JP2022164812A - alcoholic beverage - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an alcoholic beverage has little fermentation fragrance and a colorless, transparent appearance, and has foaming properties like beer.

SOLUTION: An alcoholic beverage contains alginate and collagen peptides as foaming agents, and contains a beer yeast fermentation liquid having a chromaticity of 3.0 EBC or less.

SELECTED DRAWING: None

COPYRIGHT: (C)2023,JPO&INPIT

Description

The present invention relates to alcoholic beverages, particularly brewed liquors.

Alcoholic beverages refer to beverages containing a substantial amount of ethyl alcohol. Beverages with a volume alcohol content of 1% or more are defined as alcoholic beverages under the Liquor Tax Law of Japan. This alcoholic beverage is an example of an alcoholic beverage. As used herein, the term "alcohol" means ethyl alcohol.

Conventional alcoholic beverages are roughly classified into brewed liquor, distilled liquor, and mixed liquor according to the manufacturing method. Brewed alcoholic beverages include beer, wine, and Japanese sake.

An important factor that determines the flavor of brewed liquor is the aroma component produced during fermentation. Aroma components are metabolites of yeast, and their types and amounts are determined depending on how the pre-fermentation liquid is fermented. The fermentation state of the pre-fermentation liquid varies depending on fermentation conditions such as the type of yeast, the type and amount of nutrients given to the yeast, the fermentation temperature, the fermentation time, and the amount of oxygen. In addition, the flavor means a taste combined with the aroma, and the aroma means an aroma.

Beer, which is a type of brewed liquor, is a beverage obtained by fermenting malt, hops, water, and the like using brewer's yeast as raw materials. Beer is a highly palatable beverage having malt aroma, fermentation aroma and sourness, hop aroma and bitterness, and moderate alcohol stimulation. However, some consumers do not like the aroma of beer, and the demand for beer with less aroma tends to increase.

JP 2017-63726 A

The present inventors found that when performing alcoholic fermentation using brewer's yeast, by using a pre-fermentation solution containing a carbon source and almost no nitrogen source, the fermentation aroma is less and a light and refreshing aroma is exhibited. , a colorless and transparent alcoholic beverage can be obtained. Hereinafter, such an alcoholic beverage is referred to as a "low-nitrogen brewer's yeast fermented liquid".

In addition, the present inventors have found that by adding alginate and collagen peptide to the low-nitrogen beer yeast fermented liquid, fine bubbles are formed when poured into a glass or the like, and the time that the bubbles can be maintained on the liquid surface is extended. I found

Patent Document 1 describes quillaja saponin, alginic acids, soybean polysaccharides, modified starch, wheat peptides, and the like as foaming components for unfermented beer-taste alcoholic beverages. In general, beer-taste beverages have high malt and fermented aromas and an amber colored appearance. Therefore, the coloring property and aroma of the foaming component do not significantly affect the flavor of the beer-taste beverage. The foaming component of Patent Document 1, which is used for beer-taste alcoholic beverages, also contains those having coloring properties or aroma.

Unlike conventional beer-taste beverages, the low-nitrogen brewer's yeast fermented liquid has less fermentation aroma and a colorless and transparent appearance. If a foaming component with coloring or aroma is used in the low-nitrogen brewer's yeast fermented liquid, the appearance and aroma are likely to be adversely affected, and the use of a conventional foaming component is not preferred.

An object of the present invention is to provide an alcoholic beverage having a low fermented aroma, a clear and colorless appearance, and foam characteristics similar to those of beer.

The present invention provides an alcoholic beverage containing a brewer's yeast fermentation broth containing alginate and collagen peptide and having a chromaticity of 3.0 EBC or less.

In one embodiment, the alcoholic beverage has an alginate concentration of 3 to 15 mg/100 ml.

In one embodiment, the alcoholic beverage has a collagen peptide concentration of 40 to 120 mg/100 ml.

In one certain form, the alcoholic beverage has an amino nitrogen concentration of 0.3 mg/100 ml or less.

In one certain form, the said alcoholic beverage does not contain a pigment|dye.

In one certain form, the alcoholic beverage further contains spirits.

ADVANTAGE OF THE INVENTION According to this invention, the alcoholic beverage which has a colorless and transparent appearance with little fermentation aroma, and has the foam characteristic similar to beer is provided. The foam properties as used herein refer to, for example, the amount of foam formed on the liquid surface when an alcoholic beverage is poured into a glass, the fineness of the foam, and the retention of the foam. The foam retention means that the foam formed on the liquid surface is maintained for a long time without disappearing.

The alcoholic beverage of the present invention contains alginate. Alginic acid ester refers to a derivative in which propylene glycol is ester-bonded to alginic acid, which is a natural polysaccharide. The compound name of alginate is "propylene glycol alginate".

The alginate is contained in an amount such that the concentration in the alcoholic beverage is 3-15 mg/100 ml. If the alginate content is less than 3 mg/100 ml, the fineness of the foam and the foam retention will be insufficient, and if it exceeds 15 mg/100 ml, the beverage will become thick. The alginate content is preferably 5-13 mg/100 ml, more preferably 7-11 mg/100 ml.

The alcoholic beverage of the present invention contains collagen peptides. Collagen peptide refers to a substance obtained by heating and loosening natural collagen to obtain gelatin, and decomposing the gelatin with an enzyme or the like. Collagen peptides are readily soluble in water and are widely used in the fields of foods and cosmetics.

Collagen peptides are contained in an amount such that the concentration in the alcoholic beverage is 40-120 mg/100 ml. If the collagen peptide content is less than 40 mg/100 ml, the fineness of the foam and foam retention will be insufficient, and if it exceeds 120 mg/100 ml, the beverage will have a fishy smell. The content of collagen peptide is preferably 50-100 mg/100 ml, more preferably 60-80 mg/100 ml.

Alginic acid esters and collagen peptides, at the concentrations used in the present invention, are infinitely colorless when made into alcoholic beverages. By using alginic acid ester and collagen peptide together, when an alcoholic beverage is poured into a glass, it becomes easy to form foam that exhibits the same amount, fineness and foam retention as beer.

[Low-nitrogen beer yeast fermented liquid]
The low-nitrogen brewer's yeast fermented liquid is produced according to the method and conditions normally performed when producing general beer, except that the pre-fermentation liquid that satisfies the following conditions is used.

(carbon source)
The pre-fermentation liquid used to produce the low-nitrogen brewer's yeast fermentation broth contains a carbon source. As used herein, the carbon source refers to a carbohydrate that is ingested by brewer's yeast and used as nutrition during alcoholic fermentation. Carbon sources are generally monosaccharides, disaccharides and trisaccharides such as glucose, fructose, sucrose, maltose and maltotriose. Preferred carbon sources are glucose, maltose and sucrose. A more preferred carbon source is sucrose. A single type or a plurality of types of carbon sources may be used.

The pre-fermentation liquid may contain carbohydrates in addition to the carbon source. Carbohydrates that may be contained in the pre-fermentation liquid include, for example, tetrasaccharides and higher polysaccharides, oligosaccharides, starch hydrolysates, and dietary fibers. These carbohydrates are not ingested by the yeast during alcoholic fermentation and remain in the fermented liquor even after the alcoholic fermentation, enhancing the resulting low-nitrogen beer yeast fermented liquor in body and texture.

The amount of carbon source contained in the pre-fermentation liquid is appropriately determined in consideration of the alcohol concentration of the resulting alcoholic beverage. The alcoholic beverage of the present invention has an alcohol concentration of 1-10% (v/v). In such a case, the amount of carbon source contained in the pre-fermentation solution is 2-20% (w/v), preferably 4-16% (w/v), more preferably 8-12% (w/v). v).

(amino nitrogen)
The concentration of amino nitrogen in the pre-fermentation liquid used for producing the low-nitrogen brewer's yeast fermented liquid is limited to 3.0 mg/100 ml or less. By fermenting in a state where there is almost no nitrogen source, unpleasant odors such as sulfur odor are suppressed, resulting in a light and refreshing aroma. If the amino nitrogen concentration in the pre-fermentation solution is 3.0 to 10 mg/100 ml, an unpleasant sulfur smell is likely to occur. The amount of amino nitrogen contained in the pre-fermentation solution is preferably less than 2.0 mg/100 ml, more preferably 1.0 mg/100 ml or less. The pre-fermentation liquid may not contain amino nitrogen.

Amino acids that can be used in the pre-fermentation solution are specifically those contained in starchy raw materials such as wheat, malt, corn, potato, rice and soybeans, those contained in yeast extract, and those contained in enzymatic decomposition products of proteins. things, etc.

(Production method)
As a raw material for the pre-fermentation liquid, for example, an aqueous solution of water-soluble carbohydrates is used. Specific examples of water-soluble carbohydrates include saccharides, starch hydrolysates, dietary fibers, and the like. For the purpose of imparting or improving flavor, spices, herbs, fruits, etc. substantially free of amino acids and proteins may also be used as raw materials.

Dissolve the above water-soluble carbohydrates in drinking water and, if necessary, add amino acid-containing ingredients. At that time, the types and amounts of raw materials used are adjusted so that the concentrations of the carbon source and amino nitrogen satisfy the above conditions.

The resulting aqueous solution is boiled according to the method and conditions commonly used in beer production. For example, the aqueous solution is transferred to a boiling pot, hops are added, and the water is boiled. Hops may be mixed at any stage from the start of boiling to before the end of boiling. The boiled aqueous solution is transferred to a sedimentation tank called a whirlpool, and after removing hop residue and insoluble matter generated by boiling, it is cooled to an appropriate fermentation temperature with a plate cooler. A pre-fermentation liquid is obtained by the above boiling operation.

The pre-fermentation liquid is then fermented. Fermentation may be performed according to a conventional method. For example, the cooled saccharified liquid is inoculated with beer yeast, transferred to a fermentation tank, and fermented. The type of yeast ingested in the pre-fermentation liquid is selected in consideration of the desired flavor.

The amount of yeast to be inoculated into the pre-fermentation liquid varies depending on the fermentation conditions, but it is 5×10 ⁶ to 50×10 ⁶ , preferably 10×10 ⁶ to 45×10 ⁶ , more preferably 10×10 6 to 45×10 6 per 1 ml of pre-fermentation liquid. It is preferably selected from the range of 15×10 ⁶ to 40×10 ⁶ .

Fermentation temperature varies depending on fermentation conditions, but is selected from the range of 0 to 25°C, preferably 5 to 20°C, more preferably 10 to 15°C. The aroma of the resulting alcoholic beverage increases as the fermentation temperature increases. If the fermentation temperature exceeds 25°C, fermentation may not proceed normally depending on the type of yeast used.

The fermentation period varies depending on fermentation conditions, but is selected from the range of 1-20 days, preferably 2-10 days, more preferably 3-6 days.

Furthermore, as an aging step, the obtained fermented liquid is aged in a storage tank and stored under a low temperature condition of about 0° C. for stabilization. Next, as a filtration step, yeast and the like are removed by filtering the fermented liquid after maturing to obtain a low-nitrogen brewer's yeast fermented liquid.

The low nitrogen brewer's yeast fermentation broth has an alcohol concentration of 1-10%, preferably 2-8%, more preferably 4-6%.

The low-nitrogen brewer's yeast fermented liquid does not emit an unpleasant aroma, has a suppressed fermentation aroma, and has a deep brew-derived flavor and drinkability.

Since the amino nitrogen contained in the pre-fermentation liquid is assimilated by the yeast, the amino nitrogen concentration in the low-nitrogen beer yeast fermentation liquid does not exceed the amino nitrogen concentration in the pre-fermentation liquid. The amino nitrogen concentration can be measured, for example, by the ninhydrin method (Beer Brewers Association: Beer Analysis Method, 8.18 (1990)).

Also, the low-nitrogen brewer's yeast fermented liquid has a chromaticity of 3.0 EBC or less, preferably 2.0 EBC or less, more preferably 1.0 EBC or less. The chromaticity can be measured by the Analytica-EBC standard method of EBC (European Brewery Convention) or a method based thereon. EBC is a unit of chromaticity in beer analysis, and the intensity of the color of beer is numerically measured by a comparator with nine glass discs of EBC chromaticity, or based on absorbance at a wavelength of 430 nm. ).

[Alcoholic drinks]
The alcoholic beverage of the present invention is produced by mixing a low-nitrogen brewer's yeast fermented liquid, an alginic acid ester, and a collagen peptide. The alcoholic beverage of the present invention may further optionally contain additives commonly used in the field of alcoholic beverages, such as sweeteners, acidulants, vitamins, amino acids, water-soluble dietary fibers, flavors, stabilizers, emulsifiers and antifoaming agents. You may use the additive currently used. However, it is preferable that these additives do not affect the appearance of the low-nitrogen brewer's yeast fermented liquid with suppressed flavor and low color.

However, the fact that the low-nitrogen brewer's yeast fermented liquid has a deep brew-derived flavor and drinkability is a negative factor in terms of drinkability. On the other hand, for example, distilled liquor is a beverage that has only the aroma derived from raw materials and processes, so it is easy to drink but does not have a pleasant feeling.

Low-nitrogen beer yeast fermented liquid is mixed with distilled liquor to realize a flavor that has not existed in conventional alcoholic beverages, with a light taste in the latter half and easy to drink, while having a drinking response derived from brewing. can be done.

The distilled liquor to be mixed with the low-nitrogen beer yeast fermented liquid is not particularly limited as long as it contains alcohol. Distilled liquor such as tequila, gin, and shochu may also be used. As the distilled liquor used in the present invention, the alcohol concentration can be increased without significantly affecting the taste of the beverage of the present invention. Sake is preferred, and raw material alcohol is more preferred.

The mixing ratio of the low-nitrogen beer yeast fermented liquid and the distilled liquor may be adjusted as appropriate in consideration of the desired flavor. 1, preferably 2/8 to 8/2, more preferably 4/6 to 6/4.

The present invention will be described in more detail with reference to the following examples, but the present invention is not limited to these.

<Example 1>
A sugar solution having an extract concentration of 12% (w/w) and an amino nitrogen concentration of 0.1 mg/100 ml was prepared by adding sucrose and yeast extract to drinking water.

After adding a predetermined amount of hops to the obtained sugar solution, it was boiled. Then, the sugar solution was transferred to a sedimentation tank to separate and remove the precipitate, and then cooled to about 8°C. A sugar solution was added to a fermenter with a volume of 200 L, and bottom-fermenting brewer's yeast was inoculated to 30×10 ⁶ cells/ml, and fermented at 10° C. for 7 days. By adjusting the amount of sucrose and hops, and the fermentation conditions, the obtained low-nitrogen brewer's yeast fermented liquid was 20B. U.S.A. of bitterness and an alcohol concentration of 5%.

The amino nitrogen concentration of the low-nitrogen beer yeast fermentation broth was measured by the ninhydrin method (Beer Brewers Association: Beer Analysis Method, 8.18 (1990)). The result was 0.1 mg/100 ml.

EBC (European Brewery Convention) Analytica-EBC standard method was used to measure the color of the low nitrogen brewer's yeast fermentation broth. The result was 0.6 EBC.

A predetermined amount of alginate (trade name “Kimiloid BF”, manufactured by Kimika Co., Ltd.) and collagen peptide (trade name “IQOS HDL-30DR”, manufactured by Nitta Gelatin Co., Ltd.) was added to the low-nitrogen beer yeast fermented liquid. The obtained test sample was cooled to 20 ° C., and a standard glass (inner diameter 60 mm, height 120 mm). The foaming state of the foam generated at the top of the glass was visually evaluated by four well-trained panelists specializing in beer. The evaluation criteria were as follows.

(fineness of foam)
5: Very fine texture 4: Fine texture 3: Somewhat fine texture 2: Slightly coarse 1: Coarse 5 points for the fineness of the foam corresponding to commercially available beer.

(foam retention)
5: Very good foam retention 4: Good foam retention 3: Somewhat good foam retention 2: Slightly poor foam retention 1: Poor foam retention The foam retention corresponding to commercial beer was given 5 points.

Next, regarding the flavor of each test product, four well-trained panelists specializing in beer evaluated the presence or absence of flavor change due to the addition of one or more of alginate and collagen peptide. The evaluation criteria were as follows.

(flavor change)
5: very strong 4: strong 3: somewhat strong 2: somewhat weak 1: weak

The foaming state and sensory evaluation results are shown below.

[Table 1]

In a test product with an added amount of alginate of 3 to 15 mg/100 ml and a collagen peptide of 40 to 120 mg/100 ml, there was no change in flavor derived from at least one of alginate and collagen peptide, and the fineness of the foam was improved. And good results of foam retention were obtained.

In the test sample with an added amount of alginate of 3 to 15 mg/100 ml and a collagen peptide of 40 to 120 mg/100 ml, there was no color change or flavor change derived from one or more of alginate and collagen peptide, and foaming was observed. The fineness of the foam and good foam retention were obtained.

Claims (6)

An alcoholic beverage containing an alginic acid ester and a collagen peptide and containing a brewer's yeast fermented liquid having a chromaticity of 3.0 EBC or less. The alcoholic beverage according to claim 1, wherein the concentration of alginate is 3-15 mg/100 ml. 3. The alcoholic beverage according to claim 1, wherein the concentration of collagen peptide is 40-120 mg/100 ml. The alcoholic beverage according to any one of claims 1 to 3, which has an amino nitrogen concentration of 0.3 mg/100 ml or less. The alcoholic beverage according to any one of claims 1 to 4, which does not contain pigments. The alcoholic beverage according to any one of claims 1 to 5, further comprising distilled liquor.