JP2008295436A - Method for producing hydrogen-containing liquid beverage - Google Patents
Method for producing hydrogen-containing liquid beverage Download PDFInfo
- Publication number
- JP2008295436A JP2008295436A JP2007165629A JP2007165629A JP2008295436A JP 2008295436 A JP2008295436 A JP 2008295436A JP 2007165629 A JP2007165629 A JP 2007165629A JP 2007165629 A JP2007165629 A JP 2007165629A JP 2008295436 A JP2008295436 A JP 2008295436A
- Authority
- JP
- Japan
- Prior art keywords
- liquid
- hydrogen
- beverage
- container
- liquid beverage
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Landscapes
- Non-Alcoholic Beverages (AREA)
Abstract
Description
本発明は、容器に充填した液体飲料を水素含有液体飲料にする簡便なる方法である。本発明をより詳細にいうと水素含有液体飲料を製造する際に、より経済的に、より安全に飲料用液体に水素を含有する方法である。 The present invention is a simple method for converting a liquid beverage filled in a container into a hydrogen-containing liquid beverage. In more detail, the present invention is a method for containing hydrogen in a beverage liquid more economically and safely when producing a hydrogen-containing liquid beverage.
従来、容器に導入された液体の品質の変化、容器の形状変化、液漏れ等の異常を防止する手段として、特開平6−286726号、特開平10−218288号の公開技術のように、液体を収容した容器内に液体窒素を滴下して気化させることで容器内の空隙を窒素ガスで置換し、開口部を密封する方法があった。
背景技術に示した技術では、容器内の空気を窒素と置換し、酸素による液体飲料の品質変化防止を目的としている。具体的には、液体窒素を滴下し容器内の空気を窒素置換しながら熱滅菌処理後の冷却時に液体の体積縮小による陰圧で容器が凹むことを防止している。またその直後に容器の空隙に窒素ガスを吹き付けた後に容器を密封する方法を採用している。これはさらに空気中の酸素を追い出したいとの考え方によるものである。 In the technique shown in the background art, the air in the container is replaced with nitrogen, and the purpose is to prevent the quality change of the liquid beverage due to oxygen. Specifically, the container is prevented from being dented by negative pressure due to liquid volume reduction during cooling after the heat sterilization treatment while dropping liquid nitrogen and replacing the air in the container with nitrogen. Further, immediately after that, a method of sealing the container after nitrogen gas is blown into the gap of the container is adopted. This is due to the idea of expelling oxygen in the air.
これはいずれも容器内の残存酸素量を極力減らし、飲料物における酸化の促進を抑えようとの考え方によるものであった。 This was due to the idea of reducing the amount of oxygen remaining in the container as much as possible and suppressing the promotion of oxidation in the beverage.
本願発明は、従来の飲料用液体充填容器内の残存酸素量を極力減らし、容器内の飲料用液体の酸化促進を極力抑えようとの考え方に比べ、水素ガスの還元力を利用し、還元物を提供するという、さらに進んだ考え方により、飲料用液体そのものを還元性の液体に変える方法を目的とする。 The invention of the present application uses the reducing power of hydrogen gas to reduce the residual oxygen amount in a conventional beverage liquid filling container as much as possible and suppress the promotion of oxidation of the beverage liquid in the container as much as possible. It aims at a method of changing a beverage liquid itself into a reducing liquid by a more advanced idea of providing a liquid.
本発明者は、上記課題に着目し、飲料物を容器に充填した際に出来る容器の空隙に液体窒素を滴下することにより酸化防止を行うとの考え方をさらに一歩進め、液体水素を含んだ混合ガス液体を滴下することにより、還元性を持った液体飲料を提供するという考え方にまで進化させ、上記課題を克服する方法を発明した。 The inventor pays attention to the above-mentioned problem, and further advances the idea of performing oxidation prevention by dropping liquid nitrogen into the voids of the container formed when the beverage is filled in the container, and mixing with liquid hydrogen The method has been invented to overcome the above-mentioned problems by evolving to the idea of providing a liquid beverage having a reducing property by dropping a gas liquid.
具体的には、本願発明は、従来から容器内の空気を液体窒素を滴下することにて置換する方法があるが、体積濃度において0.1%以上の液体水素を含む混合ガス液体を滴下することで置換する方法により飲料用液体を還元性のある飲料用液体にすることができる。 Specifically, according to the present invention, there is a conventional method of replacing the air in a container by dropping liquid nitrogen, but a mixed gas liquid containing 0.1% or more of liquid hydrogen in volume concentration is dropped. Thus, the liquid for drinking can be made into a liquid for drinking having a reducing property by the replacement method.
さらに詳細なる説明をすると、飲料用液体を容器に充填した後、体積濃度において0.1%以上の液体水素を含む混合ガス液体で容器内の空隙を置換することにより、水素を含んでいない飲料用液体が、閉栓の後に混合ガス液体が気化し、上記空隙に空気と置換されている体積濃度0.1%以上の気化水素混合ガスから水素ガスが飲料用液体に溶け込み、水素分圧の平衡を保とうとし、還元性がある飲料用液体へと変化する。 More specifically, after filling the container with a beverage liquid, the void in the container is replaced with a mixed gas liquid containing liquid hydrogen at a volume concentration of 0.1% or more, so that the beverage does not contain hydrogen. The liquid is vaporized after closing, and the mixed gas liquid is vaporized, and hydrogen gas is dissolved in the beverage liquid from the vaporized hydrogen mixed gas with a volume concentration of 0.1% or more, which is replaced with air in the gap, and the hydrogen partial pressure is balanced. It will change to a beverage liquid that is reducible.
飲料用液体充填後に、容器内に滴下し空隙を置換する液体水素を含んだ混合ガス液体の液体水素体積濃度を0.1%以上としたのは、それ以下では閉栓後、気化した水素ガスが飲料用液体に溶け込むことが出来ず、また50%以下としたのは大気中においての水素ガスの発火可能体積濃度が4%以上である為、50%以上とすると、開栓をしたときに発火の可能性が高くなる為である。 The liquid hydrogen volume concentration of the mixed gas liquid containing liquid hydrogen that drops into the container and replaces the gap after filling with the liquid for beverage is set to 0.1% or more. It cannot be dissolved in beverage liquids, and the reason why it is 50% or less is that the ignitable volume concentration of hydrogen gas in the atmosphere is 4% or more. This is because the possibility of the increase is increased.
容器内の空隙を置換するために滴下する液体水素混合ガス液体の液体水素体積濃度は好ましくは、1%以上10%以下であり、非常に好ましくは2%以上4%以下である。液体水素体積濃度を高くすることにより、液体飲料に水素が含有される水素濃度は高くなるが、高くすればするほど開栓時の発火の可能性が高くなる為、液体水素体積濃度を4%以下にした方がより安全である。 The liquid hydrogen volume concentration of the liquid hydrogen gas mixture dropped to replace the voids in the container is preferably 1% or more and 10% or less, and very preferably 2% or more and 4% or less. By increasing the liquid hydrogen volume concentration, the hydrogen concentration of hydrogen contained in the liquid beverage increases. However, the higher the liquid hydrogen volume concentration, the higher the possibility of ignition when opening the bottle. The following is safer:
水素が全く含まれていない液体飲料が、液体水素を含んだ混合ガス液体を飲料充填後に容器内の空隙に滴下することで、閉栓後、水素分圧の平衡を保とうとする作用により、水素ガスを含んだ還元性の液体飲料に変化をするということである。これにより安全で経済性に富んだ還元性液体飲料の製造方法が提供される。 A liquid beverage that does not contain hydrogen at all, by dropping a mixed gas liquid containing liquid hydrogen into a gap in the container after filling the beverage, the hydrogen gas has a function of maintaining the equilibrium of the hydrogen partial pressure after closing. It is to change to a reducing liquid drink containing. This provides a safe and economical method for producing a reducing liquid beverage.
本願発明において用いられる容器については、金属缶、紙パック、ペットボトル等、容器から容易に気体が漏れ出さないものであれば良いが、アルミ缶が最良と考えられる。
容器内の空隙を置換する混合ガス液体の液体水素含有体積濃度は4%以下で4%に近く、4%以上にならない比率が良い。
混合ガス液体の液体水素以外のガス液体については、当然安全性の見地から不活性ガス液体から選択されるべきである。The container used in the present invention may be any metal can, paper pack, plastic bottle or the like that does not easily leak gas from the container, but an aluminum can is considered best.
The liquid hydrogen-containing volume concentration of the mixed gas liquid that replaces the voids in the container should be 4% or less, close to 4%, and not to exceed 4%.
The gas liquid other than the liquid hydrogen of the mixed gas liquid should naturally be selected from an inert gas liquid from the viewpoint of safety.
Claims (4)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2007165629A JP2008295436A (en) | 2007-05-29 | 2007-05-29 | Method for producing hydrogen-containing liquid beverage |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2007165629A JP2008295436A (en) | 2007-05-29 | 2007-05-29 | Method for producing hydrogen-containing liquid beverage |
Publications (1)
Publication Number | Publication Date |
---|---|
JP2008295436A true JP2008295436A (en) | 2008-12-11 |
Family
ID=40169568
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP2007165629A Pending JP2008295436A (en) | 2007-05-29 | 2007-05-29 | Method for producing hydrogen-containing liquid beverage |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP2008295436A (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2011087547A (en) * | 2009-10-26 | 2011-05-06 | Future Solution:Kk | Beverage container for hydrogen-containing beverage, and method for producing hydrogen-containing beverage |
US11123365B2 (en) | 2019-11-18 | 2021-09-21 | Perricone Hydrogen Water Company, Llc | Compositions comprising palmitoylethanolamide and hydrogen water, and methods thereof |
US11129848B2 (en) | 2017-08-08 | 2021-09-28 | Perricone Hydrogen Water Company, Llc | Medication enhancement using hydrogen |
-
2007
- 2007-05-29 JP JP2007165629A patent/JP2008295436A/en active Pending
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2011087547A (en) * | 2009-10-26 | 2011-05-06 | Future Solution:Kk | Beverage container for hydrogen-containing beverage, and method for producing hydrogen-containing beverage |
US11129848B2 (en) | 2017-08-08 | 2021-09-28 | Perricone Hydrogen Water Company, Llc | Medication enhancement using hydrogen |
US11123365B2 (en) | 2019-11-18 | 2021-09-21 | Perricone Hydrogen Water Company, Llc | Compositions comprising palmitoylethanolamide and hydrogen water, and methods thereof |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
AU2011277514B2 (en) | Device for selectively hydrogenating biocompatible solution | |
US9120672B2 (en) | Selective hydrogen adding equipment for living organism applicable fluid | |
US10238232B2 (en) | Selective hydrogen adding equipment for living organism applicable fluid | |
US20130098250A1 (en) | Hydrogen adding equipment for living organism applicable fluid | |
JP2017018058A (en) | Bottled hydrogen-rich water beverage, production system and method for bottled hydrogen-rich water beverage | |
JP2011087547A (en) | Beverage container for hydrogen-containing beverage, and method for producing hydrogen-containing beverage | |
JP2008280057A (en) | Drinking water in container and method for filling drinking water in container | |
JP3164934U (en) | Hydrogen gas generator | |
EP1923350A3 (en) | Method for fabricating magnesium-based hydrogen storage materials | |
EP2419369A1 (en) | A method and a system for pressurising and dispensing carbonated beverages | |
JP2020168022A (en) | Drinking hydrogen containing water product | |
JP2008259480A (en) | Method for producing hydrogen-containing liquid beverage | |
JP2008295436A (en) | Method for producing hydrogen-containing liquid beverage | |
JP3156674U (en) | Lid | |
HK1128676A1 (en) | Capping method and its sealing caps for hydrogen-reduced water or hydrogen- reduced food production | |
JP5706885B2 (en) | Aroma treatment method for foodstuffs provided in a package | |
JP2008207869A (en) | Method for filling vessel with liquid containing hydrogen | |
GB0403365D0 (en) | "Packaging for foodstuffs and a method of packaging same" | |
JP2014113545A (en) | Beverage water pot | |
CN101191102A (en) | Method for preventing vegetable oil being oxygenized | |
JP2007301522A (en) | Oxygen-enriched water producing vessel | |
MY166257A (en) | Carbonated drink filling method, carbonated drink filling system, and carbonated-drink containing bottle | |
AU2003274062A8 (en) | Method and device for filling a drinks container with a drink, and corresponding drinks container | |
JP6385772B2 (en) | Ozone treatment method and apparatus using ozone hydrate | |
NZ701776A (en) | Method and apparatus for cartridge-based carbonation of beverages |