JP2018011587A - Beer-like sparkling drink and production method thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a beer-like sparkling drink having improved sharpness; and to provide a production method thereof.SOLUTION: In a beer-like sparkling drink, the total of each concentration of octanoic acid and decanoic acid is 2.5 ppm or less, the concentration of β-myrcene is 4.5 ppb or less, and the concentration of isoamyl alcohol is 55-100 ppm. In a production method of the beer-like sparkling drink having a preparation step for preparing fermentation raw material liquid, and a fermentation step for carrying out fermentation by inoculating yeast into the fermentation raw material liquid, the yeast amount to be inoculated into the fermentation raw material liquid is 25×10-35×10pieces/mL.SELECTED DRAWING: None

Description

  The present invention relates to a beer-like sparkling beverage with good sharpness and a method for producing the same.

  Beer-like sparkling beverages such as beer and sparkling liquor have unique bitterness and aroma, and are characterized by a feeling of thirst and drinkability. Many methods have been reported for improving the flavor and quality of beer-like sparkling beverages by changing the type and composition of raw materials represented by malt and hops, the production method, the type of yeast used for fermentation, and the like. In particular, “Kire” and “Koku” are important qualities of beer-like sparkling beverages, and are generally in a trade-off relationship with each other. For example, beer-like sparkling beverages with a high malt ratio stand out, but tend to be inferior, and conversely, beer-like sparkling beverages with a low malt ratio are refreshing and good, but are weak. Tend to be.

  For example, in Patent Document 1, by adjusting the ratio of coisohumulone to the total amount of iso-α acid in a beer-like sparkling beverage within a specific range, a refreshing feeling, a refreshing feeling of aftertaste, a good sharpness, etc. are impaired. It is described that sufficient bitterness like beer can be achieved while suppressing the causative bitterness that causes it. Patent Document 2 describes that by adding a specific amount of a fatty acid having 8 to 14 carbon atoms, the beer-like taste thickness, body feeling, and complex taste can be enhanced.

JP, 2015-107073, A Japanese Unexamined Patent Publication No. 2016-19468

Chen et al., Journal of American Society of Brewing Chemists, 1981, Vol. 39, p70.

  An object of the present invention is to provide a beer-like sparkling beverage with good sharpness and a method for producing the same.

  In order to solve the above-mentioned problems, the present inventors comprehensively analyzed various components contained in beer and investigated components that contribute to sharpness. As a result, octanoic acid, decanoic acid, and β-myrcene were clear. And negatively correlated with isoamyl alcohol, and positively correlated with sharpness, thereby reducing the content of octanoic acid, decanoic acid, and β-myrcene, and increasing the content of isoamyl alcohol, The inventors have found that the sharpness of beer-like sparkling beverages can be improved, and have completed the present invention.

The beer-like sparkling beverage according to the present invention, the method for producing a beer-like sparkling beverage, and the method for improving the sharpness of the beer-like sparkling beverage are the following [1] to [10].
[1] A beer-like sparkling beverage in which the total concentration of octanoic acid and decanoic acid is 2.5 ppm or less, the concentration of β-myrcene is 4.5 ppb or less, and the concentration of isoamyl alcohol is 55 to 100 ppm. .
[2] The beer-like sparkling beverage according to [1], which is a fermented beer-like sparkling beverage.
[3] The beer-like sparkling beverage according to [1] or [2], which is a beverage for experiencing sharpness.
[4] The beer-like sparkling beverage according to any one of [1] to [3], wherein the malt ratio is 50% or more.
[5] A preparation process for preparing a fermentation raw material liquid;
It has a fermentation process in which yeast is inoculated into the fermentation raw material and fermented,
The amount yeast to inoculate a fermentation material liquid is 25 × ^{10 6} ~35 × ¹⁰ 6 cells / mL, the production method of the beer-like sparkling beverages.
[6] The preparation process includes:
A mixing step of preparing a mixture containing the fermentation raw material and raw water,
A saccharification step of heating the prepared mixture and saccharifying starch to prepare a sugar solution;
A boiling step of boiling the obtained sugar solution;
Have
In the boiling step, within 10 minutes immediately after the temperature of the sugar solution reaches 100 ° C., the whole amount of hop used as a raw material is added to the sugar solution, [5] The method for producing a beer-like sparkling beverage according to [5] .
[7] Aeration of air to the fermentation raw material liquid is performed at least twice, immediately after the temperature of the fermentation raw material liquid after the charging step reaches the fermentation temperature and after inoculating the fermentation raw material liquid with yeast. The method for producing a beer-like sparkling beverage according to [5] or [6].
[8] The method for producing a beer-like sparkling beverage according to any one of [5] to [7], wherein 50% or more of the fermentation raw material is malt.
[9] A method for improving the sharpness of a beer-like sparkling beverage by adjusting the total concentration of octanoic acid and decanoic acid, the concentration of β-myrcene, and the concentration of isoamyl alcohol.
[10] The beer-like [9], wherein the total concentration of octanoic acid and decanoic acid is 2.5 ppm or less, the concentration of β-myrcene is 4.5 ppb or less, and the concentration of isoamyl alcohol is adjusted to 55 to 100 ppm. A method for improving the sharpness of sparkling beverages.

  According to the present invention, a beer-like sparkling beverage with good sharpness can be provided.

  In the present invention and the present specification, a “beer-like sparkling beverage” means a flavor, taste and texture equivalent to or similar to beer regardless of the alcohol content or the presence or absence of malt, and a high It means a sparkling beverage with thirst / drinkability. That is, the beer-like sparkling beverage may be an alcoholic beverage, or a so-called non-alcoholic beverage or low-alcoholic beverage having an alcohol content of less than 1% by volume. Moreover, the drink which uses malt as a raw material may be sufficient, the drink which does not use malt as a raw material may be sufficient, the drink manufactured through a fermentation process may be sufficient, and the drink manufactured without passing through a fermentation process It may be. Specific examples of beer-like sparkling beverages include beer, sparkling liquor made from malt, sparkling alcoholic beverages that do not use malt, low alcohol sparkling beverages, and non-alcohol beer. In addition, liqueurs obtained by mixing malt as a raw material and a beverage produced through a fermentation process with an alcohol-containing distillate may be used. The alcohol-containing distillate is a solution containing an alcohol obtained by a distillation operation, and may be, for example, a raw material alcohol such as spirits, whiskey, brandy, vodka, rum, tequila, gin, or shochu. Sake etc. can be used.

  In the present invention and the specification of the present application, “clear” means “there is a difference in flavor (taste, aroma) and no protruding flavor remains”. “Good sharpness” means that there is a difference in taste and there is no taste remaining after drinking, and “bad” means that the taste remains in the oral cavity for a long time after drinking.

  In beer-like sparkling beverages, the contents of octanoic acid, decanoic acid, β-myrcene, and isoamyl alcohol all affect the sharpness. If the contents of octanoic acid, decanoic acid, and β-myrcene are too large, the sharpness deteriorates. On the other hand, as the content of isoamyl alcohol increases, the sharpness of the beer-like sparkling beverage becomes better. Therefore, the sharpness of the beer-like sparkling beverage can be improved by adjusting the content of these components within a specific range. Thus, since the beer-like sparkling beverage according to the present invention has improved sharpness, it is particularly suitable as a beer-like sparkling beverage for experiencing the sharpness.

  Conventionally, it is thought that so-called taste components only contribute to the sharpness of beer, and not only the taste components but also aroma components such as β-myrcene and isoamyl alcohol are involved in the sharpness. These are findings first discovered by the present inventors.

  The total concentration of octanoic acid and decanoic acid in the beer-like sparkling beverage according to the present invention is 2.5 ppm or less. Octanoic acid and decanoic acid have an astringent taste and bitterness that remain on the tip of the tongue. For this reason, when the content thereof increases, the aftertaste of the taste becomes stronger and the sharpness deteriorates. On the other hand, it is more preferable to contain an appropriate amount of these because the bitterness is clear and the bet-like sparkling beverage is bet. Therefore, the total concentration of octanoic acid and decanoic acid in the beer-like sparkling beverage according to the present invention is preferably 1 to 2.5 ppm, more preferably 1.5 to 2.5 ppm, and 2.0 to 2.5 ppm. Further preferred.

  The method for measuring the concentrations of octanoic acid and decanoic acid in the beer-like sparkling beverage is not particularly limited. For example, the concentrations of octanoic acid and decanoic acid can be measured by a gas chromatography method (see Non-Patent Document 1).

  The concentration of β-myrcene in the beer-like sparkling beverage according to the present invention is 4.5 ppb or less, preferably 3 ppb or less, and more preferably 2.5 ppb or less. β-myrcene is a scent-like scented fragrance component, and it tends to stay in the oral cavity. Therefore, if the concentration of β-myrcene is too high, the scent of β-myrcene remains in the oral cavity for a long time. Gets worse. β-myrcene is generally a component derived from hops and forms a characteristic aroma of beer together with other hop-derived aroma components. For this reason, the concentration of β-myrcene in the beer-like sparkling beverage according to the present invention may be 0.5 to 3.0 ppb, more preferably 0.5 to 2.5 ppb, and 1.0 to 2.5 ppb. Further preferred.

  The method for measuring the concentration of β-myrcene in the beer-like sparkling beverage is not particularly limited. For example, the concentration of β-myrcene is determined by gas chromatograph-mass spectrometry (GC / MS) after adsorbing β-myrcene in the beverage to the stirring branch by the stirring branch adsorption extraction method (SBSE method: Stir Bar Sorptive Extraction). Can be measured.

  The concentration of isoamyl alcohol in the beer-like sparkling beverage according to the present invention is 55 to 100 ppm, preferably 65 to 95 ppm, and more preferably 68 to 91 ppm. Isoamyl alcohol is an ester-like fragrance component, and isoamyl alcohol increases the refreshing feeling and improves the sharpness.

  The concentration of isoamyl alcohol in the beer-like sparkling beverage can be measured according to the analysis method specification “ASBC Methods of Analysis” published by ASBC (The American Society of Brewing Chemists).

  The beer-like sparkling beverage according to the present invention is a general fermentation except that the total concentration of octanoic acid and decanoic acid, the concentration of β-myrcene, and the concentration of isoamyl alcohol are adjusted to be within a specific range. It can be produced in the same manner as beer-like sparkling beverages and non-fermented beer-like sparkling beverages. Therefore, first, methods for producing general fermented beer-like sparkling beverages and non-fermented beer-like sparkling beverages will be described.

  The fermented beer-like sparkling beverage produced through the fermentation process can be generally produced through the steps of preparation (fermentation raw material liquid preparation), fermentation, storage, and filtration.

  First, as a preparation process (fermentation raw material liquid preparation process), a fermentation raw material liquid is prepared from 1 or more types selected from the group which consists of a grain raw material and a saccharide raw material. The process includes, for example, a mixing process for preparing a mixture containing a fermentation raw material and raw water, a saccharification process for heating the prepared mixture and saccharifying starch to prepare a sugar solution, and the obtained sugar And a boiling step of boiling the liquid.

  Specifically, first, a mixture containing at least one of a grain raw material and a sugar raw material and raw water is prepared and heated to saccharify starch such as the grain raw material to prepare a sugar solution. As a raw material of the sugar liquid, only the grain raw material may be used, only the sugar raw material may be used, or both may be used in combination. Examples of the grain raw material include barley, wheat, wheat such as malt, beans such as rice, corn, and soybean, and potatoes. The grain raw material can be used as a grain syrup, a grain extract or the like, but is preferably used as a ground grain product obtained by a grinding process. Grain pulverization can be carried out by a conventional method. As the pulverized cereal, a pulverized pulverized product, corn starch, corn grits or the like may be subjected to a treatment usually performed before and after the pulverization treatment. In the present invention, the pulverized grain used is preferably a malt pulverized product. By using the pulverized malt, it is possible to produce a fermented beer-like sparkling beverage with a clearer beer character. The malt pulverized product may be any product obtained by germinating barley, for example, Nijo barley, by a conventional method, drying it, and then pulverizing it to a predetermined particle size. Moreover, as a grain raw material used in this invention, one type of grain raw material may be sufficient, and what mixed several types of grain raw material may be sufficient. For example, pulverized malt may be used as the main material, and pulverized rice or corn may be used as the auxiliary material. Examples of the saccharide raw material include saccharides such as liquid sugar.

  Since the sharpening effect of the present invention is more effectively exhibited, the beer-like sparkling beverage according to the present invention preferably uses at least a grain raw material as a fermentation raw material, and 50% or more of the fermentation raw material is a grain raw material. Some are good, more preferably 80% or more of the fermentation raw material is a grain raw material. Among them, 50% or more of the fermentation raw material is malt, that is, the malt ratio (ratio of malt in the fermentation raw material (mass)) is preferably 50% or more, and the malt ratio is 67% or more. Preferably, the malt ratio is 100%.

  You may add grain raw materials etc. and auxiliary materials other than water to the said mixture. Examples of the auxiliary material include hops, dietary fiber, yeast extract, fruit juice, bitters, coloring agents, herbs, and fragrances. Moreover, enzyme agents, such as saccharification enzymes, such as (alpha) -amylase, glucoamylase, and pullulanase, and protease, can be added as needed.

  The saccharification treatment is performed using an enzyme derived from a grain raw material or the like, or an enzyme added separately. The temperature and time during the saccharification treatment include the type of cereal raw material used, the proportion of cereal raw material in the entire fermentation raw material, the type of enzyme added and the amount of the mixture, the quality of the desired fermented beer-like sparkling beverage, etc. It is adjusted as appropriate in consideration. For example, the saccharification treatment can be performed by a conventional method such as holding a mixture containing grain raw materials and the like at 35 to 70 ° C. for 20 to 90 minutes.

  By boiling the sugar solution obtained after the saccharification treatment, a boiled juice (boiled sugar solution) can be prepared. The sugar solution is preferably filtered before boiling, and the obtained filtrate is preferably boiled. Moreover, you may boil this using the thing which added warm water to the malt extract instead of the filtrate of this sugar liquid. The boiling method and its conditions can be determined as appropriate.

  A fermented beer-like sparkling beverage having a desired flavor can be produced by appropriately adding herbs before boiling treatment or during boiling treatment. In particular, hops are preferably added before or during the boiling process. By boiling in the presence of hops, the hop flavor and aroma components can be efficiently boiled. The addition amount of hops, the addition mode (for example, adding in several steps) and the boiling conditions can be determined as appropriate.

  After the preparation process and before the fermentation process, it is preferable to remove protein and other soot produced by precipitation from the prepared broth. The removal of the soot may be performed by any solid-liquid separation process, but in general, the precipitate is removed using a tank called a whirlpool. The temperature of the broth at this time should just be 15 degreeC or more, and is generally performed at about 50-80 degreeC. The broth (filtrate) after removing the koji is cooled to an appropriate fermentation temperature with a plate cooler or the like. The broth after removing this koji becomes the fermentation raw material liquid.

  Next, as a fermentation process, yeast is inoculated into the cooled fermentation raw material liquid to perform fermentation. The cooled fermentation raw material liquid may be subjected to the fermentation process as it is, or may be subjected to the fermentation process after adjusting to a desired extract concentration. The yeast used for fermentation is not particularly limited, and can be appropriately selected from yeasts used for producing alcoholic beverages. Although it may be a top fermentation yeast or a bottom fermentation yeast, it is preferably a bottom fermentation yeast because it can be easily applied to large-scale brewing facilities.

  Furthermore, as a sake storage process, the obtained fermented liquor is aged in a storage tank, stored and stabilized under a low temperature condition of about 0 ° C., and then filtered as a filtration process. The target fermented beer-like sparkling beverage can be obtained by removing yeast and proteins insoluble in the temperature range. The said filtration process should just be a method which can filter and remove yeast, for example, diatomaceous earth filtration, filter filtration with a filter whose average pore diameter is about 4-5 micrometers, etc. are mentioned.

In fermented beer-like sparkling beverages, octanoic acid and decanoic acid are generally produced in the process of fermentation by yeast. Therefore, when the beer-like sparkling beverage according to the present invention is a fermented beer-like sparkling beverage, the amount of octanoic acid and decanoic acid finally contained in the beverage is adjusted by appropriately adjusting the fermentation conditions. Can do. Specifically, the amount of octanoic acid and decanoic acid in the fermentation broth can be reduced by increasing the amount of yeast inoculated into the fermentation raw material liquid in the fermentation process. The amount of yeast inoculated into the fermentation raw material liquid can be, for example, 25 × 10 ^{6 to} 35 × 10 ⁶ pieces / mL. In addition, by performing aeration (air aeration treatment) on the fermentation raw material liquid before yeast inoculation or after yeast ingestion, the amount of dissolved oxygen in the fermentation raw material liquid increases, and the subsequent fermentation by yeast is flourishing. The concentration of octanoic acid and decanoic acid in the obtained fermentation broth can be kept low.

  When the fermented beer-like sparkling beverage uses hops or processed products thereof (hop raw materials) as raw materials, for example, varieties having a relatively low β-myrcene content are selected and used as hops as raw materials. As a result, the amount of β-myrcene finally contained in the beverage can be kept low to a desired range.

  In addition, since β-myrcene is a volatile component, the dissolved β-myrcene is volatilized by aeration of the gas to the fermentation raw material liquid and the fermentation liquid after adding the hop raw material (aeration). Finally, the β-myrcene concentration of the beverage can be lowered. The gas may be oxygen-containing gas such as air, or carbon dioxide gas or nitrogen gas. For example, since oxygen is required for the growth of yeast in the initial stage of the fermentation process, it is preferable to ventilate the air when it is aerated in the initial stage of the fermentation process. On the other hand, when aeration is performed in the latter stage of the fermentation process or the alcohol storage process, a gas not containing oxygen is preferable, and carbon dioxide gas is more preferable. The notification of gas can be performed by a bubbling process or the like.

  In addition, the total amount of hops used as a raw material is added to the initial sugar solution in the boiling step, more specifically, by adding within 10 minutes immediately after the temperature of the sugar solution reaches 100 ° C. Β-myrcene extracted from the hop raw material is easily volatilized during the boiling process, and finally the amount of β-myrcene contained in the beverage can be suppressed to a desired range.

  In order to efficiently remove β-myrcene, it is preferable to vent the gas to the fermentation raw material liquid and the fermentation liquid after adding the hop raw material twice or more. For example, after the charging step, the air is aerated immediately after the temperature of the fermentation raw material liquid reaches the fermentation temperature, and then the air is aerated again after inoculating the fermentation raw material liquid with yeast.

  In fermented beer-like sparkling beverages, isoamyl alcohol is generally produced in the process of fermentation with yeast. Therefore, when the beer-like sparkling beverage according to the present invention is a fermented beer-like sparkling beverage, the amount of isoamyl alcohol contained in the beverage can be finally adjusted by appropriately adjusting the fermentation conditions. Further, by adding isoamyl alcohol itself as a raw material to a fermentation raw material liquid or fermentation liquid, a fermented beer-like sparkling beverage containing isoamyl alcohol having a desired concentration can be obtained. The timing of adding isoamyl alcohol is not particularly limited, but in order to prevent the added isoamyl alcohol from being lost during the production process, it is preferable to add isoamyl alcohol after the boiling treatment before the fermentation process. More preferably, it is added in the storage step or the subsequent filtration step.

  In general, a non-fermented beer-like sparkling beverage produced without undergoing a fermentation process can be produced by a method (preparation method) of mixing raw materials. For example, specifically, it can manufacture by the mixing process which prepares a preparation liquid by mixing each raw material, and the gas introduction process which adds a carbon dioxide gas to the obtained preparation liquid.

  First, in a preparation process, a preparation 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 of mixing the raw materials is not particularly limited. All the raw materials may be added simultaneously to the raw material water, or the raw materials may be added sequentially, such as by adding the raw materials remaining after dissolving the previously added raw materials. In addition, for example, raw material water may be mixed with solid (for example, powdered or granular) raw material and alcohol. The solid raw material is previously prepared as an aqueous solution, and these aqueous solution, alcohol, and raw water as required. You may mix.

  When insoluble matters are generated in the preparation liquid prepared in the preparation step, it is preferable to perform a process of removing insoluble matters such as filtration on the preparation liquid before the gas introduction step. The insoluble matter removal treatment is not particularly limited, and can be performed by a method usually used in the technical field such as a filtration method or a centrifugal separation method. In the present invention, insoluble matters are preferably removed by filtration, and more preferably removed by diatomaceous earth filtration.

  Next, as a gas introduction step, carbon dioxide gas is added to the preparation liquid obtained in the preparation step. Thereby, a non-fermented beer-like sparkling beverage is obtained. By adding carbonic acid, a refreshing feeling similar to that of beer is given. Carbon dioxide can be added by a conventional method. For example, the preparation liquid obtained by the preparation process and carbonated water may be mixed, and carbon dioxide may be directly added to the preparation liquid obtained by the preparation process and dissolved.

  After adding a carbon dioxide gas, you may perform the process which removes insoluble matters, such as filtration, with respect to the obtained non-fermented beer-like sparkling beverage. The insoluble matter removal treatment is not particularly limited, and can be performed by a method usually used in the technical field.

  When the beer-like sparkling beverage according to the present invention is a non-fermented beer-like sparkling beverage, octanoic acid and decanoic acid contained in the raw materials used are brought into the final beverage as they are. For this reason, by selecting and using raw materials with relatively low contents of octanoic acid and decanoic acid, or by using octanoic acid and / or decanoic acid as a raw material, octanoic acid and decane finally contained in the beverage The amount of acid can be adjusted within the desired range.

  The β-myrcene concentration of the non-fermented beer-like sparkling beverage is determined by controlling the amount of octanoic acid and decanoic acid finally contained in the beverage by suppressing the amount of raw material containing β-myrcene such as hop raw material. Can be adjusted within the range. Further, in the gas introduction step, β-myrcene can be efficiently removed from the preparation liquid by adjusting the introduction condition of carbon dioxide gas.

  Similarly for isoamyl alcohol, isoamyl alcohol contained in the raw material to be used is directly brought into the final non-fermented beer-like sparkling beverage. Thus, by using isoamyl alcohol itself or a fragrance containing the same as a raw material, the amount of isoamyl alcohol finally contained in the beverage can be adjusted within a desired range.

  EXAMPLES Next, although an Example and a reference example are shown and this invention is demonstrated further in detail, this invention is not limited to a following example etc.

<Measurement of concentrations of octanoic acid and decanoic acid>
In subsequent experiments, the concentrations of octanoic acid and decanoic acid were analyzed by modifying the method of Chen et al. (See Non-Patent Document 1).

<Measurement of β-myrcene concentration>
In subsequent experiments, the concentration of β-myrcene was measured by the SBSE method and the GC / MS method.

  Specifically, β damascon as an internal standard was added to the final product, beer-like sparkling beverage, so as to be 0.1 ppb, and then diluted 5 times. 20 mL of the obtained diluted sample was dispensed into a 30 mL vial. 47 μL of PDMS (polydimethylsiloxane) -coated stirring branch “Twister” (trade name) (length: 20 mm, manufactured by Gerstel) was placed in the vial, the lid was closed, and the mixture was stirred at 40 ° C. for 2 hours. The hop fragrance component was adsorbed on the surface. Next, after removing the stirring branch from the vial and completely removing water drops, a thermal desorption unit (Thermal Desorption Unit (TDU), manufactured by Gerstel) and a programmable temperature-evaporation inlet (Programmable temperature-vaporization inlet, CIS4, Gerstell) And GC / MS was performed under the following conditions.

Gas chromatograph: “Agilent 6890 gas chromatograph” (manufactured by Agilent Technologies)
Detector: “MSD5973N quadrupole mass spectrum” (manufactured by Agilent Technologies)
Column: “DB-WAX capillary column” (length: 60 m, inner diameter: 0.25 mm, film thickness: 0.25 μm, manufactured by Agilent Technologies)
Inlet temperature: 250 ° C
Injection mode: pulsed splitless injection mode
Injection volume: 1 μL
Carrier gas: helium (1 mL / min)
Column temperature setting: 40 ° C (5 minutes hold)-(3 ° C / min)-240 ° C (20 minutes)
Mass-to-charge ratio: 30 to 350 (m / z)
Ionization conditions: 70 eV
Measurement mode: single ion-monitoring (SIM) mode
Quantification: Performed by comparing the peak area of each aroma component with the peak area of the internal standard product.

<Measurement of concentration of isoamyl alcohol>
In the subsequent experiments, the concentration of isoamyl alcohol was determined according to “ASBC Methods of Analysis” (American Society of Brewing Chemists. Method of Analysis, 8th edition. Stastical Analysis-4 Youden unit block collaborative testing procedure. The society, St. Paul. MN (1992)).

<Sensory evaluation>
In subsequent experiments, the sensory evaluation of the sharpness, aftertaste and refreshing feeling of the beer-like sparkling beverage was performed as follows.
Specifically, with a panel of three people, the sharpness, aftertaste, and refreshing feeling of beer-like sparkling beverages are 4 points for the control (no addition), 1 point is very bad compared to the control, 7 points It was evaluated in a blind manner on 7 levels, which were very good compared to the control. The evaluation score of each sample was the average value of the evaluation scores of the three panelists. In addition, it was defined as “good sharpness: there is a drop in taste and there is no taste remaining after drinking” and “bad sharpness: taste will remain forever after drinking”. “Aftertaste: the intensity of the flavor left behind. Evaluate several seconds after swallowing”.

[Example 1]
The present inventors perform sensory evaluation by quantitative descriptive analysis method and comprehensive component analysis by instrumental analysis on the 14 main types of beer-like sparkling beverages marketed in Japan, and analyze their relevance Therefore, we tried to elucidate components that affect sharpness. As a result of PLS regression analysis using the component data acquired by instrumental analysis as an explanatory variable and the rich / crimping score acquired by sensory evaluation as an objective variable, rich was able to build a good prediction model only with taste component data, Kire was able to build a good prediction model when using both taste component data and aroma component data. The results of examining the relationship between the content and sharpness of octanoic acid, decanoic acid, β-myrcene, and isoamyl alcohol, which are considered to be highly important for sharpness, are shown below.

<Sample preparation>
After mixing 30 kg of malt, 10 kg of auxiliary raw materials, and 160 L of water, the resulting mixture was held at 50 ° C. for 30 minutes for proteolytic treatment, and then the mixture was held at 65 ° C. for 70 minutes to malt The derived component was saccharified. The obtained wort was filtered, and hop (American nugget seed) was added to the obtained filtrate and boiled for 90 minutes. After boiling treatment, concentration-adjusted hot water was added, hop koji and the like were separated, and cooled to 5 ° C. to obtain wort (180 L). To this wort, the bottom fermentation yeast was added so that the number of yeast after addition was 30 MIO, and fermented at 12 ° C. for 10 days. The fermentation broth after completion of fermentation was further aged at 10 ° C. for 7 days, then cooled to 0 ° C. and subjected to diatomaceous earth filtration to obtain beer (sample 1).

  About the obtained sample 1 and commercially available beer, octanoic acid, decanoic acid, (beta) -myrcene, and isoamyl alcohol concentration were measured. The results are shown in Table 1.

<Concentration and sharpness of octanoic acid and decanoic acid>
Samples 2 to 4 were obtained by adding samples of octanoic acid and decanoic acid to Sample 1 in the amounts shown in Table 2. For each sample, sharpness and aftertaste were evaluated using Sample 1 as a control (evaluation point: 4 points). The results are shown in Table 2. As a result, it was observed that the higher the concentrations of octanoic acid and decanoic acid, the lower the sharpness and the stronger the aftertaste. Beer-like effervescent beverages become worse as the concentrations of octanoic acid and decanoic acid increase, and the aftertaste is strengthened. By controlling the total concentration of octanoic acid and decanoic acid below the appropriate amount, beer-like effervescent It has been shown that it improves the sharpness of the beverage and reduces the strength of the aftertaste.

<Concentration and sharpness of β-myrcene>
Samples 5 to 8 were obtained by adding β-myrcene preparations to Sample 1 in the amounts shown in Table 3. For each sample, sharpness and aftertaste were evaluated using Sample 1 as a control (evaluation point: 4 points). The results are shown in Table 3. As a result, it was observed that the higher the concentration of β-myrcene, the lower the sharpness and the stronger the aftertaste. As the concentration of β-myrcene increases, the sharpness of the beer-like sparkling beverage deteriorates and the aftertaste is strengthened. By controlling the concentration of β-myrcene below an appropriate amount, the sharpness of the beer-like sparkling beverage is improved. It was shown to reduce the strength of aftertaste.

<Concentration and sharpness of isoamyl alcohol>
A sample of isoamyl alcohol was added to Sample 1 in the amounts shown in Table 4 to obtain Samples 9-12. For each sample, the sharpness and refreshing feeling were evaluated using Sample 1 as a control (4 evaluation points). The results are shown in Table 4. As a result, when the amount of isoamyl alcohol added was increased, the score of sharpness increased and the score of refreshing feeling also increased in the range of 7.5 ppm to 30 ppm (samples 9 to 11). The addition of isoamyl alcohol was recognized to have an effect of contributing to sharpness, an effect of increasing refreshment, and an effect of masking esters (solvent fragrance). When the addition amount was 40 ppm, the sharpness and refreshing feeling were rather inferior (Sample 12). By adding an appropriate amount of isoamyl alcohol, the sharpness and refreshing feeling of the beer-like sparkling beverage can be enhanced. By controlling the concentration of isoamyl alcohol within a specific range, the sharpness of the beer-like sparkling beverage is improved. It was shown that the refreshing feeling can be enhanced.

[Example 2]
<Sample preparation>
After mixing 30 kg of malt, 10 kg of auxiliary raw materials, and 160 L of water, the resulting mixture was held at 50 ° C. for 30 minutes for proteolytic treatment, and then the mixture was held at 65 ° C. for 70 minutes to malt The derived component was saccharified. The obtained wort was filtered, and hops (Bobeck seed) were added to the obtained filtrate and boiled for 90 minutes. After boiling treatment, concentration-adjusted hot water was added, hop koji and the like were separated, and cooled to 5 ° C. to obtain wort (180 L). After carrying out aeration (2.0 NL / min, 30 minutes) to this wort, it added so that the number of yeasts after addition of bottom fermentation yeast might be set to 20x10 < ⁶ > pieces / mL, and it was 12 degreeC for 10 days. And fermented. A portion of the fermentation broth after completion of fermentation is collected as an analytical sample (sample 1), the rest is further aged at 10 ° C. for 7 days, cooled to 0 ° C., and subjected to diatomaceous earth filtration. I got a beer.

In addition, after preparing wort in the same manner as described above and performing aeration (2.0 NL / min, 30 minutes), the number of yeasts after addition of the bottom fermentation yeast was 30 × 10 ⁶ / mL. Added. The wort after the yeast addition was further aerated (1.0 NL / min, 60 minutes) and then fermented at 12 ° C. for 10 days. A portion of the fermentation broth after completion of fermentation is collected as an analytical sample (sample 2), the rest is further aged at 10 ° C. for 7 days, cooled to 0 ° C., and subjected to diatomaceous earth filtration. I got a beer.

  For the sample for analysis (samples 1 and 2), the concentrations of octanoic acid, decanoic acid, β-myrcene, and isoamyl alcohol were measured in the same manner as in Example 1. The results are shown in Table 5. Compared with sample 1 in which aeration was performed only once, in sample 2 in which aeration was performed twice, fermentation was vigorous, resulting in a decrease in octanoic acid and decanoic acid concentrations and a decrease in β-myrcene concentration.

Claims (10)

  A beer-like sparkling beverage in which the total concentration of octanoic acid and decanoic acid is 2.5 ppm or less, the concentration of β-myrcene is 4.5 ppb or less, and the concentration of isoamyl alcohol is 55 to 100 ppm.   The beer-like sparkling beverage according to claim 1, which is a fermented beer-like sparkling beverage.   The beer-like sparkling beverage according to claim 1 or 2, which is a beverage for experiencing a sharpness.   The beer-like sparkling beverage according to any one of claims 1 to 3, wherein the malt ratio is 50% or more. A preparation process for preparing a fermentation raw material liquid;
It has a fermentation process in which yeast is inoculated into the fermentation raw material and fermented,
The amount yeast to inoculate a fermentation material liquid is 25 × ^{10 6} ~35 × ¹⁰ 6 cells / mL, the production method of the beer-like sparkling beverages. The preparation process is
A mixing step of preparing a mixture containing the fermentation raw material and raw water,
A saccharification step of heating the prepared mixture and saccharifying starch to prepare a sugar solution;
A boiling step of boiling the obtained sugar solution;
Have
The beer-like sparkling beverage according to claim 5, wherein, in the boiling step, all the hops used as raw materials are added to the sugar solution within 10 minutes immediately after the temperature of the sugar solution reaches 100 ° C. Method.   The ventilation of the air to the fermentation raw material liquid is performed at least twice, immediately after the temperature of the fermentation raw material liquid after the charging step reaches the fermentation temperature and after inoculating the fermentation raw material liquid with yeast. A method for producing a beer-like sparkling beverage according to 5 or 6.   The method for producing a beer-like sparkling beverage according to any one of claims 5 to 7, wherein 50% or more of the fermentation raw material is malt.   A method for improving the sharpness of a beer-like sparkling beverage by adjusting the total concentration of octanoic acid and decanoic acid, the concentration of β-myrcene, and the concentration of isoamyl alcohol.   The beer-like foaming property according to claim 9, wherein the total concentration of octanoic acid and decanoic acid is 2.5 ppm or less, the concentration of β-myrcene is 4.5 ppb or less, and the concentration of isoamyl alcohol is adjusted to 55 to 100 ppm. A method for improving the sharpness of beverages.