JP2018140356A - Manufacturing apparatus of mixed aqueous solution and manufacturing method thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a mixed aqueous solution manufacturing apparatus capable of easily preparing mixed aqueous solutions with mixture ratios of dissolved first and second gases having been changed.SOLUTION: The mixed aqueous solution manufacturing apparatus contains: a first dissolution unit which dissolves a first gas in water to prepare a first aqueous solution; a second dissolution unit which dissolves a second gas in water to prepare a second aqueous solution; and an aqueous solution mixing part which mixes the first aqueous solution prepared in the first dissolution unit and the second aqueous solution prepared in the second dissolution unit.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an apparatus and a method for producing a mixed aqueous solution.

It is said that active oxygen generated in the body can be reduced by drinking hydrogen water in which hydrogen gas is dissolved in water. For this reason, many hydrogen water drinks are sold. On the other hand, carbonated water (carbonated drink) in which carbon dioxide gas is dissolved in water is used in many soft drinks and alcoholic drinks for the purpose of giving a refreshing feeling. Carbonated beverages are attracting attention as having a fatigue recovery effect.
An apparatus for producing drinking water in which both hydrogen gas and carbon dioxide gas are dissolved is known (for example, see Patent Document 1). By drinking this drinking water, both the health effect of hydrogen water and the health effect of carbonated drinks can be expected. Moreover, it becomes easy to drink by the refreshing feeling of carbonated drinks.
In this drinking water production apparatus, drinking water in which hydrogen gas and carbon dioxide gas are dissolved is produced by supplying a mixed gas of hydrogen and carbon dioxide to a fine bubble generator provided in a tank for storing water. .

Japanese Patent Laying-Open No. 2015-188789

However, in an apparatus for dissolving a mixed gas in water, it takes time to change the ratio of the mixed gas dissolved in drinking water to a desired ratio because the mixed gas is dissolved in the water stored in the tank.
This invention is made | formed in view of such a situation, and provides the mixed aqueous solution manufacturing apparatus which can manufacture easily the mixed aqueous solution which changed the mixing ratio of the melt | dissolved 1st and 2nd gas.

  The present invention includes a first dissolution unit that dissolves a first gas in water to produce a first aqueous solution, a second dissolution unit that dissolves a second gas in water to produce a second aqueous solution, and a first dissolution unit. Provided is a mixed aqueous solution manufacturing apparatus including an aqueous solution mixing unit that mixes the first aqueous solution and the second aqueous solution manufactured by the second dissolution unit.

The mixed aqueous solution manufacturing apparatus of the present invention includes a first dissolution unit that dissolves a first gas in water to produce a first aqueous solution, and a second dissolution unit that dissolves a second gas in water to produce a second aqueous solution. . Therefore, the first aqueous solution in which the first gas is dissolved and the second aqueous solution in which the second gas is dissolved can be separately manufactured.
The mixed aqueous solution manufacturing apparatus of the present invention includes an aqueous solution mixing unit that mixes the first aqueous solution manufactured by the first dissolution unit and the second aqueous solution manufactured by the second dissolution unit. For this reason, it is possible to produce a mixed aqueous solution in which both the first gas and the second gas are dissolved. Furthermore, by changing the mixing ratio of the first aqueous solution and the second aqueous solution, a mixed aqueous solution in which the mixing ratio of the dissolved first and second gases is changed can be easily manufactured. For this reason, the mixed aqueous solution from which the mixing ratio of the 1st and 2nd gas melt | dissolved according to a drinker's liking etc. differs can be manufactured.

It is a schematic block diagram of the mixed aqueous solution manufacturing apparatus of one Embodiment of this invention.

  The mixed aqueous solution production apparatus of the present invention includes a first dissolution unit that dissolves a first gas in water to produce a first aqueous solution, a second dissolution unit that dissolves a second gas in water to produce a second aqueous solution, An aqueous solution mixing unit that mixes the first aqueous solution manufactured by the 1 dissolution unit and the second aqueous solution manufactured by the second dissolution unit.

  The mixed aqueous solution manufacturing apparatus of the present invention includes a first supply channel that supplies the first aqueous solution manufactured by the first dissolution unit to the aqueous solution mixing unit, a first valve provided in the first supply channel, It is preferable to further include a second supply channel that supplies the second aqueous solution manufactured by the two dissolution unit to the aqueous solution mixing unit, and a second valve provided in the second supply channel. Accordingly, a desired amount of the first aqueous solution and a desired amount of the second aqueous solution can be supplied to the aqueous solution mixing unit, and the mixing ratio of the first aqueous solution and the second aqueous solution can be changed. As a result, a mixed aqueous solution in which the mixing ratio of the dissolved first and second gases is changed can be easily manufactured.

  The first dissolution unit includes a first tank that stores water or a first aqueous solution, a first circulation channel that circulates the water or first aqueous solution stored in the first tank, and water or a first fluid that flows through the first circulation channel. 1st gas introduction part which introduces 1st gas in 1 aqueous solution, 1st gas-liquid mixing part which mixes the water or 1st aqueous solution and 1st gas which flow through the 1st circulation channel, and water or 1st aqueous solution It is preferable to provide the 1st circulation pump which circulates. The first aqueous solution can be produced by the first dissolution unit, and the produced first aqueous solution can be stored in the first tank. The second dissolution unit includes a second tank that stores water or a second aqueous solution, a second circulation channel that circulates the water or second aqueous solution stored in the second tank, and water that flows through the second circulation channel. Or the 2nd gas introduction part which introduces the 2nd gas in the 2nd aqueous solution, the 2nd gas-liquid mixing part which mixes the water or the 2nd aqueous solution and the 2nd gas which flow through the 2nd circulation channel, and water or the 2nd It is preferable to provide the 2nd circulation pump which circulates 2 aqueous solution. The second aqueous solution can be produced by the second dissolution unit, and the produced second aqueous solution can be stored in the second tank. The first supply flow path is preferably provided so as to supply the first aqueous solution stored in the first tank to the aqueous solution mixing unit, and the second supply flow path supplies the second aqueous solution stored in the second tank. It is preferable to be provided so as to be supplied to the aqueous solution mixing section. Accordingly, a desired amount of the first or second aqueous solution can be immediately supplied to the aqueous solution mixing unit, and mixed aqueous solutions having different mixing ratios of the dissolved first and second gases can be immediately manufactured. .

In the mixed aqueous solution production apparatus of the present invention, it is preferable that the first gas is hydrogen gas and the second gas is carbon dioxide gas. This makes it possible to produce a mixed aqueous solution in which hydrogen gas and carbon dioxide gas are dissolved.
The present invention changes the mixing ratio between the first aqueous solution and the second aqueous solution by dissolving the first gas in water to produce the first aqueous solution and dissolving the second gas in water to produce the second aqueous solution. There is also provided a mixed aqueous solution manufacturing method including a step of mixing the first aqueous solution and the second aqueous solution so that the first aqueous solution and the second aqueous solution are mixed. According to the manufacturing method of the present invention, a mixed aqueous solution in which the mixed ratio of the dissolved first and second gases is changed can be easily manufactured by changing the mixing ratio of the first aqueous solution and the second aqueous solution. . For this reason, the mixed aqueous solution from which the mixing ratio of the 1st and 2nd gas melt | dissolved according to a drinker's liking etc. differs can be manufactured.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. The configurations shown in the drawings and the following description are merely examples, and the scope of the present invention is not limited to those shown in the drawings and the following description.

FIG. 1 is a schematic configuration diagram of a mixed aqueous solution production apparatus according to an embodiment of the present invention.
The mixed aqueous solution manufacturing apparatus 40 of the present embodiment includes a first dissolution unit 1 that dissolves a first gas in water to produce a first aqueous solution 3, and a second aqueous solution 4 that dissolves a second gas in water to produce a second aqueous solution 4. The dissolution unit 2 includes an aqueous solution mixing unit 26 that mixes the first aqueous solution 3 manufactured by the first dissolution unit 1 and the second aqueous solution 4 manufactured by the second dissolution unit 2.
The mixed aqueous solution manufacturing method of the present embodiment includes a step of manufacturing the first aqueous solution 3 by dissolving the first gas in water, manufacturing the second aqueous solution 4 by dissolving the second gas in water, the first aqueous solution 3 and the first aqueous solution 3 A step of mixing the first aqueous solution 3 and the second aqueous solution 4 so that the mixing ratio with the two aqueous solutions 4 can be changed.
Hereinafter, the mixed aqueous solution manufacturing apparatus 40 and the mixed aqueous solution manufacturing method of the present embodiment will be described.

1. Mixed aqueous solution production apparatus The mixed aqueous solution production apparatus 40 of this embodiment is an apparatus for producing an aqueous solution in which both the first gas and the second gas are dissolved, and is, for example, a water server.
For example, the first gas can be hydrogen gas, and the second gas can be carbon dioxide gas. Also, the first gas can be hydrogen gas and the second gas can be nitrogen gas. Furthermore, the first gas can be a carbon dioxide gas and the second gas can be an oxygen gas.

2. The 1st dissolution unit and the 2nd dissolution unit The 1st dissolution unit 1 is a part which dissolves the 1st gas in water, and manufactures the 1st solution 3. The 2nd dissolution unit 2 dissolves the 2nd gas in water. This is a part for producing the second aqueous solution 4. The 1st melt | dissolution unit 1 and the 2nd melt | dissolution unit 2 may have the same structure, and may have a different structure. The first aqueous solution 3 may include fine bubbles (ultra fine bubbles or micro bubbles) of the first gas, and the second aqueous solution 4 may include fine bubbles (ultra fine bubbles or micro bubbles) of the second gas. Good.
Here, an embodiment in which the mixed aqueous solution manufacturing apparatus 40 includes the first dissolution unit 1 and the second dissolution unit 2 has been described. However, the mixed aqueous solution manufacturing apparatus 40 dissolves the third gas in water and performs third operation. Third dissolving unit for producing aqueous solution and / or fourth dissolving unit for dissolving fourth gas in water to produce fourth aqueous solution and / or fifth dissolving unit for producing fifth aqueous solution by dissolving fifth gas in water You may have. In this case, the mixed aqueous solution manufacturing apparatus 40 can manufacture a mixed aqueous solution in which a number of gases corresponding to the number of dissolution units are dissolved. The third to fifth dissolving units can have the same configuration as the first or second dissolving unit.

  The first dissolution unit 1 can have a first gas supply source 28 and the second dissolution unit 2 can have a second gas supply source 29. The first and second gas supply sources may be gas cylinders, gas generation units, or first or second gas liquid tanks. The gas generation part may be a part that generates the first or second gas by electrolysis, or may be a part that generates the first or second gas by a chemical reaction.

  The first dissolution unit 1 can have an aqueous solution tank 15 a that stores the manufactured first aqueous solution 3, and the second dissolution unit 2 can have an aqueous solution tank 15 b that stores the manufactured second aqueous solution 4. Thus, the first aqueous solution 3 stored in the tank 15a and the second aqueous solution 4 stored in the tank 15b can be supplied to the aqueous solution mixing unit 26, and a desired amount of the first and second aqueous solutions can be immediately supplied to the mixing unit. 26.

  The raw water container 11 and the tank 15 can be connected so that the water 7 stored in the raw water container 11 can be supplied to the tank 15. Thus, water can be supplied to the tank 15 when the water level of the tank 15 is lowered. By operating the first or second dissolution unit, the first or second gas can be dissolved in the water supplied from the raw water container 11 to the tank 15, and the first or second aqueous solution can be produced. .

  The first dissolution unit 1 has a part for dissolving the first gas in water, and the second dissolution unit 2 has a part for dissolving the second gas in water. The first dissolution unit 1 can have a circulation channel 18a that circulates water stored in the tank 15a, and the second dissolution unit 2 can have a circulation channel 18b that circulates water stored in the tank 15b. The water in the circulation channel 18 can be circulated by the pump 20. The gas can be dissolved in water using the water flow in the circulation channel 18.

The 1st melt | dissolution unit 1 can have the gas introduction part 19a which introduce | transduces the 1st gas supplied from the 1st gas supply source 28 in the circulation flow path 18a, and produces | generates the bubble of 1st gas. Moreover, the 2nd melt | dissolution unit 2 can have the gas introduction part 19b which introduce | transduces the 2nd gas supplied from the 2nd gas supply source 29 in the circulation flow path 18b, and produces | generates the bubble of a 2nd gas. By providing such a gas introduction part 19 and introducing the first or second gas into water, the first or second gas can be brought into contact with water, and the first or second gas is dissolved in water. Can be made.
Further, the gas introduction unit 19 can increase the water pressure of the water flowing in the circulation channel 18 and the water pressure stored in the tank 15 by the pressure of the first or second gas supplied to the circulation channel 18. Can be provided. Thereby, dissolution of the first or second gas in water can be promoted. For example, the water pressure of the water flowing through the circulation flow path 18 and the water pressure of the water stored in the tank 15 can be normal pressure to 0.5 MPa. The water pressure is preferably 0.1 MPa or more and 0.3 MPa or less. Thereby, the mixed aqueous solution 5 having a high first gas concentration and a high second gas concentration can be produced.

The gas introduction part 19 is not particularly limited as long as it can form bubbles in the water flow, but may be, for example, a venturi pipe. As a result, the gas can be introduced into the water using the water flow in the circulation flow path 18.
Moreover, the gas introduction part 19 may be a part that generates bubbles of the first or second gas from the hole of the porous body. As a result, fine bubbles can be generated in the water, and the gas-liquid contact area can be increased. For this reason, the 1st or 2nd gas can be dissolved in water efficiently. Further, the bubbles can be detached from the porous body by the water flow in the circulation flow path 18, and the bubbles can be prevented from becoming large on the surface of the porous body.

The 1st dissolution unit 1 can have the gas-liquid mixing part 21a which shears the bubble in the water which flows through the circulation flow path 18a. Moreover, the 2nd melt | dissolution unit 2 can have the gas-liquid mixing part 21b which shears the bubble in the water which flows through the circulation flow path 18b. By providing such a gas-liquid mixing part 21, the bubbles flowing through the circulation flow path 18 can be miniaturized, and the gas-liquid contact area can be increased. For this reason, the 1st or 2nd gas can be dissolved in water efficiently.
The gas-liquid mixing part 21 can be provided so that the water containing the bubble of 1st or 2nd gas may flow through the container in which the filler was put, for example. When water containing air bubbles flows in the container, the air bubbles are sheared by the filler so that the air bubbles can be made finer, and the gas-liquid contact area can be increased. The filler can be, for example, a metal mesh, a porous metal plate, a porous material, or the like.

  A first or second dissolution unit is provided so that the first or second gas is dissolved in water by blowing the first or second gas into the water stored in the tank 15 to produce the first or second aqueous solution. May be. In this case, the dissolution of the gas in water may be promoted by providing a porous body or the like in the gas blowing port to generate fine bubbles and increasing the gas-liquid contact area.

3. Aqueous solution mixing unit, supply channel, aqueous solution supply valve The aqueous solution mixing unit 26 is a portion that mixes the first aqueous solution 3 manufactured by the first dissolution unit 1 and the second aqueous solution 4 manufactured by the second dissolution unit 2. is there. The aqueous solution mixing unit 26 can produce the mixed aqueous solution 5 in which both the first gas and the second gas are dissolved.
The aqueous solution mixing unit 26 is, for example, a mixing container that mixes the first aqueous solution 3 and the second aqueous solution 4. Further, the aqueous solution mixing unit 26 may be a portion that supplies the first aqueous solution 3 and the second aqueous solution 4 to the cup 27 and mixes the first aqueous solution 3 and the second aqueous solution 3 inside the cup 27.

  The mixed aqueous solution manufacturing apparatus 40 includes an aqueous solution supply channel 25a for supplying the first aqueous solution 3 manufactured by the first dissolution unit 1 to the aqueous solution mixing unit 26, and the second aqueous solution 4 manufactured by the second dissolution unit 2 as an aqueous solution. You may provide the aqueous solution supply flow path 25b supplied to the mixing part 26. FIG. Further, the aqueous solution supply channel 25 a may be provided so as to supply the first aqueous solution 3 stored in the tank 15 a to the aqueous solution mixing unit 26. The aqueous solution supply channel 25b may be provided so as to supply the second aqueous solution 4 stored in the tank 15b to the aqueous solution mixing unit 26. By providing such an aqueous solution supply channel 25, a desired amount of the first and second aqueous solutions can be immediately supplied to the aqueous solution mixing unit 26.

The mixed aqueous solution manufacturing apparatus 40 may include aqueous solution supply valves 22a to 22c provided in the aqueous solution supply channel 25a and aqueous solution supply valves 22d to 22f provided in the aqueous solution supply channel 25b. Thus, a desired amount of the first aqueous solution 3 and a desired amount of the second aqueous solution 4 can be supplied to the aqueous solution mixing unit 26, and the mixing ratio of the first aqueous solution 3 and the second aqueous solution 4 is changed. be able to. As a result, a mixed aqueous solution in which the mixing ratio of the dissolved first and second gases is changed can be easily manufactured. For this reason, the mixed aqueous solution 5 from which the mixing ratio of the 1st and 2nd gas melt | dissolved according to the drinker's liking etc. can be manufactured.
The supply of the first aqueous solution 3 to the aqueous solution mixing unit 26 and the supply of the second aqueous solution 4 to the aqueous solution mixing unit 26 are preferably performed simultaneously. Thereby, the manufacturing time of the mixed aqueous solution 5 can be shortened. Moreover, the 1st aqueous solution 3 and the 2nd aqueous solution 4 can be mixed efficiently.

  The aqueous solution supply valve 22 is, for example, an electromagnetic valve or an electric valve. As a result, the aqueous solution supply valve 22 can be automatically opened and closed. The aqueous solution supply valve 22 can also be provided so that the amount of flowing water in the aqueous solution supply channel 25 can be adjusted.

  A plurality of aqueous solution supply channels 25 for supplying the first or second aqueous solution to the aqueous solution mixing unit 26 can be provided. Further, an aqueous solution supply valve 22 can be provided in each of the aqueous solution supply channels 25. By changing the number of open valves of these aqueous solution supply valves 22, the number of aqueous solution supply channels 25 through which the first or second aqueous solution flows can be changed, and the first or second supplied to the aqueous solution mixing unit 26 can be changed. The amount of the aqueous solution can be adjusted. In addition, the aqueous solution supply channels 25 can be provided so that the diameters of the plurality of aqueous solution supply channels 25 are different. Thus, the amount of the first or second aqueous solution supplied to the aqueous solution mixing unit 26 can be adjusted.

  For example, when the first gas is hydrogen gas and the second gas is carbon dioxide gas, the mixing ratio of the first aqueous solution 3 and the second aqueous solution 4 can be 1: 2 to 5: 1 (for example, First aqueous solution: second aqueous solution = 1: 2, 1: 1, 3: 2, 2: 1, 5: 1). In Table 1, the saturated aqueous solution concentration (ppm) of the first aqueous solution 3 and the saturated dissolved carbonic acid concentration (ppm) of the second aqueous solution 4 at 10 ° C. and each pressure, and the first aqueous solution 3 and the second aqueous solution 4 are mixed. The dissolved hydrogen concentration (ppm) and the dissolved carbonic acid concentration (ppm) of the mixed aqueous solution mixed at a ratio are shown. As shown in Table 1, a mixed aqueous solution 5 having a dissolved hydrogen concentration of 1 ppm or more and a dissolved carbonic acid concentration of 1000 ppm or more can be produced by mixing saturated hydrogen water and saturated carbonated water.

  1: First dissolution unit 2: Second dissolution unit 3: First aqueous solution 4: Second aqueous solution 5: Mixed aqueous solution 7: Water 11: Raw water container 12: Raw water supply line 13, 13a, 13b: Raw water supply valve 14, 14a , 14b: Aqueous solution tank air vent valve 15, 15a, 15b: Aqueous solution tank 16, 16a, 16b: Full water level sensor 17, 17a, 17b: Empty level sensor 18, 18a, 18b: Circulation channel 19, 19a, 19b: Gas introduction Part 20, 20a, 20b: Circulation pump 21, 21a, 21b: Gas-liquid mixing part 22, 22a, 22b, 22c, 22d, 22e, 22f: Aqueous solution supply valve 25, 25a, 25b: Aqueous solution supply channel 26: Aqueous solution Mixing unit 27: Cup 28: First gas supply source 29: First 2 gas supply source 30: 1st gas supply valve 31: 2nd gas supply valve 32: 1st gas supply flow path 33: 2nd gas supply flow path 34, 35, 36, 37: Check valve 40: Mixed aqueous solution manufacture apparatus

Claims (5)

A first dissolution unit that dissolves a first gas in water to produce a first aqueous solution;
A second dissolution unit for dissolving a second gas in water to produce a second aqueous solution;
A mixed aqueous solution manufacturing apparatus comprising an aqueous solution mixing unit that mixes a first aqueous solution manufactured by a first dissolution unit and a second aqueous solution manufactured by a second dissolution unit.   A first supply channel for supplying the first aqueous solution manufactured by the first dissolution unit to the aqueous solution mixing unit, a first valve provided in the first supply channel, and a second valve manufactured by the second dissolution unit The manufacturing apparatus according to claim 1, further comprising: a second supply channel that supplies the aqueous solution to the aqueous solution mixing unit; and a second valve provided in the second supply channel. The first dissolution unit includes a first tank that stores water or a first aqueous solution, a first circulation channel that circulates the water or first aqueous solution stored in the first tank, and water or a first fluid that flows through the first circulation channel. 1st gas introduction part which introduces 1st gas in 1 aqueous solution, 1st gas-liquid mixing part which mixes the water or 1st aqueous solution and 1st gas which flow through the 1st circulation channel, and water or 1st aqueous solution A first circulation pump for circulating
The second dissolution unit includes a second tank that stores water or a second aqueous solution, a second circulation channel that circulates the water or the second aqueous solution stored in the second tank, and water or a second fluid that flows through the second circulation channel. A second gas introduction unit that introduces a second gas into the two aqueous solutions, a second gas-liquid mixing unit that mixes water or the second aqueous solution and the second gas flowing through the second circulation channel, and water or the second aqueous solution. A second circulation pump for circulating
The first supply flow path is provided to supply the first aqueous solution stored in the first tank to the aqueous solution mixing unit,
The manufacturing apparatus according to claim 2, wherein the second supply channel is provided to supply the second aqueous solution stored in the second tank to the aqueous solution mixing unit. The first gas is hydrogen gas,
The manufacturing apparatus according to claim 1, wherein the second gas is carbon dioxide gas. Dissolving a first gas in water to produce a first aqueous solution, and dissolving a second gas in water to produce a second aqueous solution;
A method for producing a mixed aqueous solution, comprising a step of mixing the first aqueous solution and the second aqueous solution so that the mixing ratio of the first aqueous solution and the second aqueous solution can be changed.