RU2702598C1 - Method of producing an anthocyan coloring agent from berry material - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: invention relates to food industry and can be used for production of red food coloring agent from berry antocian-containing raw material, in particular black currant berries. Method of producing anthocyan coloring agent from berry raw material includes milling of berries, their mixing with extractant based on water, extraction with stirring and separation of dye from solid fraction by filtration. Raw material is represented by black currant. Berries are milled, mixed with extractant at ratio of 1:20, wherein extracting agent used is 0.15 % aqueous solution of kappa-carrageenan. Extraction is performed at 65–70 °C for 30 minutes.

EFFECT: invention increases degree of extraction of anthocyan pigment and enables to obtain a nontoxic concentrated dye with stable properties.

1 cl, 2 dwg

Description

The invention relates to the food industry and can be used to obtain red food coloring from berry anthocyanin-containing raw materials, in particular blackcurrant berries.

Currently, there is an interest in high-quality food products in the world that combine high organoleptic characteristics and have pronounced functional properties. The use of dyes of natural origin can improve the appearance, color, and also increase the nutritional value of products. Most natural dyes contain, in addition to the pigments themselves, vitamins, glycosides, organic acids, aromatic substances and trace elements. Flavonoids make the greatest contribution to the variety of colors, among which anthocyanins are most widely represented.

The use of anthocyanin pigments as dyes gives products a wide range of color shades from red to violet, and also helps to lower cholesterol, prevents blood clots, increases the elasticity of blood vessels, accelerates wound healing, favorably affects vision, and helps prevent cancer.

The source of natural anthocyanins are flowers, fruits, vegetables and their processed products.

Currently, much attention is paid to improving methods and intensifying the extraction of anthocyanin pigment from plant materials by selecting the most optimal extraction conditions and extractants.

Known methods for producing red food coloring, including the preparation of fruit and berry anthocyanin-containing raw materials and its extraction with an aqueous-alcoholic solution followed by separation of the dye (see RF patents No. 2163612, IPC C09B 61/00, publication date 02/27/2001 and No. 2228344, IPC C09B 61/00, publication date 05/10/2004).

Significant disadvantages of the known technical solutions are the multi-stage and duration of the extraction process, as well as the need to remove ethanol (alcohol) from the extract.

As the closest analogue, a method has been adopted for producing anthocyanin dye from berry raw materials, including crushing berries, mixing them with an extractant based on water, extraction with stirring, and separating the dye from the solid fraction by filtration (see RF patent No. 2515478, IPC C09B 61/00, date publication 05/10/2014).

The disadvantage is the presence of glycerol in the extractant, which limits the use of isolated anthocyanin pigment in food production. In addition, high release temperatures (90-98 ° C) lead to partial thermal degradation of the anthocyanin pigment and the loss of biologically active substances that make up its composition.

The problem to which the invention is directed, is to develop a method for producing environmentally friendly anthocyanin dye isolated from raw berries, through the use of non-toxic natural extractants.

The technical result of the invention is expressed in increasing the degree of extraction of anthocyanin pigment and eliminating the use of chemical reagents, which contributes to the production of non-toxic concentrated dye with stable properties.

The problem is solved in that in a method for producing anthocyanin dye from berry raw materials, including crushing berries, mixing them with an extractant based on water, extraction with stirring and separating the dye from the solid fraction by filtration, blackcurrant is used as raw material, the berries of which are crushed, mixed with an extractant at a ratio of 1:20, respectively, moreover, an 0.15% aqueous solution of kappa-carrageenan is used as extractant, and extraction is carried out at a temperature of 65-70 ° C for 30 minutes .

A comparative analysis of the set of essential features of the proposed technical solution and the set of essential features of the prototype and analogues indicates its compliance with the criterion of "novelty".

In this case, the distinguishing features of the claims solve the following functional tasks.

The sign “blackcurrant is used as raw material” describes the used berry anthocyanin-containing raw materials.

The signs “as extractant use a 0.15% aqueous solution of kappa-carrageenan” provide the following factors.

Kappa-carrageenan is a natural non-toxic anionic polysaccharide, which, due to the stability of the complex anthocyanin pigment-anionic polysaccharide, can be used without additional purification in the production of food products to control their color, consistency and technological properties, and as a result - to increase the environmental friendliness of the dye production process.

Also, the use of kappa-carrageenan as part of the extractant helps to increase the degree of extraction of anthocyanin pigment by almost 2 times compared with its allocation with an aqueous solution without polysaccharide at a similar temperature.

The increase in the degree of pigment extraction is explained by the electrostatic interaction of the anionic polysaccharide kappa-carrageenan and cationic anthocyanins. In this case, a stable complex is formed due to the interaction of oxygen anthocyanins contained in the heterocyclic ring, which can react with negatively charged sulfate groups of the polysaccharide.

The sign "extraction is carried out at a temperature of 65-70 ° C" sets the optimal temperature characteristics.

At temperatures below 65 ° C, there is a high activity of oxidizing enzymes capable of destroying anthocyanin pigment, at a temperature optimum of 65-70 ° C, they are denatured, at temperatures above 70 ° C, partial temperature degradation of the pigment and the loss of biologically active compounds included in its composition .

The signs “berries ... are mixed with the extractant at a ratio of 1:20, respectively” and “extraction is carried out within 30 minutes” describe the optimal hydromodule and the duration of the extraction process, respectively.

With lower values, the extraction efficiency decreases, with large values the energy costs increase unreasonably.

Figure 1 shows the dependence of the degree of extraction of anthocyanin pigment of black currant on the type of extractant and the conditions of selection.

Figure 2 shows the dependence of the degree of extraction of anthocyanin pigment of black currant on the content of kappa-carrageenan in an aqueous solution.

The drawings show a 1 - 0.05% aqueous solution of kappa-carrageenan; 2 - an aqueous solution of anthocyanin pigment without a polysaccharide; 3 - 0.1% aqueous solution of kappa-carrageenan; 4 - 0.15% aqueous solution of kappa-carrageenan.

The inventive dye is prepared according to standard technology on standard equipment.

An extractant is prepared in the form of an aqueous solution, for this kappa-carrageenan is mixed with drinking water in the declared concentration.

Fresh blackcurrant berries are peeled and washed with running water, frozen - thawed at room temperature.

The prepared berry raw materials are crushed to 3-8 mm, mixed with the extractant at a berry ratio: 0.15% aqueous Kappa-carrageenan 1:20 and extraction is carried out at a temperature of 65-70 ° C for 30 minutes with constant stirring.

At the final stage, the dye is separated from the solid fraction by filtration.

The finished product is a low-viscosity liquid of dark red color with a mild aroma of currant.

From FIG. 1 shows that the minimum degree of extraction of the anthocyanin pigment is observed when thermostatting it with water at room temperature (25 ° C). The optical density value with this extraction method is 0.364.

Extraction with water at a temperature of 70 ° C leads to an increase in the degree of extraction of anthocyanin pigment. The degree of extraction increases by 1.4 times.

A further increase in the temperature of extraction to 100 ° C slightly increases the degree of extraction of anthocyanin pigment.

The values of the optical density of the solutions of anthocyanin pigment isolated at 70 ° C and at 100 ° C are 0.498 and 0.545, respectively.

The greatest extracting ability is possessed by a solution of 0.1N hydrochloric acid and a 0.15% aqueous solution of kappa-carrageenan. The maximum optical density during the extraction of the anthocyanin pigment with 0.1 N hydrochloric acid is 0.975. The value of the optical density of the anthocyanin pigment isolated by an aqueous solution of kappa-carrageenan at a temperature of 70 ° C differs slightly and amounts to 0.897.

From FIG. 2 shows that when 0.05 wt.% Kappa-carrageenan is added to the aqueous solution, the degree of extraction of anthocyanin pigment increases by 1.3 times. An increase in the amount of kappa-carrageenan in an aqueous solution to 0.1 and 0.15 wt.% Helps to increase the degree of extraction of anthocyanin pigment.

The optical density of the anthocyanin pigment isolated in the presence of 0.1% and 0.15% aqueous Kappa-carrageenan solutions is 0.495 and 0.630, respectively. The degree of extraction of anthocyanin pigment when using 0.1% and 0.15% aqueous kappa-carrageenan increases 1.6 and 2 times.

A further increase in the kappa-carrageenan content in the aqueous solution leads to a decrease in the degree of extraction of the anthocyanin pigment, which is probably due to the saturation of the heterocyclic ring in its molecule.

The analysis of the experimental data presented in FIG. 1 and 2, allows you to select the operational characteristics of the production of anthocyanin dye and increase its degree of extraction from blackcurrant berries in accordance with the goals of practical use.

The method for producing anthocyanin dye from blackcurrant berries is illustrated by examples (to obtain comparable results, anthocyanin pigment was extracted from blackcurrant berries with aqueous solutions containing different amounts of kappa-carrageenan).

Example 1. Fresh blackcurrant berries crushed to 3-8 mm were mixed with a 0.05% aqueous Kappa-carrageenan solution at a ratio of 1:20, respectively, and extraction was carried out at a temperature of 65 ° C for 30 minutes with constant stirring, then separated dye from the solid fraction by filtration.

The degree of extraction of anthocyanin pigment increased by 1.3 times.

Example 2. Frozen blackcurrant berries were thawed at a temperature of 25 ° C and crushed to 3-8 mm, mixed with a 0.1% aqueous Kappa-carrageenan solution at a ratio of 1:20, respectively, and extraction was carried out at a temperature of 70 ° C for 30 minutes with constant stirring, then the dye was separated from the solid fraction by filtration.

The degree of extraction of anthocyanin pigment increased by 1.6 times.

Example 3. Crushed to 3-8 mm fresh blackcurrant berries were mixed with a 0.15% aqueous Kappa-carrageenan solution at a ratio of 1:20, respectively, and extraction was carried out at a temperature of 67 ° C for 30 minutes with constant stirring, then separated dye from the solid fraction by filtration. The degree of extraction of anthocyanin pigment increased by 2 times.

The obtained non-toxic concentrated dye has stable properties and a rich color gamut, all this allows you to use it without additional purification in the production of food products, to control their color and technological properties.

Claims (1)

A method of obtaining anthocyanin dye from berry raw materials, including crushing berries, mixing them with an extractant based on water, extraction with stirring and separating the dye from the solid fraction by filtration, characterized in that black currants are used as raw material, the berries of which are crushed, mixed with the extractant a ratio of 1:20, respectively, with a 0.15% aqueous solution of kappa-carrageenan as the extractant, and extraction is carried out at a temperature of 65-70 ° C for 30 minutes.

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