorate. Therefore, after

the second stage of dehydration, the dried product is separated into a conditioned and fine fraction. To do this, the secondary air stream at a speed of 4.5-6.0 m / s enters the discharge opening and

temperature of 20-25 ° C. At the same time, the large granules due to their own weight fall, simultaneously cooling, and the small fractions go to the granulation stage. Granulation of fine fractions is carried out by dispersing the culture fluid in a fluidized bed at a heat carrier temperature of 50-65 ° C and its speed of 1.3-1.5 m / s for 10-20 minutes at a ratio of liquid and solid phases

(1: t) - (1: 2.5),

PRI me R 1. A sample containing 400 g of biomass, served in a forming unit with a hole diameter of 1-6 mm. The molded mass is blown by the flow of coolant

in the temperature range of 60-75 C at a speed of 2.0-3.5 m / s for 3-10 minutes. Dried harnesses arrive at the first stage of drying (dehydration), where the harnesses are crushed, pelleted and compacted.

granules, as well as their dehydration with the following process parameters: Heat carrier temperature, ° C 30-45 Heat flow rate, m / s 1.5-2.0 Dehydration time, min 40-80

Having passed the first dewatering stage, the parameters are changed to: Heat carrier temperature. € 30-40 Heat carrier speed, m / s 1.0-1.7

Dehydration time, min 10-30

After the second stage of dehydration, the product enters the collection through a separation discharge and simultaneously cooled to 20-25 ° C.

The non-conforming (fine) product is otdavil from the separation discharge and enters the stage of growing (conditioning).

Growing is done by spraying the culture liquid on the surface of small particles entering after the second stage of dehydration and the stage of dry cleaning the waste heat carrier with simultaneous dehydration of the wet granules.

The growing of substandard particles is carried out in the fluidized bed under the following technological parameters: Heat carrier temperature; ° C45-70 Coolant velocity, m / s 1.2-4.6 Time of exposure; min 5-25 The ratio of liquid and solid phases 1: 0.5-1-3.0. The results are given in gabl. 1-3 and presented in the drawing.

Thus, the use of the proposed method of producing food yeast allows increasing the product lifting force by 35-60%, increasing the yield of the conditioned granulated product by 10-13% and reducing the energy consumption for the production of 1 ton of dehydrated product of the final moisture content of 10-12% by 23-26 %

Claims (1)

The invention of the method for the production of food yeast, which involves growing them under aeration conditions in a nutrient medium, containing sources of carbon, nitrogen .. phosphorus, mineral salts and trace elements, followed by release of biomass and its dehydration by passing a stream of heated air, about t and ch and y with the fact that, in order to improve the quality of the product and reduce energy consumption, before dehydration biomass is formed in the form of harnesses with a diameter of 1.5-5.0 mm while simultaneously LODSIVIVIVNII in a stream of heated air with a temperature of 65 -70 ° C at an air supply rate of 2.5-3.0 m / s for 5-7 minutes. and the dehydration is carried out in two stages, with the first stage being conducted at an air temperature of 34-40 ° C and a flow rate of 1.6-1.8 m / s for 50-70 minutes with simultaneous grinding and granulating and the second at a rate of . The air flow rate is 32-35 С, the flow velocity is 1.2-1.5 m / s for min, after which the conditioned fraction is separated and cooled by supplying a counter-flow of air, and the non-conditioned fraction is grown in a stream of heated air with a temperature of 50-65 ° C. The flow velocity is 1.3-1.5 m / s for 10-20 min. spraying the culture liquid on the surface of the particles of an inadequate fraction in the ratio of liquid and solid phases 1: 1-1.0: 2.5. APPLICATION. According to the “roToaortf” sipa, the product does not exceed 90 nin, t (is the heat carrier temperature at the molding stage; tj and tj is the heat / temperature of the first and second dehydration stages; t - the temperature of the heating medium at the stage of granulation Experiments 1-5 are carried out with the following parameters: speed of tagiyunositrl, m / s: U, J-2.7; 1.7; V. - 1.3; Vt — 1.4; processing time, Nin: s, - 6.0; C 60; G, - 20; "4-15.;. ..;,. ; .. Reception. t | V ... 52. t 37C; tj t NOS; V “2.7 m / s; 1.7 m / s; V, - 1.3 m / s, V - I, m / s. 100