JP7364772B1 - Beer-like sparkling beverage - Google Patents

Abstract

[Problem] To provide a beer-like sparkling beverage that is low in carbohydrates but has reduced off-flavors and tastes derived from sotolon. [Solution] The carbohydrate concentration is 1.5 g/100 mL or less, contains sotolon and 3-mercaptohexanol, and the ratio of the concentration of 3-mercaptohexanol to the concentration of sotolon ([concentration of 3-mercaptohexanol]/ [Sotolon concentration]) is 0.002 or more, and the concentration of sotolon in the beverage and the concentration of 3-mercaptohexanol in the beverage are defined as the concentration of sotolon. adjusting the ratio of the concentration of 3-mercaptohexanol ([concentration of 3-mercaptohexanol]/[concentration of sotolon]) to 0.002 or more, the carbohydrate concentration is 1.5 g/ A method for producing a beer-like sparkling beverage having a volume of 100 mL or less. [Selection diagram] None

Description

The present invention relates to a low carbohydrate beer-like sparkling beverage, a method for producing a beer-like sparkling beverage, and a method for improving the flavor of a beer-like sparkling beverage.

BACKGROUND ART With the diversification of consumer tastes, a wide variety of beer-like sparkling beverages such as beer and low-malt beer have been put on the market. In particular, for health and beauty reasons, there is a growing demand for beer-like sparkling beverages that contain less sugar, calories, and alcohol. Non-fermented beer-like sparkling beverages produced without a fermentation process have a simpler composition than fermented beer-like sparkling beverages, and it is easier to control calories and sugar concentration. By using a lower sugar and lower calorie raw material such as a high-intensity sweetener instead, a low sugar and low calorie non-fermented beer-like sparkling beverage can be produced relatively easily.

In the case of beer-like sparkling beverages with low sugar and alcohol content, they tend to be waterier than regular beer, and lack richness and drinkability, making unpleasant odors and off-flavors more noticeable, and the overall quality of the beverage deteriorates. There is a problem that the palatability as a product tends to decrease. In addition, by lowering the malt ratio of raw materials and reducing the extract content, it is possible to aim for low sugar and low calories, but this is done to compensate for the lack of beer-like aroma. As a method for improving the flavor of a low-carbohydrate, low-calorie, non-fermented beer-like sparkling beverage, there is, for example, a method of adjusting the ratio of linalool content to carbohydrate content within a specific range (Patent Document 1). In addition, in fermented malt beverages in which the usage ratio of malt is suppressed to less than 25% by mass, phenylethyl alcohol, cis-3-hexanol, 4-methyl-3-penten-1-ol, ethyl 3-phenylpropionate, 3- By adjusting the contents of mercapto-1-hexanol, benzaldehyde, and linalool within predetermined ranges, it is possible to impart both a refreshing sweet taste and a gorgeous aroma (Patent Document 2).

Patent No. 6814734 Japanese Patent Application Publication No. 2015-154747

Low sugar beer-like sparkling beverages have a problem in that the sweet aroma derived from sotolon is noticeable and palatability is impaired. An object of the present invention is to provide a beer-like sparkling beverage with reduced sweet aroma derived from sotolon, despite being low in carbohydrates.

As a result of intensive research to solve the above problems, the present inventors have found that a low carbohydrate beer-like sparkling beverage contains 3-mercaptohexanol at a sufficient concentration ratio to sotolon in the beverage. The inventors discovered that this reduces the sweet aroma derived from sotolon and improves palatability, thereby completing the present invention.

That is, the beer-like sparkling beverage, the method for producing a beer-like sparkling beverage, and the method for improving the flavor of a beer-like sparkling beverage according to the present invention are as follows.
[1] The carbohydrate concentration is 1.5 g/100 mL or less,
Contains sotolon and 3-mercaptohexanol,
A beer-like sparkling beverage, characterized in that the ratio of the concentration of 3-mercaptohexanol to the concentration of sotolon ([concentration of 3-mercaptohexanol]/[concentration of sotolon]) is 0.002 or more.
[2] The beer-like sparkling beverage according to [1] above, wherein the ratio of the concentration of 3-mercaptohexanol to the concentration of sotolon is 0.1 or less.
[3] The beer-like sparkling beverage according to [1] or [2] above, wherein the concentration of sotolon is 1.0 ppb or more.
[4] The beer-like sparkling beverage according to any one of [1] to [3] above, wherein the concentration of sotolon is 100 ppb or less.
[5] The beer-like sparkling beverage according to any one of [1] to [4] above, wherein the concentration of 3-mercaptohexanol is 0.01 to 0.3 ppb.
[6] The beer-like sparkling beverage according to any one of [1] to [5] above, having an alcohol concentration of 1.0 to 6.0 v/v%.
[7] The beer-like sparkling beverage according to any one of [1] to [5] above, which has an alcohol concentration of less than 1.0 v/v%.
[8] The beer-like sparkling beverage according to any one of [1] to [7] above, which is a fermented beer-like sparkling beverage.
[9] The concentration of sotolon in the beverage and the concentration of 3-mercaptohexanol in the beverage are determined by the ratio of the concentration of 3-mercaptohexanol to the concentration of sotolon ([concentration of 3-mercaptohexanol]/[concentration of sotolon]). a step of adjusting the concentration]) to be 0.002 or more;
has,
A method for producing a beer-like sparkling beverage having a carbohydrate concentration of 1.5 g/100 mL or less.
[10] Furthermore,
A step of containing as a raw material one or more selected from the group consisting of sotolon and 3-mercaptohexanol;
The method for producing a beer-like sparkling beverage according to [9] above.
[11] The method of [9] or [10] above, which produces a beer-like sparkling beverage in which the sotolon concentration is 1.0 to 100 ppb and the 3-mercaptohexanol concentration is 0.01 to 0.3 ppb. A method for producing a beer-like sparkling beverage.
[12] A step of adjusting the ratio of the concentration of 3-mercaptohexanol to the concentration of sotolon in the beverage ([concentration of 3-mercaptohexanol]/[concentration of sotolon]) to be 0.002 or more,
A method for improving the flavor of a beer-like sparkling beverage having a carbohydrate concentration of 1.5 g/100 mL or less.
[13] Furthermore,
A step of containing as a raw material one or more selected from the group consisting of sotolon and 3-mercaptohexanol;
The method for improving the flavor of a beer-like sparkling beverage according to [12] above.

Although the beer-like sparkling beverage according to the present invention has low carbohydrate content, it has a reduced sweet aroma derived from sotolon and has high palatability.
Further, by the method for producing a beer-like sparkling beverage and the method for improving the flavor of a beer-like sparkling beverage according to the present invention, a highly palatable beer-like sparkling beverage with reduced sweet aroma derived from sotolon can be produced.

In the present invention and the present specification, "X ₁ to X ₂ (X ₁ and X ₂ are real numbers satisfying X ₁ < X ₂ )" means a numerical range of "X ₁ to X ₂ ".
In the present invention and the present specification, "ppm" and "ppb" mean "mass ppm" and "mass ppb", respectively.

In the present invention and the specification of this application, the term "beer-like sparkling beverage" refers to a beverage that has a "beer-like feel" among beverages containing carbon dioxide gas. "Beer-likeness" refers to a flavor reminiscent of beer, regardless of product name or labeling. In other words, a "beer-like sparkling beverage" is a beverage that has a flavor, taste, and texture that is equivalent to or similar to beer, and has a strong thirst quenching sensation, regardless of alcohol concentration, the use of malt and hops, and the presence or absence of fermentation.・Represents a sparkling beverage that has drinkability (the ability to drink many cups without getting tired).

In the present invention and the present specification, the term "fermented beer-like sparkling beverage" refers to a beer-like sparkling beverage produced through a fermentation process. The fermentation method is not particularly limited and may be single fermentation, single multiple fermentation, or parallel multiple fermentation, but as with traditional beer production, malt etc. It is preferable to use single-stage multiple fermentation, in which the product is produced by separately performing a saccharification step in which starch contained in the raw material is decomposed into 1 to 3 sugars, and a fermentation step in which alcohol is produced from sugar by yeast.
In the present invention and the present specification, the term "non-fermented beer-like sparkling beverage" means a beer-like sparkling beverage produced without going through a fermentation process.

Examples of the fermented beer-like sparkling beverage according to the present invention include beer, low-malt beer, low-alcohol beer-like sparkling beverages, non-alcoholic beer, and other beverages produced through a fermentation process. . In addition, liqueurs obtained by mixing a beverage produced through a fermentation process with an alcohol-containing distillate may also be used.

Note that the alcohol-containing distilled liquid is a solution containing alcohol obtained by a distillation operation, and a liquid generally classified as a distilled liquor can be used. For example, raw material alcohol may be used, and distilled spirits such as spirits, whiskey, brandy, vodka, rum, tequila, gin, and shochu can be used.

The beer-like sparkling beverage according to the present invention is a so-called low-carbohydrate beer-like sparkling beverage with a carbohydrate concentration of 1.5 g/100 mL or less, and includes Sotolon (CAS RN: 28664-35-9) and 3- Contains mercaptohexanol (CAS RN: 51755-83-0), and the ratio of the concentration of 3-mercaptohexanol to the concentration of sotolon ([concentration of 3-mercaptohexanol]/[concentration of sotolon]) (hereinafter, It is characterized in that the M/S ratio (sometimes referred to as "M/S ratio") is 0.002 or more. In the case of beer-like sparkling beverages with low sugar content, the off-flavor taste (sweet aroma) derived from sotolon is more noticeable than in beer-like sparkling drinks with normal sugar concentration due to the lack of richness and drinkability. On the other hand, in the low-carbohydrate beer-like sparkling beverage according to the present invention, the sweet aroma derived from sotolon can be suppressed by containing 3-mercaptohexanol at a specific concentration ratio to sotolon in the beverage. In addition, it is possible to improve the sharp taste typical of beer, and the palatability can be improved.

The M/S ratio of the beer-like sparkling beverage according to the present invention is not particularly limited as long as it is 0.002 or more. By containing a sufficient amount of 3-mercaptohexanol relative to the sotolon content in the beverage, the sweet aroma derived from sotolon can be effectively suppressed and the flavor can be improved. Furthermore, as the M/S ratio increases, in addition to suppressing the sweet aroma derived from sotolon, it is possible to improve the sharp taste characteristic of beer. The M/S ratio of the beer-like sparkling beverage according to the present invention is preferably 0.003 or more, since it can sufficiently exhibit both the effect of suppressing the sweet aroma derived from sotolon and the effect of improving the sharp taste typical of beer. More preferably .006 or more, even more preferably 0.01 or more. On the other hand, if the M/S ratio becomes too large, the aroma of 3-mercaptohexanol itself may be perceived as an off-taste. From this point of view, the M/S ratio of the beer-like sparkling beverage according to the present invention is preferably 0.1 or less, more preferably 0.07 or less, and even more preferably 0.04 or less.

The sotolon concentration of the beer-like sparkling beverage according to the present invention is not particularly limited as long as the M/S ratio is 0.002 or more. The beer-like foaming property according to the present invention can sufficiently exhibit the effect of suppressing the sweet aroma derived from sotolon by adjusting the M/S ratio (hereinafter sometimes referred to as "the effect of suppressing off-odor taste by adjusting the M/S ratio"). The sotolon concentration of the beverage is preferably 1.0 ppb or more, more preferably 1.5 ppb or more, and may be 5.0 ppb or more. Moreover, the sotolone concentration of the beer-like sparkling beverage according to the present invention is preferably 100 ppb or less, more preferably 50 ppb or less.

The 3-mercaptohexanol concentration of the beer-like sparkling beverage according to the present invention is not particularly limited as long as the M/S ratio is 0.002 or more. In order to fully exhibit the effect of suppressing off-odor taste by adjusting the M/S ratio, the 3-mercaptohexanol concentration of the beer-like sparkling beverage according to the present invention is preferably 0.01 ppb or more, more preferably 0.03 ppb or more. , more preferably 0.045 ppb or more. In addition, since the aroma of 3-mercaptohexanol itself is unlikely to cause an unpleasant taste, the concentration of 3-mercaptohexanol in the beer-like sparkling beverage according to the present invention is preferably 0.3 ppb or less, more preferably 0.2 ppb or less, and 0.3 ppb or less. It is more preferably 15 ppb or less, and even more preferably 0.10 ppb or less.

There are no particular limitations on the means for making the beer-like sparkling beverage according to the present invention contain sotolon at a desired concentration. For example, by using sotolon as a raw material, a beer-like sparkling beverage containing sotolon can be produced. The raw material used may be synthetic or naturally derived sotolone, or a fragrance containing sotolone. In addition, since sotolon is a substance produced by the Maillard reaction during roasting of malt, beer-like foaming can be achieved by adjusting the variety of malt used as a raw material, roasting conditions, or adjusting the amount of malt used. The sotolon concentration of the sexual drink can be adjusted to a desired range.

There are no particular limitations on the means for incorporating 3-mercaptohexanol at a desired concentration into the beer-like sparkling beverage according to the present invention. For example, by using 3-mercaptohexanol as a raw material, a beer-like sparkling beverage containing 3-mercaptohexanol can be produced. The raw material used may be synthetic or naturally derived 3-mercaptohexanol, or a fragrance containing 3-mercaptohexanol. In addition, since 3-mercaptohexanol is an aroma component mainly derived from hops, it is necessary to adjust the variety of hops used as a raw material, processing method, processing conditions, etc., as well as the amount of hops used and the timing of addition. The 3-mercaptohexanol concentration of the beer-like sparkling beverage can also be adjusted to a desired range.

The concentration of sotolon in the beer-like sparkling beverage according to the present invention can be determined, for example, by solvent extraction-gas chromatography-tandem quadrupole mass spectrometry (solvent extraction-GC/MS/MS method). The concentration of 3-mercaptohexanol in the beer-like sparkling beverage according to the present invention can be determined, for example, by GC/MS (gas chromatography-mass spectrometry).

In the beer-like sparkling beverage according to the present invention, the means for adjusting the M/S ratio of the beverage within a desired range is not particularly limited. For example, the M/S ratio of the beer-like sparkling beverage can be adjusted by including one or more selected from the group consisting of sotolon and 3-mercaptohexanol as a raw material.

The sugar concentration of the beer-like sparkling beverage according to the present invention is not particularly limited as long as it is 1.5 g/100 mL or less. In order to more fully exhibit the effect of suppressing off-odor taste by adjusting the M/S ratio, the sugar concentration of the beer-like sparkling beverage according to the present invention is preferably 1.0 g/100 mL or less, and 0.75 g/100 mL. The following is more preferable, 0.5 g/100 mL or less is even more preferable, and even more preferably less than 0.5 g/100 mL.

Note that carbohydrates refer to carbohydrates that are not dietary fiber. Carbohydrates are determined by the method described in Attached Table 2 of the Nutrition Labeling Standards (partially revised Consumer Affairs Agency Notification No. 9 of 2009) (calculating the amount of protein, fat, dietary fiber, ash, and moisture from the weight of the food concerned). It can be calculated according to the following:

The beer-like sparkling beverage according to the present invention may be an alcoholic beverage or a non-alcoholic beverage (a beverage that does not contain ethanol or a beverage whose alcohol concentration is less than 1.0 v/v%). good.

When the beer-like sparkling beverage according to the present invention is an alcoholic beverage, the alcohol concentration is not particularly limited as long as it can provide the effect of suppressing off-odor taste by adjusting the M/S ratio. The beer-like sparkling beverage according to the present invention preferably has a relatively low alcohol concentration, and is also preferably a non-alcoholic beverage, since the effect is more likely to be exhibited. Low-alcoholic beverages and non-alcoholic beverages generally have a weak richness and body feel derived from alcohol, and tend to have off-flavors due to sotolon, but by adjusting the M/S ratio, alcohol concentration can be reduced. Also, the off-flavor and taste derived from sotolon is sufficiently suppressed.

When the beer-like sparkling beverage according to the present invention is an alcoholic beverage, the alcohol concentration of the beer-like sparkling beverage is, for example, preferably 9.0 v/v% or less, and 6.0 v/v% or less. More preferably, it is 5.0v/v% or less. In addition, the alcohol concentration of the beer-like sparkling beverage is, for example, preferably 0.1 v/v% or more, more preferably 0.5 v/v% or more, and 1.0 v/v% or more. It is more preferable that Moreover, it may be less than 0.1v/v%.

The gas volume of the beer-like sparkling beverage according to the present invention is not particularly limited, and can be adjusted as appropriate depending on the desired product quality. For example, as for the gas volume of the beer-like sparkling beverage according to the present invention, the carbon dioxide content at 20°C is preferably 1.2 gas volume (GV) or more, more preferably 2.4 GV or more. , more preferably 2.4 GV or more and 5.0 GV or less, even more preferably 2.4 GV or more and 4.0 GV or less.

The beer-like sparkling beverage according to the present invention may be a beer-like sparkling beverage produced using malt as a raw material. When malt is used as a raw material, from the viewpoint of obtaining a higher beer flavor imparting effect in addition to the effect of suppressing off-odor taste by adjusting the M/S ratio, the malt ratio of the beer-like sparkling beverage according to the present invention is as follows: It is preferably 50% by mass or more, more preferably 65% by mass or more, even more preferably 80% by mass or more, and even more preferably 100% by mass. In addition, "malt ratio" means the ratio (mass) of malt to solid raw materials.

When the beer-like sparkling beverage according to the present invention contains a bittering agent, examples of the bittering agent include oxides of iso-α acid, tetraiso-α-acid, and β-acid, magnesium salts, calcium salts, naringin, quacine, quinine, momordecin, Examples include quercitrin, theobromine, caffeine, bitter melon, asperian tea, kudyo tea, mugwort extract, gentian extract, cinchona extract, and the like. These bittering agents may be used alone or in combination of two or more.

Hops contain alpha acids, which are precursors to iso alpha acids. Therefore, by using hops as a raw material, a beer-like sparkling beverage containing iso-α acids can be produced.

In the present invention and the present specification, unless otherwise specified, "hops" includes raw hops, dried hops, hop pellets, and the like, as well as processed hop products. Examples of processed hop products include hop extracts obtained by extracting bitter components from hops, isolyzed hop extracts, and processed hop products containing components obtained by isolizing bitter components in hops such as tetrahydroisohumulone and hexahydroisohumulone. .

The content of the bittering agent in the beer-like sparkling beverage according to the present invention can be adjusted as appropriate depending on the desired taste quality. For example, the bitterness value of the beer-like sparkling beverage according to the present invention can be 5BU or more, preferably 8BU or more and 30BU or less, and more preferably 8BU or more and 24BU or less. Moreover, the bitterness value of the beer-like sparkling beverage according to the present invention can also be less than 5 BU.

In the present invention and the specification of this application, bitterness value is an index of bitterness imparted by a group of hop-derived substances whose main component is isohumulone, and the bitterness value of beverages including beer-like sparkling beverages is defined by the Beer Brewing Association. It can be measured by the method described in Edit: BCOJ Beer Analysis Methods, 8.15 (2004).

Specific examples of the beer-like sparkling beverage according to the present invention include beer, low-malt beer made from malt, a sparkling alcoholic beverage that does not use malt, a low-alcohol sparkling beverage, and non-alcoholic beer. In addition, liqueurs obtained by mixing a beverage produced through a fermentation process using malt as a raw material with an alcohol-containing distillate may also be used. The alcohol-containing distillate is a solution containing alcohol obtained by a distillation operation, and may be a raw material alcohol, for example, and can be used for distillation of spirits, whiskey, brandy, vodka, rum, tequila, gin, shochu, etc. Alcohol etc. can be used.

The beer-like sparkling beverage according to the present invention is produced in the same manner as general fermented beer-like sparkling beverages and non-fermented beer-like sparkling beverages, except that the M/S ratio of the beverage is adjusted within a desired range. can.

Fermented beer-like sparkling beverages produced through a fermentation process can generally be produced through the steps of brewing (preparation of fermentation raw material liquid), fermentation, storage, and filtration.

First, as a preparation process (fermentation raw material liquid preparation process), a fermentation raw material liquid is prepared from one or more types of fermentation raw materials selected from the group consisting of grain raw materials and carbohydrate raw materials. Specifically, a mixture containing fermentation raw materials and raw water is heated, starch is saccharified to prepare a sugar solution, the resulting sugar solution is boiled, and at least a portion of the solid content is then removed. to prepare a fermentation raw material solution.

First, a mixture containing at least one of grain raw materials and carbohydrate raw materials and raw water is prepared and heated, and starch such as grain raw materials is saccharified to prepare a sugar solution. As raw materials for the sugar solution, only grain raw materials, only carbohydrate raw materials, or a mixture of both may be used. Examples of grain raw materials include barley, wheat, wheat such as the malt of these, beans such as rice, corn, and soybeans, and potatoes. Although the grain raw material can be used as grain syrup, grain extract, etc., it is preferable to use it as a pulverized grain product obtained by pulverization. Grinding of grains can be carried out by a conventional method. The pulverized grain may be one that has been subjected to conventional treatments before or after pulverization, such as pulverized malt, cornstarch, corn grits, etc. The ground grain used is preferably ground malt. By using pulverized malt, it is possible to produce a fermented beer-like sparkling beverage with a distinct beer-like feel. The pulverized malt may be obtained by germinating barley, for example, two-rowed barley by a conventional method, drying it, and then pulverizing it to a predetermined particle size. Further, the grain raw material may be one type of grain raw material or a mixture of multiple types of grain raw materials. For example, pulverized malt may be used as the main raw material, and pulverized rice or corn may be used as the auxiliary raw material. Examples of carbohydrate raw materials include sugars such as liquid sugar.

Supplementary materials other than grain materials and water may be added to the mixture. Examples of the auxiliary raw materials include hops, dietary fiber, yeast extract, fruit juice, bittering agents, coloring agents, herbs, fragrances, and the like. Furthermore, if necessary, saccharifying enzymes such as α-amylase, glucoamylase, and pullulanase, and enzyme agents such as protease can be added.

The saccharification process is performed using enzymes derived from grain raw materials or separately added enzymes. The temperature and time during the saccharification treatment depend on the type of grain raw materials used, the proportion of grain raw materials in the total fermented raw materials, the type of enzyme added and the amount of the mixture, and the quality of the desired fermented beer-like sparkling beverage. will be adjusted accordingly. For example, the saccharification treatment can be carried out by a conventional method such as holding a mixture containing grain raw materials at 35 to 70°C for 20 to 90 minutes.

By boiling the sugar solution obtained after the saccharification treatment, a broth (boiled product of sugar solution) can be prepared. It is preferable that the sugar solution is filtered before being boiled, and the resulting filtrate is boiled. Moreover, instead of the filtrate of this sugar solution, a mixture of malt extract and warm water may be used and boiled. The boiling method and its conditions can be determined as appropriate.

By appropriately adding herbs and the like before or during the boiling treatment, a fermented beer-like sparkling beverage having a desired flavor can be produced. For example, by adding hops before or during boiling and boiling in the presence of hops, flavor and aroma components, particularly bitter components, of hops can be efficiently boiled out. The amount of hops added, the mode of addition (for example, addition in several portions), and boiling conditions can be determined as appropriate.

The broth obtained after the boiling process contains dregs such as protein produced by precipitation. Therefore, at least a portion of the solid matter such as lees is removed from the broth. The lees may be removed by any solid-liquid separation process, but generally a tank called a whirlpool is used to remove the sediment. The temperature of the broth at this time only needs to be 15°C or higher, and is generally about 50 to 100°C. The broth (filtrate) after removing the lees is cooled to an appropriate fermentation temperature using a plate cooler or the like. The broth after removing this lees becomes the fermentation raw material liquid.

Next, as a fermentation step, yeast is inoculated into the cooled fermentation raw material liquid and fermentation is performed. The cooled fermentation raw material liquid may be directly subjected to the fermentation process, or may be subjected to the fermentation process after being adjusted to a desired extract concentration. The yeast used for fermentation is not particularly limited, and can be appropriately selected from among the yeasts normally used for producing alcoholic beverages. Although it may be a top-fermenting yeast or a bottom-fermenting yeast, a bottom-fermenting yeast is preferable because it can be easily applied to large-scale brewing equipment.

Furthermore, as a storage process, the obtained fermented liquid is aged in a sake storage tank, and after being stored and stabilized under low temperature conditions of about 0°C, as a filtration process, the fermented liquid after aging is filtered. By removing yeast, proteins, etc. that are insoluble in the temperature range, the desired fermented beer-like sparkling beverage can be obtained. The filtration treatment may be any method as long as the yeast can be removed by filtration, and examples thereof include diatomaceous earth filtration, filter filtration using a filter with an average pore size of about 0.4 to 1.0 μm, and the like.

Non-fermented beer-like sparkling beverages that are produced without going through a fermentation process can generally be produced by a method of mixing raw materials (compounding method). For example, specifically, it can be manufactured by a mixing step of preparing a liquid mixture by mixing each raw material, and a gas introduction process of adding carbon dioxide gas to the obtained liquid mixture.

First, in the blending step, a blended liquid is prepared by mixing raw materials. In the blending step, it is preferable to prepare a blended liquid in which all raw materials other than carbon dioxide gas are mixed. The order in which the raw materials are mixed is not particularly limited. All the raw materials may be added to the raw material water at the same time, or the raw materials may be added sequentially, such as by dissolving the previously added raw material and then adding the remaining raw material. Alternatively, for example, a solid (for example, powdered or granular) raw material and alcohol may be mixed with the raw material water, or the solid raw material may be made into an aqueous solution in advance, and then this aqueous solution, alcohol, and, if necessary, the raw water are mixed. May be mixed. Furthermore, a heated raw material may be added to the raw material water, or a prepared liquid mixture may be heated.

Examples of raw materials include bittering agents, acidulants, sweeteners, caramel pigments, flavoring agents, ethanol (raw alcohol), emulsifiers, polysaccharides, water-soluble dietary fibers, proteins or decomposition products thereof, and the like.
As the bittering agent, those listed above can be used.

Examples of the sweetener include, but are not limited to, sucrose, glucose, fructose, isomerized corn syrup, and high-intensity sweeteners. These sweeteners may be used alone or in combination of two or more. Examples of high-intensity sweeteners include aspartame, sucralose, acesulfame potassium, neotame, stevia, and enzyme-treated stevia.

Examples of the acidulant include organic acids such as citric acid, gluconic acid, tartaric acid, malic acid, succinic acid, phosphoric acid, lactic acid, adipic acid, and fumaric acid.
Flavoring agents include beer extracts, beer flavorings, hop flavorings, and the like.

Examples of the emulsifier include polyglycerin fatty acid ester, glycerin fatty acid ester, sucrose fatty acid ester, polypropylene glycol fatty acid ester, sorbitan fatty acid ester, polysorbate, and the like.

Examples of polysaccharides include starch, dextrin, and the like. Dextrin is a carbohydrate obtained by hydrolyzing starch and is larger than an oligosaccharide (a carbohydrate made by polymerizing about 3 to 10 monosaccharides).

Water-soluble dietary fiber refers to carbohydrates that dissolve in water and are indigestible or difficult to digest by human digestive enzymes. Examples of the water-soluble dietary fiber include soybean dietary fiber (soluble soybean polysaccharide), polydextrose, indigestible dextrin, galactomannan, inulin, guar gum decomposition product, pectin, gum arabic, and the like.

If insoluble matter is present in the blended solution prepared in the blending step, it is preferable to perform a treatment such as filtration on the blended solution to remove the insoluble matter before the gas introduction step. The insoluble matter removal treatment is not particularly limited, and can be performed by a method commonly used in the technical field, such as a filtration method or a centrifugation method. In the present invention, insoluble matter is preferably removed by filtration, more preferably by diatomaceous earth filtration.

Next, as a gas introduction step, carbon dioxide gas is added to the liquid mixture obtained in the blending step. As a result, a non-fermented beer-like sparkling beverage is obtained. Adding carbonic acid gives it a refreshing feeling similar to beer. Note that carbon dioxide gas can be added by a conventional method. For example, the liquid mixture obtained in the blending process and carbonated water may be mixed, or carbon dioxide gas may be directly added to the liquid mixture obtained in the blending process to dissolve it.

After adding carbon dioxide gas, the obtained non-fermented beer-like sparkling beverage may be further subjected to a treatment such as filtration to remove insoluble matter. The insoluble matter removal treatment is not particularly limited, and can be performed by a method commonly used in the technical field.

A packaged beer-like sparkling beverage can be produced by filling a container with the produced beer-like sparkling beverage and sealing the container. The container can be filled and sealed by a conventional method. Further, the empty space of the packaged beer-like sparkling beverage may be filled with an inert gas such as nitrogen or carbon dioxide. These inert gases make it possible to reduce the oxygen present in the container.

There are no particular limitations on the container used to fill the packaged beer-like sparkling beverage. Specific examples include glass bottles, cans, flexible containers, and the like. Cans include two-piece beverage cans, three-piece beverage cans, bottle cans, and the like. Examples of flexible containers include containers made of flexible resins such as PE (polyethylene), PP (polypropylene), EVOH (ethylene-vinyl alcohol copolymer), and PET (polyethylene terephthalate). The flexible container may be made of a single layer resin or may be made of a multilayer resin.

As a container to be filled with the beer-like sparkling beverage according to the present invention, a container with high pressure resistance is used. Currently, the manufacturer's guaranteed pressure resistance of two-piece aluminum (alloy) beverage cans and aluminum (alloy) bottle cans currently in circulation is as high as 686 kPa, and considering the actual pressure resistance, if heat sterilization is required, it is approximately 3. .2GV or less, and if heat sterilization is not required, it will be approximately 3.8GV or less.

Moreover, the beer-like sparkling beverage according to the present invention is subjected to heat sterilization treatment as necessary in its manufacturing process. The heat sterilization treatment may be performed before or after filling the container. As the sterilization method, conventional methods such as UHT (ultra high temperature) sterilization, pasteurizer sterilization, and retort sterilization can be used.

EXAMPLES Next, the present invention will be explained in more detail with reference to Examples, but the present invention is not limited to the following Examples.

<Measurement of sotolon concentration in beverages>
In the following examples, sotolone concentration in beer-like sparkling beverages was determined by solvent extraction-GC/MS/MS.
Dichloromethane was used for solvent extraction. Specifically, first, a measurement sample was prepared by adding sodium chloride to a test sample (beer-like sparkling beverage) to a final concentration of 30% by mass, and twice the amount of dichloromethane was added to the measurement sample. and shaking for 15 minutes. Thereafter, the dichloromethane layer was collected by centrifugation, and the dichloromethane layer was appropriately diluted by evaporation of the solvent and subjected to GC/MS/MS as an analytical sample. Quantification was performed by standard addition method using an internal standard.

<Measurement of 3-mercaptohexanol concentration in beverages>
In the following examples, the concentration of 3-mercaptohexanol in beer-like sparkling beverages was measured by LC/MS/MS under the following conditions.

(HPLC conditions)
HPLC device: Agilent 1200 HPLC (manufactured by Agilent Technologies)
Column: 100Å Alltima C18 (250mm x 2.1mm (ID) x 5μm), with guard cartridge made of the same material (7.5mm x 2.1mm (ID)) (manufactured by Alltech)
Column temperature: 25℃

(MS/MS conditions)
MS/MS device: 4000 QTrap hybrid (manufactured by Applied Biosystems)
Electrospray ionization: positive ion mode Mobile phase A: 0.5% Formic acid aqueous solution Mobile phase B: 0.5% Solution of formic acid dissolved in acetonitrile Linear gradient of mobile phase B: 0 minutes, 0% → starting 10 minutes, 20% → start 15 minutes, 50% → start 20 minutes, 80% → start 21 minutes, 20% → then 15 minutes, column equilibration at 20% Mobile phase flow rate: 0.200 mL/min Column injection volume: 10μL

<Sensory evaluation>
For the sensory evaluation of off-flavors (sweet aroma, spice odor, etc.) and sharp taste of beverages, three beer expert panelists sampled the beer-like sparkling beverages and scored each item based on consensus among the three panelists. The sensory evaluation value of the off-flavor taste was evaluated on a five-point scale (1: not felt, 2: felt but weakly, 3: felt, 4: felt strongly, 5: felt very strongly). The sensory evaluation value of sharpness was also evaluated on a five-point scale (1: poor sharpness, 2: slightly good sharpness, 3: good sharpness, 4: very good sharpness, 5: very good sharpness).

In addition, the comprehensive evaluation of the flavor of the beverage is based on the consensus of the three panelists, based on whether the off-flavor taste (sweet aroma, spice odor, etc.) is noticeable and the beer-like taste is impaired. Yes, △: Beer-like, ×: Not Beer-like).

[Reference example 1]
Sotolon was added at various concentrations to beer-like sparkling beverages with carbohydrate concentrations of 0.4, 1.5, or 3.0 g/100 mL, and the effects on off-flavor and sharpness were investigated.

400 g of malt extract (solid content 75% by mass) and 6 g of hop extract (α acid 58% by mass) were dissolved in 100 L of distilled water and boiled for 60 minutes. After boiling, it was filtered through a filter to obtain a sample solution. After adding ethanol to the obtained sample solution so that the alcohol content was 5% by volume, carbon dioxide gas was sealed.
Beer-like sparkling beverages (test group 1-1, test group 2-1) in which maltose was added to the obtained sample solution to adjust the carbohydrate concentration to 0.4, 1.5, or 3.0 g/100 mL. , test plot 3-1) was prepared. The sotolon concentration and 3-mercaptohexanol concentration of these beer-like sparkling beverages were measured.

Beer-like sparkling beverages were produced by adding sotolon to the beer-like sparkling beverages of Test Group 1-1, Test Group 2-1, and Test Group 3-1, respectively, to the values shown in Tables 1 to 3. did. A sensory evaluation test was conducted on the resulting beer-like sparkling beverage.

In the beer-like sparkling beverages with a carbohydrate concentration of 3.0 g/100 mL (Test Groups 1-1 to 1-5), no sweet aroma derived from sotolon was felt even if the sotolon concentration was about 50 ppb. In addition to this, the sharpness became stronger depending on the sotolon concentration, and the palatability improved. On the other hand, beer-like sparkling beverages with a carbohydrate concentration of 1.5 g/100 mL or 0.4 g/100 mL (test areas 2-1 to 2-5, 3-1 to 3-5) showed that sotolon-derived The off-flavor taste was felt even when the sotolon concentration was 0.8 ppb, and became stronger depending on the sotolon concentration. Similar to the beer-like sparkling beverage with a carbohydrate concentration of 3.0 g/100 mL, a tendency for the sharpness to become stronger depending on the sotolon concentration was observed, but this strength was not as strong as that of beer with a carbohydrate concentration of 3.0 g/100 mL. It was smaller than similar fizzy drinks. Therefore, in a beer-like sparkling beverage with a carbohydrate concentration of 1.5 g/100 mL or less, as the sotolon concentration increases, a beer-like sharpness is imparted, but the flavor balance is disrupted due to the increase in the sweet aroma derived from sotolon. Palatability decreased.

[Example 1]
In Reference Example 1, sotolon and 3 were added to a beer-like sparkling beverage with a sugar content of 1.5 g/100 mL or less, which was confirmed to enhance sharpness by adding sotolon, but also to give a sense of a sweet aroma and off-flavor taste derived from sotolon. -Mercaptohexanol was added at various concentrations to investigate the effect on sotolon-derived off-odor taste and sharpness.

First, 23 kg of malt and 22 kg of granulated sugar as an auxiliary raw material were saccharified, and then the enzyme was deactivated at 76°C. After filtering the obtained liquid (wort), it was put into a boiling pot, water was added to make it 200 L, and an appropriate amount of hops was added. The wort after adding hops was boiled for 70 minutes, then hot water was added to readjust the liquid volume to 200 L, and solid-liquid separation was performed in a whirlpool (swirling separation tank). After solid-liquid separation, the wort was cooled using a heat exchanger. Yeast was added to the cooled wort and fermented. The fermented liquor after fermentation is clarified by filtration, then filled into a container, and if necessary, heat treated at 65°C for 10 minutes to reduce the malt usage rate to 51%, alcohol concentration to 5%, and sugar content. A beer-like sparkling beverage with a quality of 1.5 g/100 mL or 0.4 g/100 mL was obtained.

By appropriately setting the malt saccharification conditions, specifically the type of enzyme used, the amount added, the timing of addition, and the temperature profile (setting temperature and holding time for each temperature range when preparing the saccharification liquid, etc.) The sugar concentration of the beer-like sparkling beverage to be finally produced was adjusted to 0.4 g/100 mL or 1.5 g/100 mL.

Sotolon and/or 3-mercaptohexanol were appropriately added to the obtained beer-like sparkling beverages to the concentrations shown in Tables 4 to 13 to produce beer-like sparkling beverages. A sensory test was conducted on the produced beer-like sparkling beverage. The results are shown in Tables 4-13.

As shown in Tables 4 to 13, regardless of the carbohydrate concentration of 0.4 g/100 mL or 1.5 g/100 mL, the higher the M/S ratio, the sweeter the off-flavor. The taste became weaker and the sharpness became stronger. In particular, by incorporating 3-mercaptohexanol so that the M/S ratio is 0.002 or more, the sweet aroma derived from sotolon is sufficiently suppressed, the sharpness is improved, and the overall evaluation of flavor is high. That's what I found out. On the other hand, it was found that when the M/S ratio was set to 0.1 or higher, the spiciness became noticeable, the beer-like quality was impaired, and the overall flavor evaluation decreased.

[Example 2]
Various concentrations of sotolon and 3-mercaptohexanol were added to beer-like sparkling beverages with different malt ratios, and the effects on off-flavor and sharpness were investigated.

First, a fermented beer-like sparkling beverage was produced in the same manner as in Example 1, except that malt and granulated sugar were used as fermentation raw materials at the malt ratios listed in Tables 14 to 16. Beer-like sparkling beverages were produced by appropriately adding sotolon and/or 3-mercaptohexanol to the beer-like sparkling beverages to the concentrations shown in Tables 14 to 16. A sensory test was conducted on the produced beer-like sparkling beverage. The results are shown in Tables 14-16.

Beer-like sparkling beverages with a carbohydrate concentration of 1.5 g/100 mL and an alcohol concentration of 5.0 v/v% (test zones 1-1 to 1-5), a carbohydrate concentration of 0.4 g/100 mL and an alcohol concentration of 5.0 v/v v% beer-like sparkling beverages (test zones 2-1 to 2-4), and beer-like sparkling beverages with a carbohydrate concentration of 0.4 g/100 mL and an alcohol concentration of 4.0 v/v% (test zone 3-1). - 3-5), it was found that regardless of the malt ratio, the sweet aroma derived from sotolon was sufficiently suppressed, and the sharpness was also enhanced, indicating that the flavor was good. From these results, it was confirmed that the effect of suppressing off-odor taste can be obtained by adjusting the M/S ratio, regardless of the malt ratio. Also, the higher the malt ratio, the stronger the sharpness.

[Example 3]
Sotolon and 3-mercaptohexanol were added at various concentrations to a non-fermented beer-like sparkling beverage, and the effects on sotolon-derived off-flavor and sharpness were investigated.

First, the concentrations of sotolon and 3-mercaptohexanol were measured for a commercially available non-fermented beer-like sparkling beverage (commercial product A) with a carbohydrate concentration of 0.0 g/100 mL and an alcohol concentration of 0.00 v/v%. All were 0.00 ppb. Sotolon and/or 3-mercaptohexanol were appropriately added to this commercial product A to give the concentrations shown in Table 17 to produce a beer-like sparkling beverage. A sensory test was conducted on the produced beer-like sparkling beverage. The results are shown in Table 17.

As shown in Table 17, even in a non-fermented beer-like sparkling beverage with a carbohydrate concentration of 0.0 g/100 mL, by increasing the 3-mercaptohexanol content and increasing the M/S ratio, beer-like sharpness can be achieved. It was found that the sweet aroma derived from sotolon was suppressed and the overall evaluation of flavor was high.

Claims (12)

The carbohydrate concentration is 1.5 g/100 mL or less,
Contains sotolon and 3-mercaptohexanol,
The ratio of the concentration of 3-mercaptohexanol to the concentration of sotolon ([concentration of 3-mercaptohexanol]/[concentration of sotolon]) is 0.002 or more,
A beer-like sparkling beverage, characterized in that the concentration of sotolon is 1.0 ppb or more . The beer-like sparkling beverage according to claim 1, wherein the ratio of the concentration of 3-mercaptohexanol to the concentration of sotolon is 0.1 or less. The beer-like sparkling beverage according to claim 1, wherein the concentration of sotolon is 100 ppb or less. The beer-like sparkling beverage according to claim 1, wherein the concentration of 3-mercaptohexanol is 0.01 to 0.3 ppb. The beer-like sparkling beverage according to claim 1, having an alcohol concentration of 1.0 to 6.0 v/v%. The beer-like sparkling beverage according to claim 1, wherein the alcohol concentration is less than 1.0 v/v%. The beer-like sparkling beverage according to any one of claims 1 to 6 , which is a fermented beer-like sparkling beverage. The concentration of sotolon in the beverage and the concentration of 3-mercaptohexanol in the beverage are determined by the ratio of the concentration of 3-mercaptohexanol to the concentration of sotolon ([concentration of 3-mercaptohexanol]/[concentration of sotolon]). a step of adjusting so that it is 0.002 or more,
has,
A method for producing a beer-like sparkling beverage having a carbohydrate concentration of 1.5 g/100 mL or less and a sotolon concentration of 1.0 ppb or more . moreover,
A step of containing as a raw material one or more selected from the group consisting of sotolon and 3-mercaptohexanol;
The method for producing a beer-like sparkling beverage according to claim 8 . The beer-like sparkling beverage according to claim 8 , which produces a beer-like sparkling beverage in which the concentration of sotolon is 1.0 to 100 ppb and the concentration of 3-mercaptohexanol is 0.01 to 0.3 ppb. Production method. A step of adjusting the ratio of the concentration of 3-mercaptohexanol to the concentration of sotolon in the beverage ([concentration of 3-mercaptohexanol]/[concentration of sotolon]) to be 0.002 or more,
has,
A method for improving the flavor of a beer-like sparkling beverage , which has a carbohydrate concentration of 1.5 g/100 mL or less and a sotolon concentration of 1.0 ppb or more . moreover,
A step of containing as a raw material one or more selected from the group consisting of sotolon and 3-mercaptohexanol;
The method for improving the flavor of a beer-like sparkling beverage according to claim 11 .