DE19920236A1 - Fermented, alcohol-free fruit juice drink with refreshing slightly acid taste is produced by alcoholic and lactic acid fermentation incorporating oxidation to yield acids - Google Patents

Abstract

A fermented, alcohol-free fruit juice drink with health-promoting properties and with a refreshing acid taste is obtained exclusively from natural materials, the acid being obtained microbiologically directly during the production process. The drink also contains vitamins and lactic acid bacteria and has good storage properties. A fermented, alcohol-free fruit juice drink with a natural sugar content and a content of weak acid obtained by fermentation and transformation of the EtOH is new in that (i) it contains fructose, fruit juice vitamins, ascorbic acid from the oxidation of the EtOH and several organic acids with a high proportion of gluconic-, acetic- and L(+)-lactic-acids; (ii) it is free of pathogenic germs; and (iii) it has an average alcohol content of 0.035 volume % and contains a live microorganismic symbiosis system with Acetobacter spp, Lactobacillus spp and Gluconobacter spp as bacteria and Brettanomyces intermedius, Brettanomyces lambicus, Brettanomyces custersii and Zygosaccharomyces baillii as yeasts. There is also an Independent claim relating to enzymatic production of the drink.

Description

The invention relates to a soft drink on a vegetable basis, mainly based on fruit juice, as well a process for producing this non-alcoholic beverage, predominantly using fruit juice as a beverage base taking advantage of the alcoholic fermentation of the used Beverage basis.

Drinks made by alcoholic fermentation of a vegetable Starting products are made as wine or beer well known for a long time. These drinks, wine and Beer or the like have a high proportion of alcohol, which by fermenting the sugar using the fermentation batch of yeasts.

As a non-alcoholic drink such is generally used stood, which has an alcohol content of <0.5 vol.% Small amounts of alcohol can therefore be present.

Non-alcoholic beverages are essentially those that not caused by alcoholic fermentation and mainly from fruit juices, fruit nectars or modified fruit  juices exist, and those that serve as showers and lemonades be known. In the manufacture of such water is mainly used for the refreshment of drinks Fruit juices or fruit extracts or their substitutes as well as with sugar or sweeteners and with acids, preserves added coloring and flavoring agents. Subsequently such a mixture is more or less carboni bottled and bottled.

These drinks and especially the fruit juices and fruit Juice-like drinks regularly have a relatively high level Sugar content of 7-11% and therefore taste unpleasantly sweet. Of course, the sugar can also be replaced by sweeteners, which is often associated with taste disadvantages.

Furthermore, refreshing drinks are fermented and fermented Fruit juices in Europe e.g. B. as cider, cider, grapes wine, Federweißer, berry wines and the like, and Beverages made by fermentation of sucrose solutions or Honey water with the addition of fresh or dried plants parts are manufactured (e.g. Gingerale, elder sparkling wine, mead) known, but counted among the alcoholic beverages become.

In this context is the alcoholic Fermented vinegar, especially apple cider vinegar, the in water-diluted form and also with the addition of Apple juice is offered as a soft drink. Here it is only a mixed drink that the ge healthy diet should also serve. This drink is liable however the lack of that there is no living in it Microorganisms are included, of which a probio alone effect on a healthy diet. The newer ones offer the scientific basis for this effect medical evidence that shows the importance of intact  Microflora within the human organism, especially within the gastrointestinal system. For designation the vitalizing effect of living microorganisms the food sector has been changed from medical / scientific The adjective "probiotic" coined. That term has meanwhile into the advertising language of the food industry, especially in the field of beverage products, input found.

There is also little from Russia called "Kwass" Alcohol-containing drink known by fermenting Grain products is made. As a substrate to this commonly used sweetened infusion of black tea, the vaccinated with a so-called "tea mushroom" and thus fermented becomes. The tea mushroom is not like the alcohol fermentation to produce a yeast that causes them a unified organism, but known to be one so-called "natural" symbiosis between yeast and bacteria, (compare: "The tea mushroom and its metabolic products" by J. Reis in "Deutsche Lebensmittel-Rundschau 1987", pages 286 to 290).

As a microorganism, the tea fungus is a symbiosis of yeasts and bacteria. The stems are in the tea fungus as yeasts Schizosaccharomyces pombe, Saccharomyces ludwigii, Pichia fermentans, Mycoderma spec. Torula spec. Apiculatus spec. and the bacteria Acetobacter xylininum, Acetobacter xylinoides, Detectable Gluconobacter aceti and Acetobacter pasteuriuanum.

As metabolic products of the tea mushroom can be found in the fermented liquid phase especially lactic acid, glucon acid, acetic acid and ethanol. Although the concentration of individual metabolic products in the substrate quantitative Fluctuations show all known types of "Kvass" when reaching an acidity which is perceived as pleasant  grades also an already relatively high alcohol content in the Be ranging from 2 to 3 or more volume percent.

A spontaneous, i.e. H. bond created naturally of microorganisms, with advantages for each strain the bond is created is called a "natural" symbiosis. At you already have a fixed numerical ratio between the microorganisms. Through the natural selek strains that were positive for the symbiosis, preferred and strains that are negative for the symbiosis, suppressed (otherwise the symbiosis would already be destroyed have been). Such symbioses have to survive Have the ability to defend themselves against "enemies". This Defense mechanism arises from the tea mushroom from its light disinfectant effect.

The fixed symbiotic bond mostly arises through genes adaptation of the microorganisms, d. H. due to genetic defects (Mutation), which requires the socialization of the partners Lich makes. In addition, there are "natural" symbioses so-called symbiotic helpers, which hardly exist in numbers are without which the symbiosis would fail and the contribute significantly to stability. These are due to their low numbers and their fixed symbio table binding very difficult to prove. For this reason very little is known about their functions and properties within the symbiosis.

In contrast to the "natural" symbiosis one speaks of one "artificial" symbiosis when two or more microorganisms strains of organisms are brought together. It is now happening temporary benefit for all partners involved, who ever but can be different. Pay that moderate occurrence of symbionts depends first of all on the quantity moderate addition, secondly from the strength of the symbiotic bin  third and depending on the environmental conditions. During the Time now assumes the natural balance Selection. This can lead to the dominance of one or some tribes come. Under certain circumstances, it can even become too full constant suppression of individual or all partners of the dominant tribe. Experience shows that "art "symbiosis exist for a maximum of three generations before a microorganism has ousted its partners.

A drink is known from EP-A-0 223 705 which contains 3-7% by volume. Contains alcohol and 5-15 g / l gluconic acid. This drink will obtained from grape juice, which with the help of, for example Gluconobacter oxydans is fermented until the obtained Mixture contains 5-15 g / l gluconic acid. This mixture is then after removing the Gluconobacter oxydans with the help of for example Saccharomyces cerevisiae up to one Alcohol content of 3-7 vol.% Fermented.

Furthermore, according to DE 40 12 000 is an exclusively existing natural products and organic logical fermentation made non-alcoholic refreshment known beverage.

To make this soft drink one starts from one well-known, non-fermented beer wort, also known as malt trunk is referred to.

A common wort usually contains too little acid and therefore tastes too sweet overall. By fermenting such a wort with a microorganism according to Art of the tea mushroom succeeds in acidifying this wort and thereby significantly improve the taste.

To make this soft drink, add the Beer wort described above with glucose or a glucose neck term sugar. As a glucose-containing sugar, for example  Use wise invert sugar or honey. The Sugar content affects the amount of the following Fermentation forming acid. This soft drink contains more acid, the higher the sugar addition.

For the acidification, the sugar-containing solution is itself in a container (fermentor or fermentation tank), with a Microorganism added and thus fermented. For fermentation all microorganisms can be used, which the Have ability to essentially convert glucose to gluconic acid to convert. These include Aspergillus niger, ver different Acetobacter and Gluconobacter oxydans.

As a well-known microorganism is presented here preferably used Gluconobacter oxydans, as with these Bacteria can acidify to a low pH is.

The liquid batch to be fermented must be used for growth purposes acceleration of the bacteria can be aerated by stirring. The Fermentation takes place at a temperature from the put bacteria, the amount used and the sugar concentration is dependent, up to a desired pH. This drink has a pH of 2.5 to 3.2, one Gluconic acid content of 5 to 30 g / l and a sugar content of 20 to 70 g / l. The glucose or the sugar containing glucose will in such an amount to the solution to be fermented given that the final sugar concentration 5 to 15 wt .-%, before is preferably 10 to 12 wt .-%. When working with Invert sugar becomes an inversion with increasing acidification Sucrose in glucose and fructose.

This drink has the disadvantage that there is no pro exerts briotic effect after its consumption, only as a Ge drink with certain taste properties and has a limited shelf life.  

According to DE 197 30 538 A1, a fermentation preparation is based on plants l basis with probiotic suitability than for enjoyment consuming food, a related manufacturing procedure and a corresponding liquid fermentation preparation knows that u. a. serves as a drink. This liquid fermentation preparation has an alcohol content in ready-to-eat condition of <0.1 vol% and a spectrum of germs besides any other non-pathogenic germs at least two types of viable microorganisms consisting of at least two ver different from the groups Acetobacter and / or Bifidobacterium and / or Lactobacillus and / or Leuconostoc- and / or Saccha romycetaceae come from, with at least one of the pre named species of one of the genera Acetobacter or Lacto Bacillus or Leuconostoc. This liquid fermentation preparation is manufactured according to a process in which one Fermentation batch from water with added fermentable coals hydrate and at least one herbal ingredient in the form of fresh or dried plant parts and / or sap and / or extract viable microorganisms consisting of the aforementioned species are added, which then via a certain time is held at a predetermined temperature. The microorganisms used cause lactic acid fermentation (Leuconostac cremoris); the bacterium acetobacta xylinum produces acetic acid and gluconic acid, the bacterium Lactobacillus casei produces lactic acid and yeast Saccharomyces cerevisae, used as wine or kombucha yeast is given, the alcoholic fermentation causes at the same time early production of ethanol and higher alcohols (fusel oils). The microorganisms used are not about symbiotic microorganisms, d. H. between Kambucha yeast (Saccharomycetaceae) contained in the tea fungus and the bacteria (Leuconostoc, Acetobacter, Lactobacillus) there is no symbiosis. Rather, it is about given microorganisms around a so-called "artificial" sym biose from a bacteria accumulation and yeast. It will be before  mainly produces lactic acid and that according to the disclosed Processed liquid fermentation preparation shows in ge ready for nut only a small proportion of 0.00007 g / l on acetic acid, from 0.00003 g / l of gluconic acid, 0.005 g / l Ascorbic acid, 0.008 g / l of L (+) lactic acid, 0.001 g / l of D (-) Lactic acid and 0.34 g / l ethanol. With the described Fermentation batch becomes Kambuch yeast (component from the Mikroor mechanism of Kombuchasymbiosis) used for fermentation. Since the Kambuchasymbiosis with a long fermentation time of the fermentation batch of 7 to 14 days adversely affect taste (sour and dull taste), it is necessary to prevent limit the fermentation time to 12 to 24 hours. That leaves preserve the original taste of the fermentation preparation, but the given probiotic effect remains questionable, because on the one hand the multiplication of the organic acids forming bacteria does not occur and on the other hand the existing bacterial accumulation no symbiotic properties shows. As a result, the effect of the remains Gluconic acid based cholesterol reduction in humans metabolic budget due to the extremely low con concentration of gluconic acid as a health-promoting property shaft out.

There is also the Ge here in the case of a bacterial accumulation Check that there are fluctuations in the quality of the end product because there is still no balance between the Has set components of the bacterial accumulation and one Quality fluctuations only through an exact quantitative dose tion of the addition of the individual microorganisms can be ensured can.

The object of the present invention is based on the above outlined state of the art, an alcohol-free fruit juice drink with additional health-promoting properties provide that exclusively from natural raw materials is made, tastes refreshingly sour, which he  required acid directly in a microbiological way the manufacturing process that also produces vitamins and contains lactic acid bacteria and favorable storage properties owns.

This task is accomplished through a soft drink on the Based on fruit juices with a sugar content of 10% by weight and an acidity in the fermentation pH range less than 3, which is over an alcoholic Fermentation occurs, according to claim 1 and by a method for enzymatic production of the same according to claim 4 solved.

In the fruit juice drink produced according to the invention it is an exclusively natural fruit juices as a starting product, through biological fermentation of the starting product and almost simultaneous oxidation of the the resulting fermented alcohol produced non-alcoholic and carbonated drink. According to the invention the starting product, the fermented fruit juice, a micro organism from acetic acid bacteria living in symbiosis, Lactic acid bacteria and yeast strains as a vaccine set.

The end product produced according to the invention, the non-alcoholic Fruit juice drink, is free from mold and pathogenic Germ, contains living microorganisms, a low content of sugar and has a pleasant, slightly acidic taste taste. In the ent by fermentation of fruit juice standing drink are by an enzymatic determination detected gluconic acid with 8.0 g / l, acetic acid with 2.7 g / l, Ascorbic acid with 0.12 g / l, L (+) lactic acid with 0.2 g / l, D (-) Lactic acid with 0.1 g / l and ethanol with 0.28 g / l (by average concentration), the high proportion of L (+) lactic acid is nutritionally beneficial acts, and has a pH of less than 3.  

By the addition of the aforementioned in symbiosis alko triggered living microorganisms in the fruit juice batch Holic fermentation decays in the fruit juice sugar in alcohol and carbon dioxide in the presence of yeasts instead. The anaerobic process is a aerobic process superimposed in which an oxidation of the Fermentation alcohol to acetic acid and from glucose to glucon acid with the participation of acetic acid bacteria, Acetobacter spp. in the existing genetic variants. Soon fermentation alcohol (ethanol) is timed up by Gluconobacter oxidized to acetic acid. The conversion process arises also ascorbic acid. Lactic acid is also found fermentation instead of the lactobacilli in the fruit contains sugar to predominantly L (+) lactic acid ferment and the existing malic acid to lactic acid is converted. Because the acetic acid bacteria for their growth an open fermenter is absolutely essential required or even aeration of the fermentation batch purpose moderate.

The microorganism used according to the invention for the fermentation of the fruit juice has the designation "apple mushroom" and is accessible to everyone (see table in FIG. 4). This is a microorganism symbiosis that is formed by mutation of yeast strains and bacteria in the apple juice during a "wild" fermentation of the same and is stable.

The "apple mushroom" is a growing originally in apple juice Sponge formation, which is a closed blanket on the upper surface of the apple juice. In the relatively solid structure, consisting of polysaccharides such as cellulose and xylose various microorganisms embedded. The microorganisms especially acetic acid bacteria and yeast, have a very close Symbiosis developed, d. H. they are in their metabolic egg and depend on each other in their viability. The  Ability to form a firm gelatinous blanket on the Surface is mainly attributed to Acetobacter xylinum.

One part each of the sponge structure grown in apple juice as well as part of the fermented fermentation liquid serve as Inoculum (vaccine liquid) for further fermentation batches from be sweet fruit juices. Doing so with a new fermentation batch as a vaccine liquid 10% of a fermented fermentation substance give.

The invention will be based on an embodiment are explained in more detail. In the accompanying drawings:

Fig. 1 shows a fermentation vessel for carrying out the Herstellungsver proceedings according to Example 1

Fig. 2 shows a fermentation vessel to carry out the manufacturing process according to Example 2

Fig. 3 shows a fermentation vessel for carrying out the Herstellungsver proceedings according to Example 3

Fig. 4 table: compilation of the strains of the microorganism symbiosis

A fermenter 1 (10,000 l-200,000 l) is with the fermenter punch 2, which 90% by volume from fruit juice and 10% by volume Inoculation liquid (finished fermented fermentation substance) exists fills. The fermentation process takes place approximately at an air pressure of approximately 1000 mbar, a temperature of approximately 20 ° C and extends over about 5-14 days, preferably 7-9 days, at um temperature of preferably 19 to 23 ° C. Thereby forms floating across the entire surface of the liquid formed a white-brown solid blanket that  further thickened during the incubation. After removing the The liquid is drained from the filter system by the ceiling Components of the grown microorganism separated.

Examples of the fruit juice used are optionally cloudy apple or pear juice, orange, lighter or dark grape, cherry, currant, pineapple, passion fruit, Banana, guava, multivitamin or ACE juice.

example 1

The fermentation vessel 1 is only filled to approx. 75 vol.% With liquid (fermentation substance 2 ). Alcoholic fermentation and lactic acid fermentation take place in the lower part. The oxidation to gluconic acid and acetic acid takes place on the surface, since the rest of the room is still filled with sterile air 3 , which initially still contains about 21% by volume of oxygen. On the ceiling of the fermentation vessel 1 there is a fermentation tube 4 or pressure relief valve in order to allow the carbon dioxide generated during the alcoholic fermentation to escape.

Example 2

The fermentation vessel 1 is filled to approx. 95% by volume with liquid (fermentation substance 2 ). Alcoholic fermentation and lactic acid fermentation take place in the lower part. Since the rest of the space is filled with sterile air 3 , which contains oxygen, the oxidation to the surface takes place to gluconic acid and acetic acid. On the ceiling of the fermenter 1 , an inlet 5 for sterile air 3 or sterile oxygen and a fermentation tube 4 or pressure relief valve, which discharges the used air, is attached. If necessary, the fresh air supply or oxygen supply can be switched off by a valve so that the gelatinous cover of the microorganism does not become too thick (risk of the drain valve becoming blocked).

Example 3

The fermentation vessel 1 is filled to approx. 95 vol.% With liquid (Gärsub substance 2 ). In the first phase, alcoholic fermentation and lactic acid fermentation take place with the exclusion of air. On the surface, the oxidation to gluconic acid and acetic acid takes place to a very small extent, since the remaining space of approx. (5% by volume ) is filled with sterile air 3 , which contains oxygen. On the lid of the fermenter 1 , a fermentation tube 4 or pressure relief valve, which lets the used air from, is provided.

In the second phase, by passing sterile air 3 or oxygen through the liquid through openings 6 at the bottom through a circulation system 7 , the fermentation alcohol is oxidized to acetic acid and gluconic acid.

After the fermentation is complete (5-14 days) 8 10 vol.% Of the product are returned to the circuit via a drain valve 8 located in the bottom of the fermentation vessel 1 and serve as a vaccine substance in the next fermentation process. The remaining 90 vol.% Of the product is passed through filter systems (not shown) and then pasteurized in an ultrahigh-pressure continuous pasteurizer (not shown). Now the product is possibly carbonated and can be filled in a sterile atmosphere.

Claims (8)

1. Fermented, non-alcoholic fruit juice drink with a natural sugar content and an acidity in the weakly acidic range which occurs after fermentation and conversion of the fermentation alcohol into organic acids, characterized in that this drink contains fructose, vitamins from the fruit juice formulation, additionally ascorbic acid from the oxidation of the fermentation alcohol and contains several organic acids with a high proportion of gluconic acid, acetic acid, and L (+) - lactic acids, is free of pathological germs; an average alcohol content of 0.035% by volume and living components of the microorganism symbiosis as bacteria Aceto bacter spp., Lactobacillus spp., Gluconobacter spp. and yeasts include Brettanomyces intermedius, Brettanomyces lambicus, Brettanomyces custersii and Zygosaccharomyces bailii. 2. Fermented, non-alcoholic fruit juice drink according to An saying 1, characterized in that the living Be components of the microorganism symbiosis of bacteria from at least 4 genetic variants of Acetobacter spp., of at least 2 genetic variants of Lactobacillus spp. and from 1 genetic variant of Gluconbacter spp. and from yeasts of at least 1 genetic variant of  Brettanomyces intermedlus, of at least 4 genetic Variants of Brettanomyces lambicus, of at least 2 genetic variants of Brettanomyces custersil and 1 genetic variant of Zygosaccharomyces Bailii be stand. 3. Fermented, non-alcoholic fruit juice drink according to An saying 1 and 2, characterized in that the one acidity in the pH range from approx. 3 to 3.5 with an alcohol content of 0.035 vol.% Or 0.28 g / l lies. 4. Process for the enzymatic production of a ferment non-alcoholic fruit juice drinks alcoholic fermentation process of the fruit used in the juice containing sugar in the form of d-glucose, d-fructose and d-mannose, characterized in that the Fruit juice with a natural sugar content in one Concentration that corresponds to that after extraction Microorganism is added from in symbiosis living yeasts inducing fermentation and Fermentation alcohol in lactic acid, acetic acid and gluconic acid bacteria converting by oxidation, being too the anaerobic process of alcoholic fermentation is aerobic Process of recycling the fermentation alcohol uses and the fermentation alcohol to acetic acid, glucon acid and lactic acid is converted and where the living microorganism is preserved, the proportion the course of the lactic acid and acetic acid formed Fermentation process determines and the proportion of fermentation alcohol determined.   5. Process for the enzymatic production of a fermenter th alcohol-free fruit juice beverage according to claim 4, characterized in that the alcohol content of approx. 0.035% by volume due to the oxidation of the fermentation alcohol formed organic acids is limited. 6. Process for the enzymatic production of a fermenter th alcohol-free fruit juice beverage according to claim 4 and 5, characterized in that the fermentation batch as a Microorganism symbiosis designated "apple mushroom" was added becomes. 7. Process for the enzymatic production of a fermenter th alcohol-free fruit juice beverage according to claim 4 to 6, characterized in that after the addition of the Mikroorga symbiosis of fruit juice in this microbiology logical anaerobic and aerobic processes over several stages run simultaneously or in succession, with an alko holic fermentation and / or lactic acid fermentation take place Det, existing lactobacilli certain sugar to milk acids and other types of lactobacilli the existing ones organic acids of the fruit juice mix to lactic acids convert and by means of oxidation of the fermentation alcohol of the enzymes of the existing bacteria acetic acid, glucon acid and ascorbic acid are formed. 8. Process for the enzymatic production of a fermenter th alcohol-free fruit juice beverage according to claim 4 to 7, characterized in that the approach is about 5 to 14 Days left on the liquid top Surface formed layer removed and the liquid to Obtaining the finished drink is filtered.