A method for brewing micro-electrolytic fast-distilled vinegar

A micro-electrolysis and speed-up technology, applied in the direction of microorganism-based methods, biochemical equipment and methods, vinegar preparation, etc., can solve the problems of long entrance of high-lactic acid vinegar, long time to obtain finished products, long fermentation time, etc., and achieve cost Low cost, simple operation and short fermentation time

Inactive Publication Date: 2019-01-18
覃静欣
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] Vinegar is a typical representative of acid condiments in Chinese food culture. The vinegar industry has a long history in my country. Compared with Western countries, the production process of vinegar in my country generally uses solid-state fermentation vinegar, which takes a long time to ferment and requires Complex operations such as vinegar pouring
[0003] Chinese patent CN201610400011.8 discloses a method for preparing high-lactic-acid vinegar. It adopts traditional solid-state fermentation technology, adds specific lactic acid bacteria on the basis of traditional brewing technology, and combines acetic acid layered fermentation technology to increase the content of lactic acid in vinegar. The product brings a rich and harmonious fragrance. The high-lactic acid vinegar has a longer entrance and is not irritating, which improves the quality and grade of the product. However, the fermentation time is long and the finished product takes a long time
Patent CN201810285342.0 discloses a large method of vinegar brewing. New raw materials are mixed from glutinous rice, sorghum, seabuckthorn and red dates to make vinegar. At the same time, red wine is added for seasoning in the wine making process, so as to avoid the single and poor taste in the past. Vinegar brewing, the production time is shortened to half a month, but the cost of raw materials is relatively high

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0034] (1) Immobilized acetic acid bacteria: Add magnetic carbon with 2 times the mass of the bacterial suspension to the prepared acetic acid bacteria suspension with a volume fraction of 10%, shake gently for 40 minutes, so that the strain can be completely adsorbed in the magnetic carbon , and then filtered to obtain a magnetic carbon solid, which was added to 30% sodium alginate solution, so that the magnetic carbon was completely wrapped by the sodium alginate solution and left to stand for 30 minutes, then put it in the refrigerator for overnight storage, and the next day the sodium alginate The solution is filtered, and the filtered magnetic carbon solid is washed 2 to 3 times with sterilized water;

[0035] (2) Liquefaction of raw materials: Mix rice and soybean meal with a mass ratio of 3:1 as raw materials and add them to the liquefaction tank, then add water 4 times the mass of the raw materials and stir evenly, open the steam valve of the liquefaction tank to rapidl...

Embodiment 2

[0045] (1) Immobilized acetic acid bacteria: Add magnetic carbon with 2 times the mass of the bacterial suspension to the prepared acetic acid bacteria suspension with a volume fraction of 10%, shake gently for 30 minutes, so that the strain can be completely adsorbed on the magnetic carbon , and then filtered to obtain a magnetic carbon solid, which was added to a 30% sodium alginate solution, so that the magnetic carbon was completely wrapped by the sodium alginate solution and left to stand for 35 minutes, then put it in the refrigerator for overnight refrigeration, and the next day the sodium alginate The solution is filtered, and the filtered magnetic carbon solid is washed 2 to 3 times with sterilized water;

[0046] (2) Raw material liquefaction: Mix rice and soybean meal with a mass ratio of 3:1 as raw materials and add them to the liquefaction tank, then add water 5 times the mass of the raw materials and stir evenly, open the steam valve of the liquefaction tank to ra...

Embodiment 3

[0056] (1) Immobilized acetic acid bacteria: Add magnetic carbon with 2 times the mass of the bacterial suspension to the prepared acetic acid bacteria suspension with a volume fraction of 10%, and shake gently for 50 minutes to make the bacteria completely adsorbed on the magnetic carbon , and then filtered to obtain a magnetic carbon solid, which was added to a 30% sodium alginate solution, so that the magnetic carbon was completely wrapped by the sodium alginate solution and left to stand for 40 minutes, then put it in the refrigerator for overnight storage, and the next day the sodium alginate The solution is filtered, and the filtered magnetic carbon solid is washed 2 to 3 times with sterilized water;

[0057] (2) Raw material liquefaction: Mix rice and soybean meal with a mass ratio of 3:1 as raw materials and add them to the liquefaction tank, then add water 5 times the mass of the raw materials and stir evenly, open the steam valve of the liquefaction tank to rapidly ra...

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PUM

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Abstract

The invention discloses a brewing method of micro-electrolysis fast vinegar, comprising the following steps: (1) liquefaction of raw materials, using rice and soybean meal as raw materials; (2) inactivation of enzymes; (3) saccharifying, adding Aspergillus oryzae, Aspergillus niger and saccharifying enzyme to saccharify; (4) enzymatic hydrolysis, adding aminopeptidase for further enzymatic hydrolysis and saccharification of saccharification solution; (5) yeast rehydration activation, adding alkaline protease to promote yeast activation; (6) alcoholic fermentation, using thermostable yeast andaroma-producing yeast for alcoholic fermentation; (7) acetic acid fermentation, adding wheat bran and acetic acid bacteria; 8) pouring the fermented grains, adjusting the fermentation temperature, andcarrying out micro-electrolysis treatment to accelerate the fermentation process; (9) sealing the fermented grains to obtain mature vinegar. The vinegar brewed by the method of the invention has goodflavor, short fermentation time, no need to replace the existing equipment, and simple and convenient operation.

Description

technical field [0001] The invention belongs to the technical field of vinegar brewing, and in particular relates to a micro-electrolysis rapid vinegar brewing method. Background technique [0002] Vinegar is a typical representative of acid condiments in Chinese food culture. The vinegar industry has a long history in my country. Compared with Western countries, the production process of vinegar in my country generally uses solid-state fermentation vinegar, which takes a long time to ferment and requires Drenching vinegar and other complex operations. [0003] Chinese patent CN201610400011.8 discloses a method for preparing high-lactic-acid vinegar. It adopts traditional solid-state fermentation technology, adds specific lactic acid bacteria on the basis of traditional brewing technology, and combines acetic acid layered fermentation technology to increase the content of lactic acid in vinegar. The product brings a rich and harmonious fragrance, and the high-lactic acid vin...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C12J1/04C12N11/14C12N11/10C12N11/04C12R1/69C12R1/685
CPCC12J1/04C12N11/04C12N11/10C12N11/14
Inventor 覃静欣
Owner 覃静欣
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