JP2021013350A - Beer taste beverage, and method for producing beer taste beverage - Google Patents

Abstract

To provide a beer taste beverage that does not substantially use hop, wherein the beer taste beverage keeps a malt ratio at a fixed level or more but yet does not give a thick, heavy taste and gives a refreshing aftertaste.SOLUTION: A beer taste beverage contains an iso α acid content of 0.1 mass ppm or less, a total nitrogen content of 40-200 mg/100 mL, a total polyphenol content of 30-180 mass ppm, and a tartaric acid content of 30-450 mg/L.SELECTED DRAWING: None

Description

The present invention relates to a beer-taste beverage and a method for producing a beer-taste beverage.

Malt and hops are used as the main ingredients in beer-taste beverages such as general beer and low-malt beer. By using malt as a raw material, it is possible to produce a beverage rich in umami and taste derived from malt. Further, by using hops as a raw material, it is possible to produce a beverage having a rich flavor due to the bitterness, astringency and other flavors peculiar to hops.
However, in recent years, the number of consumers who do not like the bitterness and astringency derived from hops has increased, and it is said that the consumption of beer-taste beverages is sluggish. Development of beer-taste beverages that do not use hops as raw materials is also underway, but if hops are not used, the flavor of malt will stand out and the mouth will be heavy and heavy (Japanese Patent Laid-Open No. 2017-6077). (Patent Document 1)).

Therefore, by lowering the ratio of malt used as a raw material, it is possible to improve the heavy taste caused by the flavor of malt, but the beer-like taste derived from malt is reduced. In addition, lowering the proportion of malt increases the possibility of fermentation failure due to lack of nitrogen source in the fermentation process.

JP-A-2017-6077

In beer-taste beverages that do not substantially use hops, there is a demand for beer-taste beverages that maintain a certain level of malt ratio, do not give a heavy and heavy taste, and have a refreshing aftertaste.

The present invention provides a beer-taste beverage that does not substantially contain iso-alpha acid and has a total nitrogen content, total polyphenol content, and tartaric acid content within a predetermined range.

The present invention includes the following aspects of the invention.
[1]
Beer taste with an iso-alpha acid content of 0.1 mass ppm or less, a total nitrogen content of 40-200 mg / 100 mL, a total polyphenol content of 30-180 mass ppm, and a tartaric acid content of 30-450 mg / L. Beverage.
[2]
The total nitrogen content is 57-178 mg / 100 mL.
The beer-taste beverage according to [1], wherein the total amount of polyphenols is 52 to 163 parts by mass.
[3]
The beer-taste beverage according to [1] or [2], wherein the raw wort extract (O-Ex) concentration is 5 to 18% by mass.
[4]
The beer-taste beverage according to any one of [1] to [3], wherein the total nitrogen amount (mg / 100 mL) / total polyphenol amount (mass ppm) is 0.2 to 3.0.
[5]
The beer-taste beverage according to any one of [1] to [4], wherein at least a part of nitrogen or polyphenol is derived from malt.
[6]
The method for producing a beer-taste beverage according to any one of [1] to [5].
A method for producing a beer-taste beverage, which comprises a step of adding yeast to a raw material containing water and malt to perform alcoholic fermentation.
[7]
The method for producing a beer-taste beverage according to [6], which does not include a step of blending hops.
[8]
The method for producing a beer-taste beverage according to [6] or [7], wherein the malt ratio is 40% by mass or more.
[9]
The method for producing a beer-taste beverage according to any one of [6] to [8], further comprising a step of blending one or more selected from the group consisting of raw materials capable of assimilating yeast.
[10]
The method for producing a beer-taste beverage according to any one of [6] to [9], further comprising a step of adding spirits derived from grains.

According to a preferred embodiment of the present invention, a beer-taste beverage having a refreshing aftertaste is provided, which is substantially free of hops, maintains a malt ratio, does not have a heavy mouthfeel, and has a clean aftertaste.

1. 1. Beer-taste beverage The beer-taste beverage of the present invention has an iso-alpha acid content of 0.1 mass ppm or less, a total nitrogen content of 40 to 200 mg / 100 mL, a total polyphenol content of 30 to 180 mass ppm, and a tartaric acid content. It is a beer-taste beverage with an amount of 30 to 450 mg / L.

As used herein, the term "beer-taste beverage" refers to an alcohol-containing or non-alcoholic carbonated beverage having a beer-like flavor. That is, the beer-taste beverage of the present specification includes any carbonated beverage having a beer flavor, unless otherwise specified. Therefore, it is not limited to beverages produced by adding yeast to wort and fermenting them, but also esters, higher alcohols (for example, isoamyl acetate, ethyl acetate, n-propanol, isobutanol, acetaldehyde, ethyl caproate), linalol. Also includes carbonated beverages to which beer fragrances including 4-vinyl guay acol and the like have been added.
The beer taste beverage of the present invention is preferably a fermented beer taste beverage obtained through a fermentation step, preferably a fermented malt beer taste beverage, a fermented barley malt beer taste beverage, a malt-based beer taste beverage, and a barley malt-based beer taste beverage. In addition, the beer-taste beverage of the present invention is preferably a distilled liquor-containing beer-taste beverage or a spirits-containing beer-taste beverage containing distilled liquor such as spirits.
Examples of the type of beer-taste beverage according to one aspect of the present invention include alcohol-containing beer-taste beverages, beer-taste beverages having an alcohol content of less than 1 (v / v)%, and the like.

The beer-taste beverage of the present invention limits the content of iso-alpha acid to 0.1 mass ppm or less. Iso-alpha acid is a bitter component that is abundant in hops. That is, a beer-taste beverage having an iso-alpha acid content of 0.1 mass ppm or less is a beer-taste beverage that "substantially contains no components derived from hops".
In addition, in this specification, "substantially free of hop-derived components" means that neither hops nor hop-derived components are positively added as raw materials when producing beer-taste beverages. This means that hop-derived components are inevitably mixed in during the production of beer-taste beverages.
In addition, whether or not hops and ingredients derived from hops are actively added as raw materials for beer-taste beverages depends on the Liquor Tax Law, Food Labeling Law, Food Sanitation Law, JAS Law, Freebie Labeling Law, Health Promotion Law, or It can also be confirmed from the raw material labeling set by the rules and voluntary standards set by industry groups. For example, when hops and components derived from hops are included, the raw material name on the raw material display is written as "hop". On the other hand, in a beer-taste beverage that "substantially contains no ingredients derived from hops", "hop" is not written in the raw material name of the raw material display.

In order to suppress the flavor of malt, it is possible to provide a beer-taste beverage in which the total nitrogen amount and the total polyphenol amount are controlled within a certain range by suppressing the malt ratio of the raw material, but such a beer-taste beverage has a bitter taste. Becomes more noticeable. The beer-taste beverage of the present invention is a beer-taste beverage having an excellent flavor because the content of iso-alpha acid, which is abundant in hops, is limited to 0.1 mass ppm or less and contains a certain amount of tartaric acid. ..
From the above viewpoint, in the beer-taste beverage of one aspect of the present invention, the content of iso-alpha acid is 0.1% by mass or less based on the total amount (100% by mass) of the beer-taste beverage, but is preferably 0. It is 0.05 mass ppm or less, more preferably 0.01 mass ppm or less.
In this specification, the content of iso-alpha acid is described in the revised BCOJ beer analysis method (published by the Brewing Society of Japan, edited by the International Technical Committee of the Brewing Society of Japan [Analysis Committee], revised in 2013). It means a value measured by a high performance liquid chromatography (HPLC) analysis method.

The total nitrogen content of the beer-taste beverage of the present invention is 40 to 200 mg / 100 mL. The "total nitrogen amount" in the present invention is the total amount of all nitrogen compounds such as proteins and amino acids.
The total amount of nitrogen affects the response to drinking, the thickness of the taste, the taste, etc. By setting the total amount of nitrogen to 40 mg / 100 mL or more, it is possible to respond to drinking and improve the thickness and taste of the taste. From the viewpoint of further improving these, the total nitrogen amount is preferably 45 mg / 100 mL or more, more preferably 50 mg / 100 mL or more, further preferably 55 mg / 100 mL or more, further preferably 57 mg / 100 mL or more, further preferably 65 mg / 100 mL or more. 70 mg / 100 mL or more is particularly preferable.
On the other hand, if the total amount of nitrogen is large, the mouth of the beverage becomes heavy. Therefore, by setting the total nitrogen content of the beverage of the present invention to 200 mg / 100 mL or less, the mouth becomes lighter. From the viewpoint of further improving these, the total nitrogen amount is preferably 190 mg / 100 mL or less, more preferably 180 mg / 100 mL or less, more preferably 178 mg / 100 mL or less, further preferably 170 mg / 100 mL or less, still more preferably 160 mg / 100 mL or less. , 150 mg / 100 mL or less is particularly preferable.
The total nitrogen content of the beer-taste beverage of the present invention has a relatively high nitrogen content and can be controlled by adjusting the amount of raw materials that can be assimilated by yeast. Specifically, the total nitrogen content can be increased by increasing the amount of malt or the like having a high nitrogen content. Examples of raw materials having a high nitrogen content include malt, soybean, yeast extract, peas, and ungerminated grains. Examples of ungerminated grains include ungerminated barley, wheat, rye, oats, oats, adlay, oats, soybeans, and pea.
The total nitrogen content of the beer-taste beverage according to the present invention is described in, for example, the revised BCOJ beer analysis method (published by the Brewing Society of Japan, edited by the Brewers Association of Japan International Technical Committee [Analysis Committee], revised in 2013). It can be measured by the method used.

The total amount of polyphenols in the beer-taste beverage of the present invention is 30 to 180 mass ppm.
The polyphenol is a compound in which two or more hydrogens of aromatic hydrocarbons are substituted with hydroxyl groups. Examples of polyphenols include flavonols, isoflavones, tannins, catechins, quercetin, anthocyanins and the like.
The "total amount of polyphenols" in the present invention is the total amount of these polyphenols contained in beer-taste beverages.

The total amount of polyphenols affects the response to drinking, the thickness of the taste, the taste, and the like. By setting the total amount of polyphenols to 30 mass ppm or more, it is possible to respond to drinking and improve the thickness and taste of the taste. From the viewpoint of further improving these, the total amount of polyphenol is preferably 40 mass ppm or more, more preferably 50 mass ppm or more, more preferably 57 mass ppm or more, further preferably 60 mass ppm or more, further preferably 65 mass ppm or more. , 70 mass ppm or more is particularly preferable.
On the other hand, a beverage containing a large amount of total polyphenols has a reduced turbidity stability and a heavy mouthpiece. Therefore, the beverage of the present invention can improve the turbidity stability and the mouthpiece of the beverage by setting the total amount of polyphenols to 180 mass ppm or less. From the viewpoint of further improving these, the total amount of polyphenol is preferably 170 mass ppm or less, more preferably 163 mass ppm or less, further preferably 155 mass ppm or less, further preferably 150 mass ppm or less, further preferably 140 mass ppm or less. , 130 mass ppm or less is particularly preferable.
The total amount of polyphenols in the beer-taste beverage of the present invention can be controlled by adjusting the amount of raw materials having a high polyphenol content, such as barley malt and malt husk (grain bark). Specifically, the total amount of polyphenols can be increased by increasing the amount of raw materials such as malt having a high polyphenol content.

In general, malt with husk (grain bark) has a high nitrogen and polyphenol content, and soybean, yeast extract, wheat, wheat malt and the like have a high nitrogen content but a low polyphenol content. Therefore, the total amount of nitrogen and the total amount of polyphenols in the beer-taste beverage can be increased or decreased by adjusting the blending ratio of the raw materials. Hereinafter, typical methods (1) to (4) for increasing or decreasing the total amount of nitrogen and the total amount of polyphenols are listed.
(1) Increase the total nitrogen content and total polyphenol content of beer-taste beverages by increasing the amount of malt containing husk.
(2) By increasing or decreasing the amount of soybean, yeast extract, etc. used, the total amount of nitrogen in the beer-taste beverage is increased or decreased while maintaining the total amount of polyphenols.
(3) By increasing the amount of malt with husk and reducing the amount of soybean, yeast extract, etc., the total amount of polyphenols is increased while maintaining the total nitrogen amount.
(4) By reducing the amount of malt with husk and increasing the amount of soybean, yeast extract, etc., the total amount of polyphenols is reduced while maintaining the total nitrogen amount.

The total amount of polyphenols in the beer-taste beverage of the present invention is described in, for example, the revised BCOJ beer analysis method (published by the Brewing Society of Japan, edited by the Brewers Association of Japan International Technical Committee [Analysis Committee], revised in 2013). It can be measured by the method used.

In the beer-taste beverage of the present invention, if the total amount of nitrogen is too large with respect to the total amount of polyphenols, the mouthpiece becomes heavy, and if it is too small, it becomes watery. Therefore, the total nitrogen amount (mg / 100 mL) / total polyphenol amount (mass ppm), which is the ratio of the total nitrogen amount to the total polyphenol amount in the beer-taste beverage of the present invention, is preferably 0.2 to 3.0. , 0.25 to 2.8, more preferably 0.3 to 2.7, even more preferably 0.35 to 2.6, 0.4 to 2.5. Is more preferable, and 0.5 to 2.4 is particularly preferable.

The content of tartaric acid in the beer-taste beverage of the present invention is 30 to 450 mg / L.
Tartaric acid can impart a lingering taste to the aftertaste of beer-taste beverages, and can also impart ease of drinking, a refreshing aftertaste that is typical of beer, and the like. In particular, beer-taste beverages with an iso-alpha acid content of 0.1 mass ppm or less are less likely to feel the unique bitterness derived from hops, and beer-taste beverages containing a certain amount of total nitrogen and total polyphenols have a malt flavor. Since it is easy to stand out, a certain amount of tartrate can effectively give a refreshing aftertaste like beer. Therefore, the content of tartaric acid in the beer-taste beverage of the present invention is preferably 35 mg / L or more, more preferably 40 mg / L or more, further preferably 45 mg / L or more, and particularly preferably 55 mg / L or more.
On the other hand, from the viewpoint of making a beer-taste beverage having a moderate acidity, the content of tartaric acid in the beverage of the present invention is preferably 450 mg / L or less, more preferably 420 mg / L or less, further preferably 380 mg / L or less, and 350 mg / L. The following is further preferable, 320 mg / L or less is further preferable, and 290 mg / L or less is particularly preferable.
The content of tartaric acid in the beer-taste beverage of the present invention can be controlled, for example, by adjusting the amount of tartaric acid or a raw material having a high content of tartaric acid.
The beer-taste beverage of the present invention may contain an organic acid other than tartaric acid.

The tartaric acid content of the beer-taste beverage of the present invention can be measured, for example, by high performance liquid chromatography.

The beer-taste beverage of the present invention includes a non-alcoholic beer-taste beverage. The alcohol content of the beer-taste beverage of the present invention is not limited, preferably 0-20 (v / v)%, more preferably 1-15 (v / v)%, still more preferably 2-12 (v / v). %, More preferably 3-10 (v / v)%, and particularly preferably 4-9 (v / v)%.
In addition, in this specification, the alcohol content is expressed as a volume / volume-based percentage (v / v%). The alcohol content of the beverage can be measured by any known method, for example, by a vibrating densitometer.

In addition, the beer-taste beverage of one aspect of the present invention may further contain spirits derived from grains as an alcohol component.
In the present specification, spirits are obtained by using grains such as wheat, rice, buckwheat, and corn as raw materials, saccharifying them with malt or, if necessary, an enzyme agent, fermenting them with yeast, and then further distilling them. Means liquor. As the grain that is the raw material of spirits, wheat is preferable.

The color of the beer-taste beverage of one aspect of the present invention is not particularly limited, but may be amber or golden like ordinary beer, black like black beer, or colorless and transparent, or a colorant. Etc. may be added to give a desired color. The color of the beer-taste beverage can be discriminated with the naked eye, but may be defined by the total light transmittance, chromaticity, or the like.

The pH of the beer-taste beverage of one aspect of the present invention is not particularly limited, but is preferably 2.0 to 4.6, more preferably 2.5 to 4.5, and even more preferably 3.0 to 3.0. It is 4.2, and particularly preferably 3.2 to 4.0. Since the beer-taste beverage of the present invention contains 0.1% by mass or less of iso-alpha acid having a bacteriostatic effect, there is a risk that microorganisms will be generated and proliferated. Therefore, in order to suppress the generation and growth of microorganisms, the pH of the beer-taste beverage is preferably 4.5 or less, and more preferably 4.0 or less. Further, if the pH of the beer-taste beverage of the present invention is 2.0 or more, the flavor of the beverage is likely to be improved.
The pH of the beer-taste beverage containing alcohol is preferably 3.0 to 4.5, more preferably 3.0 to 4.0, and particularly preferably 3.2 to 3.8. The pH of the non-alcoholic beer-taste beverage is preferably less than 4.0, more preferably 3.8 or less.

The raw wort extract (O-Ex) concentration of the beer-taste beverage of one aspect of the present invention is not particularly limited, but from the viewpoint of imparting a light taste to the beer-taste beverage, the beer-taste beverage containing alcohol is used. It is preferably 5 to 18% by mass, more preferably 8 to 15% by mass, still more preferably 9 to 14% by mass, and particularly preferably 10 to 13.5% by mass.
The "raw wort extract concentration" in the present specification refers to the extract content under the Japanese Liquor Tax Law in beverages having an alcohol content of 1 (v / v)% or more, that is, in a raw volume of 100 cm ³ at a temperature of 15 ° C. The number of grams of non-volatile components contained in the beer, and for beverages with an alcohol content of less than 1 (v / v)%, the degassed sample is analyzed by the Brewers Association of Japan International Technical Committee (BCOJ) analysis method (BOCJ beer). The extract value (mass%) measured according to the analytical method (fermented by the Japan Brewing Association, edited by the Brewers Association of Japan, revised on November 1, 2004).

The beer-taste beverage of one aspect of the present invention is suitable for the packaging aspect. Examples of the container include bottles, PET bottles, cans, or barrels, but cans, bottles, and PET bottles are preferable from the viewpoint of being particularly easy to carry.
When using colorless and transparent bottles and PET bottles, they are exposed to sunlight and fluorescent light, unlike the case of ordinary cans and colored bottles. However, since the beer-taste beverage of one aspect of the present invention does not substantially contain a component derived from hops, the generation of sunlight odor caused by irradiation with sunlight is suppressed. Therefore, the beer-taste beverage of one aspect of the present invention can be filled in such a colorless and transparent bottle or a PET bottle.

Any additive raw materials such as grains and sweeteners that can be used in the production of the beer-taste beverage of the present invention will be described in detail in "1.1 Raw Materials".

1.1 Raw materials The main raw materials for the beer-taste beverage of one aspect of the present invention are malt and water containing nitrogen, polyphenols, etc., and substantially do not use hops, but in addition, sweeteners and water-soluble foods. Fibers, bitterness agents or bitterness-imparting agents, antioxidants, flavors, acidulants and the like may be used.

Malt refers to the seeds of barley, wheat, rye, oats, oats, adlay, oats, etc. that are germinated, dried, and rooted, regardless of the origin or variety. You may. In the present invention, barley malt is preferably used. Barley malt is one of the most commonly used malts as a raw material for Japanese beer-taste beverages. There are various types of barley such as two-row barley and six-row barley, but any of them may be used. Further, in addition to normal malt, colored malt and the like can also be used. When using colored malt, different types of colored malt may be used in appropriate combinations, or one type of colored malt may be used.

In addition to malt, grains other than malt, proteins, yeast extracts, sugar solutions and the like may be used. Such grains include, for example, wheat (barley, wheat, rye, crow barley, oats, adlay, oats, etc.), rice (white rice, brown rice, etc.), sorghum, sorghum, potatoes, etc. that do not correspond to malt. , Beans (soybeans, oats, etc.), buckwheat, sorghum, barley, adlay, starch obtained from them, extracts (extracts) of these, and the like. Examples of the protein include soybean protein, pea protein, yeast extract, and decomposition products thereof.

Malt contains nitrogen compounds and polyphenols. Therefore, in the present invention, it is preferable to set the ratio of malt in the raw material to a certain range in order to keep the total nitrogen amount and the total polyphenol amount of the beer-taste beverage of the present invention within the range specified in the present invention. .. Specifically, the malt ratio is preferably 40% by mass or more, more preferably 42 to 100% by mass, further preferably 45 to 90% by mass, and further preferably 50 to 80% by mass. It is preferably 50 to 70% by mass, and particularly preferably 50 to 70% by mass. By setting the malt ratio within the above range, a beer-taste beverage having a beer-like taste derived from malt can be produced.
In this specification, the malt ratio means a value calculated on April 1, 2018 in accordance with the Liquor Tax Law on the construction date and the notification of interpretation of liquor administration related laws and regulations.

When suppressing the ratio of malt, it is preferable to increase the amount of raw materials (carbon source, nitrogen source) other than malt that can be assimilated by yeast. Examples of carbon sources of raw materials that yeast can assimilate include monosaccharides, disaccharides, trisaccharides, and their sugar solutions, and nitrogen sources include yeast extract, soybean protein, malt, soybean, yeast extract, pea, and wheat. Examples include malt, ungerminated grains, and decomposition products thereof. Examples of ungerminated grains include ungerminated barley, wheat, rye, oats, oats, adlay, oats, soybeans, and pea. In particular, when sugar is used as a raw material, the aroma of malt-derived wheat can be effectively suppressed.

As the tartaric acid contained in the beer-taste beverage of one aspect of the present invention, tartaric acid contained in the raw material may be used, or tartaric acid or an additive containing tartaric acid may be added.

Examples of sweeteners include commercially available saccharified liquids obtained by decomposing grain-derived starch with acid or enzyme, commercially available sugars such as starch syrup, sugars of trisaccharides or higher, sugar alcohols, natural sweeteners such as stevia, and artificial sweeteners. Can be mentioned.
The form of these saccharides may be a liquid such as a solution or a solid such as a powder.
In addition, there are no particular restrictions on the type of starch raw material grain, the method for purifying starch, and the treatment conditions such as hydrolysis with enzymes or acids. For example, a saccharide having an increased proportion of maltose may be used by appropriately setting the conditions for hydrolysis with an enzyme or acid. In addition, sucrose, fructose, glucose, maltose, trehalose, maltotriose, and solutions thereof (sugar solution) can also be used.
Examples of the artificial sweetener include aspartame, acesulfame potassium (acesulfame K), sucralose, neotame and the like.

Examples of the water-soluble dietary fiber include indigestible dextrin, polydextrose, guar gum decomposition product, pectin, glucomannan, alginic acid, laminarin, fucoidin, carrageenan, etc. from the viewpoint of versatility such as stability and safety. , Indigestible dextrin or polydextrose is preferred.

The bitterness agent or bitterness-imparting agent used is not particularly limited as long as the content of isoα-acid, which is one of the bitterness components contained in a large amount in hops, is 0.1% by mass or less, and for example, mannenrose, Reishi, Himekaka, Morimatsu Minoru, Sage, Caraway, Mannentake, Laurel, Quassin, Citrus extract, Nigaki extract, Coffee extract, Tea extract, Bitter gourd extract, Rosemary extract, Kidachi aloe extract, Examples thereof include rosemary extract, reishi extract, laurel extract, sage extract, caraway extract, naringin, bitterness and bitterness extract.

The antioxidant is not particularly limited, and those used as an antioxidant in ordinary beer and low-malt beer can be used, and examples thereof include ascorbic acid, erythorbic acid, and catechin.

The fragrance is not particularly limited, and a general beer fragrance can be used. The beer flavor is used for beer-like flavoring and contains brewing components and the like generated by fermentation. Specific examples of beer flavors include esters and higher alcohols, and more specific examples include isoamyl acetate, n-propanol, isobutanol, acetaldehyde and the like.

The acidulant is not particularly limited as long as it is a substance having a sour taste, and for example, phosphoric acid, citric acid, gluconic acid, lactic acid, malic acid, phytic acid, acetic acid, succinic acid, gluconodeltalactone or salts thereof can be used. Can be mentioned.
Among these acidulants, phosphoric acid, citric acid, gluconic acid, lactic acid, malic acid, phytic acid, acetic acid, succinic acid or salts thereof are preferable, and phosphoric acid, citric acid, lactic acid, acetic acid or salts thereof are more preferable. preferable.
These acidulants may be used alone or in combination of two or more.

1.2 Carbon dioxide gas The carbon dioxide gas contained in the beer-taste beverage of one aspect of the present invention may be carbon dioxide gas contained in the raw material, or may be dissolved by mixing with carbonated water or adding carbon dioxide gas. You may.
Since the beer-taste beverage of one aspect of the present invention undergoes alcoholic fermentation, carbon dioxide gas generated in this fermentation step can be used as it is, but carbonated water may be appropriately added to adjust the amount of carbon dioxide gas. ..

The amount of carbon dioxide gas contained in the beer-taste beverage of one aspect of the present invention is represented by the carbon dioxide gas pressure of the beverage, but this is not particularly limited as long as the effect of the present invention is not impaired. Typically, the upper limit of the carbon dioxide gas pressure of the beverage is ^{5.0kg / cm 2, 4.5kg / cm} 2 or 4.0 kg / cm ^2,, the lower limit is 0.20kg ^/ cm 2, 0.50kg ^/ It is cm ² or 1.0 kg / cm ² , and any of these upper and lower limits may be combined. For example, carbon dioxide gas pressure of the beverage, 0.20 kg / cm ² or more 5.0 kg / cm ² or less, 0.50 kg / cm ² or more 4.5 kg / cm ² or less, or, 1.0 kg / cm ² or more 4. It may be 0 kg / cm ² or less.
In the present specification, the gas pressure means the gas pressure in the container except for special cases.
The pressure is measured by a method well known to those skilled in the art, for example, after fixing a sample at 20 ° C to a gas internal pressure gauge, the stopcock of the gas internal pressure gauge is opened once to release the gas, the stopcock is closed again, and the gas internal pressure gauge is measured. It can be measured by using a method of swinging and reading the value when the pointer reaches a certain position, or by using a commercially available gas pressure measuring device.

1.3 Other Additives In the beer-taste beverage of one aspect of the present invention, various additives may be added as needed, as long as the effects of the present invention are not impaired.
Examples of such additives include colorants, foam-forming agents, fermentation accelerators, yeast extracts, protein-based substances such as peptide-containing substances, and seasonings such as amino acids.
The colorant is used to give a beer-like color to a beverage, and a caramel color or the like can be used. Foam-forming agents are used to form beer-like foam in beverages or to retain foam in beverages, and are plant-extracted saponin-based substances such as soybean saponin and kiraya saponin, and plants such as corn and soybean. Proteins, peptide-containing substances, protein-based substances such as bovine serum albumin, yeast extracts and the like can be appropriately used.
The fermentation accelerator is used to promote fermentation by yeast, and for example, yeast extract, bran components such as rice and wheat, vitamins, mineral agents and the like can be used alone or in combination.

1.4 Packaged Beverage The beer-taste beverage of one aspect of the present invention may be a packaged beverage packed in a container. A container of any form and material may be used for the packaged beverage, and examples of the container include bottles, cans, barrels, and PET bottles, but from the viewpoint of being particularly easy to carry, cans and cans. Bottles and PET bottles are preferred.

2. 2. Method for producing beer-taste beverage The method for producing a beer-taste beverage according to one aspect of the present invention is not particularly limited, but is a step (1) of adding yeast to a raw material containing water and malt to perform alcoholic fermentation, and containing tartrate acid. It is preferable to have a step (4) of adjusting the amount, and even if it has a step (2) of blending one or more raw materials capable of assimilating yeast and a step (3) of adding spirits derived from grains. Good.
-Step (1): A step of adding yeast to a raw material containing water and malt to perform alcoholic fermentation.
-Step (2): A step of blending one or more raw materials that can be assimilated by yeast.
-Step (3): A step of adding spirits derived from grains.
-Step (4): A step of adjusting the content of tartaric acid.

The order of the above steps (1) to (4) is not particularly limited, but as step (2), after preparing a raw material before fermentation by blending a raw material capable of assimilating yeast together with water and malt, As the step (1), it is preferable to carry out alcoholic fermentation on a raw material containing a raw material that can be assimilated by yeast.
Similarly, with respect to the step (3), the order in which each step is performed is not particularly limited. For example, the compounding of each component performed in the step (3) is used as a raw material before fermentation before the step (1). It may be carried out against the raw material after fermentation after the step (1).
Similarly, in the step (4), the order in which each step is performed is not particularly limited. For example, the adjustment of the tartaric acid content performed in the step (4) can be used as a raw material after fermentation after the step (1). However, it is preferable that the step (4) is performed last. Specifically, a beer-taste-based beverage is produced based on steps other than step (4) (for example, steps (1) to (3)), and the content of tartaric acid in the base beverage based on step (4). It is preferable to adjust.
Since the beer-taste beverage of the present invention does not substantially contain iso-alpha acid, if a certain amount or more of yeast is contained, the flavor is likely to be adversely affected. Therefore, in the production method of the present invention, it is preferable to remove yeast by a filtration step. The order of the filtration steps is not particularly limited, but it is preferably performed between the steps (2) and (3).
Further, the production method of the present invention preferably does not include a step of blending hops, but a beverage obtained without using hops having a bacteriostatic effect has a risk of developing and multiplying microorganisms. Therefore, the production method of the present invention preferably has a sterilization step in order to suppress the generation and growth of microorganisms. The order of the sterilization steps is not particularly limited, but it is preferably performed after the step (4). The sterilization step is preferably carried out by heating.

It is preferable that the method for producing a beer-taste beverage according to one aspect of the present invention does not include a step of blending hops. Even if the production method of the present invention does not include the step of blending hops, it does not exclude the aspect of unavoidably mixing. The malt ratio of the production method of the present invention is not particularly limited, but is preferably 40% by mass or more, more preferably 42 to 100% by mass, further preferably 45 to 90% by mass, and 50 to 80%. It is more preferably mass%, and particularly preferably 50 to 70 mass%.

<Process (1)>
Step (1) is a step of adding yeast to a raw material containing water and malt to perform alcoholic fermentation.
As a method for preparing raw materials, the raw materials are put into a charging kettle or a charging tank, enzymes such as amylase are added as necessary, gelatinization and saccharification are performed, filtration is performed, and the protein is coagulated in a clarification tank. Remove solids such as. After that, yeast can be further added and fermented, the yeast can be removed by a filter or the like, and if necessary, additives such as water, a fragrance, an acidulant, and a pigment can be added to prepare a raw material.
An antioxidant, a bitterness-imparting agent, a fragrance, an acidulant, a pigment, etc. may be added in a predetermined amount after the fermentation step, but they may be added at any time during the manufacturing process including the gelatinization / saccharification step. Also, the timing of addition is not limited.

The yeast used in this step can be appropriately selected in consideration of the type of fermented beverage to be produced, the desired flavor, fermentation conditions, etc., and in the production of the beverage of the present invention, the top-fermenting yeast is also the bottom-fermenting yeast. Can also be used, and commercially available yeast such as Weihenstephan-34 strain (bottom fermentation yeast) can be used.
Yeast may be added to the raw material as a yeast suspension, or a slurry in which yeast is concentrated by centrifugation or sedimentation may be added to the raw material. Further, after centrifugation, a product from which the supernatant has been completely removed may be added. The amount of yeast added to the stock solution can be appropriately set, and is, for example, about 5 × 10 ⁶ cells / mL to 1 × 10 ⁸ cells / mL.

Various conditions such as fermentation temperature and fermentation period when alcoholic fermentation can be performed can be appropriately set. For example, fermentation conditions for the production of ordinary beer and low-malt beer, 8 to 25 ° C., 5 to 5 Fermentation may be carried out under the conditions of 10 days. The temperature (increasing or decreasing temperature) or pressure of the fermentation broth may be changed during the fermentation process.
The beer-taste beverage of the present invention has an iso-alpha acid content of 0.1 mass ppm or less, a total nitrogen content of 40 to 200 mg / 100 mL, and a total polyphenol content of 30 to 180 mass ppm, and is controlled within such a range. Thereby, a beer-like taste derived from malt can be imparted.

After the fermentation step, steps such as a liquor storage step and a filtration step that are carried out in the production of beer-taste beverages well known to those skilled in the art may be carried out.

<Steps (2), (3)>
Step (2) is a step of blending one or more raw materials that can be assimilated by yeast. As the raw material that yeast can assimilate in the step (2), it is a raw material other than malt that is a nitrogen source and a carbon source, and for example, pea, corn, rice, soybean, yeast extract and the like can be used. It is also possible to use raw materials other than these. In addition, since these raw materials also affect the taste and aroma of the beer-taste beverage, it is preferable to appropriately select them according to the taste of the drinker.
Further, the step (3) is a step of adding spirits derived from grains.

<Process (4)>
Step (4) is a step of adjusting the content of tartaric acid.
The beer-taste beverage of the present invention is preferably adjusted so that the content of tartaric acid is within the above range, and such a beverage can be produced by carrying out a step including step (4). .. Here, when the content is suitable for the tartaric acid derived from the raw material, it is not necessary to further add tartaric acid. On the other hand, in step (4), tartaric acid or an additive containing tartaric acid may be added to adjust the content of tartaric acid in the beer-taste beverage.

In the steps (2) to (4), the components to be blended in each step may be blended with the raw material before fermentation or with the raw material after fermentation. Further, it may be added at one time, or may be added in a plurality of times.
In addition, raw materials and spirits that can be assimilated by yeast may be blended at the same time, and steps (2) to (4) may be performed at the same time.
Further, when the steps (2) to (4) are performed, other additives may be added at the same time.

The beer-taste beverage of one aspect of the present invention thus obtained is filled in a predetermined container and distributed as a product on the market.
The method for bottling beer-taste beverages is not particularly limited, and a bottling method well known to those skilled in the art can be used. By the containerging step, the beer-taste beverage of the present invention is filled and sealed in a container. A container of any form and material may be used in the containerging step, and examples of the container include the container described in "1.4 Containerized Beverage".

Hereinafter, the present invention will be described in more detail with reference to Examples and the like, but the present invention is not limited to these Examples.
In addition, in the examples, the raw wort extract concentration, total nitrogen content, total polyphenol content, and iso-alpha acid content are determined by the revised BCOJ beer analysis method (published by the Brewing Society of Japan, International Technical Committee of the Brewing Society of Japan [ Analysis Committee] Measured based on the method described in (edited 2013 supplementary revision).

Evaluation of the ease of drinking beer-taste beverages and the taste of beer-like wheat (Test Examples 1 to 4)
The crushed barley malt was put into a charging tank containing 120 L of warm water, and then the temperature was gradually raised and held, and the malt cake was removed by filtration. After that, the raw material solution was put into a boiling pot, and sugar solution and hops were added so as to have a specified malt ratio (sugar solution was not used in Test Examples 1 and 2, and hops were not used in Test Examples 2 and 4). ), Adjusted to 100 L with warm water to obtain hot wort. The hot wort was cooled and aerated with oxygen to obtain 60 L of the pre-fermentation liquid before the addition of yeast. The malt ratio and the amount of hops used are shown in Table 1.

The pre-fermentation liquid thus obtained is boiled and then cooled, and then brewer's yeast (bottom-fermented yeast) is added to the obtained fermentation mash and fermented for about 1 week, and then aged for about 1 week. After a period of time, yeast was removed by filtration and extract-adjusted water was added to prepare a beer-taste beverage.
The total nitrogen content, total polyphenol content, and iso-α powder content in the beer-taste beverage thus obtained are as shown in Table 1, and the pH was less than 4.0 in each case.

In addition, the evaluation of the obtained beer-taste beverages was carried out by the same six panelists who tasted each beverage as follows.

[Easy to drink]
Each panelist tasted a beer-taste beverage cooled to about 4 ° C., and evaluated the ease of drinking on a two-point scale of "easy to drink" and "not easy to drink". Before the evaluation of "ease of drinking", a sample of a beverage that is easy to drink and a sample of a beverage that is not easy to drink were prepared in advance, and the standards were unified among the panelists.

[Beer-like taste of wheat]
Each panelist tasted a beer-taste beverage cooled to about 4 ° C., and evaluated the "beer-like taste of wheat" on a two-point scale of "yes" and "no". Before the evaluation of "beer-like wheat taste", prepare a sample of a beverage evaluated to have a beer-like wheat taste and a sample of a beverage evaluated to have no beer-like wheat taste, and each panelist We tried to unify the standards among them.

As shown in Table 1, when comparing Test Examples 1 and 2 having a malt ratio of 100% by mass, both of them have a beer-like wheat taste, but the beverage of Test Example 1 using hops is not easy to drink. Met.
In addition, the beverages of Test Examples 2 to 4 that did not use hops were evaluated to be easy to drink. Comparing these test examples, when the malt ratio is lowered to 20% by mass in the beer-taste beverage, the taste of beer-like wheat disappears, but in Test Examples 1 and 2 having malt ratios of 100% by mass and 45% by mass. The beverage was a beverage that had both ease of drinking and a beer-like malt taste.
From the results shown in Table 1, when the total nitrogen content and the total polyphenol content are controlled within the predetermined ranges in a beer-taste beverage that does not substantially contain iso-alpha acid, it is easy to drink without bitterness and the taste of beer-like wheat. It turned out that both can be achieved. However, the beer-taste beverages of Test Examples 1 to 4 had a prominent malt flavor and had a heavy and heavy mouth, and lacked a refreshing aftertaste typical of beer-taste beverages.

Sensory evaluation of beer-taste beverages (Examples 1 to 3, Comparative Examples 1 and 2)
The crushed barley malt was put into a charging tank containing 120 L of warm water, and then the temperature was gradually raised and held, and the malt cake was removed by filtration. Then, the raw material liquid was put into a boiling pot and adjusted to 100 L with warm water to obtain hot wort. The hot wort was cooled and aerated with oxygen to obtain 60 L of the pre-fermentation liquid before the addition of yeast.

The pre-fermentation liquid thus obtained is boiled and then cooled, and then brewer's yeast (bottom-fermented yeast) is added to the obtained fermentation mash and fermented for about 1 week, and then aged for about 1 week. After a period of time, yeast was removed by filtration, and extract-adjusted water and tartrate acid were added to prepare a beer-taste beverage. The beverage thus obtained was packed in a container and then sterilized by heating.
The total nitrogen content, total polyphenol content, isoα powder content and raw wort extract concentration in the obtained beer-taste beverage were as shown in Table 2, and the pH was less than 4.0 in each case.

Sensory evaluation of beer-taste beverages (Examples 4 to 6, Comparative Examples 3 and 4)
The crushed barley malt was put into a charging tank containing 120 L of warm water, and then the temperature was gradually raised and held, and the malt cake was removed by filtration. Then, the raw material solution was put into a boiling pot, a sugar solution was added so that the malt ratio was 70% by mass, and the mixture was adjusted to 100 L with warm water to obtain hot wort. The hot wort was cooled and aerated with oxygen to obtain 60 L of the pre-fermentation liquid before the addition of yeast.

The pre-fermentation liquid thus obtained was treated in the same manner as in Examples 1 to 3 to prepare a beer-taste beverage. The beverage thus obtained was packed in a container and then sterilized by heating.
The total nitrogen content, total polyphenol content, isoα powder content and raw wort extract concentration in the obtained beer-taste beverage were as shown in Table 3, and the pH was less than 4.0 in each case.

Sensory evaluation of beer-taste beverages (Examples 7-9, Comparative Examples 5 and 6)
The crushed barley malt and the proteolytic enzyme were put into a charging tank containing 120 L of warm water, and then the temperature was gradually raised and maintained, and the malt lees were removed by filtration. Then, the raw material solution was put into a boiling pot, a sugar solution was added so that the malt ratio was 45% by mass, and the mixture was adjusted to 100 L with warm water to obtain hot wort. The hot wort was cooled and aerated with oxygen to obtain 60 L of the pre-fermentation liquid before the addition of yeast.

The pre-fermentation liquid thus obtained was treated in the same manner as in Examples 1 to 3 to prepare a beer-taste beverage. The beverage thus obtained was packed in a container and then sterilized by heating.
The total nitrogen content, total polyphenol content, isoα powder content and raw wort extract concentration in the obtained beer-taste beverage were as shown in Table 4, and the pH was less than 4.0 in each case.

The evaluation of the obtained beer-taste beverages was carried out by the same six panelists who sampled each beverage as follows.

[Refreshing aftertaste like beer-taste beverage]
Each panelist tasted a beer-taste beverage cooled to about 4 ° C., and evaluated "a refreshing aftertaste like a beer-taste beverage" on a three-point scale according to the following criteria. Prior to the evaluation of "a refreshing aftertaste that is typical of beer-taste beverages," samples with each evaluation of "2" were prepared in advance to unify the standards among the panelists.
(Evaluation of the refreshing aftertaste that is typical of beer-taste beverages)
・ "3": Very good.
・ "2": Good.
・ "1": Bad.
Then, based on the average value of the six panelists, the evaluation was made according to the following criteria, and 2.0 or more was passed.

[Strong sourness with astringency unsuitable as a beer-taste beverage]
Each panelist tasted a beer-taste beverage cooled to about 4 ° C., and evaluated "a strong acidity with astringency unsuitable as a beer-taste beverage" on a three-point scale according to the following criteria. Prior to the evaluation of "strong sourness with astringency unsuitable as a beer-taste beverage", a sample with each evaluation of "2" was prepared in advance to unify the criteria among the panelists.
(Evaluation of astringent sourness that is unsuitable as a beer-taste beverage)
・ "3": I don't feel it.
・ "2": I hardly feel it.
・ "1": Feel.
Then, based on the average value of the six panelists, the evaluation was made according to the following criteria, and 2.0 or more was passed.

[Comprehensive evaluation of beer-taste beverages]
In addition, the overall evaluation was evaluated on a three-point scale based on the "clean aftertaste like a beer-taste beverage" and the "strong astringent acidity unsuitable for a beer-taste beverage" when each panelist tasted it.
-"○": Both the evaluations of "clean aftertaste like beer-taste beverage" and "strong sourness with astringency unsuitable for beer-taste beverage" are 2.5 or more.
-"△": Not applicable to "○" and "×".
-"X": Either "clean aftertaste like beer-taste beverage" or "strong sourness with astringency unsuitable for beer-taste beverage" is less than 2.

The evaluation results of each beer-taste beverage are shown in Tables 2 to 4. In any of the sensory evaluations in Tables 2 to 4, no difference in evaluation of two or more grades was confirmed between the panelists.

The beer-taste beverages of Examples 1 to 3 and Comparative Examples 1 and 2 all had a malt ratio of 100% by mass, an iso-alpha acid content of 0.1% by mass, and a total nitrogen content of 175.2 mg / 100 mL. It is a beer-taste beverage having a polyphenol content of 160.9 mass ppm and a raw wort extract concentration of 13 mass% (Table 2). Comparing these beer-taste beverages, in the beverages having a tartaric acid content of 50, 200, 400 mg / L, the refreshing aftertaste that is typical of beer-taste beverages and the astringent sourness that is unsuitable for beer-taste beverages are all evaluated to a certain degree. That was all.
The beer-taste beverages of Examples 4 to 6 and Comparative Examples 3 to 4 each had a malt ratio of 70% by mass, an iso-alpha acid content of 0.1% by mass, and a total nitrogen content of 108.5 mg / 100 mL, total. It is a beer-taste beverage having a polyphenol content of 99.6 mass ppm and a raw wort extract concentration of 11.5 mass% (Table 3). Comparing these beer-taste beverages, in the beverages having a tartaric acid content of 50, 200, 400 mg / L, the refreshing aftertaste that is typical of beer-taste beverages and the astringent sourness that is unsuitable for beer-taste beverages are all evaluated to a certain degree. That was all. In particular, the beer-taste beverage of Example 5 was highly evaluated for both the refreshing aftertaste that is typical of beer-taste beverages and the astringent sourness that is unsuitable for beer-taste beverages.
The beer-taste beverages of Examples 7 to 9 and Comparative Examples 5 to 6 each had a malt ratio of 5% by mass, an iso-alpha acid content of 0.1% by mass, and a total nitrogen content of 60.6 mg / 100 mL. It is a beer-taste beverage having a polyphenol content of 55.7 mass ppm and a raw wort extract concentration of 10 mass% (Table 4). Comparing these beer-taste beverages, in the beverages having a tartaric acid content of 50, 200, 400 mg / L, the refreshing aftertaste that is typical of beer-taste beverages and the astringent sourness that is unsuitable for beer-taste beverages are all evaluated to a certain degree. That was all. In particular, the beer-taste beverages of Examples 7 and 8 were highly evaluated for both the refreshing aftertaste typical of beer-taste beverages and the astringent sourness unsuitable for beer-taste beverages.

Claims (10)

Beer taste with an iso-alpha acid content of 0.1 mass ppm or less, a total nitrogen content of 40-200 mg / 100 mL, a total polyphenol content of 30-180 mass ppm, and a tartaric acid content of 30-450 mg / L. Beverage. The total nitrogen content is 57-178 mg / 100 mL.
The beer-taste beverage according to claim 1, wherein the total amount of polyphenols is 52 to 163 parts by mass. The beer-taste beverage according to claim 1 or 2, wherein the raw wort extract (O-Ex) concentration is 5 to 18% by mass. The beer-taste beverage according to any one of claims 1 to 3, wherein the total nitrogen amount (mg / 100 mL) / total polyphenol amount (mass ppm) is 0.2 to 3.0. The beer-taste beverage according to any one of claims 1 to 4, wherein at least a part of nitrogen or polyphenol is derived from malt. The method for producing a beer-taste beverage according to any one of claims 1 to 5.
A method for producing a beer-taste beverage, which comprises a step of adding yeast to a raw material containing water and malt to perform alcoholic fermentation. The method for producing a beer-taste beverage according to claim 6, which does not include a step of blending hops. The method for producing a beer-taste beverage according to claim 6 or 7, wherein the malt ratio is 40% by mass or more. The method for producing a beer-taste beverage according to any one of claims 6 to 8, further comprising a step of blending one or more kinds selected from the group consisting of raw materials capable of assimilating yeast. The method for producing a beer-taste beverage according to any one of claims 6 to 9, further comprising a step of adding spirits derived from grains.