RU2390553C1 - Method of producing wine material - Google Patents

Abstract

FIELD: chemistry. ^ SUBSTANCE: grapes are processed, wort or pulp is fermented, comenic acid is added in amount of 150-300 mg/dm3 and the wine material is separated from the yeast biomass. Comenic acid is added in two steps: before fermentation of wort or pulp in amount of 50-100 mg/dm3 and after separation of the yeast biomass in amount of 100-200 mg/dm3. ^ EFFECT: method enables to obtain wine with high antioxidant activity and biological value, reduction of the level of redox processes, retention of the colour of wine materials, increase in consumer safety of the wine due to reduction of sulphur dioxide dosages. ^ 1 tbl, 10 ex

Description

The invention relates to the wine industry and can be used for the production of wine materials of various types.

A known method of production of wine materials and wines, including the use of sulfur dioxide (sulfur dioxide and sulfur dioxide) as an antioxidant and antioxidant (Collection of basic rules, technological instructions and regulatory materials for the production of wine products. - M .: Pishchepromizdat, 1998. - P.21 -25 and subsequent). In this case, the introduction of sulfur dioxide helps to prevent the ingress and subsequent dissolution of oxygen in grape wines, i.e. helps prevent oxidation. However, sulfur dioxide protects the environment for a short period of time, since only the free form of sulfur dioxide has antioxidant and antiseptic activity, which quickly reacts with the components of wine, and its concentration decreases to almost zero.

A known method of increasing the antioxidant activity of juices and aqueous media with the help of succinic acid (Means stabilizing the vitamins of groups C, P, A, B in juices and aqueous media / L.A. Badovskaya, G.F. Muzychenko, V.G. Kulnevich, V.V. Motalkin, Yu.V. Naidenov // RF patent No. 2088655. - 1997. - BI No. 5), which allows the production of table and special wines while preserving a number of biologically active substances, including ascorbic acid, easily oxidized polyphenols. The disadvantages of the method include the need for mandatory use of sulfur dioxide, the lack of protection of polyphenols from oxidation, a low increase in antioxidant activity with the introduction of succinic acid.

Closest to the claimed is a method of fermentation of sugar-containing environments, involving the introduction of an additive of calcium succinate and a composition of enzymes liporizin and pectofoetidine in optimal ratios (Method of fermentation of sugar-containing media / N.M. Ageeva, V.V. Motalkin, G.F. Muzychenko, Yu. V. Naidenov, L. A. Badovskaya, V. M. Latashko, V. G. Kulnevich, M. N. Kondrashova // Patent SU 1775466 A1. - 1992. - Bull. No. 42). The method allows to intensify the fermentation process, increase the accumulation of yeast biomass, improve the quality of the final product by removing residual pesticides. The method is intended to activate the fermentation process in the alcohol, wine, enzyme and brewing industries.

The disadvantages of the method include the relatively poor solubility of calcium succinate, especially in grape must or pulp, which leads to a decrease in the positive effect of its introduction. In addition, the introduction of an additional calcium ion is undesirable, because it provokes the appearance of crystalline and calcium-colloidal opacities and is difficult to remove from grape products by technological methods. It is also important to note the need for thorough mixing of the medium (grape must) envisaged by the method, which leads to its additional enrichment with oxygen and, as a result, activation of oxidative processes, which is extremely undesirable in the development of white wine materials.

The objective of the proposed method is to increase the biological value of wine materials by introducing comenic acid, which exhibits pronounced antioxidant properties, which reduces the level of redox potential (ORP) in wine material and the final product, wine, and increases consumer safety by reducing doses of sulfuric acid.

The technical result from the use of the present invention is to obtain wine materials with high antioxidant ability, and therefore, high biological value of the product, lowering the level of redox potential, preserving the color of wine materials, increasing consumer safety of the product. In addition, comenic acid actively interacts with the oxygen of the environment, creating anaerobic conditions and preventing the oxidation of the most important components. In connection with this effect of comenic acid, it is possible to reduce the dosage of sulfur dioxide, which increases the consumer safety of the product and increases the possibility of its use in enotherapy. Comenic acid is completely dissolved in grape products - pulp, wort or wine material, which does not provoke the occurrence of any turbidity. When used, the color of wine materials remains unoxidized for a long time: straw in white and dark red in red without the appearance of golden or red hues. Due to the decrease in the concentration of sulfur dioxide, the aroma of the product improves - the tones of sulfur and its derivatives in wine materials by the present method have not been identified. The advantages of comenic acid in comparison with succinic and its salts (succinates), including calcium succinate, are its good solubility in grape products, including wort, pulp or wine. In order to introduce succinic acid into wine or vodka, it must be converted to sodium or potassium salt, which leads to an increase in labor costs and the duration of the process. Comenic acid is added directly to the product, bypassing the preliminary stages of dissolution of the drug.

In the method of wine material production, which includes grape processing, fermentation of wort or pulp, introduction of an additive, separation of wine material from yeast biomass, comenic acid in an amount of 150-300 mg / dm ^{3 is} used as an additive, and it is introduced in two stages: before fermentation of the wort or pulp in an amount of 50-100 mg / dm ³ and after separation of the young wine material from yeast biomass in an amount of 100-200 mg / dm ³ .

A positive result is achieved by dosing comenic acid in two stages. The need for phased dosing due to the following reasons. The introduction of acid before fermentation provides an increase in the antioxidant properties of the wort, the binding of atmospheric oxygen, which is important for the development of yeast cells, which are anaerobic microorganisms, and the subsequent activation of the fermentation process. The introduction of comenic acid after separation of wine material from yeast biomass provides an increase and long-term preservation of the antioxidant ability (activity) of wine material, which is important for preserving the taste and color of wine materials and, especially, from the point of its further use in enotherapy.

Comenic acid (5-hydroxy-γ-pyrone-2-carboxylic acid) belongs to the gamma-pyron series and is produced by the method of microbiosynthesis (A. Shurygin. Baliz drug. 2nd ed., Additional and revised. - Krasnodar: KubSU , 2001 .-- 416 p.).

The high antioxidant ability of comenic acid allows to reduce the doses of sulfur dioxide used from 150-200 to 60-80 mg / dm ³ , thereby increasing the consumer safety of the finished product, while maintaining the wine’s resistance to biological clouding, while increasing the antioxidant activity of wine, which increases its biological value.

Case Studies

Example 1. The prototype method. Grape berries of white varieties were separated from the crests on a crusher-comb separator, the composition LIPORIZIN GX: pectofoetidine P10X at a ratio of 1: 1 in an amount of 150 mg / dm ³ and calcium succinate at a rate of 1.0 g / dm ³ were added to the wort by gravity, the medium was mixed , a pure yeast culture was asked and fermented, followed by separation of the young wine material from the yeast biomass.

Example 2. The inventive method. White grape berries were separated from the crests on a comb-separator crusher, comenic acid (the first stage) was added to the wort at the rate of 50 mg / dm ³ , then yeast was introduced and the fermentation process was carried out, after separation of the young wine material from yeast biomass, comenic acid was added (second stage) at the rate of 100 mg / dm.

Example 3. The inventive method. Similar to option 2, but with the addition of comenic acid in the first stage, 50 mg / dm ³ , and in the second - 250 mg / dm ³ .

Example 4. The inventive method. Similar to option 2, but with the addition of comenic acid in the first stage, 30 mg / dm ³ , and in the second - 200 mg / dm ³ .

Example 5. The inventive method. Similar to option 2, but with the addition of comenic acid in the first stage, 40 mg / dm ³ , and in the second - 220 mg / dm ³ .

Example 6. Grapes of red varieties were processed according to the prototype method. Grape berries of red varieties were separated from the ridges on a crusher-comb separator, the composition GIPX liporizine was introduced into the pulp: pectofoetidine P10X at a ratio of 1: 2 in an amount of 300 mg / dm ³ and calcium succinate at a rate of 0.5 g / dm ³ , the medium was mixed, set pure yeast culture and subjected to fermentation, followed by separation of the young wine material from the yeast biomass.

Example 7. The inventive method. Grape berries of red varieties were separated from the crests on a comb-separator crusher, comenic acid (the first stage) was added to the pulp at the rate of 50 mg / dm ³ , then yeast was introduced and the pulp was fermented with a floating cap with repeated stirring. Then the young wine material was separated from the yeast biomass with the addition of comenic acid (second stage) at the rate of 100 mg / dm ³ .

Example 8. The inventive method. Similar to option 7, but with the addition of comenic acid in the first stage, 50 mg / dm ³ , and in the second stage at the rate of 150 mg / dm ³ .

Example 9. The inventive method. Similar to option 7, but with the addition of comenic acid in the first stage, 40 mg / dm ³ , and in the second stage from the calculation of 260 mg / dm ³ .

Example 10. The inventive method. Similar to option 7, but with the addition of comenic acid in the first stage, 30 mg / dm ³ , and in the second stage at the rate of 200 mg / dm ³ .

In all wine materials prepared by the prototype method, the mass concentration of sulfur dioxide was maintained at a level of at least 150 mg / dm ³ . The use of comenic acid, exhibiting antioxidant properties, allowed to reduce the concentration of sulfur dioxide by 2-3 times, ensuring the safety of the wine material to biological opacities.

Organoleptic evaluation, an indicator of antioxidant activity and the OB potential of wine are selected as process criteria. The antioxidant properties of the samples were monitored using the TsvetYauza-01-AA Amperometric Antioxidant Analyzer (control - gallic acid). In addition, the degree of dissolution of calcium succinate and comenic acid in grape products and the physicochemical state of the resulting wine material were visually controlled.

The results of the comparative experiments in examples 1-10 are shown in the table.

The research results presented in the table indicate that the use of comenic acid in the production of wine materials, even with minimal dosages of sulfur dioxide, ensures the preservation of the antioxidant activity of the product. In addition, the antioxidant effect of comenic acid manifests itself in the magnitude of the OB potential: its value in the presence of comenic acid is significantly lower in comparison with succinic acid. When using comenic acid, the color of red wine materials was more intense and was characterized as dark ruby. During subsequent storage for 6 months in white and red samples of wine materials produced by the present method, there were no signs of oxidation either in taste or in aroma, while in samples according to the prototype method red shades appeared in red wine materials, and in white - golden; light tones of oxidation were also revealed in taste.

When comparing the physicochemical state of the obtained wine materials, it was found that in the variants with the addition of calcium succinate, the appearance of a light colloidal turbidity, which remained in the drink for about 30 days, was noted. Part of the calcium succinate did not dissolve, and therefore the concentration of the succintion ion in the medium was 20% less than the required value. When using comenic acid as an additive, the wine materials produced were transparent and had no precipitation.

Thus, the materials presented demonstrate the effectiveness of the use of comenic acid in the production of wine materials.

Claims (1)

Method for the production of wine material, which includes the processing of grapes, fermentation of wort or pulp, the addition of additives, the separation of wine material from yeast biomass, characterized in that as an additive, comenic acid is used in an amount of 150-300 mg / dm ³ , and its introduction is carried out in two stages: before fermentation of the wort or pulp in the amount of 50-100 mg / dm ³ and after separation of the young wine material from the yeast biomass in the amount of 100-200 mg / dm ³ .