• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A method for obtaining a beverage, the method comprising the steps of: a. Providing a first single-portion container comprising a malt-based beverage concentrate, characterized in that said concentrate is in a liquid state, has a viscosity of at most 40 , 10³ mPa.s; an actual extract density of at least 2.6 ° P; and an alcohol content of at least 1 vol% .; b. Providing a second single portion container comprising an ethanol solution with an ethanol concentration of 80 vol% or more. c. Providing a liquid diluent source; d. Mixing a portion of the diluent source with the contents of the second single-portion container to obtain an intermediate liquid mixture with an alcohol content of 30 vol% or less; e. Mixing the contents of the first single portion container with the intermediate liquid mixture and optionally an additional amount of the liquid diluent for obtaining a beverage.
    公开号:BE1025070B1
    申请号:E2017/5214
    申请日:2017-03-30
    公开日:2018-10-22
    发明作者:Pierre Adam;Miguel Monsanto;Schutter David De
    申请人:Anheuser-Busch Inbev Nv;
    IPC主号:
    专利说明:

    (30) Priority data:
    30/03/2016 EP 16163059.5 (73) Holder (s):
    ANHEUSER-BUSCH InBev NV 1000, BRUSSELS
    Belgium (72) Inventor (s):
    ADAM Pierre 3000 LEUVEN
    Belgium
    MONSANTO Miguel 3000 LEUVEN
    Belgium
    THE SCHEMPER David 3000 LEUVEN
    Belgium (54) A method for preparing a beverage from a single-porter or a single-porter parts set, said single-porter and said parts set i
    (57) A method of obtaining a beverage, the method comprising the steps of: a. Providing a first single-portion container comprising a malt-based beverage concentrate characterized in that said concentrate is in a liquid state, having a viscosity of at most 40.10 3 mPa.s; an actual extract density of at least 2.6 ° P; and an alcohol content of at least 1% by volume. b. Providing a second single-portion container comprising an ethanol solution with an ethanol concentration of 80% by volume or more. c. Providing a liquid diluent source; d. Mixing a portion of the diluent source with the contents of the second single-portion container to obtain an intermediate liquid mixture having an alcohol content of 30% by volume or less; e. Mixing the contents of the first single portion container with the intermediate liquid mixture and optionally an additional amount of the liquid diluent to obtain a beverage.
    BELGIAN INVENTION PATENT
    FPS Economy, K.M.O., Self-employed& Energy Publication number: 1025070Filing number: BE2017 / 5214 Intellectual Property Office International Classification: C12G 3/00 C12C 13/10 C12C 11/11B67D 1/00Date of grant: 22/10/2018
    The Minister of Economy,
    Having regard to the Paris Convention of 20 March 1883 for the Protection of Industrial Property;
    Having regard to the Law of March 28, 1984 on inventive patents, Article 22, for patent applications filed before September 22, 2014;
    Having regard to Title 1 Invention Patents of Book XI of the Economic Law Code, Article XI.24, for patent applications filed from September 22, 2014;
    Having regard to the Royal Decree of 2 December 1986 on the filing, granting and maintenance of inventive patents, Article 28;
    Having regard to the application for an invention patent received by the Intellectual Property Office on 30/03/2017.
    Whereas for patent applications that fall within the scope of Title 1, Book XI, of the Code of Economic Law (hereinafter WER), in accordance with Article XI.19, § 4, second paragraph, of the WER, the granted patent will be limited. to the patent claims for which the novelty search report was prepared, when the patent application is the subject of a novelty search report indicating a lack of unity of invention as referred to in paragraph 1, and when the applicant does not limit his filing and does not file a divisional application in accordance with the search report.
    Decision:
    Article 1
    ANHEUSER-BUSCH InBev NV, Grand'Place 1, 1000 BRUSSELS Belgium;
    represented by
    VAN DAELE Maarten, Mechelsesteenweg 32 box 103, 2018, ANTWERP;
    a Belgian invention patent with a term of 20 years, subject to payment of the annual taxes as referred to in Article XI.48, § 1 of the Economic Law Code, for: A method of preparing a drink from a single porter or a parts kit of single portion holder, said single portion holder and said parts set.
    INVENTOR (S):
    ADAM Pierre, Brouwerijplein 1, 3000, LEUVEN;
    MONSANTO Miguel, Brouwerijplein 1, 3000, LEUVEN;
    DE SCHUTTER David, Brouwerijplein 1, 3000, LEUVEN;
    PRIORITY :
    30/03/2016 EP 16163059.5;
    BREAKDOWN:
    Split from basic application:
    Filing date of the basic application:
    Article 2. - This patent is granted without prior investigation into the patentability of the invention, without warranty of the merit of the invention, nor of the accuracy of its description and at the risk of the applicant (s).
    Brussels, 22/10/2018,
    With special authorization:
    BE2017 / 5214
    A method for preparing a beverage from a single-portion holder or a single-portion holder parts set, said single-portion holder and said parts set
    Field of the invention
    The present invention relates to a method for dispensing a beverage based on one or more single-portion holders comprising a beverage concentrate in an amount sufficient to dispense a single consumption volume.
    Background of the invention
    When dispensing beer with a device based on mixing in situ a beer concentrate and alcohol to be mixed with a diluent. like water, time to cool down and to mix the different ingredients to obtain a sensory desired beer is an important parameter for the consumer.
    WO2015155237 describes a single portion double pad system with a first pad compartment comprising a concentrated beer granulate and a second pad compartment comprising concentrated ethanol.
    WO 2014159458 discloses a disposable beverage pad to be used with a single serving flavored beverage device.
    The disposable beverage pad is a container comprising a first compartment for containing an alcohol-free beverage concentrate in dry or semi-dry form and a second compartment for containing
    BE2017 / 5214 of ethan · n vl c o mp a r t i me n t c o mp a r t i me t connected, but serves to keep the beverage concentrate before
    While the above known documents claim to allow reconstruction of a beer by mixing the contents of the pads with water and subsequent carbonation, mixing and cooling the beverage to an acceptable temperature
    either clumsy long or requires this one large amount of energy, what leads to complex establishments that noisy: i.g z: in my ve 5el energy far use and much
    require maintenance.
    Thus, it is clear that there is still a market need for a method of reconstructing a malt-based beverage immediately before or when dispensing for efficient mixing and cooling of the beverage, simple processing, minimal equipment maintenance and for the consumer acceptable functionality in terms of sound levels and time for preparation and dispensing with. at the same time guarantees an optimal sensory quality of the drink.
    Summary of the invention
    The present invention relates to a single-portion container comprising a malt-based beverage concentrate or fermented beverage concentrate, characterized in that. the aforementioned concentrate. is in a liquid state, has a dynamic viscosity of at most 40.10 3 mPa.s; an actual one
    BE2017 / 5214 extract density of at least 2.6 ° P; and an alcohol content of at least 1% by volume.
    The present invention also relates to a parts set comprising:
    a. the first single-portion container comprising a malt-based beverage concentrate or fermented beverage concentrate, characterized in that said concentrate is in a liquid state, has a dynamic viscosity of at most 10 40.10 ; mPa.s, preferably at most 1000 mPa.s; an actual extract density of at least 2.6 ° P; and an alcohol content of at least 1% by volume. and
    b. a second single portion container comprising an ethanol solution with an ethanol concentration of 75% by volume 1% or more, preferably 80% by volume 1%; or more.
    The present invention further relates to a method for obtaining a beverage from a single portion holder, said method comprising the following steps:
    a. Providing a single portion container comprising a malt based beverage concentrate or fermented beverage concentrate, with. characterized in that the concentrate is in a liquid state, has a dynamic viscosity of at most 40.10 J 25 mPa.s; an actual extract density of at least
    2.6 ° P; and an alcohol content of at least 1% by volume. and
    b. Diluting the contents of the aforementioned single portion container with a diluent with an alcohol content of .30 vol% or less.
    BE2017 / 5214
    The present invention also relates to a method for threading a beverage from a parts set, comprising the
    a. !
    of a single-portion holder with actually comprising itself in a the characteristic that for:
    liquid state, one of. s;
    single-port holder v e r du n n i n g s m i d d e 1 b r
    d. It
    c. The e p o rt i e hο uder.
    highest 40.10 3 mPa change time 1 b
    density of at least 2.6 ° P; and of at least 1% by volume providing ee: second including an etha nolopl .os sing with ation of 80 vol% or more.providing a liquid on; mixing one part of the on with the content from the second before obtaining: 1 y n of a
    an alcohol content of intermediate liquid mixture mixing contents of the first liquor liquid and possibly the liquid diluent. for obtaining
    The aide drink is bi
    Or j preferably beer-like or cider-like drink.
    s chemat i s ch a n g
    BE2017 / 5214
    Fig. 2 schematically shows a liquid line dispenser with two single-port containers connected thereto;
    Fig. 3 shows a block diagram of a method 5 for preparing a beverage concentrate;
    relationship illustrates between of those
    F * of the amount of solids of the aforementioned retentates after
    Fig. 5 schematically shows an embodiment of the nanofiltration step a) illustrated in FIG. 3;
    Fig. 6 shows the saturation concentration of CO2 in water and ethanol (EtOH) depending on pressure at a temperature of 298 ° K.
    Fig. 7 shows the relationship between the saturation concentration of CO2 in water and ethanol at a pressure of 1 bar and a temperature of 298 ° K;
    Fig. 8 shows various embodiments of delivery devices of the present invention, comprising a unit dose comprising first and second chambers;
    Fig. 9 shows an example (a) of loading a unit dose into a dispenser and (b) creating and dispensing a fermented target beverage in situ.
    Fig. 10 shows an alternative embodiment of FIG. 1
    BE2017 / 5214
    5 Ge t a i11e and the c h r i j v i n gDefinitionsAs used herein, the term "concentrate" has the definition given in the Oxford dictionary: "A substance made by removing or reducing thediluent; a concentrated form ofsomething '(cf.http: // www. oxforddictionaries.com/definition/english/con 10 central). In line with this, the term "beer or cider concentrate" or, also called "(concentrated) beer or cider base" or "beer or cider syrup", is intended to refer to beer or cider, respectively, making up most of the solvent component 15 i.e. water - has been removed, retaining most of the dissolved components which impart properties such as taste, smell, color, mouthfeel etc.A malt-based drink is defined as a drink prepared with a barley malt or wheat malt, whether or not fermented. Examples of malt-based drinks include beers, such as lagers, stouts, aies and flavored malt drinks, such as lime-a-rita.A fermented drink is defined 25 as a beverage that has been subjected to a microbiological fermentation step during production and includes wine, cider and beer.As used herein, the term "beer" is to be understood in accordance with a rather broad one 30 definition:
    BE2017 / 5214 'the drink obtained by fermenting a wort, prepared with
    7 ..
    starchy or sugary raw materials, including hop powder or drinking water. In addition to barley malt and wheat malt, only weddings, mixed with e.g. wheat malt, starchy or sugar-containing raw materials, the total amount of which may not exceed 80%, preferably 40% of the total weight of the starchy or sugar-containing raw materials:
    (a) maize, rice, sugar, wheat, barley and their various forms.
    (b) sucrose, converted sugar, dextrose and glucose syrup '.
    Although, according to certain national laws, not all fermented malt-based drinks can be called beer, in the context of the present invention, the terms "beer" and "fermented malt-based drink" are used as synonyms and can be used interchangeably. It follows that as used herein, the terms "reconstituted beer" and "reconstituted fermented malt-based drinks" are understood to be drinks that are compositionally substantially identical to beer but are obtained by adding the solvent, ie water or carbonated water, to a previously prepared beer concentrate.
    The amount of components dissolved in malt-based drinks can also be expressed as so-called specific gravity (relative density) or apparent specific gravity. The first value becomes
    BE2017 / 5214 divided by the height (volume weight) of drink as a second value of drink volume in relation to
    1 an equal volume of water. Bio Example, specific gravity of 1,050 ('5u points') indicates that the fabric is 5% heavier than an equal volume of water. The densities of water, and therefore also of beer, vary with temperature; therefore, for both specific gravity and apparent specific gravity, the measurement of the sample and the reference value are performed under the same specified temperature and pressure conditions. The pressure is almost always 1 atm equal to 101,325 kPa, while the temperature may vary depending on the choice of further beer density approximation systems. Examples of such systems are two empirical scales, Plato and the Brix scale, which are commonly used in the brewing and wine industry, respectively. Both scales represent the strength of the solution as a mass percent sugar; one degree Plato (abbreviated ° P) or one degree Brix (symbol ° Bx) is 1 gram of sucrose in 100 g of water. There is a difference between these units mainly because both scales have been developed for solutions of sucrose at different temperatures, but this is so insignificant that they are used almost interchangeably. For example, beer measured at 12 ° Plato at 15.5 ° C has the same density as a water sucrose solution with 12 mass percent sucrose at
    15.5 ° C, which is approximately equal to 12 ° Brix, with the same density as a water-sucrose solution
    Q
    BE2017 / 5214 containing 12 ma. s s a
    The P kind that they have the density measurement amount of fermentable substances, which is useful for both city and substances this is not quite uss degrees that ° P of
    1.04 one is not linear, but one [1+ (12 X 4 X
    Because of f;
    of the good approach is (4 X similar weight invention, single-portion container defined container comprising at least one ingredient in a certain amount to obtain a portion when diluted in a liquid stream such as ov
    The rm this becomes vo
    S V.
    lt. added to or WCl-Θ R f where a urn sen 20 cl and :: 1.35 c : 1 or 50 cl. quirky with and can
    woraen me 'single port capsule' or
    Defined dynamic viscosity which is measured at ° C and is schematically illustrated and in particular the liquid tapping pipe including the icon connected to a liquid source
    BE2017 / 5214 aforementioned device is provided or is built into the device mixing chamber (13)
    Fluid line is fitted di in between ai e; a the connection is sto o p p o u r s v a n d * me 'i a nke 1 ep o r t i e h o u de r state, with.
    preferably m · th the dispensing outlet (5d);
    applied in the aforementioned liquid inlet a 1 m inoculation inoculation and and with a mixing chamber (13) or in the context of the present invention by means of the liquid or the liquid line, the e and liquor-based beverage concentrate or concentrate comprises a liquid viscosity of a maximum of 40 of at least 2.6 ° P,
    0.1 y preferably at least 12 “P said fis 3 mPa.s, actually
    VOO
    O -,
    P; and
    The single-portion holder preferably in particular a material, preferably the single-portion holder, is designed to shield the ingress of Cg from it. concentrate, prevent and barrier translucent and of
    E nma a. 1 vu 1 d, contamination preferably also to prevent the concentrate from being light struck
    BE2017 / 5214
    According to another embodiment of binding and so on.
    the beverage dispensing device (11) comprises the one thereof, one such as a tap, a circulating vessel provided externally of said device or liquid reservoir (3) built into the device; a dosing outlet. (5d); a mixing chamber (13) disposed in said fluid conduit between the fluid inlet and the discharge outlet (5d); and a parts set of two single portion holders (11), each with an outlet (1d2d) which is in fluid communication with the liquid line either upstream of the mixing chamber (13) or at the level of the mixing chamber (13).
    According to the present invention, the first single portion container (1) comprises a malt-based beverage concentrate (8) in a liquid state, with a viscosity of up to 40.10 3 mPa.s, preferably up to 1000 mPa.s; an actual extract density of at least 2.6 ° P, preferably at least 6 ° P, more preferably at least 8 ° P, and most preferably at least 12 ° P; and an alcohol content of at least 1 vol., preferably between 1 and 30 vol.%, with. more preferably between 1 and 25 vol. 1%, most preferably between 1 and 20 volts.
    The second single-portion container (2) contains an alcohol solution with an alcohol concentration of at least 75% by volume, preferably at least 80% by volume, more preferably at least 85% by volume, and most preferably at least 90% by volume %.
    BE2017 / 5214
    The first and second single portion holders can be either two separate holders; may be constructed as a single container with two compartments or chambers sealed from each other; or as two separate containers attached to each other.
    Again, the single portion holders are preferably made of a material with good O 2 barrier properties and are preferably not translucent and in particular not UV light. An example of such a material is aluminum. Once filled, the single-portion container is tightly sealed to protect the concentrate contents during transportation and to prevent O 2 from entering the container 15 or contamination of the concentrate and preferably also to prevent light concentrate from striking the concentrate .
    Both the single portion holder of Figure 1 and the first single portion holder of Figure 2 preferably contain a volume of concentrate of less than about 90 ml, preferably less than 85 ml (approx. 3 oz), more preferably a volume of less than
    60 ml (approx. 2 oz) and with the45 ml. most preferably lower than 25The concentrate in the e n k e 1 e ρ o r t i e h o u de rvo 1 ge ri s fig. 1 and in the first single portion holderto which is referred to f i g. 2 is preferred
    prepared by subjecting a fermented beverage or malt-based beverage such as beer or cider to a concentration step comprising nanofiltration or reverse osmosis to obtain a retentate and an o
    BE2017 / 5214 • J including · s ma a k o o mp o n e n t te n, where of or higher
    θ P time is becoming bare verbir (w / w ), bi
    preferred marked% (w / w). most preferably calculated from. density metric corrected for the a 1 coho 1 volume, where do oree η preaibepaa .1 the amount of the retentate is packaged in the single portion holder. According to the present invention, the concentrate is in a liquid state, with. a viscosity of up to 4.00 3 mPa.s, preferably up to 1000 mPa.s; an actual extract density of at least 2.6 ° P, preferably at least 6 ° P, more preferably at least 8 ° P and with. most preferably at least 12 ° P or even at least 20 ° P; and an alcohol content of at least 1% by volume.
    As illustrated in Fig. 3, a method of concentrating a malt-based beverage or fermented beverage includes a first step a), wherein the beverage (100) is subjected to nanofiltration (A) through a semipermeable membrane as a physical barrier to the passage of most beer components of average molecular weight (MW)>
    150-200 Da, but permeable to water, most of the ethanol, monovalent salts and a certain amount of beer flavor components. This first fraction that is retained on the inflow side of the membrane is called retentate (200) and is collected and packed in single porters.
    Generally, beer (100) subjected to nanofiltration (A) is preferably clear
    BE2017 / 5214 of a common beer clearance technique for removing yeast and most others over
    0.2 μm.
    n standard and general in the field of
    They include, for example, centrifugation, filtration through eg kieselguhr (diatomaceous earth) optionally preceded by centrifugation or other types of standard microfiltration techniques.
    As will be appreciated, the above method for preparing the single-portion container beverage concentrate of the invention is particularly advantageous for obtaining low-volume high-density beer or cider concentrates. The degree of concentration of the final product largely depends on the degree of concentration of the retentate used by
    Therefore, includes of the beer (or cider {flavor components, but may include such term as the of the beer or cider volume subjected to nanofiltration or reverse osmosis in step a) relative to the volume of the retentate obtained at the end of nanofiltration or reverse osmosis in step a), ie the ratio of the feed volume to the volume of the retentate obtained in step a) of the process according to the
    D
    BE2017 / 5214
    In preferred embodiment, an agreement is provided with the terms provided, where tap
    Onion is characterized by concentration factor of 4 or higher, or higher, preferably 10 or higher, more preferably or higher, most preferably 20 or higher. A
    relationship between the concentration factor within: n the above defined meaning, and the conc entration of infiltratable connects nger i that possibly. could be obtained in the retentaa t out step a) is of course depending on the type beer or the so ort cider die
    was initially subjected to nanofiltration or reverse osmosis, which is shown and can be understood from. the graph shown in figure 4, where each line represents a different drink (lines 1-4 were obtained for different beers, line 5 was obtained for cider)
    Concentration factors of 10 and above can advantageously be obtained, in terms of speed and performance, by, as used herein, a high pressure nanofiltration, i.e. nanofiltration performed at a pressure of at least 18 bar. Thus, in preferred embodiments of the invention, there is provided a method wherein the nanofiltration in step a) is a high pressure nanofiltration, defined as nanofiltration performed under a pressure in the range of about 18-41 bar, preferably in the range from about 20-35 bar about 30 bar.
    most preferred
    BE2017 / 5214 cross flow concentration always possible
    Θ.Θ operation becomes a performance
    Perceived
    G. 3 t concentrations of potential, in particular, can be obtained by using polymeric spiral membranes in an area of 150-200 Daltons or a similar area. Examples of such membranes include thin film composite ATF (alternating tangential filtration, Refine Technology) membranes such as those
    currently available be available at DOW and Parker domnick hunter. After the nanofiltration step, will it be strong concentrated retentate collected and wrapped up in the
    single portion holder.
    Optionally, additional ingredients can be added to the concentrate such as alcohol - to achieve an alcohol content between 1 vol% and 30 volts in the single portion holder; flavors; fleeting smells; carbon dioxide and / or nitrogen, preferably in the gaseous state and preferably in a saturation concentration at a temperature of 25 ° C and under a pressure of at least 2 bar (= 1 bar overpressure).
    as generally illustrates one for concentrating step (A), beer (100) is subjected to nanofiltration (A) through a semi-permeable membrane that acts as a physical barrier to passage of most
    BE2017 / 5214 beer components of average molecular weight (MW)>
    150-200 Da, but permeable to water, most of the ethanol, monovalent amount of beer flavor ingredients.
    the one retained on the inflow side of the membrane is called retentate (200) and is collected and packaged in the first single-portion container, while the fraction comprising alcohol and volatile flavor components is called permeate (300) and passed to a second concentration step (B) . The second concentration step may include fractionation, such as distillation, or reverse osmosis, and results in separation of the permeate (300) from the previous nanofiltration step (A) into two fractions: first, a concentrated fraction comprising alcohol and flavor components (400), which is collected and packed in the second single-portion holder; and, second, a largely aqueous residual fraction (500), which is discarded. Both single-portion holders can be stored or transported over distances after being tightly sealed and easily rehydrated into a reconstituted beer with a flavor profile very similar to or identical to a fermented beer.
    As mentioned above , beer (100) is that is subjected to nanofiltra tie (A) preferably is clear beer that was treated by using one ordinary beer clearance technique for the removal of yeast and most other particles with a diameter of
    more than 0.2 μm. Such techniques are standard and well known in the beer preparation art. She
    BE2017 / 5214 include, for example, centrifugation, filtration through, for example, kieselguhr (diatomaceous earth), possibly preceded by c e n t r i t u ga t i e other types of other
    After the nanofiltration step, the highly concentrated retentate is collected and packaged while the aqueous permeate is fed to the second concentration step b) for the selective recovery of ethanol and volatile flavor components, said step comprising either freeze concentration, reverse osmosis or fractionation, preferably including distillation and / or combination thereof.
    Distillation is a classic example of a fractionation technique known for being particularly suitable for separating alcohol and volatile component from water. The term "distillation," as used herein, refers to separating the liquid mixture into its components by making relative boiling points of the components by inducing their and can include simple woro.
    b) includes aromatic distillation, said distillation being defined as distillation configured to insure p
    BE2017 / 5214 o
    of high-quality connections.
    distillation is part. of a larger group of phase transition-based separation processes, such as olomchromatapheria that are in phase and the mobile phase, and fractional freeze both of which use crystallization melting points of and of pigments.
    Invention, method b) such ng comprise, preferably, arrangement, wherein different fractions are applied to the different flavor components and then selectively targeted for what would give greater control over the flavor profile of the final beer concentrate . according to the invention.
    In an alternative concentration process, step b) of the method comprises reverse osmosis; and then further at least an additional treatment of the fraction comprising ethanol obtained by said reverse osmosis, said treatment comprising fractionation, preferably distillation, or reverse osmosis. In the aforementioned embodiment it becomes. aqueous permeate equal to the fraction
    BE2017 / 5214 o
    comprising ohol and volatile flavors subjected to a step comprising reverse osmosis and volatile flavor components before the and the remaining fraction, said fraction comprising alcohol and volatile flavor components being further subjected to at least one further concentration step comprising fractionation, preferably distillation, or reverse osmosis, to obtain a concentrated fraction comprising alcohol and volatile flavor components and a residual fraction. In another alternative concentration process, a method is provided in which the reverse osmosis is a high resolution reverse osmosis, i.e. reverse osmosis performed under operating pressure in a range of 60-120 ingots at a temperature of yet another one is used.
    Freeze concentration mainly refers to the removal of pure water in the form of ice crystals at sub-zero temperatures. Freeze concentration has the advantage over e.g. distillation that the ash or extract (ions, organic components, etc.) does not withdraw from the permeate obtained by nanofiltration in step (Ά), which is the case with distillation. For this reason, it is believed that a beer or cider is reconstituted by the addition of water after concentration by:
    BE2017 / 5214 o
    a) Subjecting malt-based beverage to fermented beverage such as beer or cider (100) to first step comprising nanostation (A) reverse osmos to obtain one and comprising alcohol and volatile flavor components (300), wherein the retentate ( 200) is characterized by the concentration of infiltratable compounds equal to or greater than 20% (w / w), preferably 30% (w / w), most preferably 40% (w / w), as calculated from density measurement which corrected for the quantity
    b) subjecting the fraction comprising alcohol and volatile flavor components to a subsequent concentration step comprising freeze concentration to obtain a concentrated fraction comprising alcohol and volatile flavor components and a remaining fraction;
    comprising alcohol and volatile flavor components of (b) with an oil agent for the intermediates with an alcohol content of m * comomers of a drink having a taste profile that cannot be made from beer or the original cider.
    Because the present provides highly concentrated beverage bases for minimizing
    BE2017 / 5214 g e c o n c e n t r e r f r a c t i e comprising alcohol and volatile flavor components from step b) is also maximally concentrated.
    Therefore, in a preferred embodiment of the invention, comprising the fraction
    ABV, with flavor components from step more preferably at least 85% ABV. The term "used herein" refers to a worldwide standard for ethanol n an alcoholic beverage.
    expressed as a percentage of the total volume.
    as a possible embodiment, a method is provided in which concentration step b) is repeated until the off-center fraction comprising alcohol and volatile flavor components comprises 75-99% ABV, preferably 80-99% ABV.
    In a preferred embodiment of the concentration process, the beer subjected to the concentration process is beer with a stem root content higher than 11 ° P, preferably high density beer defined as beer with a stem root content of 14-25 ° P or even higher. Concentration of high stem wort beer is preferably applied to the method of the present invention since such an arrangement provides a synergistic approach that results in final concentrates characterized by very high concentration factors, which hitherto cannot be obtained with a discipline working method. However, as will be immediately recognized by any
    BE2017 / 5214 o
    subjected to the method of obtaining a beer concentrate provided herein. In accordance with the above, in another preferred embodiment of the above from aero -inos, beer is that
    become; t subject to the whey : kwi j ze vo 1 ge: The invention each beer o mV a 11 and the alc o ho / [.concentration between 2 - 16% ABV, Bee preferred between 4-12% ABV, with most in front of/ approve between 6-10% ABV. For example, bie r (100) with. s t a mw o r t g e h a 11 e from 11 ° P (before fermentation) , after the fermentation one
    have alcohol concentration of about 5% ABV (RDF 82%) and extract density equal to 2 ° F of unfermented sugars and other compounds. For example, during nanofiltration (B) according to the method of the invention, 100 hL of such beer will be separated into 2 streams:
    hL concentrated retentate (2) with extract value of about 40 ° P of unfermented sugars and about 5% ABV, and hL aqueous permeate (3) containing mainly
    ABV, the supernatant flow of the retentate (2) through the flow of the beer or the final product (2) is approximately w a t i. n d r u k w e k e n d memo currently known working methods. Determine in one
    BE2017 / 5214 g e c o n c e n t r e r d, e ch, simple use of concentration factors can be confusing and .1 s to a m en g m a b a s e e d d mnnen), because they are more
    A way of measuring the infiltratable components of a liquid that is subjected to filtration remaining in the retentate after the membrane-based concentration process.
    For a better understanding, Figure 4 shows the relationship between the amount of infiltratable components ('% solids 2 0 substances', x coordinate) obtained for different retentates of different alcoholic beverages,
    their corresponding concentration factors ('conc.factor.', y coordinate); the values obtained for six different alcoholic drinks correspond to curves 1-6. The alcoholic drinks include five types of beer and one cider type; they are characterized in Table 1 below.
    BE2017 / 5214
    Table 1. Alcoholic beverages subject to nanofiltration according to the method of the invention.
    drink beer1 beer2 beer3 beer4 beer 5 cider curve no. 1 2 3 ύ 5 6 standard wort content 16.30 17.50 16.00 11.00 22.00 15, 95 e '0 O. % %; Oc ; c1 '0r Q n RF ly M ιαί nn O / ƒ F J 75.00 82.00 92.00 Q 17 f) n1 O O f J V RDF 6 '0 O_ O. % ί 2- ÄBV% 5.61% £ 1>O, J 1 c 6.67% 5.00% i 1.24 9.00%
    In preferred embodiments of the invention, the higher range of concentrations of the infiltratable components (30% and above) as in the example above and in Figure 3, e.g., can be achieved in nanofiltration plants operating in ss roming or tangential mixing f11 ratios of the nanotiltration membrane.
    schematic illustratio n with r e c i r c u 1 a t i e memo a d o r h e t n a n o cross flow filtration b i exper e b i n d i n
    i s w e r g e a e / e n ON figure 4 which also j types That w o r the s t g e h c > uden f i 11 r a t i e me mb r a a η V s. the types that through n go and it. permeate voi : men.
    preference to dead end
    Transverse flow nodes have the appearance.
    Recirculation (indicated with
    Pi further to increase the tiltration efficiency.
    The nanofiltration unit can advantageously be used in a multistage multistage
    BE2017 / 5214 o
    nano figure 5 showing a nanofiltration comprising linked nano
    In n nanofiltration device, beer configured to flow from one to the next while being passed through
    After becomes the final retentate that concentrates!
    this acto example would be hL with 2 0. Of course, as for any person skilled in the art, the amount of multistage.
    Such nanofiltration can be at ambient temperature (20 ° C) or less, optionally at ° C or lower.
    is concentrated!
    snap • p setup subject through the
    Such advantageous because many flavor component fractions can be selectively collected or removed from the column, allowing more control over the desired flavor / odor profile of the final beer concentrate of the invention.
    Usually, distillation will be configured for
    BE2017 / 5214 o
    comprising alcohol fraction comprising between 75-98% ABV, which will be packaged in single portion container.
    In the present example, for ease of calculations, it can be assumed that this% ABV just passed in a volume of
    The total concentratle process (fractions together) (may be inequilibrated compounds (after the ethanol fraction (4) concentrated on nanofiltration retentate (2)) then even to (w./w), which corresponds to the final 11 th concentration factor (calculated as ratio of from (6)) ranging from
    Optionally, d <
    be added such as alcohol before reaching vort o more;
    or gaseous carbon dioxide or nitrogen.
    n the equipment is consumed mr handmat1σ within grafting (for example through a door of a d * device inserted into the device, the contents of the single portion holder are preferably
    BE2017 / 5214 mixing chamber, where the concentrate is diluted to a desired level with water, beer, with an alcoholic solution or other diluent of your choice, to obtain a single portion of beverage vol.
    The mixture can optionally be cooled and / or carbonated before delivery. When diluting the concentrate with an alcohol (ethanol) solution, it is preferred that the ethanol content is 30 vol% or less, more preferably 25 vol% or less, and most preferably 20 vol% or less, permitting rapid mixing of the concentrate in the alcohol solution without precipitation of macromolecules in the mixture. Since such mixing energy can be minimized and heating of the mixture 15 due to mixing can be limited or avoided.
    The single portion container of Figure 1 and the first single portion container of Figure 2 preferably contain about 40-60 ml of concentrate for dispensing a single portion of between 200 ml and 350 ml. The second single portion holder preferably includes
    10-20 ml alcohol solution to deliver a single serving of between 200 ml and 350 ml. Since, the device preferably allows delivery of a beverage portion at a temperature of 3 ° C or less, without pre-cooling the single portion container and with pre-cooling the diluent to 0 ° C or just slightly lower (depending on the alcohol content), limiting the energy required to mix both liquid flows is decisive.
    In addition, it minimizes the energy required to mix both
    BE2017 / 5214 o
    The most fluid design possible is a mixing chamber without a rotor, and thus the design of a device that is easy to use and maintain, according to one for reconstitution and delivery, while providing an optimal sensory quality of d>
    drink Guarantees.
    The method of obtaining a beverage steps includes:
    the single-portion holder comprising the feature that with non-beverage concentrates
    concentrate in a liquid to estand is located, a viscosity has vs π max i ώϊ a a 1. 40.10 3 mPa.s; a really extractdi authenticity of ten least 2.6 ° P, Bee
    O of tweed!
    single portion holder m · an ethanol concentration of 75 vol% or more by volume.
    e t h a n o1 solution;
    or diluent source m e
    irschaf ten from a liquid whiz Ls water, beer or a ng and from a part from the with Ο-Θ content vain the second in front of it obtained jgen from a
    intermediate liquid mixture with a
    BE2017 / 5214 vol% or less, preferably 25 vol% or less, most preferably 20 vol% or less;
    e. Mixing the contents of the first single portion container with the intermediate liquid mixture and optionally an additional amount of the liquid diluent to obtain a beverage.
    The mixture can optionally be cooled and / or carbonated before delivery. By first diluting the contents of the second second portion holder to obtain an intermediate mixture with an alcohol content of 30 vol% or less, preferably 25 volts or less, more preferably 20 vol% or less, the contents of the first single-portion holder are quickly mixed with the alcohol of the second single-portion holder, without macromolecules precipitating in the mixture. Since such mixing energy can be minimized and heating of the mixture due to mixing can be limited or avoided.
    According to a preferred embodiment, the first and second single-portion containers preferably comprise an amount of gaseous carbon dioxide and / or nitrogen, such that for carbonation of the prepared drink no or only a limited amount of external gas must be supplied under pressure. Referring to Figure 6, which illustrates the CCD saturation concentration in a water-ethanol mixture at a temperature of 288 ° K as a function of ethanol concentration. The abscissa x E ton = 0% corresponds to pure water, and Xeoh = 100% corresponds to pure ethanol. It can be seen that CO2 saturation concentration in ethanol is about one order
    BE2017 / 5214 o
    of magnitude higher more carbon dioxide may be dissolved in pure ethano if it is for a portion of the CO 2 take to target beverages with an ethanol content of at least second single serving container which is required for the purpose of beverage at a reasonable pressure in the second single serving container of from 1 to 4 bar above atmospheric pressure.
    Thus, the ethanol single portion of the second container contains: CO 2 at a concentration, x C o2 (EtOH), between 1.0 and 3.0 mol%, preferably between 1.5 and 2.5 mol%, relative.. on the total content of the second single-portion holder.
    If the first single-portion container contains a little water, for example 10 to 40% by volume of water, it is also possible to dissolve gaseous CO 2 and / or N 2
    in said water in the first single epo owner. This can contribute to it be reaching out for more bubbles i n cis do e 1 d r a n k. This is possible voo ral be useful bi j a goal c irank
    with a low ethanol content. Depending on the amounts of ethanol and gas desired in the target beverage, gas concentrations and pressures in the second and, optionally, the first single portion containers can be determined.
    The water from the first single-portion container contains:
    CO 2 in a concentration, xCO 2 (H 2 O), between 1.0 mol%, preferably between
    1.5 and
    2.5 mol%, based on the total water content of the first single-portion container.
    BE2017 / 5214
    Finally, the final gas content in the target drink can be fine-tuned with an external pressurized gas source (9). This, of course, requires the use of additional consumables, which is detrimental to the ease of use of a dispenser, but since the pressure gas source merely serves to fine-tune the final gas content in the target drink, the gas consumption is very limited and one load can last a long time. come along.
    The liquid diluent (3) generally includes water, and can be pure water alone. With pure water is meant water that contains minerals that make it drinkable. In particular, it can
    liquid diluent flat water - --------- f ... ------- - - - · be like 5 illustrated riot in figure 8 of a crane, but it is possibleof course k also be provided in a reservoir or
    other holder. A dispenser for dispensing a fermented beverage such as beer, and the use of unit doses that do not require an additional gas source and the pure water as a liquid diluent provided most comfortably for
    D e d n n i n g s m i d d e dO) a neutral mixture with different types of concentrated drinks of the ethanol from the weed single ear holder.
    Of such
    Illustrated with a liquid diluent word '
    BE2017 / 5214
    The liquid bar is available without flavors, and the single-port holder is available dark abbey beer, amber abbey beer, stout, etc.
    With a single supply of base beer, it is possible to obtain a wide variety of target beers by mixing said unit dose base beer comprising a second single-portion container filled with ethanol and a gas, and a first single-portion container containing a corresponding variety of flavored concentrated beverage extracts . Compared to a painting, the base beer forms a background color of beverage extract, providing the colored central subject of the image.
    The concentrated beverage extracts in the first single portion container preferably include various ethyl butyrate, and ethyl hetanoate.
    This major flavoring compound of beer, is that concentrated drink extracts are produced by removing some of the water and most (or all) of the ethanol from a conventionally brewed beer. Alternatively or additionally, it may be produced or completed by
    fabrics
    BE2017 / 5214, the first and second single-portion holders can be changed without having to be 11th in.
    wish to quantity ethanol i n his target drink too arrange for. Any unit of the first and second single portion holders (1, 2) has a inlet connection (lu, 2h) and a
    outlet connection (ld, 2d), which can be coupled to an upstream and downstream end (5u, 5d) of a delivery tube. However, it is more difficult to load two dose units consecutively before dispensing a target drink.
    Alternatively, as shown in Figures (c) and (d), the first and second single portion holders can be provided as two separate single portion holders in a single unit. This leaves no choice as to the amount of ethanol in the target beverage, but is easier to use since the end user only needs to load a single unit into the dispenser, as is common with coffee machines. As shown in Figure 8 (c) and (d), the two single portion holders
    in a single unit .sdos is with using from v 1 o e i s t o f i n series or in parallel be linked egg o o i the internal tube that initial: calibrated finished s raffle tickets by a membra. an, until the pressure from it liquid
    diluent bursts said membrane. Alternatively, the introduction of a dose unit includes first and second
    BE2017 / 5214 single portion holders, the first and second single portion holders moved and pierced this aforementioned membrane after contacting.
    As the name implies, a dose unit corresponds to one serving of drink. Depending on the country and type of drink, one serving can be a glass (10) with a capacity generally between 20 and 50 cm 3 (1 cm 3 = 0.1 cl). Consequently, for a target drink with an ethanol content of 5% by volume, the second single-portion holder (2) must have a capacity of 10 cm 3 for a target drink of 200 cm 3 , of 17 cm 3 for a target drink of 330 cm 3 , and of 25 cm 3 for a target drink
    Likewise from
    500 cm 3 with an ethanol content one of roter the tweed * single portion holder, the larger
    Ο.Θ
    N 2 that
    Can be stored, and the greater the alcohol content of the target drink.
    The volume of the first single portion holder (1) may vary more than that of the second single portion holder, depending on the amount of water still present in the first single portion holder. For a first room that ten
    highest 5 vol.% water bev at., the capacity of the 25 first single port tiehou the r between 10 and lie 50 cm 3 .For a first käme r with between 20 and 40% by volume of water.can the capacité! t of the first ankle b 1 e po r 1.1 e η o u a e r v a. n
    be in the order of 50 to 150 cm 3 .
    As delighted reerd in figure 8, makes the 30 issue-i n r i ch t ing it mogel .keep in situ oneprovide me target drink to produce by addition
    BE2017 / 5214 of a liquid diluent, and thus no + The dispensing device comprising:
    front of (b) a housing (lz) for receiving the second single portion holder (2), (c) a delivery tube system (5d, 5u) comprising an upstream end (5u) and a downstream end (5d), the upstream end is coupled to a liquid diluent source, and said liquid diluent source is connected by liquid, to the housing for receiving the first single portion container, to the housing for receiving the second single portion container, and to the downstream end ( 5d) of the delivery tube, which is open to an outdoor atmosphere.
    A first single portion holder and a second single portion holder as discussed above are loaded into a respective housing such that the liquid diluent (3) flowing from the upstream end (5u) to the downstream end (5d) of the delivery tube system through the interior of both first must flow as second single-portion holders (1, 2).
    The delivery device may include two different housings (12) which are fluidly connected to receive the first and second single porters separately. Alternatively, as shown in Figure 9, a single
    BE2017 / 5214 housing (12) are used to receive either a single unit dose comprising both a first or a junior each comprising the first
    J and second single portion holders, gauge. Figure
    8 (a) and (b) show examples in which two separate unit doses are used, and Figures 8 (c) and (d) and 9 show examples of devices receiving a single unit dose comprising both first and second single porters.
    For hygienic reasons and for ease of use, a unit dose as illustrated in Figure 9 (a) may include first and second single porters and the downstream end (5d) of the delivery tube system. The unit dose may be loaded into the dispenser housing, a glass or other vessel of sufficient capacity is placed below the downstream end of the delivery tube system. For example, whenever a new unit dose is loaded into the delivery device, a new and clean downstream end (5d) of the delivery tube is used. The upstream end of the delivery tube system (5h) should also be changed regularly, but since the same liquid diluent is used for each serving, it does not need to be replaced after each serving. This is especially true if the diluent is flat water, which is a preferred embodiment.
    Downstream of the first and second single portion containers, the delivery tube system may include a mixing chamber for mixing the liquid
    BE2017 / 5214 diluent with the concentrated drink extracts, ethanol, and gas. The mixing chamber may include a motion element for dynamically mixing the components or, alternatively, it may be a static mixer or simply a sharply curved section in the downstream end of the delivery tube system. If a mixing chamber is used, care must be taken to select a mixing mechanism that does not generate excessive amounts of foam due to the presence of gaseous CO 2 and / or N 2 . But at high carbonation levels (with one or both of CO 2 and N 2 ) in the single-port containers, expansion of the gas in the mixing chamber will generate cooling.
    The present invention also relates to a method for producing a fermented target drink in situ and dispensing said fermented target drink. An example of the method is illustrated in Figure 9, the method comprising the following steps:
    (a) providing a dispenser as discussed above, and connecting the upstream end (5u) of the tubing system to a source of liquid diluent (3), (b) loading both first single portion container (1) and second single porter (2) in their housing (12), (c) flowing the liquid diluent from the upstream end to the downstream end of the tubing through both first and second single porters, with the ethanol content of the second
    BE2017 / 5214 single portion holder becomes max., Before mixing it with the content thus produced (10).
    The use of the device of the present invention according to the aforementioned method and the use of the unit doses discussed above, support the itu prepared to ferment the quantities with one glass of drink, with a fermented target drink, between and between 1 to 6 g / 1 CO), by simply loading a
    Stromen.Θ requires flow of the additional pressurized gas source required by the unit dose
    The latter is possible by using the gases such as tO 2 or ethano 1 on 1 oss .ingin
    Alternatively, the diluent is just a base drink in a barrel (cf (b))
    V 3. ïll variety of drinks on the theme of d <
    section of with
    0
    BE2017 / 5214 to further develop the creative possibilities of the end user
    The preferred gas content is the approx
    0 m 1 c o n c e n t r a a t for 350 ml, weeed single portion holder preferably between
    O 'C Ο Ώ C * α Π t G 1 AT o. Since, the device preferably delivers
    Vc lower and preferably for lower beer), without pre-cooling the single-portion container n with pre-cooling the diluent to 0 ° C o just slightly lower (a of both liquid flows is decisive.
    In addition, minimizing di-benzoate energy for mixing may support both designs of a mixing chamber with no moving parts rotor and thereby designing a device that is easy to use and maintain, yet performs at a high level of short time for reconstitution and delivery and while guarantees an optimal sensory quality of the drink.
    According to a preferred embodiment as shown in Fig. 10, the device comprises a pressure regulator for controlling the pressure in the liquid line. A
    BE2017 / 5214 such pressure regulator 12 can be provided on the
    source 4 or can separately the institution to be applied. The pressure regulator must be adjustable through agent from a control unit 13 preferably a
    electronic unit comprising a microprocessor included in the delivery device.
    One or more single-portion holders can be loaded in the device, comprising identification means 14, such as, for example, a barcode scanner or RFID scanner, which allows to identify content-related identity labels on the pads or capsules, such as a barcode or RFID tag 155.
    In this case, the pressure regulator controller also includes a memory 15 comprising a plurality of pre-charged delivery pressure level sequences for setting and varying the pressure in the liquid line during a delivery cycle, the microprocessor selecting a sequence based on data received from the pad or capsule -identifiers and directs the pressure regulator accordingly.
    To allow good control, it is further preferred that the control unit includes a flow meter for determining the amount of liquid flowing through the liquid line as an input to the microprocessor.
    The pressurized gas source can be either a metal high pressure cartridge comprising food grade liquid CO2, N2 readily available on the market or a plastic housing comprising CO2 of
    BE2017 / 5214 food quality, N2 at lower pressures between 4 and
    Ό a x 'c
    The above-described device makes it possible to dispense a beverage whereby the pressure in the liquid line changes from a first pressure level higher than ambient pressure to a second pressure level higher than the ambient level by said pressure regulator during mixing and dispensing the beverage.
    As such, it is possible, for example, to load the device with a pad or capsule comprising a concentrated beer and couple the device with a source of carbonated water.
    The device identifies the pad and thus its contents and a preset beer delivery pressure sequence 15 is loaded from the memory.
    On dispensing, the pressure regulator is controlled to set the pressure in the liquid line to a pressure corresponding to the desired gas pressure in the beer after dispensing (eg 2 to 2.2 bar). This pressure is kept substantially constant during dispensing of about 90% of the volume of the beer to be dispensed.
    The pressure regulator is then operated to raise the pressure to a level of eg 2.4 bar in the liquid line, to promote foaming of the beer when dispensing and as such obtaining a head of foam on the dispensed beer. This pressure in the liquid line is kept substantially constant until all liquid for the beer has been released.
    After the desired amount of fluid has been dispensed, the pressure regulator can be operated to adjust the pressure
    BE2017 / 5214 to be further increased to a level of e.g. 3 bar for purifying the liquid line and the remaining liquid residues can be blown out, thereby preventing liquid remaining in the liquid line 5 from the chance of a biofilm forming in the liquid line would increase.
    Alternatively, the i dent i f i c a t. i em i dde 1 and are used to detect the contents of the single porter containers, such as that of the single porter container, so that the device can select amount of water for the alcohol content of the second single port container to a level of 30 volts or less before adding 15 the contents of the first single-porter.
    Referring to Fig. 2, the mixing chamber, mixing means comprising one or more double jet mixers, each comprising at least a first 20 jet mixer fluid supply inlet in fluid communication with the first fluid line and a second jet mixer fluid feed inlet in fluid communication with the second fluid line, a pair of jet mixer liquid flow channels each having a jet mixer discharge end for ejecting liquids into mutually opposed or impact jet streams, for mixing the liquids in a liquid mixture, and a jet mixer outlet allowing the liquid mixture to exit the dual jet mixer in fluid communication with the beverage outlet .
    BE2017 / 5214
    BE2017 / 5214
    REF DESCRIPTION 1 First room ld First room exit lu Entrance of the first room 2 House of Representatives 2d First room exit 2h Entrance of the second room 3 Liquid diluent source 3p Liquid diluent pump 5d Outlet tube discharge 5 h Delivery tube inlet 5v Liquid diluent valve 7 Compressed gas source (CO 2 or N 2 ) 7v Compressed gas valve 10 Vessel for collecting the in situ made drinks 11 D eferment information i n -L Z. Housing (s) for receiving first and second rooms 13 Mixing chamber 100 Drink to concentrate 200 Retentate 300 Perrnate 400 Concentrate fraction comprising ethanol and volatile flavors 500 Remaining fraction 14 Pressure regulator 15 Control unit 16 Means of identification 17 Single Portion Holder Identity Tag
    BE2017 / 5214 or fermented
    权利要求:
    Claims (8)
    [1]
    CONCLUSIONS including m u t g eb a s e r d beverage concentration.
    d.â drink concentrate, with the aforementioned concentrate being in a liquid state, a dynamis ehe no
    Vc for a 1000 keke
    ΘΧ f, TTcLCT. d. At least
    The 1 ep o, r t i e h o ude r, concentrate a real
    Preferably at least 8 most preferably according to claims 1-3, wherein the concentrate is obtained
    [2]
    5, - A set of parts, including:
    a. the first single portion holder as defined in any one of claims 1 to 4; and
    b. A second single-portion container comprising an ethanol solution containing. an ethanol concentration of 75% by volume or more, preferably 80% by volume or more.
    [3]
    6. A set of parts according to claim 5, wherein both the first and second holders are secured together.
    [4]
    7, - A method for obtaining a drink from a single-portion holder as described in one
    BE2017 / 5214 of the claims wherein said method comprises the following steps:
    Cl e of a single portion holder as Identified n any of claims 1 to 4;
    b. Diluting the content of diluent liquid with an alcohol content of 30 vol% or m rider.
    [5]
    8.
    for obtaining a beverage from a parts set as in claim 5 or 6, comprising the appen:
    of a single-portion container comprising beverage concentrates, characterized in that for the following:
    liquid state of and at most an actual of and of a single portion of the ethanol solution comprising • 7 / vol% preferably 80 vol% or provided with a source of fluid;
    interrn single p
    d. It to blend of part from the i n g s middle r on with the content of the second ortie holder, in front of obtaining r fin a diagonal flow great mix 1 with an alcohol .alte from
    30 vol% or less;
    e. Mixing the contents of the single-portion container with it
    4 8
    BE2017 / 5214 liquid mixture and possibly an additional amount of the liquid diluent for just obtaining a beverage.
    9, - The method according to claim 7 or 8, 5 whereby the aforementioned diluent is chosen from. the group comprising: : still water, carbonated water, beer-like drink or cider-like drink.10.- The willing to work according to claim 7 or 8,
    comprising the step of carbonating the
    [6]
    10 intermediate liquid mixture or the beverage.
    [7]
    11.- The method according to claim 7 or 8,
    comprising the step from cooling the drink t ot. a temperature of 7 ° C or 1 .ager, preferably 3 ° C or : lower and carbonization from the drink before it. hand off of the
    15 drink in a control vessel.
    [8]
    12. The method according to any one of claims 7 to. 11, wherein the beverage is a fermented malt-based beverage with an alcohol content between 1 and 12% by volume.
    BE2017 / 5214
    CsXXXXXXXXXXXXXXXXXXXX ^
    类似技术:
    公开号 | 公开日 | 专利标题
    BE1025070B1|2018-10-22|A method for preparing a beverage from a single-portion holder or a set of parts of single-portion holder, said single-portion holder and said set of parts
    RU2725538C2|2020-07-02|Methods, devices and systems for production of a beverage from the main liquid and ingredient
    JP6778690B2|2020-11-04|Beer or cider concentrate
    JP2021080029A|2021-05-27|Pressurized beverage concentrate and tool and method for producing beverage from the same
    BE1024307B1|2018-01-29|SET FOR THE SITU PRODUCTION OF A FERMENTED TARGET THROUGH THE ADDITION OF A LIQUID THINDER
    US20210348092A1|2021-11-11|Method of Producing Beer or a Beer-Like Beverage and a Beer Concentrate
    同族专利:
    公开号 | 公开日
    JP2019511428A|2019-04-25|
    AR108045A1|2018-07-11|
    MX2018011841A|2019-07-04|
    CN109072147A|2018-12-21|
    EP3225684A1|2017-10-04|
    US20190106661A1|2019-04-11|
    CA3017563A1|2017-10-05|
    RU2751567C2|2021-07-14|
    RU2018136323A|2020-04-30|
    BR112018069843A2|2019-01-29|
    AU2017242652A1|2018-09-27|
    EP3436563A1|2019-02-06|
    AU2021209179A1|2021-08-19|
    RU2018136323A3|2020-06-29|
    KR20180129828A|2018-12-05|
    BE1025070A1|2018-10-16|
    WO2017167865A1|2017-10-05|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    DE2360246A1|1973-12-04|1975-06-05|Wissenschaftliche Station Fuer|Beers for different sorts, prepn. - using only two parent brews, only one contg. added hops|
    AT384237B|1985-11-04|1987-10-12|Ropa Wasseraufbereitungsanlage|METHOD FOR THE PRODUCTION AND DISPENSING OF A CARBONATED HOP MALTED BEVERAGE AND RETURNING DEVICE FOR THIS BEVERAGE|
    RU2313571C1|2007-04-02|2007-12-27|Артак Симони Погосян|Base for producing alcohol-containing drink, method for preparing base, alcohol-containing drink, method for producing alcohol-containing drink|
    EP2180036A4|2007-07-30|2011-01-19|Suntory Holdings Ltd|Fruit-juice-containing alcoholic beverage base, and beverage produced by diluting the base|
    CA2778605A1|2009-10-23|2011-04-28|Nestec S.A.|Method and device for aseptically dispensing multiple portions of a fluid|
    EP2660188A1|2012-05-02|2013-11-06|Anheuser-Busch InBev S.A.|Beverage dispensing unit with openable pinch valve|
    EP2892826A1|2012-09-05|2015-07-15|Koninklijke Philips N.V.|Capsule for the preparation of beverages, device and method|
    US10524609B2|2013-03-14|2020-01-07|Altria Client Services Llc|Disposable beverage pod and apparatus for making a beverage|
    US10301583B2|2013-03-14|2019-05-28|Altria Client Services Llc|Flavor system and method for making beverages|
    EP2889264A1|2013-12-27|2015-07-01|Anheuser-Busch InBev S.A.|Method of dispensing a malt-based beverage, as well as device for dispensing a malt-based beverage|
    EP2889263A1|2013-12-27|2015-07-01|Anheuser-Busch InBev S.A.|Beverage dispensing device for dispensing different types of beverages or beverage components|
    EP2889262A1|2013-12-27|2015-07-01|Anheuser-Busch InBev S.A.|Beverage dispenser and method for mixing one or more beverage components with at least one carbonated liquid|
    WO2015155237A1|2014-04-10|2015-10-15|Granmalt Ag|Device and method for producing beer|
    EP3000778A1|2014-09-26|2016-03-30|Anheuser-Busch InBev S.A.|Beverage dispenser with jet mixing means|CN109266535A|2018-09-20|2019-01-25|黄鑫|A kind of extraction of microbial fermentation strain and detection device of fermented beverage|
    EP3636737A1|2018-10-09|2020-04-15|Brewconcentrate BV|A method of producing beer or a beer-like beverage and a beer concentrate|
    CN113302272A|2018-12-21|2021-08-24|理查德·迈克尔·舒茨|Alcoholic drink composition in disposable capsules for immediate dispensing|
    EP3938083A1|2019-03-12|2022-01-19|Alfa Laval Sandymount Technologies Corporation|System and method for the production of high gravity non-alcoholic beer through minimal water addition|
    WO2021018760A1|2019-07-26|2021-02-04|Freezio Ag|Cartridge system and method for producing a cartridge system|
    WO2021228872A1|2020-05-15|2021-11-18|Heineken Supply Chain B.V.|Alcoholic liquid comprising hop acids|
    WO2021228878A1|2020-05-15|2021-11-18|Heineken Supply Chain B.V.|Liquid beer concentrate|
    WO2021228871A1|2020-05-15|2021-11-18|Heineken Supply Chain B.V.|Single-serve capsule for preparing alcoholic beer|
    WO2021228882A1|2020-05-15|2021-11-18|Heineken Supply Chain B.V.|Single-serve capsule for preparing a beer-like beverage|
    WO2021228877A1|2020-05-15|2021-11-18|Heineken Supply Chain B.V.|Device for preparing and dispensing reconstituted beer|
    法律状态:
    2018-12-07| FG| Patent granted|Effective date: 20181022 |
    优先权:
    申请号 | 申请日 | 专利标题
    EP16163059.5|2016-03-30|
    EP16163059.5A|EP3225684A1|2016-03-30|2016-03-30|A method of preparing a beverage from a single-serve container or a kit in parts of single-serve container, said single-serve container and said kit in parts|
    [返回顶部]