RU2741987C1 - Method of producing food anthocyan colouring agent from grapes - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: invention relates to a method for production of food anthocyan colouring agent from grapes, including treatment of non-fermented sweet varieties of dark coloured grape varieties by water solution of pectolytic enzyme preparation Lallzyme EX-V, taken in amount of 20 g per 1 ton of refuses at hydromodule 1:2, their thermostatting from 45 to 60 minutes at temperature 22…25 °C and pH 3.5−4, extraction of dye with 96 % ethanol solution at temperature of 50…60 °C, extract filtering, concentration thereof to dry substances content of 35−40 %, characterized by that, before enzymatic treatment, non-fermented sweet grape refuses are treated with an electromagnetic field with frequency of wave oscillations in range of 10−100 Hz for 15 minutes and performing three-step extraction of dye with exposure in each case for 60 minutes with constant stirring with subsequent combination of all fractions extract.

EFFECT: disclosed is a method of producing food anthocyan colouring agent from grapes.

1 cl, 1 dwg, 4 ex

Description

The invention relates to a technology for producing food anthocyanin dye from grapes from waste processing of the wine-making food industry and can be used in non-alcoholic, confectionery and other food industries.

A known method of producing anthocyanin dye from fruit raw materials [RF Patent 2228344, 2004, S09B 61/00. Publ. from 10.05.2004]. The method provides for drying, grinding pomace of black currant berries and black chokeberry, extraction of the dye. The dye is extracted twice with 96% ethanol at a temperature of 50-65 ° C with exposure in each case for 1-1.5 hours with constant stirring and standing at a temperature of 10-20 ° C for 6-8 hours, then concentration is carried out to dry matter content 55-65% by distilling ethanol at a pressure of 140-170 mm Hg. and a temperature of 30-40 ° C.

The disadvantage of this method is the extraction of natural coloring anthocyanin compounds that can change their color in a neutral environment.

Closest to the proposed invention is a method for producing food enoc dye [RF Patent 2698123, 2019, С09В 61/00, A23L 5/40. Publ. in bul. No. 24 of 08/22/2019], including mixing plant materials with an active substance, extraction, filtration and concentration. Non-fermented sweet pomace of dark-colored grape varieties are used as plant raw materials. The active ingredient is a pectolytic enzyme preparation Lallzyme EX-V in an amount of 0.002% to the mass of pomace. The resulting mixture is thermostated for one hour at a temperature of 37-40 ° C and pH = 3.5-4, the dye is extracted with a 96% ethanol solution at a temperature of 50-60 ° C, followed by filtration and concentration of the eno dye.

The disadvantage of the existing method is a single extraction, which does not allow the extraction of anthocyanins in full.

The technical result of the invention is to increase the yield and improve the quality of the obtained food coloring from grape pomace of dark-colored varieties through the simultaneous use of physicochemical and biotechnological methods.

The technical result is achieved by the fact that in the method of obtaining food anthocyanin dye from grapes, including the processing of soft-cut sweet pomace of dark-colored grape varieties with an aqueous solution of the pectolytic enzyme preparation Lallzyme EX-V, taken in an amount of 20 g per 1 ton of pomace at a hydromodule of 1: 2, thermostating them for 45 to 60 minutes at a temperature of 22 ... 25 ° C and pH 3.5-4, extracting the dye with a 96% ethanol solution at a temperature of 50 ... 60 ° C, filtering the extract, concentrating it to a solids content of 35-40 %, according to the invention, before the enzymatic treatment, non-fermented sweet grape pomace is treated with an electromagnetic field with a frequency of wave oscillations in the range of 10-100 Hz for 15 minutes and a three-stage extraction of the dye is carried out with exposure in each case for 60 minutes with constant stirring, followed by combining all fractions extract.

The novelty of the proposed technical solution is that in order to obtain an anthocyanin dye from dark-colored pomace of grapes, preliminary processing of raw materials in an electromagnetic field of low frequencies and a three-stage extraction are required, since a single extraction does not allow to extract anthocyanins in full. Using the recommended algorithm of operations, it is possible to obtain a high-quality food coloring with a high content of anthocyanins on the existing traditional equipment of wineries and juice enterprises.

According to the scientific, technical and patent literature, a set of features was not found that allows solving a problem that previously could not be solved by known technical solutions. In the prior art, there are no solutions that have features that coincide with the distinctive features of the proposed technical solution, which indicates that the technical solution meets the criterion of patentability "inventive step".

Compliance of the proposed solution with the criterion of patentability "industrial applicability" is due to the fact that the proposed technical solution is efficient and can be used to obtain high-quality food coloring from grape processing waste.

The essence of the invention is illustrated by the drawing, where figure 1 shows a graph of the results of the effect of electromagnetic fields of different frequency ranges on the output of extractive substances (in percent).

The method consists in the following: plant raw materials (unfermented sweet grape pomace of dark-colored varieties) after pressing grapes or pre-dried to a moisture content of 10-12% are processed in an electromagnetic field with a frequency of 10-100 Hz electromagnetic waves for 15 minutes to destroy cell walls. In the process of pretreatment of grape pomace with low-frequency electromagnetic fields, cell plasmolysis occurs, which, during extraction, helps to extract the maximum amount of anthocyanins from plant tissues.

Next, drinking water is added to the pomace to achieve a hydromodule of 1: 2, after which the pectolytic enzyme preparation Lallzyme EX-V is added to the mixture in an amount of 20 grams per 1 ton of raw material, previously dissolved in water for better distribution of the preparation, while the resulting mixture is thermostated from 45 to 60 minutes at a temperature of 22 ... 25 ° C and pH 3.5-4, then the extraction of the dye is carried out in three stages with a 96% ethanol solution at a temperature of 50 ... 60 ° C with an exposure in each case for 60 minutes at a constant stirring to maximize the extraction of anthocyanins, followed by combining all fractions of the extract, after which pressing is carried out to separate the non-extracted part of the pomace and the enoc dye solution, which is filtered and concentrated to a mass fraction of dry substances of 35-40%.

The advantage of this method is a combination of physicochemical and biotechnological methods for processing grape pomace, which contribute to the maximum extraction of dyes (> 90%) and exclude the use of high temperatures and additives that worsen the quality of the product (organic acids and aggressive media).

To prove the effectiveness of the use of the physicochemical method - preliminary processing of raw materials in an electromagnetic field with different ranges of low frequencies, the research results are presented in figure 1.

The abscissa shows the modes of pretreatment of grape pomace in an electromagnetic field with different ranges of low frequencies for each variety: Tsimlyansky black, Cabernet-Sauvignon, Saperavi, Cabernet, Levokumsky and Merlot. On the chart below the positions: 1-1-10 Hz; 2-10-100 Hz; 3 - 100-1000 Hz; 4 - untreated control sample.

The ordinate shows the yield of extractives from the enoc dye solution (in%).

Example 1. Non-fermented sweet grape pomace varieties Tsimlyansky black, Cabernet Sauvignon, Saperavi, Cabernet, Levokumsky and Merlot weighing 100 g are pretreated in an electromagnetic field with a frequency of electromagnetic waves of 1-10 Hz for 15 minutes. Next, drinking water is added to the pomace to achieve a hydromodule of 1: 2, after which the pectolytic enzyme preparation Lallzyme EX-V is added to the mixture in the fermenter in an amount of 20 grams per 1 ton of raw material, previously dissolved in water for better distribution of the preparation, while the resulting mixture is thermostated in the range from 45 minutes to one hour at a temperature of 22 ... 25 ° C and pH 3.5-4, then the dye is extracted in three stages with a 96% ethanol solution at a temperature of 50-60 ° C with an exposure in each case for one hour with constant stirring, followed by combining three fractions of the extract to maximize the extraction of anthocyanins, while inactivating the enzyme preparation, after which pressing is carried out to separate the non-extracted part of the pomace and the eno dye solution, which is filtered and concentrated to a mass fraction of dry substances of 35-40%. The yield of anthocyanins averaged 85%.

Example 2. Non-fermented sweet grape pomace varieties Tsimlyansky black, Cabernet Sauvignon, Saperavi, Cabernet, Levokumsky and Merlot weighing 100 g are pretreated in an electromagnetic field with a frequency of electromagnetic waves of 10-100 Hz for 15 minutes and then the dye is extracted in the same way as in example 1. The output of anthocyanins averaged 95%.

Example 3. Non-fermented sweet grape pomace varieties Tsimlyansky black, Cabernet Sauvignon, Saperavi, Cabernet, Levokumsky and Merlot weighing 100 g are pretreated in an electromagnetic field with a frequency of exposure to electromagnetic waves of 100-1000 Hz for 15 minutes and then the dye is extracted similarly to example 1. The output of anthocyanins averaged 90%.

Example 4. Drinking water is added to unfermented sweet grape pomace of Tsimlyansky Black, Cabernet Sauvignon, Saperavi, Cabernet, Levokumsky and Merlot with a mass of 100 g to achieve a 1: 2 hydromodule, after which the pectolytic enzyme preparation Lallzyme EX-V is added to the mixture into the fermenter in the amount of 20 grams per 1 ton of raw materials, pre-dissolving in water for better distribution of the drug, while the resulting mixture is thermostated in the range from 45 minutes to one hour at a temperature of 22 ... 25 ° C and pH 3.5-4, then the dye is extracted in three stages with a 96% ethanol solution at a temperature of 50-60 ° C with holding in each case one hour with constant stirring, followed by combining three fractions of the extract for maximum extraction of anthocyanins, while inactivating the enzyme preparation, after which pressing is carried out to separate the non-extracted parts of the pomace and enoc dye solution, which is filtered and concentrated to a mass fraction of dry substances of 35-40%. The anthocyanin yield averaged 70%.

As follows from the experimental data, the food anthocyanin dye from grapes, obtained according to the improved method, contains the maximum amount of dyes while minimizing the number of technological operations and energy consumption.

Claims (1)

A method of obtaining food anthocyanin dye from grapes, including the treatment of non-fermented sweet pomace of dark-colored grape varieties with an aqueous solution of the pectolytic enzyme preparation Lallzyme EX-V, taken in an amount of 20 g per 1 ton of pomace at a hydromodule of 1: 2, their thermostating for 45 to 60 minutes at a temperature 22 ... 25 ° C and pH 3.5-4, extraction of the dye with a 96% ethanol solution at a temperature of 50 ... 60 ° C, filtering the extract, concentrating it to a solids content of 35-40%, characterized in that it is preliminarily before the enzyme By processing, unfermented sweet grape pomace is treated with an electromagnetic field with a frequency of wave oscillations in the range of 10-100 Hz for 15 minutes and a three-stage dye extraction is carried out with an exposure in each case for 60 minutes with constant stirring, followed by combining all fractions of the extract.

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