RU2662961C1 - Method of production a young red sparkling wine - Google Patents

Abstract

FIELD: food industry.SUBSTANCE: invention relates to winemaking industry. Grapes of red type are subjected to maceration for 20–24 hours at a temperature of 16–20 °C, it is pressed with separation of a free run-fraction. Yeast is introduced in the wort, fermented dry and the yeast is separated. Yeast wiring and a cryoconcentrate made from the same grapes are set in the young wine material, secondary fermentation in isobaric conditions is carried out for the sugar concentration mark. Fermentation is stopped by cooling for 10–12 hours at minus 5–6 °C. Young sparkling wine is filtered and bottled under isobaric conditions.EFFECT: invention provides an improvement of the quality of wine by preserving the typical characteristics of the grape type, accelerating the fermentation and extraction of the components of the phenolic complex from the grape skin.1 cl, 1 tbl, 6 ex

Description

The invention relates to the wine industry, in particular to a method for the production of sparkling wine.

A known method for the production of red sparkling wine (RF patent No. 2343191 "Method for the production of sparkling wines", the authors L. A. Oganesyan, V. P. Bakulin, B. B. Reytblat, L. V. Dubinchuk, 2009), providing for the preparation a blend of wine materials, reservoir and expeditionary liquors, yeast wiring, obtaining a fermentation mixture, secondary fermentation of the mixture and enrichment with biologically active substances of yeast by introducing a yeast autolysate, cold treatment, filtering, introducing expeditionary liquor, filtering and bottling wine, while at the same time stve autolyzed yeast autolysate are used, obtained by enzymatic treatment of the yeast before and / or during the mechanical and / or physical effects on them, the introduction of yeast autolysate is performed at three stages of the process.

The disadvantages of the method are the use at different stages of production of liqueurs prepared on the basis of granulated sugar, the presence of which in drinks can provoke melanoidin-forming reactions and a change in the color of sparkling wine.

Closest to the claimed is a method for the production of sparkling wine (Ukrainian patent No. 26236 of 07/19/1999, "Method for producing sparkling wine", authors

The method involves preparing a reservoir fermentation mixture by blending dry wine materials with reservoir liquor and yeast wiring, secondary fermentation of the mixture followed by the introduction of expeditionary liquor, while grape must with concentrated sugar of 40-45% in an amount of 3.5- is introduced as a reservoir liquor 5.0% of the total.

The disadvantage of this method is the use of dry wine materials produced by traditional technology, which does not allow the preparation of young sparkling wines, especially red ones, which can be bottled before January 1 of the year following the harvest.

The technical result from the application of the proposed method is to expand the range of products through the production of young high-quality sparkling wines.

The technical result is achieved by the fact that in the method for producing red young sparkling wine, which involves preparing a circulation mixture by blending dry red wine materials with reservoir liquor, yeast wiring, secondary fermentation of the mixture, followed by the introduction of expeditionary liquor in the form of a cryoconcentrate, the grapes are subjected to carbonaceous maceration before processing 20-24 hours at a temperature of 16-20 ° C, then the grapes are pressed with the separation of gravity wort, introduced yeast wiring, fermented on dry, after which a cryoconcentrate made from a processed grape variety is set and secondary fermentation is conducted under isobaric conditions on the brand, fermentation is stopped by cooling for 10-12 days at a temperature of minus 5-6 ° C, filtered and poured under isobaric conditions.

The advantages of the method:

- the possibility of obtaining a young red sparkling wine;

- carbon dioxide maceration allows you to soften the skin of the berry due to internal fermentation, which allows to increase the extraction of phenolic compounds and accelerate the fermentation of sugars;

- the use of cryoconcentrate grape must instead of a vacuum must or other sugar-containing environments; this ensures the full naturalness of the product and the improvement of its organoleptic advantages;

- expansion of the product range through the production of young red sparkling wines;

- reducing the duration of the production process of sparkling wine due to the lack of blending and technological treatments.

The essence of the method is as follows. Red grapes before processing are subjected to carbon dioxide maceration, i.e. clusters of grapes are placed in a tank and incubated for 20-24 hours at a temperature of 16-20 ° C. During this period of time, primary fermentation takes place inside the berries, during which 3 to 5% of sugars are fermented. After maceration, the grapes are pressed with gravity. Considering that when pressing whole clusters the wort (and in our case the wandering wort) is transparent, there is no need to clarify it by standing. Therefore, in the fermenting wort, the wiring of pure yeast cultures is immediately dosed, and the medium is fermented dry to obtain young red wine material. Then the yeast is separated from the wine material by any known method, for example, by filtration or centrifugation, after which a cryoconcentrate made from the same grape variety is introduced into the young wine material, and secondary fermentation is carried out under isobaric conditions on the brand by sugar concentration, fermentation is stopped by cooling for 10 -12 days at a temperature of minus 5-6 ° C, filtered and poured under isobaric conditions.

Cryoconcentrate contribute similarly to the prototype: sugar content in the concentrate 40-45%; dosage - 3.5-5.0% of the total volume of the circulation mixture.

Case Studies

Example 1 is a prototype method.

To prepare a reservoir fermentation mixture of blending, dry red wine materials from the Merlot grape variety with reservoir liquor prepared using conventional technology. The yeast wiring of the Cabernet 5 race was added to the resulting mixture and secondary fermentation of the mixture was carried out. At the end of the complete fermentation of sugar, the sparkling wine material was filtered under isobaric conditions and poured with the addition of expeditionary liquor onto the brand, while grape must cryoconcentrate with a sugar content of 40-45% in an amount of 3.5-5.0% of the total volume was used as reservoir liquor .

The inventive method

Example 2. Merlot grapes in whole clusters were placed in tanks and carbon dioxide maceration was carried out for 20 hours at a temperature of 16 ° C. After fermentation of 5% Sugars, grape clusters were pressed and the gravity fraction was separated and the wiring of a pure culture of Cabernet 5 yeast was dosed into it, the medium was fermented dry to obtain young red wine material. Then the yeast was separated from the wine material by filtration. A 3.5% cryoconcentrate with a sugar content of 45%, made from Merlot grapes, was introduced into the filtrate — into young wine material — and secondary fermentation was carried out under isobaric conditions on a grade with a sugar concentration of 45 g / dm ³ . Upon reaching the indicated sugar content, fermentation was stopped by cooling for 10 days at a temperature of minus 5 ° C, filtered and poured under isobaric conditions.

Example 3. Merlot grapes in whole clusters were placed in tanks and carbon dioxide maceration was carried out for 22 hours at a temperature of 18 ° C. After fermentation of 6% sugars, the grapes were pressed and the gravity fraction was separated and the wiring of a pure culture of Cabernet 5 yeast was dosed into it, the medium was fermented dry to obtain young red wine material. Then the yeast was separated from the wine material by filtration. A 4.0% cryoconcentrate with a sugar content of 45%, made from Merlot grape varieties, was introduced into the filtrate — into the young wine material — and secondary fermentation was carried out under isobaric conditions on a grade with a sugar concentration of 42 g / dm. Upon reaching the indicated sugar content, fermentation was stopped by cooling for 11 days at a temperature of minus 5 ° C, filtered and poured under isobaric conditions.

Example 4. Merlot grapes in whole clusters were placed in tanks and carbon dioxide maceration was carried out for 24 hours at a temperature of 20 ° C. After fermentation of 6.0% Sugars, grape clusters were pressed and the gravity fraction was separated and the wiring of a pure culture of Cabernet 5 yeast was dosed into it, the medium was fermented dry to obtain young red wine material. Then the yeast was separated from the wine material by filtration. A 5% cryoconcentrate with a sugar content of 42%, made from Merlot grapes, was introduced into the filtrate — into young wine material — and secondary fermentation was carried out under isobaric conditions on a grade with a sugar concentration of 45 g / dm ³ . Upon reaching the indicated sugar content, fermentation was stopped by cooling for 12 days at a temperature of minus 6 ° C, filtered and poured under isobaric conditions.

Example 5. Merlot grapes in whole clusters were placed in tanks and carbon dioxide maceration was carried out for 19 hours at a temperature of 14 ° C. After fermentation of 5% Sugars, grape clusters were pressed and the gravity fraction was separated and the wiring of a pure culture of Cabernet 5 yeast was dosed into it, the medium was fermented dry to obtain young red wine material. Then the yeast was separated from the wine material by filtration. A 5% cryoconcentrate with a sugar content of 45%, made from Merlot grapes, was introduced into the filtrate — into the young wine material — and secondary fermentation was carried out under isobaric conditions on a grade with a sugar concentration of 45 g / dm ³ . Upon reaching the indicated sugar content, fermentation was stopped by cooling for 9 days at a temperature of minus 4 ° C, filtered and poured under isobaric conditions.

Example 6. Merlot grapes in whole clusters were placed in tanks and carbon dioxide maceration was carried out for 25 hours at a temperature of 21 ° C. After fermentation of 7% sugars, clusters of grapes were pressed and the gravity fraction was separated and the wiring of a pure culture of Cabernet 5 yeast was dosed into it, the medium was fermented dry to obtain young red wine material. Then the yeast was separated from the wine material by filtration. A cryoconcentrate in the amount of 6.5% with a sugar content of 40%, made from Merlot grapes, was introduced into the filtrate — into young wine material — and secondary fermentation was carried out under isobaric conditions on a grade with a sugar concentration of 45 g / dm ³ . Upon reaching the indicated sugar content, fermentation was stopped by cooling for 13 days at a temperature of minus 7 ° C, filtered and poured under isobaric conditions.

As criteria for evaluating the effectiveness of the method, we used a tasting assessment using a 100-point system and the organoleptic characteristics of sparkling wine, as well as indicators of typical sparkling properties - the value of foaming ability F, s, and the stability of a bilateral film K. The results are shown in the table.

Analysis of the table data indicates that the change in the mode of the method in comparison with the optimal leads to a change in the sparkling properties of young wine, especially foaming ability. A decrease in the duration of cold treatment, as well as an increase in temperature, led to the appearance of opalescence due to colloidal and crystalline precipitation. On the contrary, lowering the temperature and increasing the duration of the cold treatment (Example 6) led to a marked deposition of colloidal substances exhibiting a surface-active effect, which caused a noticeable deterioration in the sparkling properties.

When applying the optimal modes of carbon dioxide maceration, the aroma and taste of the wine retained the tones of fresh grapes, the young sparkling wine acquired a delicate aroma, full and rounded taste.

Thus, the results indicate the feasibility of applying the proposed method for the production of young sparkling wines and expanding the range of high-quality products.

Claims (1)

A method of producing red young sparkling wine, characterized in that red grapes are macerated for 20-24 hours at a temperature of 16-20 ° C, pressed with the separation of gravity wort, introduced into the wort yeast wiring, fermented dry, separate the yeast, yeast wiring is set in a young wine material and a cryoconcentrate made from the same grapes is used, secondary fermentation is carried out under isobaric conditions on a grade of sugar concentration, fermentation is stopped by cooling for 10-12 hours at a temperature of yc 5-6 ° C, filtered and poured into isobaric conditions.