RU2551551C1 - Diffusion juice production method - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: diffusion juice production method envisages beet-root chips and feed water delivery into a three-section scalder prior to extraction. In the scalder, the chips are first treated with ammonium sulphate ((NH₄)₂SO₄) solution with weight fraction equal to 0.05-0.10% at 70-72°C. Ammonium sulphate solution is taken in an amount of 8-12% of the chips weight. The chips treatment with ammonium sulphate (NH₄)₂SO₄ solution is performed at the moment of their delivery into the scalder first section. Then the chips are treated with heating steam in each section of the scalder. Thermal treatment is performed until the temperature of the beet-root chips prior to delivery into the diffusion apparatus is 70-72°C, treatment duration not in excess of 30 sec. Thus prepared beet-root chips are delivered into the diffusion apparatus.

EFFECT: invention allows to reduce proteins content in diffusion juice, enhance diffusion juice purity, reduce purified juice colourity, enhance purified juice purity, increase weight fraction of dry substances in press cake and increase sugar yield.

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Description

The invention relates to the sugar industry, in particular to methods for producing diffusion juice.

The closest in technical essence and the achieved effect is a method of scalding beet chips, in which the transported beet chips are sequentially treated with steam and then with a calcined solution, followed by feeding it into an inclined-type diffusion apparatus [RF Patent No. 2332466. Beet shavings scalder published on 08.27.2008. Bull. No. 24]. Beet chips are fed into the first section of the scalder, in which it is treated with heating steam. Then the heated beet chips enter the second section of the scalder, in which they are mixed and re-processed with steam from the steam chamber. Such a supply of steam to the section ensures uniform heating of the chips in its entire volume until the required temperature of 68-72 ° C is reached, then the chips from the second section enter the last third section, into which a calcined solution with a temperature of 82 ° C is supplied from the steam chamber. The processed chips are sent to a diffusion apparatus.

The disadvantages of this method are the high steam consumption during the processing of beet chips, since the optimum extraction temperature of 72 ° C is achieved already in the second section of the scalder. Further heating of the chips in the third section to a temperature of 82 ° C with a calcined solution mixed with steam leads to denaturation of the colloids, increases the permeability of beet tissue and the transition of non-sugars to liquid during extraction. In addition, the introduction of a calcined solution contributes to an increase in the pH of the co-chip mixture, which creates a risk of extracting pectin substances that increase the viscosity and color of juices, which complicate the filtration of products.

The technical task of the invention is to increase the output of granulated sugar of standard quality by increasing the quality indicators of diffusion and purified juices, as well as reducing energy costs for processing beet chips, pressing and drying the pulp.

To solve the technical problem of the invention, a method for producing diffusion juice is proposed, characterized in that the beet chips are fed into a three-section scalder before extraction, where they are subsequently treated first with a solution of ammonium sulfate ((NH ₄ ) ₂ SO ₄ ) with a mass fraction of 0.05-0.10% taken in an amount of 8-12% by weight of the chip at a temperature of 70-72 ° C, then heating with steam, and the treatment with a solution of ammonium sulfate (NH ₄ ) ₂ SO _{4 is} carried out at the time of supply of the chip in the 1st section of the scalder, where it is immediately after that process g with steam in each section of the scalder, the heat treatment is carried out in such a way that the temperature of the beet chips before it is fed into the diffusion apparatus is 70-72 ° C, and the processing time does not exceed 30 s, the beet chips thus prepared are sent to the diffusion apparatus.

The technical result of the invention is to increase the yield of crystalline granulated sugar of a given quality by increasing the quality indicators of diffusion and purified juices, by intensifying the technological process by reducing the transition of non-sugars from chips to diffusion juice, as well as saving energy resources for pressing and drying raw beet pulp.

 A method of obtaining diffusion juice is as follows.

Freed from impurities and washed beets are sent to beet slicers, in which they are cut into beet chips. The resulting chips are fed into the 1st section of a three-section scalder, where they are treated first with a solution of (NH ₄ ) ₂ SO _{4 with a} mass fraction of 0.05-0.10%, taken in an amount of 8-12% by weight of the chips, at a temperature of 70-72 ° C, then with heating steam, moreover, the treatment with a solution of (NH ₄ ) ₂ SO _{4 is} carried out at the time of supply of the chips to the 1st section of the scalder. In this case, the surface treatment of the chips with the solution of the proposed reagent and its preliminary heating before scalding.

Immediately after this, beet chips are successively treated with heating steam in each section of the scalder with stirring, which ensures uniform heating of the chips in its entire volume until the required temperature of 70-72 ° C is reached and the surface layer is saturated with the reagent used.

Heat treatment of the chips in the scalder sections with heating steam leads to a gradual uniform heating of beetroot tissue and protein denaturation, which increases the mass transfer coefficient of beetroot tissue, increasing its permeability. The solution of ammonium sulfate washing the surface of beet chips reduces the solubility of protein and pectin substances, increasing the strength and elasticity of beet chips. The pH of the medium is stabilized, which reduces the transition of non-sugars from beet chips to diffusion juice during the extraction of sucrose. The combination of heat and chemical treatment allows you to stabilize the colloids of beet tissue and heat the beet chips to the optimum temperature of the diffusion process 70-72 ° C before entering the diffusion apparatus, to increase its structural and mechanical properties.

The duration of the chip treatment with steam is at least 30 s. The temperature of the chips after processing is 70-72 ° C.

Scalded beet chips enter the diffusion apparatus.

The method is illustrated by the following examples.

Example No. 1 (prototype). Root crops of sugar beets are washed in beetroots from adhering dirt and chopped into beet chips on beet slicers. The resulting beet chips are sent to the 1st section of the scalder, where they are treated with heating steam. Then the heated beet chips are fed into the second section of the scalder, in which they are mixed and treated with steam, which ensures uniform heating of the chips in its entire volume until the required temperature reaches 72 ° C.

The chips from the second section are sent to the last third section, into which a solution of calcium sulfate (CaSO ₄ ) is supplied from the steam chamber at the rate of 100 g of dry reagent per 1 ton of chips with a temperature of 82 ° C.

Scalded beet chips are fed into a diffusion apparatus, where diffusion juice is obtained. The resulting juice is sent for defecosaturation treatment.

Analysis of the obtained diffusion juice: purity 83.2%, mass fraction of proteins 0.66%.

Juice after defecosaturation purification has a purity of 91.6%, color 18.6 srvc. units

The results of the analysis of beet pulp after pressing - mass fraction of solids 23%.

Example No. 2. Beets are cleaned of impurities and sent to beet slicers, in which they cut into beet chips. The resulting beet chips are sent to the first section of a three-section scalder, where they are first treated sequentially with a solution of ammonium sulfate ((NH ₄ ) ₂ SO ₄ ) with a concentration of 50 g of dry reagent per 100 kg of chip in an amount of 90 dm ³ per 1 ton of chip at a temperature of 72 ° With, then heating steam, moreover, the treatment with a solution of ammonium sulfate ((NH ₄ ) ₂ SO ₄ ) is carried out at the time of supply of the chips to the 1st section of the scalder. In this case, the surface treatment of the chips with the solution of the proposed reagent and its preliminary heating before scalding.

Then, the heated beet chips are sequentially sent to the second and third sections of the scalder, in which they are mixed and treated with heating steam, which ensures uniform heating of the chips in its entire volume until the required temperature reaches 72 ° C, the processing time is 30 s.

Scalded beet chips are sent to a diffusion apparatus to obtain diffusion juice.

The results of the analysis of the obtained diffusion juice: purity 85, 0%, protein mass fraction 0.36%.

The resulting juice is subjected to defecaturation purification. The purity of the purified juice is 93.1%, color 15.2 srvc.

The results of the analysis of beet pulp after pressing - mass fraction of solids 26%.

As can be seen from the examples, the proposed method for producing diffusion juice makes it possible:

- reduce the protein content in diffusion juice by 45.5%;

- increase the purity of diffusion juice by 1.8%;

- reduce the color of purified juice by 17.8%;

- increase the purity of purified juice by 1.5%;

- increase the mass fraction of solids of pressed pulp by 3%, which reduces fuel consumption by 0.2%;

 - increase the yield of finished products by 0.36% by increasing the purity of purified juice by 1.5%.

The proposed method for producing diffusion juice makes it possible to significantly reduce the degree of transition of non-sugars from beet chips to diffusion juice, which in turn contributes to an increase in the purity of diffusion and purified juice, and an increase in sugar yield. The optimal indicators of the solution (NH ₄ ) ₂ SO ₄ for scalding are the mass fraction of 0.05-0.10%, consumption - 8-12% by weight of the chips and a temperature of 70-72 ° C.

The decrease in the concentration of the solution (NH ₄ ) ₂ SO ₄ less than 0.05% wt. does not bring the desired effect, and its increase above the value of 0.10% wt. not economically feasible.

The decrease in the amount of reagent less than 8% wt. to the mass of beets does not allow you to evenly process the surface of the chips, and an increase above 12% wt. to the mass of beets leads to additional reagent consumption and dilution of diffusion juice.

A decrease in the temperature of the proposed reagent below 70 ° C does not allow the chips to be heated to the required temperature, and an increase above 72 ° C leads to an excessive consumption of heating steam.

The optimal processing time for beet chips is at least 30 s. When the duration of the process is less than 30 s, there is no effective chip preparation for the extraction process, and a duration of more than 30 s leads to unproductive costs of heating steam, worsens the movement of chips in the scalder due to overheating.

The proposed method for producing diffusion juice allows you to:

- reduce protein content in diffusion juice;

- increase the purity of diffusion juice;

- reduce the color of the purified juice;

- increase the purity of purified juice;

- increase the mass fraction of solids in pressed pulp;

- increase the yield of sugar.

Claims (1)

A method of producing diffusion juice, characterized in that the beet chips are fed into a three-section scalder before extraction, where they are first treated sequentially with a solution of ammonium sulfate ((NH ₄ ) ₂ SO ₄ ) with a mass fraction of 0.05-0.10%, taken in an amount of 8- 12% to the weight of the chips at a temperature of 70-72 ° C, then with heating steam, and the treatment with a solution of ammonium sulfate (NH ₄ ) ₂ SO _{4 is} carried out at the time of supply of chips to the first section of the scalder, where it is immediately treated with heating steam in each section of the scalder, while lovuyu treatment is performed so that cossettes temperature before it is fed into the diffusion apparatus was 70-72 ° C and the treatment time does not exceed 30 seconds, thus prepared cossettes fed into the diffusion apparatus.