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New efficient wine brewing process through optimized liquid-state fermentation of a variety of raw materials

A new technology and raw meal technology, applied in the field of new winemaking technology, can solve the problems of increasing production costs, wasting resources, increasing costs, etc., and achieving the effect of improving grain saving and increasing production costs

Inactive Publication Date: 2017-06-20
LIUZHOU JINGYANG ENERGY SAVING TECH RES DEV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

At present, the wines produced by various wineries and sold on the market mostly adopt grains such as rice, wheat, and sorghum after cooking to become clinker and then carry out solid or semi-liquid fermentation to make wine after shelling. The broken rice and chaff (rice bran) produced during the processing are disposed of as waste, which not only wastes resources, increases production costs, but also consumes labor and increases unnecessary costs

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0008] Example 1: Firstly clean the raw cereals rice, wheat and sorghum respectively, then weigh them in proportion and pulverize them into relatively uniform 40-mesh slurry-like raw meal with a pulper. According to the ratio of rice raw material to distiller's yeast and purified water respectively 100:0.8:280 (when the temperature is higher than 30º, add 0.8 to koji with water 280), weigh 100kg of rice, 0.8kg of distiller's yeast, and 280kg of purified water, and mix them with distiller's yeast, distiller's yeast and purified water respectively according to the raw wheat material The ratio of clean water is 100:0.8:280 (when the temperature is higher than 30°, add 0.8 koji with water 280) and weigh 100kg of wheat, 0.8kg of distiller’s yeast, and 280kg of purified water. (When the temperature is higher than 30°, add 0.8 koji with 280°C of water) Weigh 100kg of sorghum, 0.8kg of distiller’s yeast, and 280kg of purified water, and put the weighed raw grain rice, wheat, and sorghu...

Embodiment 2

[0009] Example 2: First clean the raw cereals rice, wheat, and sorghum respectively, then weigh them in proportion and pulverize them into a relatively uniform 40-mesh slurry-like raw meal, and vary according to the moisture content and climate of the raw cereals. According to the ratio of rice raw material to distiller's yeast and purified water respectively at 95:0.9:270 (when the temperature is lower than 30°, add 0.9 to koji to water 270), weigh 95kg of rice, 0.9kg of distiller's yeast, and 270kg of purified water, and mix them with distiller's yeast, distiller's yeast and purified water respectively according to the raw wheat material. The ratio of clean water is 95:0.9:270 (when the temperature is lower than 30°, add 0.9 koji with water 270). Weigh 95kg of wheat, 0.9kg of distiller’s yeast, and 270kg of purified water. (When the temperature is lower than 30º, add 0.9 koji with 270°C of water) Weigh 95kg of sorghum, 0.9kg of koji, and 270kg of purified water, and put the w...

Embodiment 3

[0010] Example 3: First clean the raw cereals rice, wheat, and sorghum respectively, then weigh them in proportion and pulverize them into a relatively uniform 40-mesh slurry-like raw meal, and vary according to the moisture content and climate of the raw cereals. According to the ratio of rice raw material to distiller's koji and purified water respectively, it is 90:1:260 (the temperature is lower than 20º, add 260°C of koji to 1 water), and weigh 90kg of rice, 1kg of distiller's yeast, and 260kg of purified water. The water ratio is 90:1:260 (when the temperature is lower than 20°, add water 260 to koji 1) and weigh 90kg of rice, 1kg of distiller’s yeast, and 260kg of purified water. Below 20º, use koji 1 and add water 260) to weigh 90kg of rice, 1kg of distiller’s yeast, and 260kg of purified water, and put the weighed raw cereal rice, wheat, and sorghum raw materials into the fermentation tank and stir them evenly with a mixer or manually, and then use Seal the mouth of t...

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PUM

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Abstract

The invention discloses a new efficient wine brewing process through optimized liquid-state fermentation of a variety of raw materials. The new process comprises equipment arrangement, raw material thinning, fine fermentation, wine distilling-quality increasing, and mass production, and specially comprises: respectively weighing washed raw grain-based rice, wheat and sorghum according to a certain ratio, crushing into a 40 mesh slurry-like raw material, respectively weighing the slurry-like raw material, koji and purified water according to a ratio of 100-90:0.8-1:280-260 (280 parts of the water is added to 0.8 part of the koji when the temperature is higher than 30 DEG C, 270 parts of the water is added to 0.9 part of the koji when the temperature is lower than 30 DEG C, and 260 parts of the water is added to 1 part of the koji when the temperature is lower than 20 DEG C), sequentially pouring into a fermentation jar, uniformly stirring, carrying out anaerobic fermentation, pouring into efficient and energy-saving wine distillation equipment at the 9th day after the mash has a light dark brown color and the fermentation achieves the mature state, distilling for 2-3 h, filling the obtained wine into a standard bottle, and sealing and storing for 13-15 days so as to obtain the high quality raw grain wine with characteristics of transparent color, refreshing and sweet taste, and natural fragrance.

Description

technical field [0001] The invention relates to a new wine-making process, in particular to a new high-efficiency wine-making process optimized with multiple types of raw materials in a liquid state. Background technique [0002] The development of human wine culture has a long history. From ancient times to the present, people in urban and rural areas cannot do without wine in their daily life, health care, celebrations, parties, business and other meals, and the number of people drinking continues unabated. At present, the wines produced by various wineries and sold on the market mostly adopt grains such as rice, wheat, and sorghum after cooking to become clinker and then carry out solid or semi-liquid fermentation to make wine after shelling. Broken rice and rice husks, that is, rice bran, produced in the processing process are disposed of as waste, which not only wastes resources, increases production costs, but also consumes labor and increases unnecessary expenses. At...

Claims

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Application Information

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IPC IPC(8): C12G3/02
Inventor 韦战
Owner LIUZHOU JINGYANG ENERGY SAVING TECH RES DEV
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