JP6608166B2 - Method for producing fermented beverage - Google Patents

Description

  The present invention relates to a method for producing a fermented beverage using alcohol as a raw material.

  A wide variety of beer-like sparkling beverages such as beer and sparkling liquor have been put on the market as consumer preferences diversify. In particular, the demand for low-calorie and low-sugar beer-like sparkling beverages has increased in recent years due to consumer health. In the case of fermented beer-like sparkling beverages manufactured through a fermentation process, the calorie content and sugar content of the beverage can be reduced by reducing the amount of fermented raw materials such as malt. The amount of alcohol used is also reduced.

  On the other hand, a method for producing a beer-like sparkling beverage by adding other alcohols to a fermented beer-like sparkling beverage such as beer has also been reported. For example, Patent Document 1 discloses a malt fermented beverage having a high use ratio of malt in a raw material such as beer, happoshu, miscellaneous sake, and malt fermented beverage, and an alcohol having at least wheat such as barley shochu as a part of the raw material. It is described that the addition of the contained distillate at a specific ratio can impart a sharpness over the throat without impairing the drinking response of the malt fermented beverage.

Japanese Patent No. 4367790

  By mixing alcohol such as distilled liquor into a fermented beer-like sparkling beverage produced by keeping the amount of fermentation raw material used low as in the method described in Patent Document 1, the calorie content and sugar content can be reduced. The alcohol concentration can be increased without much increase. However, just mixing alcohol with fermented beer-like sparkling beverages does not allow the taste of fermented beer-like sparkling beverages and alcohols to be fully harmonized, and the alcohol itself has a strong pointed irritation, resulting in a poor balance of taste. There is a case.

  The object of the present invention is to provide a method for producing a mellow fermented beverage in which the alcohol itself is used in spite of the fact that alcohol is used as a raw material and the sharp irritation of the alcohol itself is suppressed.

  As a result of earnest research to solve the above problems, the present inventor does not add alcohols to the fermented product obtained by the fermentation process in fermented beverages, but add alcohols to the fermentation broth during fermentation. As a result, it was found that the sharp irritation of the alcohol itself was suppressed and a mellow fermented beverage could be produced, and the present invention was completed.

The manufacturing method of the fermented drink which concerns on this invention is following [1]-[ 7 ].
[1] A fermentation process in which yeast is inoculated into the fermentation raw material liquid and fermented,
To the fermentation broth during the fermentation process, alcohols not containing yeast are added,
A fermented beer-like sparkling beverage is produced by fermenting the fermented liquid after adding the alcohols with stirring for at least a certain period of time until the end of the fermentation ,
The method for producing a fermented beverage, wherein the appearance extract of the fermented liquid decreases by 2% by mass or more by the end of the fermentation process after the addition of the alcohols .
[2] The method for producing a fermented beverage according to [1], wherein the alcohol is added to a fermentation broth in a state where the number of floating yeast is increasing.
[ 3 ] The fermentation according to [1] or [2] , wherein in the fermentation step, the number of floating yeasts in the fermentation liquid is measured over time, and after the peak of the number of floating yeasts is confirmed, stirring of the fermentation liquid is started. A method for producing a beverage.
[ 4 ] The method for producing a fermented beverage according to any one of [1] to [ 3 ], wherein stirring of the fermented liquid is performed by bubbling gas in the fermented liquid.
[ 5 ] The method for producing a fermented beverage according to [ 4 ], wherein the gas is carbon dioxide gas or nitrogen gas.
[ 6 ] The amount of alcohol added to the fermentation raw material liquid before inoculating the yeast or the fermentation liquid during the fermentation step is an amount that can increase the alcohol concentration of the produced fermented beverage by 1 to 4% by volume. The manufacturing method of the fermented drink in any one of said [1]-[ 5 ].
[ 7 ] The method for producing a fermented beverage according to any one of [1] to [ 6 ], wherein the alcohol is a raw material alcohol or distilled liquor.

  According to the method for producing a fermented beverage according to the present invention, although the alcohol is used as a raw material, the sharp irritation of the alcohol itself is suppressed, and a mellow fermented beverage can be produced. In particular, in the method for producing a fermented beverage according to the present invention, after adding an alcohol, it can be sufficiently fermented after adding the alcohol by fermenting while stirring for at least a certain period.

  In the present invention and the specification of the present application, “beer-likeness” means a taste reminiscent of flavored beer regardless of the product name and display. That is, an effervescent beverage (beer-like effervescent beverage) having a beer-like character is an effervescent beverage having a taste / taste and texture equivalent to or similar to beer, regardless of whether or not malt and hops are used. .

  Moreover, the fermented drink in this invention and this-application specification means the drink manufactured through the fermentation process which ferments fermented raw material with yeast irrespective of the kind of fermented raw material. Moreover, a fermented beer-like sparkling beverage is a beverage manufactured through a fermentation process, and means a beverage having beer-like properties and sparkling properties due to carbon dioxide gas. Specifically, beer, happoshu, etc. are mentioned.

  The method for producing a fermented beverage according to the present invention includes a fermentation process in which yeast is inoculated into a fermentation raw material liquid and fermented, and alcohol is added to the fermentation raw material liquid before inoculating yeast or the fermentation liquid in the fermentation process. It is characterized by adding. Compared with beverages obtained by adding alcohols to the fermentation broth obtained after fermentation by adding alcohols before fermentation is complete, the taste of alcohol and fermentation broth is better, and the alcohol itself has a sharp stimulus The feeling is suppressed and a mild flavored fermented beverage can be obtained.

  The amount of alcohol added to the fermentation raw material liquid or the like can be appropriately adjusted in consideration of the target product quality, particularly the target alcohol concentration of the fermented beverage that is the final product. For example, the amount of alcohol added to the fermentation raw material liquid or the like is preferably an amount by which the alcohol concentration of the fermented beverage to be produced is increased by 1% by volume or more by the added alcohol, and the alcohol concentration of the fermented beverage to be produced Is more preferably 1 to 4% by volume.

  The alcohol to be added to the fermentation raw material liquid or the like is not particularly limited as long as it contains alcohol and does not contain yeast. For example, it may be a raw material alcohol, spirits, whiskey, Distilled liquors such as brandy, vodka, rum, tequila, gin and shochu may be used. As alcohols used in the method for producing a fermented beverage according to the present invention, the alcohol concentration can be increased without significantly affecting the taste of the fermented beverage. Distilled liquor with a small flavor is preferable, and alcohol for raw materials is more preferable.

  In the method for producing a fermented beverage according to the present invention, the time for adding alcohols may be before completion of fermentation, but the added alcohols can be sufficiently blended with the fermentation broth, so that fermentation during the fermentation process is possible. In the case of adding alcohols to the liquid, it is preferable that the fermentation proceeds sufficiently even after the alcohols are added. Specifically, for example, the alcohol concentration of the fermentation broth after adding the alcohols increases by 1 volume or more from the alcohol addition time (ie, the time immediately after adding the alcohols) until the completion of the fermentation. Thus, it is preferable to add alcohols. Moreover, the degree of fermentation can also use an external appearance extract (mass%) as a parameter | index. Therefore, for example, the appearance extract of the fermented liquid is reduced by 2 mass% or more, preferably 4 mass% or more after the addition of alcohol (after the appearance extract is reduced by the addition of alcohol) to the end of the fermentation process. It is preferable to add alcohols.

  The appearance extract refers to an extract of a fermented beverage expressed as a sucrose concentration (usually mass%) of a sucrose aqueous solution having the same specific gravity at 20 ° C. Since it contains alcohol, the appearance extract is different from the original extract (soluble evaporation residue = genuine extract).

  For example, when alcohols are added to the fermentation broth during the fermentation process, the addition of alcohols to the fermentation broth is performed at the time when the yeast is growing after the start of fermentation, so that after the addition of alcohols Fermentation can be performed sufficiently. The degree of yeast growth in the fermentation broth can be known using the number of floating yeast in the fermentation broth as an index. When the yeast is actively growing, the number of floating yeast in the fermentation liquid increases. When the yeast growth is completed, the yeast settles and the number of floating yeast in the fermentation liquid also decreases. Therefore, in the method for producing a fermented beverage according to the present invention, it is preferable to measure the number of floating yeasts in the fermented liquid over time and add alcohols to the fermented liquid in which the number of floating yeasts is increasing.

  When adding alcohols before the start of fermentation, you may inoculate the yeast after adding and mixing the alcohols to the fermentation raw material liquid, add the alcohols after inoculating the fermentation raw material liquid and mix, Fermentation may be started. Alternatively, the fermentation raw material liquid may be prepared in advance by dividing it into a first liquid juice for inoculating yeast and a second liquid juice for mixing alcohols, and both may be mixed to start fermentation. A first liquid juice containing a fermentation raw material, a fermentation liquid raw material, and a second liquid juice containing an alcohol are prepared separately, and after inoculating yeast into the first liquid juice, the first liquid juice containing the first liquid juice and the alcohol The mixture (fermentation raw material liquid inoculated with yeast) obtained by mixing the juice of 2 is fermented.

  It is preferable that the first juice and the second juice are prepared so as to have substantially the same specific gravity so that they can be easily mixed with each other. For example, the difference in specific gravity between the first juice and the second juice is preferably adjusted to be 0.017 or less, and more preferably 0.010 or less. . Moreover, it is also preferable that the specific gravity values of the first juice and the second juice are both in the range of 1.030 to 1.047.

  In the present invention and the specification of the present application, the specific gravity value of the liquid juice or fermentation raw material liquid is measured using a density specific gravity meter (for example, “DA-510” manufactured by Kyoto Electronics Industry Co., Ltd.) with a natural vibration period measurement method. It is a value measured at ° C.

  The first liquid juice and the second liquid juice may be prepared separately in two or more. When the first juice is prepared by dividing into two or more, each juice is inoculated with yeast. When the first juice and the second juice are prepared by dividing into two or more, it is preferable that the first juice and the second juice are alternately put into the fermentation tank. By alternately charging the first liquid juice and the second liquid juice prepared by dividing into two or more, it becomes easy to mix both, and a uniform fermentation raw material liquid is obtained more quickly.

  When alcohol is added to the fermentation raw material liquid before inoculating yeast or the fermentation liquid during fermentation, fermentation may stop early and fermentation may become insufficient. In the fermentation process, the fermentation broth after adding alcohols is fermented with stirring for at least a certain period of time before the end of the fermentation. Can be fermented. The stirring of the fermented liquid may be performed before the addition of alcohols or after the addition of alcohols.

  The method of stirring the fermented liquid is not particularly limited as long as it is a method that can maintain the suspended state as much as possible without precipitating yeast in the fermented liquid, and is performed by gas bubbling, stirring with stirring blades, or the like. Can do. In the method for producing a fermented beverage according to the present invention, it is preferable to stir the fermented liquid by bubbling gas through the fermented liquid from the viewpoint that yeast sedimentation can be more easily suppressed.

  The gas used for bubbling is not particularly limited as long as it is a gas, but carbon dioxide gas and nitrogen gas are preferable. By bubbling using carbon dioxide gas or nitrogen gas, the amount of dissolved oxygen in the fermented liquid is also reduced, so that the amount of dissolved oxygen in the finally produced fermented beverage can also be reduced. That is, by bubbling, it is possible to produce a fermented beverage that can perform sufficient fermentation even when alcohols are added, and has high storage stability and suppressed flavor deterioration.

  The conditions for bubbling can be appropriately determined in consideration of the capacity and size of the vessel for bubbling, the amount of fermentation broth contained therein, etc., but it is preferable that the flow rate be uniform under a predetermined time. . Moreover, it is also preferable to carry out on the conditions which bubbling excessively and a fermentation liquid does not foam. Specifically, for example, it can be performed at a rate of 2 to 55 L / min, preferably 2 to 20 L / min per 3000 L of the fermentation broth.

  Since gas oxygen reduces the dissolved oxygen in the fermentation broth, it is preferable to start gas bubbling after the growth of yeast in the fermentation broth is complete. For this reason, it is preferable to start bubbling of gas to the fermentation broth after measuring the number of floating yeast in the fermentation broth over time and confirming the peak of the number of floating yeast.

  In the case where the fermented beverage produced by the method for producing a fermented beverage according to the present invention is a fermented beer-like sparkling beverage, except for adding alcohols to the fermentation raw material liquid before inoculating yeast or the fermented liquid during the fermentation process. It can be produced in the same manner as a general fermented beer-like sparkling beverage. A general fermented beer-like sparkling beverage can be produced by 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. 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. 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.

  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.

  The yeast may be inoculated after adding and mixing the alcohol to the fermentation raw material liquid, or the alcohol may be added to and mixed with the fermentation raw material liquid inoculated with the yeast. Moreover, you may add alcohol after inoculating yeast to a fermentation raw material liquid and starting fermentation. Furthermore, as described above, alcohol may be mixed in a part of the fermentation raw material liquid, yeast may be inoculated into the remaining fermentation raw material liquid, and both may be mixed to start fermentation.

  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 the method for producing a fermented beverage according to the present invention, a fermented beverage having a high alcohol concentration can be produced by adding alcohols before the completion of fermentation, even when the amount of fermentation raw material used is small. In other words, by using the method for producing a fermented beverage according to the present invention, the amount of fermented raw material used can be reduced even if the sugar concentration in the final product is suppressed to 0.5 g / 100 mL or less. A fermenting beer-like sparkling beverage having a concentration of 4 to 10% by volume can be produced.

  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. In the following Examples and the like, the specific gravity value of moromi was measured at a liquid temperature of 20 ° C. using a density specific gravity meter “DA-510” (manufactured by Kyoto Electronics Industry Co., Ltd.). In addition, the number of floating yeast in the fermentation broth was measured with a particle counting analyzer “CDA-1000B” (manufactured by Sysmex Corporation).

[Reference Example 1]
In fermenting beer-like sparkling beverages that do not use malt as a raw material, the alcoholic strength and mellowness sensory evaluation of the case where alcohol for raw materials is mixed with the fermentation raw material liquid before the fermentation process and when it is mixed after the fermentation process went. The raw material alcohol to be added was adjusted so that the alcohol concentration of the fermented beer-like sparkling beverage was 5, 6 or 7% by volume.

A fermented beer-like sparkling beverage in which raw material alcohol is mixed with fermentation raw material liquid before the fermentation process is obtained by inoculating yeast into moromi A containing fermented raw material and then mixing with moromi B containing fermented raw material and raw material alcohol. The resulting mixture was prepared by fermentation.
Moromi A was prepared as follows. First, 13 kg of liquid sugar (manufactured by Showa Sangyo Co., Ltd.), 600 g of soybean protein (manufactured by Fuji Oil Co., Ltd.), and 400 g of yeast extract (manufactured by Asahi Food and Healthcare Co., Ltd.) were dissolved in warm water, and then hop pellets (USA) , Nugget seed) was added and boiled at 100 ° C. for 60 minutes. A mash A (specific gravity value: 1.041) was prepared by adding hot water to the boiled liquid so as to be 90 L. Moromi A was cooled with a heat exchanger, yeast was added, and it was put into a fermentation tank.
Separately from moromi A, moromi B was prepared as follows. First, 13 kg of liquid sugar (manufactured by Showa Sangyo Co., Ltd.) was dissolved in warm water, and then 20 g of hop pellets (American, nugget type) were added and boiled at 100 ° C. for 60 minutes. After the boiled soup cooled in heat exchanger, the raw material for alcohol (manufactured by Daiichi alcohol Ltd.) was added in an amount shown in Table 1, the final volume which was adjusted to the amounts described in Table 1 Moromi B (specific gravity value: 1.041) was put into the fermentation tank.

  Fermentation was started after both Moromi A and Moromi B were put into the fermentation tank. From the start of fermentation, the number of floating yeasts in the fermentation broth and the appearance extract (mass%) were measured over time every day. The number of floating yeasts increased from the start of fermentation until the third day, but decreased from the fourth day. Began to do. That is, the peak of the number of floating yeast in the fermentation broth was on the third day. Therefore, bubbling was carried out by flowing carbon dioxide into the fermentation broth at 1 NL / min for 48 hours from the fourth day on which the tendency of decrease in the number of floating yeast was confirmed.

  After completion of fermentation, the obtained fermented liquor was aged in a storage tank, stored and stabilized at a low temperature of about 0 ° C., and then filtered through diatomaceous earth to obtain a fermented beer-like sparkling beverage ( Samples 1-1 to 1-3).

Fermented beer-like effervescent beverage in which raw material alcohol is mixed with fermented liquor after fermentation is mixed with moromi B containing fermented raw material prepared separately from moromi A after inoculating yeast into moromi A containing fermented raw material The resulting mixture was then fermented and prepared.
Moromi A is 13 kg of liquid sugar (manufactured by Showa Sangyo Co., Ltd.), 600 g of soy protein (manufactured by Fuji Oil Co., Ltd.), and 400 g of yeast extract (manufactured by Asahi Food and Healthcare Co., Ltd.), and then hop pellets. (American, nugget seed) 20 g was added and boiled at 100 ° C. for 60 minutes. Moromi A was prepared by adding boiling water to 90 L of boiling liquid juice. Moromi A was cooled with a heat exchanger, yeast was added, and it was put into a fermentation tank.
Separately from moromi A, moromi B was prepared as follows. That is, after dissolving 13 kg of liquid sugar (manufactured by Showa Sangyo Co., Ltd.) in warm water, 20 g of hop pellets (American, nugget type) was added, and the liquid juice obtained by boiling at 100 ° C. for 60 minutes was designated as moromi B . Moromi B was cooled in a heat exchanger and then put into a fermentation tank.
Fermentation was started after both Moromi A and Moromi B were put into the fermentation tank. From the start of fermentation, the number of floating yeasts in the fermentation broth and the appearance extract (mass%) were measured over time every day. The number of floating yeasts increased from the start of fermentation until the third day, but decreased from the fourth day. Began to do. After the fermentation is completed, the alcohol for raw material (manufactured by Daiichi Alcohol Co., Ltd.) is mixed with the obtained fermentation broth so that the alcohol concentration in the final product becomes the concentration shown in Table 2, and then aged in a storage tank. Then, after storage and stabilization at a low temperature of about 0 ° C., diatomaceous earth filtration was performed to obtain a fermented beer-like sparkling beverage (Samples 1-4 to 1-6).

  Each sample was subjected to a sensory evaluation in a blind manner using 13 specialist panels for the strength and mildness of alcohol stimulation. The evaluation was carried out by a three-level evaluation (◯: alcohol stimulation is weak / mellow, Δ: alcohol stimulation is slightly strong / slightly mellow, x: alcohol stimulation is strong / not mellow). The evaluation results are shown in Tables 1 and 2 together with the alcohol concentration (volume%) in the final product.

  As a result, comparing Samples 1-1 and 1-4, Samples 1-2 and 1-5, and Samples 1-3 and 1-6, all of them had the same alcohol concentration in the final product, but the raw materials In the sample added with alcohol for fermentation after fermentation, the alcohol irritation was strong and the taste balance was poor, whereas in the sample added with alcohol for raw material before fermentation, the alcohol irritation was weak and mellow. It was.

[Reference Example 2]
In fermented beer-like sparkling beverages made from malt, the alcoholic strength and mellowness of sensory evaluation of alcohol for raw materials mixed with fermentation raw material liquid before fermentation process and when mixed after fermentation process went. The raw material alcohol to be added was adjusted so that the alcohol concentration of the fermented beer-like sparkling beverage was 5, 6 or 7% by volume.

A fermented beer-like sparkling beverage in which raw material alcohol is mixed with fermentation raw material liquid before the fermentation process is obtained by inoculating yeast into moromi A containing fermented raw material and then mixing with moromi B containing fermented raw material and raw material alcohol. The resulting mixture was prepared by fermentation.
Moromi A was prepared as follows. First, in a charging tank, 20 kg of malt pulverized product was dissolved in 100 L of warm water and then held at 65 ° C. 10 g of glucoamylase (manufactured by Amano Enzyme Co., Ltd.) was added to this malt pulverized liquid and held at 65 ° C. for 30 minutes, and then the temperature was raised to 76 ° C. to prepare wort. The obtained wort was filtered in a wort filtration tank and then put into a boiling kettle.
In a boiling kettle charged with wort, 13 kg of liquid sugar (manufactured by Showa Sangyo Co., Ltd.), 600 g of soybean protein (manufactured by Fuji Oil Co., Ltd.), 400 g of yeast extract (manufactured by Asahi Food and Healthcare), and hot water Then, 20 g of hop pellets (American, nugget seed) was added and boiled at 100 ° C. for 60 minutes. A mash A (specific gravity value: 1.041) was prepared by adding hot water to the boiled liquid so as to be 90 L. Moromi A was cooled with a heat exchanger, yeast was added, and it was put into a fermentation tank.
Separately from moromi A, moromi B was prepared as follows. That is, after 13 kg of liquid sugar (manufactured by Showa Sangyo Co., Ltd.) was dissolved in warm water, 20 g of hop pellets (American, nugget type) were added and boiled at 100 ° C. for 60 minutes. After cooling the boiled juice with a heat exchanger, the amount of alcohol for raw materials (manufactured by Daiichi Alcohol Co., Ltd.) is added as shown in Table 3, and the final volume is adjusted to the amount shown in Table 3. Moromi B (specific gravity value: 1.041) and put into the fermentation tank.

  Fermentation was started after both Moromi A and Moromi B were put into the fermentation tank. From the start of fermentation, the number of floating yeasts in the fermentation broth and the appearance extract (mass%) were measured over time every day. The number of floating yeasts increased from the start of fermentation until the third day, but decreased from the fourth day. Began to do. That is, the peak of the number of floating yeast in the fermentation broth was on the third day. Therefore, bubbling was carried out by flowing carbon dioxide into the fermentation broth at 1 NL / min for 48 hours from the fourth day on which the tendency of decrease in the number of floating yeast was confirmed.

  After completion of fermentation, the obtained fermented liquor was aged in a storage tank, stored and stabilized at a low temperature of about 0 ° C., and then filtered through diatomaceous earth to obtain a fermented beer-like sparkling beverage ( Samples 2-1 to 2-3).

Fermented beer-like effervescent beverage in which raw material alcohol is mixed with fermented liquor after fermentation is mixed with moromi B containing fermented raw material prepared separately from moromi A after inoculating yeast into moromi A containing fermented raw material The resulting mixture was then fermented and prepared.
Moromi A was prepared as follows. First, 20 kg of malt pulverized material was dissolved in 100 L of warm water in a charging tank and then held at 65 ° C. 10 g of glucoamylase (manufactured by Amano Enzyme Co., Ltd.) was added to this malt pulverized liquid and held at 65 ° C. for 30 minutes, and then the temperature was raised to 76 ° C. to prepare wort. The obtained wort was filtered in a wort filtration tank. The filtered wort was put into a boiling kettle.
13 kg of liquid sugar (manufactured by Showa Sangyo Co., Ltd.), 600 g of soy protein (manufactured by Fuji Oil Co., Ltd.), 400 g of yeast extract (manufactured by Asahi Food and Healthcare Co., Ltd.) and hot water are added to the boiling kettle charged with wort. Then, 20 g of hop pellets (American, nugget seed) was added and boiled at 100 ° C. for 60 minutes. A mash A (specific gravity value: 1.041) was prepared by adding hot water to the boiled liquid so as to be 90 L. Moromi A was cooled with a heat exchanger, yeast was added, and it was put into a fermentation tank.
Separately from moromi A, moromi B was prepared as follows. First, 13 kg of liquid sugar (manufactured by Showa Sangyo Co., Ltd.) was dissolved in warm water, and then 20 g of hop pellets (American, nugget type) was added, and the liquid juice obtained by boiling at 100 ° C. for 60 minutes was designated as moromi B . Moromi B was cooled in a heat exchanger and then put into a fermentation tank.
Fermentation was started after both Moromi A and Moromi B were put into the fermentation tank. From the start of fermentation, the number of floating yeasts in the fermentation broth and the appearance extract (mass%) were measured over time every day. The number of floating yeasts increased from the start of fermentation until the third day, but decreased from the fourth day. Began to do. After completion of fermentation, the raw material alcohol (produced by Daiichi Alcohol Co., Ltd.) is mixed with the obtained fermentation broth so that the alcohol concentration in the final product is the concentration shown in Table 4, and then aged in a storage tank. Then, after storage and stabilization at a low temperature of about 0 ° C., diatomaceous earth filtration was performed to obtain a fermented beer-like sparkling beverage (Samples 2-4 to 2-6).

  For each sample, in the same manner as in Reference Example 1, sensory evaluation was performed for the strength and mellowness of alcohol stimulation. The evaluation results are shown in Tables 3 and 4 together with the alcohol concentration (volume%) in the final product.

  As a result, comparing Samples 2-1 and 2-4 and Samples 2-2 and 2-5, in all the samples with the same alcohol concentration in the final product, the raw material alcohol was added after fermentation. The sample with the alcohol for raw material added before fermentation was weak and mellow, whereas the alcohol was strongly stimulated and the taste balance was poor.

[Reference Example 3]
In fermented beer-like sparkling beverages that do not use malt as a raw material and have a sugar concentration of 0.5 g / 100 mL or less, when alcohol for raw materials is mixed in the fermentation raw material liquid before the fermentation process, and after the fermentation process Was subjected to sensory evaluation of the strength and mellowness of alcohol stimulation. The raw material alcohol to be added was adjusted so that the alcohol concentration of the fermented beer-like sparkling beverage was 5, 6 or 7% by volume.

A fermented beer-like sparkling beverage in which raw material alcohol is mixed with fermentation raw material liquid before the fermentation process is obtained by inoculating yeast into moromi A containing fermented raw material and then mixing with moromi B containing fermented raw material and raw material alcohol. The resulting mixture was prepared by fermentation.
Moromi A was prepared as follows. First, 13 kg of liquid sugar (manufactured by Showa Sangyo Co., Ltd.), 600 g of soybean protein (manufactured by Fuji Oil Co., Ltd.), and 400 g of yeast extract (manufactured by Asahi Food and Healthcare Co., Ltd.) were dissolved in warm water, and then hop pellets (USA) , Nugget seed) was added and boiled at 100 ° C. for 60 minutes. A mash A (specific gravity value: 1.041) was prepared by adding hot water to the boiled liquid so as to be 90 L. Moromi A was cooled with a heat exchanger, yeast was added, and it was put into a fermentation tank.
Separately from moromi A, moromi B was prepared as follows. First, 13 kg of liquid sugar (manufactured by Showa Sangyo Co., Ltd.) and 5 kg of dietary fiber (manufactured by Matsutani Chemical Co., Ltd.) were dissolved in warm water, and then 20 g of hop pellets (American, nugget seeds) were added and the mixture was heated at 100 ° C. for 60 minutes. Boiled. After cooling the boiled juice with a heat exchanger, the amount of raw material alcohol (manufactured by Daiichi Alcohol Co., Ltd.) is added as shown in Table 5, and the final volume is adjusted to the amount shown in Table 5. Moromi B (specific gravity value: 1.041) and put into the fermentation tank.

  Fermentation was started after both Moromi A and Moromi B were put into the fermentation tank. From the start of fermentation, the number of floating yeasts in the fermentation broth and the appearance extract (mass%) were measured over time every day. The number of floating yeasts increased from the start of fermentation until the third day, but decreased from the fourth day. Began to do. That is, the peak of the number of floating yeast in the fermentation broth was on the third day. Therefore, bubbling was carried out by flowing carbon dioxide into the fermentation broth at 1 NL / min for 48 hours from the fourth day on which the tendency of decrease in the number of floating yeast was confirmed.

  After completion of fermentation, the obtained fermented liquor was aged in a storage tank, stored and stabilized at a low temperature of about 0 ° C., and then filtered through diatomaceous earth to obtain a fermented beer-like sparkling beverage ( Samples 3-1 to 3-3).

Fermented beer-like effervescent beverage in which raw material alcohol is mixed with fermented liquor after fermentation is mixed with moromi B containing fermented raw material prepared separately from moromi A after inoculating yeast into moromi A containing fermented raw material The resulting mixture was then fermented and prepared.
Moromi A was prepared as follows. First, 13 kg of liquid sugar (manufactured by Showa Sangyo Co., Ltd.), 600 g of soybean protein (manufactured by Fuji Oil Co., Ltd.), and 400 g of yeast extract (manufactured by Asahi Food and Healthcare Co., Ltd.) were dissolved in warm water, and then hop pellets (USA) , Nugget seed) was added and boiled at 100 ° C. for 60 minutes. What was adjusted by adding hot water so that the boiled liquid soup to 90 L was cooled with a heat exchanger was designated as moromi A. Moromi A was cooled with a heat exchanger, yeast was added, and it was put into a fermentation tank.
Separately from moromi A, moromi B was prepared as follows. That is, 13 kg of liquid sugar (manufactured by Showa Sangyo Co., Ltd.) and 5 kg of dietary fiber (manufactured by Matsutani Chemical Co., Ltd.) were dissolved in warm water, and then 20 g of hop pellets (American, nugget seeds) were added and the mixture was heated at 100 ° C. for 60 minutes. The liquid juice obtained by boiling was designated as moromi B. Moromi B was cooled in a heat exchanger and then put into a fermentation tank.
Fermentation was started after both Moromi A and Moromi B were put into the fermentation tank. From the start of fermentation, the number of floating yeasts in the fermentation broth and the appearance extract (mass%) were measured over time every day. The number of floating yeasts increased from the start of fermentation until the third day, but decreased from the fourth day. Began to do. After completion of fermentation, the raw material alcohol (produced by Daiichi Alcohol Co., Ltd.) is mixed with the obtained fermentation broth so that the alcohol concentration in the final product is the concentration shown in Table 6, and then aged in a storage tank. Then, after storage and stabilization at a low temperature of about 0 ° C., diatomaceous earth filtration was performed to obtain a fermented beer-like sparkling beverage (Samples 3-4 to 3-6).

  For each sample, in the same manner as in Reference Example 1, sensory evaluation was performed for the strength and mellowness of alcohol stimulation. The evaluation results are shown in Tables 5 and 6 together with the alcohol concentration (volume%) in the final product.

  As a result, comparing Samples 3-1 and 3-4, Samples 3-2 and 3-5, and Samples 3-3 and 3-6, although the alcohol concentration of the final product is the same, In the sample added with alcohol for fermentation after fermentation, the alcohol irritation was strong and the taste balance was poor, whereas in the sample added with alcohol for raw material before fermentation, the alcohol irritation was weak and mellow. It was.

[Reference Example 4]
In fermented beer-like sparkling beverages that do not use malt as a raw material and have a sugar concentration of 0.5 g / 100 mL or less, no alcohol for raw materials is added in the fermentation process, and gas bubbling is not performed during fermentation. When mixing the alcohol for fermentation into the fermentation raw material liquid before the fermentation process and not gas bubbling during fermentation, and when mixing the alcohol for raw material into the fermentation raw material liquid before the fermentation process and gas bubbling during the fermentation The fermentation efficiency was examined.

Fermented beer-like sparkling beverage manufactured without adding raw material alcohol in the fermentation process and without gas bubbling during fermentation is prepared separately from moromi A after inoculating yeast into moromi A containing fermented raw material It was mixed with moromi B containing the fermented raw material, and the resulting mixture was fermented and prepared.
Moromi A was prepared as follows. First, 13 kg of liquid sugar (manufactured by Showa Sangyo Co., Ltd.), 600 g of soybean protein (manufactured by Fuji Oil Co., Ltd.), and 400 g of yeast extract (manufactured by Asahi Food and Healthcare Co., Ltd.) were dissolved in warm water, and then hop pellets (USA) , Nugget seed) was added and boiled at 100 ° C. for 60 minutes. Moromi A was prepared by adding boiling water to 90 L of boiling liquid juice. Moromi A was cooled with a heat exchanger, yeast was added, and it was put into a fermentation tank.
Separately from moromi A, moromi B was prepared as follows. That is, 13 kg of liquid sugar (manufactured by Showa Sangyo Co., Ltd.) and 5 kg of dietary fiber (manufactured by Matsutani Chemical Co., Ltd.) were dissolved in warm water, and then 20 g of hop pellets (American, nugget seeds) were added and the mixture was heated at 100 ° C. for 60 minutes. The liquid juice obtained by boiling was designated as moromi B. Moromi B was cooled in a heat exchanger and then put into a fermentation tank.
Fermentation was started after both Moromi A and Moromi B were put into the fermentation tank. From the start of fermentation, the number of floating yeast and the appearance extract (mass%) of the fermentation broth were measured over time every day. After completion of fermentation, the obtained fermented liquor was aged in a storage tank, stored and stabilized under a low temperature condition of about 0 ° C., and then filtered through diatomaceous earth to obtain a fermented beer-like sparkling beverage (sample) 4-1).

The fermented beer-like sparkling beverage prepared by mixing the alcohol for raw material with the fermented raw material liquid before the fermentation process and without gas bubbling during the fermentation, inoculates the mash A containing the fermented raw material with yeast, It was prepared by fermenting a mixture obtained by mixing with moromi B containing raw material alcohol.
Moromi A was prepared as follows. First, 13 kg of liquid sugar (manufactured by Showa Sangyo Co., Ltd.), 600 g of soybean protein (manufactured by Fuji Oil Co., Ltd.), and 400 g of yeast extract (manufactured by Asahi Food and Healthcare Co., Ltd.) were dissolved in warm water, and then hop pellets (USA) , Nugget seed) was added and boiled at 100 ° C. for 60 minutes. A mash A (specific gravity value: 1.041) was prepared by adding hot water to the boiled liquid so as to be 90 L. Moromi A was cooled with a heat exchanger, yeast was added, and it was put into a fermentation tank.
Separately from moromi A, moromi B was prepared as follows. First, 13 kg of liquid sugar (manufactured by Showa Sangyo Co., Ltd.) and 5 kg of dietary fiber (manufactured by Matsutani Chemical Co., Ltd.) were dissolved in warm water, and then 20 g of hop pellets (American, nugget seeds) were added and the mixture was heated at 100 ° C. for 60 minutes. Boiled. After cooling the boiled juice with a heat exchanger, 9.65 kg (65.5% by volume) of raw material alcohol (made by Daiichi Alcohol Co., Ltd.) was added, and the final volume was adjusted to 110 L. Moromi B (specific gravity value: 1.041) was added to the fermentation tank.
From the start of fermentation, the number of floating yeast and the appearance extract (mass%) of the fermentation broth were measured over time every day. After completion of fermentation, the obtained fermented liquor was aged in a storage tank, stored and stabilized under a low temperature condition of about 0 ° C., and then filtered through diatomaceous earth to obtain a fermented beer-like sparkling beverage (sample) 4-2). The alcohol for the raw material added to Moromi B increased the alcohol concentration of the final product by 3.5% by volume.

  The fermented beer-like sparkling beverage produced by mixing the alcohol for raw material with the fermentation raw material liquid before the fermentation process and gas bubbling during the fermentation was confirmed on the 4th day after the start of fermentation. The sample was produced in the same manner as Sample 4-2 except that carbon dioxide gas was allowed to flow through the fermentation broth at 1 NL / min for 48 hours to perform bubbling (Sample 4-3).

  Tables 7 and 8 show the measurement results of the appearance extract concentration (mass%) of the fermentation liquid of each sample and the authentic extract (mass%) at the end of fermentation. Sample 4-3 fermented by adding raw material alcohol and carrying out gas bubbling has a slightly lower authentic extract at the end of fermentation than sample 4-1 to which raw material alcohol is not added. In spite of the external addition of alcohol, it was found that the fermentation was sufficiently carried out in the same manner as in the conventional fermentation process in which no alcohol was added. On the other hand, in Sample 4-2 in which the raw material alcohol was added and gas bubbling was not performed, the decrease in the appearance extract was small after the fifth day from the start of fermentation, and the fermentation did not progress much. Actually, the authentic extract concentration at the end of fermentation of Sample 4-2 was clearly higher than Samples 4-1 and 4-2, and fermentation was insufficient. From these results, it became clear that fermentation can be sufficiently advanced even in a fermentation solution to which alcohols are added by bubbling gas in the fermentation solution during fermentation.

[Example 1]
Fermented beer-like effervescent beverages that do not use malt as a raw material and have a sugar concentration of 0.5 g / 100 mL or less. The efficiency was examined.

  Specifically, 9.65 kg (65.5% by volume) of raw material alcohol (Daiichi Alcohol Co., Ltd.) is added to the fermentation liquid on the second day from the start of fermentation, and further 48 from the fifth day onward. A fermented beer-like sparkling beverage was produced in the same manner as Sample 4-1 in Reference Example 4 except that carbon dioxide gas was flowed through the fermentation broth at 1 NL / min for a period of time (sample 5-1). Similar to Sample 4-2 in Reference Example 4, the alcohol for raw material added in Sample 5-1 increased the alcohol concentration of the final product by 3.5% by volume.

  From the start of fermentation, the number of floating yeast and the appearance extract (mass%) of the fermentation broth were measured over time every day. The measurement results of Sample 5-1 are shown in Table 9 together with the measurement results of Sample 4-2 of Reference Example 4. In Sample 5-1, on the 1.5th day of fermentation, the raw material alcohol was added after sampling to measure the number of floating yeasts and the appearance extract, and on the 5th day of fermentation, the number of floating yeasts and the appearance. Gas bubbling was started after sampling for measuring the extract.

In sample 4-2 that was not subjected to gas bubbling, the number of floating yeasts was 5.7 × 10 ⁶ cells / mL on the sixth day from the start of fermentation, and the yeast in the fermentation liquid settled to such an extent that fermentation could not be performed. It was. In addition, since the raw material alcohol is added in an amount that increases the alcohol concentration of the final product by 3.5% by volume, the appearance extract at the end of the fermentation is about -0.1% by mass when the fermentation is sufficiently advanced. However, the appearance extract of the fermentation broth at the end of fermentation of Sample 4-2 was 0.91% by mass, and the consumption of the extract by fermentation was insufficient. On the other hand, in sample 5-1, on the 6th and 7th day from the start of fermentation sampled in a state where gas bubbling is being performed, the number of floating yeast is 3 to 5th day from the start of fermentation before gas bubbling starts. It was confirmed that the precipitation of yeast was suppressed by gas bubbling. Moreover, in sample 5-1, although the raw material alcohol was added to the fermentation broth during fermentation, the appearance extract was reduced to -0.3% by mass, and the authentic extract at the end of fermentation was 2. It was 86 mass%, and all were almost the same as sample 4-3. From these results, it was revealed that fermentation can be sufficiently advanced by performing gas bubbling on the fermentation broth after adding alcohols.

Claims (7)

It has a fermentation process in which yeast is inoculated into the fermentation raw material and fermented,
To the fermentation broth during the fermentation process, alcohols not containing yeast are added,
A fermented beer-like sparkling beverage is produced by fermenting the fermented liquid after adding the alcohols with stirring for at least a certain period of time until the end of the fermentation ,
The method for producing a fermented beverage, wherein the appearance extract of the fermented liquid decreases by 2% by mass or more by the end of the fermentation process after the addition of the alcohols .   The manufacturing method of the fermented drinks of Claim 1 which adds the said alcohol to the fermented liquor in the state where the number of floating yeast is increasing. The method for producing a fermented beverage according to claim 1 or 2 , wherein in the fermentation step, the number of floating yeasts in the fermentation broth is measured over time, and after the peak of the number of floating yeasts is confirmed, stirring of the fermentation broth is started. . The manufacturing method of the fermented drinks as described in any one of Claims 1-3 which stirs fermented liquor by bubbling gas to fermented liquor. The method for producing a fermented beverage according to claim 4 , wherein the gas is carbon dioxide gas or nitrogen gas. The amount of alcohol to be added to the fermentation liquid in the fermentation process is an amount which is increased from 1 to 4% by volume of alcohol concentration of the produced fermented beverage according to any one of claims 1 to 5 A method for producing a fermented beverage. The manufacturing method of the fermented drinks as described in any one of Claims 1-6 whose said alcohol is alcohol for raw materials or distilled liquor.