TW201639791A - Bottling hydrogen-rich water, preparation system thereof, and method of preparing the same - Google Patents

Abstract

The instant disclosure relates to a method of preparing bottling hydrogen water, comprising the following steps. The first step is to generate hydrogen-rich water. The next step is to introduce nitrogen gas into the hydrogen-rich water to form nitrogen-containing hydrogen-rich water. The next step is to fill the nitrogen-containing hydrogen-rich water into a bottle, wherein a portion of hydrogen and nitrogen gases release from the liquid surface of the nitrogen-containing hydrogen-rich water, adapted to expel air out of the bottle. The last step is to seal the bottle, wherein a free gas space left in the bottle is occupied by hydrogen and nitrogen gases. The instant disclosure further provides a bottling hydrogen water and a preparing system thereof.

Description

Preparation system and preparation method of bottled hydrogen-rich water beverage, bottled hydrogen-rich water beverage

The invention relates to the field of functional drinking water, in particular to a preparation system and a preparation method of a bottled hydrogen-rich water beverage with good safety and long-term preservation, and a bottled hydrogen-rich water beverage.

According to scientific research in the fields of biology, medicine, and life sciences, a common conclusion is that human health and longevity are related to the free radicals generated during life. Simply put, the free radicals produced in the metabolism of human life are a very active and unstable substance in the human body. It reacts with cells, causing abnormal or death of cells, and causing various chronic diseases and aging. There are four main causes of free radical damage to cells: 1. lipid peroxidation, reducing detoxification; 2. DNA damage to cells, causing cell mutation; 3. destroying metabolic enzymes in the body, interfering with ion balance; and 4. causing inflammation Reacts to reduce immune function. According to many medical research reports, free radicals are closely related to aging, arteriosclerosis, stroke, heart disease, cataract, emphysema, diabetes, elderly dementia, and cancer.

In order to reduce the damage of free radicals, you can generally start from two aspects: one is to reduce the generation of free radicals, for example, to maintain good living habits and avoid being contaminated. The environment is dyed, the diet is controlled, and the emotions are achieved. The other is to find ways to eliminate or reduce the effects of free radicals that have already been formed. For example, you can reduce the production of free radicals by taking in antioxidants in food. However, in the latter case, most of the antioxidants (such as vitamins) do not easily penetrate the cell membrane, and can only specifically eliminate malignant active oxygen, not to mention that a large number of vitamins are not easily absorbed and stored by the body.

Based on the results of a study published in 2007 by Japanese scientists that "intake of hydrogen in the human body has significant antioxidant effects (ie, scavenging free radicals)" has sparked a research boom in hydrogen-rich water. Hydrogen-rich water (also known as Hydrogen Water) is not only healthy water, but also the most ideal and safest antioxidant at present; because hydrogen-rich water easily enters cells and participates in the metabolism of substances between cells, thus Promote cell detoxification and increase cell hydration to enhance the body's immunity, and have good preventive and therapeutic effects on various diseases caused by oxygen free radicals; and, in addition to drinking water, hydrogen-rich water can also be used as It is used as a moisturizing lotion and is especially effective for skin beauty and fading.

However, as a health-care drinking water, it is necessary to achieve stable and effective quality indicators for industrial production and commercial operation; that is, hydrogen-rich water itself as a commodity must address the hygiene requirements of beverages, specific hydrogen content Several major problems, such as indicator requirements, preservation or transportation requirements, and whether technical characteristics of mass production can be stabilized. Generally, the commercially available beverages have already solved the above problems due to the maturity of the technology, but since the hydrogen gas is very easy to escape, the conventional hydrogen-rich water beverage technology cannot fully meet the above requirements. The existing technology is to effectively reduce the rate of hydrogen dissipation through a reliable packaging container, such as a metal container or a glass container. However, in the process of sealing the tank, oxygen is sealed together to accelerate the escape of hydrogen, and it has not been stored for about 2 months. The hydrogen content, although strictly controlled by temperature or full bottle filling, reduces the amount of hydrogen dissipated, but the finished product cannot withstand an effective high temperature sterilization procedure. Therefore, there are still some shortcomings in the current hydrogen water beverage technology.

The invention is based on the consideration of high safety and long-term preservation, and the main purpose is The invention provides a preparation system and a preparation method for a bottled hydrogen-rich water beverage and a bottled hydrogen-rich water beverage, wherein the bottled hydrogen-rich water beverage can maintain a relatively high hydrogen content in water and meet the storage and transportation requirements of the hydrogen water product.

In order to achieve the foregoing, a bottled hydrogen-rich water beverage provided by an embodiment of the present invention is characterized in that a bottle-filled container is filled with a hydrogen-rich water beverage, and the bottle container has one not occupied by the hydrogen-rich water beverage. A gas accommodating space in which hydrogen gas and inert gas are stored is stored in the gas accommodating space.

The preparation system of the bottled hydrogen-rich water beverage provided by the embodiment of the invention comprises: a hydrogen generator, a water storage tank, a water source, a filtering device, an inert gas supply source, and a bottling device. Wherein the water storage tank has a gas input end, a liquid input end, and an output end, wherein the gas input end is in communication with the hydrogen generator; the water source and the water storage tank are The liquid input end is in communication; the filtering device is disposed between the water storage tank and the water source; the inert gas supply source is connected to the output end of the water source via a gas-liquid mixer; The bottling device is in communication with the gas-liquid mixer.

The preparation method of the bottled hydrogen-rich water beverage provided by the embodiment of the invention comprises the following steps: firstly, providing a hydrogen-rich water beverage; then, mixing nitrogen gas into the hydrogen-rich water beverage to form a nitrogen-rich hydrogen-rich water beverage; Then, the nitrogen-containing hydrogen-rich water beverage is filled into a bottle container, and when the nitrogen-rich hydrogen-rich water beverage is filled, a part of hydrogen and nitrogen are simultaneously released from the liquid surface to completely complete the air. The bottling container is rushed out; finally, the bottling container is quickly sealed so that hydrogen and nitrogen are stored in a gas containing space not occupied by the hydrogen-rich water beverage in the bottling container.

The present invention has at least the following advantageous effects: First, the method of the present invention utilizes "hydrogen and drinking water are contacted under a specific pressure (the pressure of hydrogen introduced into the water storage tank 3 is maintained at about 1 bar or higher) to form hydrogen-rich hydrogen. Water beverages, combined with the technical means of mixing nitrogen into a hydrogen-rich water beverage and having a pressure greater than the pressure of the nitrogen gas, can provide drinking water and The good contact between the hydrogen gas can dissolve a large amount of hydrogen in the drinking water, and the formed hydrogen-rich water beverage has high reducing property (the redox potential can reach -600~-700 mV).

Moreover, the addition of nitrogen can drive the air out of the bottle out of the bottle, and can help the pressure balance state in the bottle container to keep the hydrogen in the water from being precipitated. Therefore, the bottled hydrogen-rich water beverage product can be produced for a long time. Maintain the initial high reductive state and drink it at the end of the bottle.

The detailed description of the present invention and the accompanying drawings are to be understood by the claims The scope is subject to any restrictions.

100‧‧‧Preparation system for bottled hydrogen-rich water beverages

1‧‧‧ Hydrogen generator

2‧‧‧ gas-liquid separator

3‧‧‧Water storage tank

31‧‧‧ gas input

32‧‧‧Liquid input

33‧‧‧ Output

4‧‧‧Water source

5‧‧‧Filter device

51‧‧‧Active carbon filter

52‧‧‧UV germicidal filter

53‧‧‧Nano silver filter

6‧‧‧Inert gas supply

7‧‧‧ gas-liquid mixer

8‧‧‧Bottling device

B‧‧‧Bag container

H‧‧‧ Hydrogen-rich water drink

S‧‧‧ gas accommodation space

1 is a schematic flow chart of a method for preparing a bottled hydrogen-rich water beverage according to the present invention.

2 is a block diagram of a preparation system for a bottled hydrogen-rich water beverage of the present invention.

FIG. 3 is a schematic diagram of the process of step S104 shown in FIG. 2.

The technical content disclosed in the present invention mainly relates to a method for preparing a hydrogen-rich water beverage by using a method of adding a chemical substance in water without using a large amount of energy, and then filling the prepared hydrogen-rich water beverage into a bottle container and keeping it The technical means of non-precipitation of hydrogen in water can be industrialized to produce the healthy drinking water needed for daily life through the specific realization of this technical means.

The embodiments of the present invention will be described with reference to the accompanying drawings, and those skilled in the art can understand the advantages and advantages of the present invention. The present invention can be implemented or applied in various other specific embodiments, and various modifications and changes can be made without departing from the spirit and scope of the invention. In addition, the drawings of the present invention are merely illustrative and are not described in terms of actual dimensions. The following embodiments will further explain the related technical content of the present invention, but the disclosed It is not intended to limit the technical scope of the present invention.

Referring to FIG. 1 , a method for preparing a bottled hydrogen-rich water beverage according to a preferred embodiment of the present invention includes: step S100, providing a hydrogen-rich water beverage; and step S102, mixing nitrogen into the hydrogen-rich water beverage to form a nitrogen-containing beverage. a hydrogen-rich water beverage; in step S104, the nitrogen-rich hydrogen-rich water beverage is filled into the bottle container, and when the nitrogen-rich hydrogen-rich water beverage is filled, a part of the hydrogen and nitrogen gas are simultaneously released from the surface to completely complete the air. The bottle container is driven out; in step S106, the bottle container is quickly sealed to store hydrogen and nitrogen in a gas accommodation space not occupied by the hydrogen-rich water beverage in the bottle container.

Please refer to FIG. 2, which is a structural diagram of a preparation system of the bottled hydrogen-rich water beverage of the present invention. It should be noted that the bottled hydrogen-rich water beverage preparation system 100 is suitable for performing the various steps described above. As shown, the preparation system 100 includes a hydrogen generator 1, a water storage tank 3, a water source 4, a filtration device 5, an inert gas supply source 6, a gas/water mixer, And a bottling device 8. Next, the connection relationship between all the basic device units in the preparation system 100, the specific examples of the basic device units, and the functions of the respective basic device units will be briefly introduced, and then the above steps and the basic device units will be supplemented in time. Correspondence.

In general, the preparation system 100 has a gas storage tank 3 having at least a gas input end 31, a liquid input end 32, and an output end 33, wherein the gas input end 31 is connected to the hydrogen generator 1 in a gas and liquid delivery design. The liquid input 32 is connected to the water source 4 via a filter device 5, and the output 33 is connected to the bottling device 8 via a gas-liquid mixer 7 simultaneously with the inert gas supply source 6.

Further, when the preparation system 100 is in normal operation, the hydrogen generator 1 serves as a hydrogen source in the system, and hydrogen can be continuously and stably supplied into the water storage tank 3. Preferably, the hydrogen generator 1 can generate hydrogen by electrolyzing water, wherein the water molecules undergo an electrochemical reaction on the electrodes to decompose into hydrogen and oxygen; those skilled in the art will understand that although such hydrogen is produced The method is simple and the hydrogen production cost is low, but the invention is not limited thereto.

The water source 4 can supply drinking water or various beverages such as fruit and vegetable juice drinks, carbonated drinks, tea drinks or functional drinks in the water storage tank 3 before the contact with the hydrogen, and the minerals in the drinking water are preferably calcium, potassium, Sodium, iron, zinc, magnesium. In order to further meet the water quality standard of drinking water, the drinking water provided by the water source 4 must pass through the filtering device 5 to filter out impurities, pollutants, germs, microorganisms, etc. in the water before being introduced into the water storage tank 3. In this embodiment, the filtering device 5 may include only one activated carbon filter core 51, one ultraviolet germicidal filter element 5, or one nano silver filter element 53; and preferably, the filtering device 5 includes the three of them, wherein The activated carbon filter element 51 is connected to the water source, and the nano silver filter element 53 is connected to the liquid input end 32 of the water storage tank 3, and the ultraviolet germicidal filter element 52 is connected between the activated carbon filter element 51 and the nano silver filter element 53. Since the function of each filter element is well known to those skilled in the art, it will not be described herein.

The water storage tank 3 provides hydrogen and the drinking water to contact under a specific pressure to dissolve the hydrogen in the drinking water; in the embodiment, the pressure of the hydrogen introduced into the water storage tank 3 is maintained at about 1 bar or higher to maintain The good contact state between drinking water and hydrogen, and then the hydrogen-rich water beverage in drinking water capable of dissolving a large amount of hydrogen, the oxidation-reduction potential (ORP) can reach -600~-700mV (ie, has high reduction). Further, a gas/water separator may be further disposed between the hydrogen generator 1 and the gas input end 31 of the water storage tank 3, thereby removing gaseous moisture and particulate matter. It should be noted that the term "hydrogen-rich water drink" as used herein refers to a beverage that is purely hydrogen-rich water or various flavors prepared by using hydrogen-rich water.

The inert gas supply source 6 can supply an inert gas to the gas-liquid mixer 7 while the hydrogen-rich water beverage flows through the gas-liquid mixer 7, and the inert gas and the hydrogen-rich water beverage are supplied from the gas-liquid mixer 7. After mixing, it is then transferred to the bottling device 8 for filling bottling and capping. In this embodiment, the inert gas may be nitrogen, but the invention is not limited thereto; for example, in other embodiments, the inert gas may include nitrogen and helium, neon, argon. And a mixed gas of at least one of carbon dioxide gases.

Please refer to Figure 3 again, which shows the hydrogen-rich water beverage for filling and bottling and capping. the process of. It is worth noting that when the hydrogen-rich water beverage is filled, since the gas pressure in the bottling container B is unbalanced, a part of the hydrogen and nitrogen gas will be released from the liquid surface, and the air in the bottling container B can be completely completed. When the bottle container B is quickly sealed out, if the bottle container B is sealed quickly, a gas containing space S can be formed in the bottle container B without being filled with the hydrogen-rich water beverage, and only the gas accommodation space S is stored. There is hydrogen and nitrogen, and the pressure balance state can be achieved in the bottling container B to keep the hydrogen in the water from being precipitated. According to this, the bottled hydrogen-rich water beverage prepared can be stored for a long time, and can be drunk after being opened. Incidentally, the bottle container B may be a synthetic resin bottle having a hydrogen barrier property, a glass bottle, or a metal bottle.

Referring to FIG. 1 to FIG. 3 together, first, when the preparation system 100 performs step S100, the hydrogen gas supplied from the hydrogen generator 1 first enters the gas-liquid separator 2, and the gas moisture and particulate matter are removed and then introduced into the water. The storage tank 3; in addition, the drinking water supplied by the water source 4 first enters the filtering device 5, filters out impurities, pollutants, germs, and microorganisms in the drinking water, and then introduces them into the water storage tank 3; Drinking water can be contacted under specific pressures to form a hydrogen-rich water beverage.

Next, when the preparation system 100 performs step S102, the formed hydrogen-rich water beverage first enters the gas-liquid mixer 7 while being mixed with the nitrogen gas supplied from the inert gas supply source 6 in the gas-liquid mixer 7. It is then introduced into the bottling device 8, in which hydrogen and nitrogen are temporarily present in the hydrogen-rich water beverage.

Then, when the preparation system 100 performs step S104 and step S106, the formed nitrogen-rich hydrogen-rich water beverage can be injected into the bottle container B by the bottling device 8, and the bottling device 8 will be a hydrogen-rich water beverage in the bottle container B. When filling to a certain extent, the bottled container B is quickly capped, thereby sealing the bottled container B, and the preparation of the bottled hydrogen-rich water beverage is completed.

[effect of the invention]

In summary, the bottled hydrogen-rich water beverage prepared by the above method of the present invention has at least the following advantages compared with the conventional method for preparing a hydrogen-rich aquatic product: First, the method of the present invention utilizes "hydrogen and drinking water in Connected under specific pressure Touch (the pressure of hydrogen introduced into the water storage tank 3 is maintained at about 1 bar or higher) to form a hydrogen-rich water beverage, and mixed with nitrogen in the hydrogen-rich water beverage, and the pressure of the hydrogen gas is greater than the pressure The technical means of nitrogen pressure can provide good contact between drinking water and hydrogen, so that a large amount of hydrogen can be dissolved in drinking water, and the hydrogen-rich water beverage formed has high reducing property (redox potential can reach -600~-700mV) ).

Moreover, the addition of nitrogen can drive the air out of the bottle out of the bottle, and can help the pressure balance state in the bottle container to keep the hydrogen in the water from being precipitated. Therefore, the bottled hydrogen-rich water beverage product can be produced for a long time. Maintain the initial high reductive state and drink it at the end of the bottle.

According to the above, in the bottled hydrogen-rich water beverage prepared by the method of the present invention, the volume of the gas accommodating space S can satisfy the following relationship: V _f (T ₀ ) 1.1 × V _w (T _o ) × [ρ (T _o ) / ρ (T) - 1], where V _f (T ₀ ) represents the minimum volume of the gas accommodation space, and V _w (T _o ) represents hydrogen-rich The initial volume of the water beverage filled in the bottling container, ρ(T _o ) indicates the initial density of the hydrogen-rich water beverage filled in the bottling container, and ρ(T) indicates that the hydrogen-rich water beverage is filled in the bottling container at the set maximum temperature. density. Thereby, the prepared bottled hydrogen-rich water beverage product has high safety, and can be stored in a relatively wide ambient temperature range without the risk of deformation or overpressure leakage of the container, and is convenient for transportation and sale.

In addition, the method of the present invention does not require the addition of chemicals in water and does not require a large amount of energy, and is therefore advantageous for industrial production.

The above is only the preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Therefore, the equivalents of the present invention and the equivalents of the drawings are all included in the present invention. Within the scope of protection, it is given to Chen Ming.

S100 to S106‧‧‧ steps

Claims (10)

A bottled hydrogen-rich water beverage, characterized in that a bottled container is filled with a hydrogen-rich water beverage, the bottle container having a gas accommodation space not occupied by the hydrogen-rich water beverage, hydrogen and inert The gas is stored in the gas accommodation space. The bottled hydrogen-rich water beverage according to claim 1, wherein the hydrogen-rich water beverage comprises drinking water, a juice containing fruit juice, a carbonated beverage, a tea beverage or a functional beverage. The bottled hydrogen-rich water beverage according to claim 1, wherein the inert gas comprises one or any combination of nitrogen and helium, neon, argon and carbon dioxide gases. The bottled hydrogen-rich water beverage according to claim 1, wherein the volume of the gas accommodating space satisfies the following relationship: V _f (T ₀ ) 1.1 × V _w (T _o ) × [ρ (T _o ) / ρ (T) - 1], wherein V _f (T ₀ ) represents the minimum volume of the gas accommodation space, and V _w (T _o ) represents The hydrogen-rich water beverage is filled in an initial volume of the bottling container, ρ(T _o ) represents an initial density of the hydrogen-rich water beverage filled in the bottling container, and ρ(T) represents the hydrogen-rich water beverage filling The final density of the bottling container at the set maximum use temperature. A method for preparing a bottled hydrogen-rich water beverage comprises the steps of: providing a hydrogen-rich water beverage; mixing nitrogen into the hydrogen-rich water beverage to form a nitrogen-rich hydrogen-rich water beverage; and the nitrogen-containing hydrogen-rich beverage The water beverage is filled into a bottle container, and when the nitrogen-rich hydrogen-rich water beverage is filled, a part of the hydrogen and nitrogen gas are simultaneously released from the liquid surface to completely drive the air out of the bottle container; The bottling container is sealed such that hydrogen and nitrogen are stored in a gas containing space not occupied by the hydrogen-rich water beverage in the bottling container. The method for preparing a bottled hydrogen-rich water beverage according to claim 5, wherein in the step of providing a hydrogen-rich water beverage, the method further comprises: in drinking water, juice containing juice Hydrogen is mixed into the beverage, carbonated beverage, tea beverage or functional beverage to form the nitrogen-containing hydrogen-rich water beverage, and the pressure of the hydrogen gas is greater than the pressure of the nitrogen gas. The method for preparing a bottled hydrogen-rich water beverage according to claim 5, wherein the volume of the gas accommodating space satisfies the following relationship: V _f (T ₀ ) 1.1 × V _w (T _o ) × [ρ (T _o ) / ρ (T) - 1], wherein V _f (T ₀ ) represents the minimum volume of the gas accommodation space, and V _w (T _o ) represents The hydrogen-rich water beverage is filled in an initial volume of the bottling container, ρ(T _o ) represents an initial density of the hydrogen-rich water beverage filled in the bottling container, and ρ(T) represents the hydrogen-rich water beverage filling The final density of the bottling container at the set maximum use temperature. A preparation system for a bottled hydrogen-rich water beverage, comprising: a hydrogen generator; a water storage tank having a gas input end, a liquid input end and an output end, wherein the gas input end and the hydrogen generator Connected to each other; a water source in communication with the liquid input end of the water storage tank; a filtering device disposed between the water storage tank and the water source; and an inert gas supply source via A gas-liquid mixer is in communication with the output of the water source; and a bottling device is in communication with the gas-liquid mixer. The system for preparing a bottled hydrogen-rich water beverage according to claim 8, wherein a gas-liquid separator is further disposed between the hydrogen generator and the gas input end of the water storage tank. The system for preparing a bottled hydrogen-rich water beverage according to claim 9, wherein the filtering device comprises an activated carbon filter core, a nano silver filter core, or an ultraviolet sterilization filter.