A method for enhancing the stability of fruit wine tartar

A stable, fruit wine technology, applied in the field of winemaking, can solve the problems of difficult tartar precipitation and cleaning, low tartar solubility, affecting the quality of fruit wine, etc., to reduce the difficulty of downstream separation technology, increase the number of effective uses, and stabilize the tartar cycle. prolonged effect

Active Publication Date: 2021-10-26
SOUTH CHINA UNIV OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The solubility of tartar is small, and it is easily affected by the ambient temperature, light, and pH value of the wine body during storage. It has poor stability and is prone to precipitation during the shelf life, which seriously affects the quality of fruit wine.
For this reason, during the aging period, wineries generally remove tartar precipitation through repeated low-temperature freezing crystallization, ion exchange adsorption and other methods, but these methods have limited their industrial scale in terms of economy or technology.
The existing technology has the following deficiencies: 1) The traditional sedimentation process has a long cycle, repeated low-temperature freezing consumes a lot of energy, and the sedimentation effect is not complete, such as tartar precipitation; 2) A large amount of tartar is attached to the inner wall of the oak barrel during the aging period, making it difficult to clean the tartar sediment Larger, resulting in shortening the useful life of oak barrels and increasing the cost of the factory
However, in the brewing industry, the use of pulsed electric field in conjunction with sodium alginate to enhance the stability of tartar has not been reported.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0032] A method for enhancing the stability of fruit wine tartar, comprising the steps of:

[0033] (1) Purchasing passion fruit from Guangxi, pour the ripe fresh fruit into the cleaning tank and quickly rinse with sulfurous acid water (100mg / L), after draining, the fresh fruit is squeezed by mechanical breaking of the shell (juice yield 38%, total sugar 83.1g / L , total acid 25.1g / L). Before fermentation, use food-grade calcium carbonate to adjust the total acidity of the juice to 8g / L (calculated as tartaric acid). After the juice is deprecipitated, add 60mg / L sulfurous acid solution and 160mg / L pectinase. After enzymatic hydrolysis at 20°C for 2 hours, add sucrose Adjust the total sugar of the fruit juice to 220g / L, the yeast inoculum amount to 200mg / L, ferment at 23°C for 15 days, and centrifuge to obtain sake. The clarified passion fruit sake is refrigerated at low temperature (-5°C) for 6 days, 4000r / min, After centrifugation for 10 min, the upper layer of sake was taken...

Embodiment 2

[0042] A method for enhancing the stability of fruit wine tartar, comprising the steps of:

[0043] (1) After washing the ripe red bayberry wine, the juice was squeezed by breaking the shell, and the juice yield was 62%, the total sugar was 95.8g / L, and the total acid was 16g / L. Before fermentation, use food-grade calcium carbonate to adjust the total acidity of the juice to 7g / L (calculated as tartaric acid). Add 60mg / L sulfurous acid solution and 160mg / L pectinase to the juice. Adjust the total sugar of the fruit juice to 220g / L with sucrose, inoculate 200mg / L yeast and ferment at 20°C for 15 days. After the fermentation, the wine sample is centrifuged; after the clarified red bayberry wine is refrigerated at -5°C for 8 days, then centrifuged at 4500r / min for 10 minutes Then take the upper layer of sake.

[0044] (2) Slowly add sodium alginate solution to the bayberry wine clarified in step (1), and add 0.46L of sodium alginate solution that is 0.48mol / L in every ton of bay...

Embodiment 3

[0052] A method for enhancing the stability of fruit wine tartar, comprising the steps of:

[0053] (1) Purchase fresh ripe plums (total sugar 109.1g / L, total acid 15.8g / L), wash the fresh fruit and squeeze the juice (juice yield 64%), add calcium carbonate to the juice to adjust the total acid of the juice to 7g / L (calculated as tartaric acid), take the supernatant fruit juice, add 60mg / L sulfurous acid solution and 140mg / L pectinase, add sucrose to adjust the total sugar of the juice to 210g / L, inoculate 200mg / L yeast and ferment at 20°C for 14 days, and then ferment it at 20°C for 14 days. For Xinde sake, the clarified plum wine was refrigerated at -4°C for 5 days, centrifuged at 4300r / min for 15 minutes, and the upper layer of sake was taken.

[0054] (2) Slowly add sodium alginate solution to the plum wine clarified in step (1), add 0.3L of sodium alginate solution that is 0.28mol / L in per ton of plum wine (that is: accurately weigh sodium alginate, dissolve Dissolve in ...

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PUM

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Abstract

The invention discloses a method for enhancing the stability of fruit wine tartar. In the method, firstly, high-acid fresh fruit juice is fermented to obtain clarified fruit wine, and the aged fruit wine is refrigerated at low temperature for 5-8 days and then centrifuged to obtain upper-layer sake; Add sodium alginate solution to the sake, quickly circulate the sake added with sodium alginate solution, so that the sodium alginate solution and the wine sample are mixed evenly in the fermentation tank, and under the action of pulse electricity, free calcium ions in the fruit wine are adsorbed and settled ; Suction filtration, gumming and clarification; add sodium alginate solution and electric field treatment again, the fruit wine is suction filtration with diatomaceous earth and then membrane filtration and filling. The sodium alginate used in the present invention belongs to polysaccharide, is green and pollution-free, and is insoluble in alcohol. The pulsed electric field cooperates with the sodium alginate to quickly combine with calcium ions to form calcium alginate, and the formed calcium salt is easy to separate. The process is easy to operate and low in energy consumption. The stability of the fruit wine produced by the invention is significantly improved, and the quality of the fruit wine is obviously improved during the shelf life.

Description

technical field [0001] The invention relates to the technical field of wine making, in particular to a method for enhancing the stability of fruit wine tartar. Background technique [0002] Balance is the first element of wine. Wine contains more than 1,000 substances. The balance of these substances affects the quality of wine. During storage, wine will change in color, taste, aroma, clarity, etc., and even precipitate Tartar precipitation causes cloudiness in the wine. Tartrate precipitation mainly includes calcium tartrate and potassium hydrogen tartrate, which are formed by the combination of organic acids in fruit wine with minerals and metal ions introduced during the production process. The solubility of tartar is small, and it is easily affected by ambient temperature, light, and pH value of the wine body during storage. It has poor stability and is prone to precipitation during the shelf life, which seriously affects the quality of fruit wine. For this reason, du...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C12H1/052C12H1/06
CPCC12H1/0416C12H1/06
Inventor 曾新安郑志超蔡锦林李坚
Owner SOUTH CHINA UNIV OF TECH
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