JP4061068B2 - Processed seawater products and methods of manufacturing seawater processed products - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a processed product of seawater, that is, a mineral product containing a large amount of various mineral components in seawater and a method for producing the same.
[0002]
[Prior art]
The inventor of the present invention proposed in Japanese Patent No. 3250738 a salt containing a large amount of various mineral components in seawater and a method for producing the same. Since this salt contains various mineral components contained in seawater in a well-balanced and large amount, it functions extremely effectively for maintaining the life and health of the human body.
[0003]
In this way, salt containing various mineral components in a well-balanced and abundant amount is produced out of the body by combining various mineral components with sodium chloride, despite the majority being sodium chloride. Therefore, it is said that it is effective for healing and normalizing high blood pressure and so on.
[0004]
[Problems to be solved by the invention]
However, in general, due to lack of recognition, even a mineral salt containing a large amount of various mineral components, that is, a group of minerals, in a balanced manner and a large amount of sodium chloride is salty. Many people are equated with normal salt that causes high blood pressure and are afraid of taking mineral salts.
[0005]
In order to make it easy for people with such lack of awareness to ingest easily and cure hypertension, the mineral group content is higher than conventional mineral salts and the sodium chloride content is extremely low. It is essential to be able to realize and provide mineral products that cannot be called “salt”.
[0006]
The technical problem of the present invention is to focus on such problems and to commercialize mineral groups in seawater as they are. Actually, since it is difficult to produce only a mineral component containing no sodium chloride, it is to realize a mineral group product containing sodium chloride but having a very small content ratio.
[0007]
[Means for Solving the Problems]
The technical problem of the present invention is solved by the following means. Claim 1 manufactures a mineral group liquid containing sodium chloride by separating and removing crystallized sodium chloride from a liquid concentrated by vaporizing and removing water in seawater until sodium chloride in seawater crystallizes. It is the manufacturing method of the high mineral group liquid characterized by doing .
[0008]
In this way, by removing the crystallized sodium chloride from the concentrated liquid by vaporizing and removing the water in the seawater until the sodium chloride in the seawater crystallizes, the sodium chloride concentration is low and high. A liquid of a concentration mineral group is obtained.
[0009]
This mineral group solution can be used as a product as it is. In order to obtain a solid product that is easy to handle, when this mineral group solution is supplied to the next instant crystallization apparatus and moisture is instantly vaporized, crystals of a high mineral group are obtained with low sodium chloride.
[0010]
Claim 2 manufactures a mineral group liquid containing sodium chloride by separating and removing crystallized sodium chloride from a liquid concentrated by vaporizing and removing water in seawater until the sodium chloride in seawater crystallizes. And a process of
And Chikiri the mineral group liquid, and a method for producing a seawater workpiece, which comprises a step of blowing warm air moisture Ru vaporized removed by crystallization.
[0011]
Thus, after separating and removing the crystallized sodium chloride from the liquid concentrated by vaporizing and removing seawater until the sodium chloride crystallizes, the mineral liquid containing liquid sodium chloride is manufactured, and then this mineral According to the method of spraying liquid and blowing hot air to vaporize and remove moisture , the sodium chloride and the mineral group are uniformly distributed without crystallization of the sodium chloride and separation from the mineral components. Mineral products can be produced in a mixed or unifying state.
[0012]
According to a third aspect of the present invention, sodium chloride crystals containing a pre-crystallized mineral group are dissolved in seawater or concentrated seawater, and a portion of the sodium chloride is in a crystalline state, and the mineral group is in a liquid state. And a method for concentrating the mineral group liquid. As shown in FIG. 1, sodium chloride crystals containing a mineral group may be added to seawater, or, conversely, seawater may be added to sodium chloride crystals containing a mineral group. Moreover, it can replace with seawater or concentrated seawater, and can also use the liquid of the concentrated mineral group containing sodium chloride.
[0013]
Thus, according to the method in which the sodium chloride crystals containing the mineral group are dissolved in seawater or concentrated seawater, a part of the sodium chloride is in a crystalline state, and the mineral group is in a liquid state. Since the mineral group and a part of sodium chloride can be made into a liquid state from the crystal, the mineral group in the natural salt can be effectively extracted and concentrated. That is, the concentrated mineral group liquid can be easily mass-produced.
[0014]
And since the supersaturated sodium chloride can be made into a crystalline state, in the next step, the liquid mineral group and the crystalline sodium chloride can be easily separated to effectively mass-produce a high concentration mineral group liquid. This mineral group liquid may be a liquid product as it is, or water can be instantly evaporated into a solid product.
[0015]
Claim 4 is a concentration device for concentrating seawater until the sodium chloride crystallizes;
A device for obtaining a mineral group liquid containing sodium chloride by filtering the concentrated solution produced by the concentration device to separate and remove the crystallized sodium chloride;
A device for producing a processed seawater product, comprising: a device for spraying the mineral group liquid and spraying warm air to vaporize moisture .
[0016]
In this way, the concentration device that concentrates until sodium chloride crystallizes, and the concentrated product concentrated by the concentration device is filtered to separate and remove the crystallized sodium chloride, and the mineral liquid containing liquid sodium chloride is removed. According to a manufacturing apparatus comprising a device for obtaining and a device for spraying the mineral liquid and spraying warm air to vaporize and remove the water, the inclusion of mineral groups from seawater to sodium chloride rather than seawater A high proportion of mineral products can be easily manufactured.
[0017]
Claim 5 is an apparatus for concentrating until the sodium chloride in the seawater crystallizes, and has a water tank for containing seawater or concentrated seawater, and warm air is sprayed on the seawater sprayed above the water tank. It is a mineral group concentrating device having a structure in which a means for blowing and evaporating water is provided, and the sodium chloride and the mineral group crystallized by evaporation of the water fall into the water tank.
[0018]
In this way, there is provided a means for evaporating moisture by blowing warm air on the seawater sprayed above the water tank containing seawater or concentrated seawater. According to the mineral group concentrating device configured to fall into the aquarium, the concentrated mineral is obtained by continuing the treatment that the crystallized sodium chloride and the mineral group are dropped and dissolved in the seawater in the aquarium. An intermediate product consisting of a group of liquids and crystallized sodium chloride can be produced efficiently and in large quantities.
[0019]
Moreover, since sodium chloride is crystallized and the mineral group is liquid, the crystallized sodium chloride and the liquid mineral group can be easily separated in the next separation apparatus. Since the mineral group liquid is concentrated, a large amount of mineral products can be manufactured smoothly and efficiently in the instantaneous crystallization apparatus.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Next, an embodiment of how the seawater processed product and the seawater processed product manufacturing method according to the present invention are practically described will be described. FIG. 1 is a cross-sectional view showing the entire apparatus for producing seawater processed products according to the present invention.
[0021]
1 is a concentration device for seawater or mineral group liquid, 2 is a separation device for crystallized sodium chloride, and 3 is a crystallization device for mineral group. In the present invention, the seawater or mineral group liquid is concentrated by the concentrating device 1 and then the sodium chloride crystallized by the sodium chloride separating device 2 is separated, and then the liquid mineral group is crystallized by the crystallization device 3 to obtain the mineral product. Get.
[0022]
Concentrator 1 applied a method of instantly crystallizing sodium chloride and mineral groups by spraying seawater and blowing warm air, evaporating water from the seawater mist as described in Japanese Patent No. 3250738. Device.
[0023]
That is, 4 is a seawater atomizer, which supplies seawater to the center of the impeller and scatters the seawater from the outer periphery of the impeller by centrifugal force. Then, when warm air is blown to the atomized seawater by the fan 5, the atomized seawater is scattered toward the inside of the processing chamber 6, and moisture is evaporated from the seawater mist by the warm air. The evaporated water is discharged outside through the hole in the ceiling wall 7.
[0024]
The sodium chloride crystallized by instantly evaporating the water and the crystals of the mineral group are once attached to the net n stretched horizontally or suspended under the ceiling, and then dropped. h is a heat source of warm air, and a heater is schematically illustrated, but a heavy oil burner or the like may be used.
[0025]
t is a tank containing seawater, and seawater is supplied from the tank t to the center of the impeller through the pipe 8 by the pump P1. Seawater may be supplied directly from the sea.
[0026]
9 is a water tank, in which seawater 10 is put in advance. The seawater 10 may be ordinary seawater as it is, or may be seawater concentrated in advance. Or the mineral group liquid after removing the crystal | crystallization of sodium chloride from a natural salt may be sufficient. On this seawater 10, as described above, water evaporates from the seawater mist and the sodium chloride and the mineral group instantly crystallize, so the crystallized sodium chloride and the mineral group fall into the seawater 10. Then melt.
[0027]
In Japanese Patent No. 3250738, the sodium chloride and mineral group in which water is instantly vaporized adheres to the dry net n, then falls and deposits on the dry floor to form natural salt. At that time, all mineral groups are crystallized.
[0028]
However, in this apparatus, the sodium chloride and the mineral group that are crystallized by vaporization of water are dropped into the seawater 10. Therefore, all mineral groups including sodium chloride once crystallized are dissolved in the seawater 10. When this treatment is continuously carried out and dissolved, the amount of sodium chloride is extremely large compared to other mineral groups, so that it becomes supersaturated first and crystallization occurs.
[0029]
As a result, crystals of sodium chloride are gradually formed in the seawater tank 9 over time. On the other hand, the crystallized mineral group dissolves in the seawater 10 and is concentrated to a high concentration. In this way, the high-concentration mineral group liquid in which crystals of sodium chloride are mixed is pumped up by the pump P <b> 2 and supplied to the next separation device 2 through the pipe 11.
[0030]
The separation device 2 has a structure in which a filtering means is provided on the mineral water tank 12. For example, when a high-concentration mineral group solution containing sodium chloride crystallized from a pipe 11 is dropped horizontally on a fine cloth 13, the crystallized sodium chloride 14 remains on the cloth 13. Liquid sodium chloride and mineral groups still dissolved in seawater pass and accumulate in the mineral water tank 12.
[0031]
In this way, by removing the crystallized sodium chloride 14 with a filtering means, the sodium chloride concentration is low and a liquid 15 of a high-concentration mineral group is obtained. The mineral group solution 15 can be used as a product as it is. However, in order to obtain a solid product that is easy to handle, the mineral group solution 15 is supplied to the next instantaneous crystallization device 3 to instantly vaporize moisture. Thus, crystals of a high mineral group can be obtained with low sodium chloride.
[0032]
The illustrated instantaneous crystallization apparatus 3 is an apparatus that basically uses the same principle as the concentration apparatus 1 for seawater or mineral group liquid. That is, the mineral group liquid pumped up by the pump P3 from the mineral group water tank 12 is supplied to the center of the impeller, sprayed by centrifugal force, and blown with hot air by the fan 5.
[0033]
As a result, the water in the mineral group liquid instantly evaporates, so that the instantly crystallized sodium chloride and mineral group crystals accumulate as 16. That is, the low sodium chloride / high mineral group crystal 16 can be produced. At this time, if sodium chloride concentration is less than 40%, it is not defined as salt. When this low sodium chloride / high mineral group crystal 16 is tableted, it becomes a mineral tablet.
[0034]
The total amount of sodium chloride and mineral group contained in seawater is said to be about 3.4% of seawater, but the ratio of sodium chloride and mineral group is said to be about 8 to 2. Yes. According to the method of the present invention, the ratio of sodium chloride can be reduced, the mineral group can be concentrated, and the mineral group ratio can be increased. Moreover, since the ratio between the sodium chloride and the mineral group can be arbitrarily adjusted by adjusting the concentration, the ratio of the sodium chloride to the mineral group can be set to about 4 to 6 to 2 to 8, for example. Thus, when the ratio of sodium chloride is less than 40%, it can no longer be said to be salt.
[0035]
In this way, the ratio of mineral group to sodium chloride is extremely high, and the taste of salt is also extremely diminished, so even general consumers can feel safe without worrying about salt, which is said to increase blood pressure. The mineral product of the present invention can be ingested.
[0036]
As described above, the concentration device 3 shown in the figure instantly crystallizes only liquid sodium chloride and mineral group after separating and removing the crystallized sodium chloride 14. Although the example which sprays warm air on the sprayed mineral group liquid was shown as this instantaneous crystallization apparatus, the kind will not be ask | required if it is an apparatus which can evaporate a water | moisture content instantaneously.
[0037]
For example, a method of sprinkling the mineral group solution on a heated iron plate and instantly evaporating moisture can be considered. Alternatively, in a state where a heat source is put in a rotating iron plate cylinder and the iron plate cylinder is constantly heated, when the mineral group liquid is sprinkled from directly above, the mineral group liquid is along the outer surface of the iron plate cylinder. While flowing down, the water evaporates, and the instantly crystallized mineral component falls and deposits under the iron plate cylinder.
[0038]
The mineral group that has been crystallized can be made into a mineral group product in which minerals are adjusted by adding certain minerals as needed and strengthening them, or by removing certain minerals.
[0039]
As the seawater concentrating device 1, seawater spraying and hot air blowing are exemplified, but any type of seawater can be used as long as it can concentrate seawater. For example, a method of concentrating seawater in a kettle or a method of concentrating seawater on a hot iron plate may be used, and any means may be used. Further, the water may be removed and concentrated by a reverse osmosis membrane method.
[0040]
【The invention's effect】
By removing the crystallized sodium chloride from the liquid concentrated by vaporizing and removing water in the seawater until the sodium chloride in the seawater crystallizes as in claim 1 , the sodium chloride concentration is reduced. A low and highly concentrated mineral group solution is obtained.
[0041]
This mineral group solution can be used as a product as it is. In order to obtain a solid product that is easy to handle, when this mineral group solution is supplied to the next instant crystallization apparatus and moisture is instantly vaporized, crystals of a high mineral group are obtained with low sodium chloride.
[0042]
After manufacturing the mineral liquid containing liquid sodium chloride by separating and removing the crystallized sodium chloride from the liquid concentrated by evaporation and removal of seawater until the sodium chloride crystallizes as in claim 2 According to the method of spraying this mineral liquid and blowing hot air to vaporize and remove moisture , the sodium chloride and the mineral group can be separated without crystallization and separation from the mineral components. Can produce a mineral product that is uniformly mixed or united.
[0043]
According to the method of dissolving sodium chloride crystals containing mineral groups in seawater or concentrated seawater as in claim 3, the sodium chloride is in a crystalline state and the mineral groups are in a liquid state. Since a mineral group and a part of sodium chloride can be made into a liquid state from the crystals of sodium chloride and sodium chloride, the mineral group in the natural salt can be effectively extracted and concentrated. That is, the concentrated mineral group liquid can be easily mass-produced. Since the remaining sodium chloride can be in a crystalline state, in the next step, the liquid mineral group and the crystalline sodium chloride can be easily separated to effectively mass-produce a high concentration mineral group liquid.
[0044]
As in claim 4, a concentrating device that concentrates until sodium chloride crystallizes, and a concentrated product concentrated by the concentrating device is filtered to separate and remove the crystallized sodium chloride, thereby containing liquid sodium chloride. According to a manufacturing apparatus comprising a device for obtaining a mineral liquid and a device for spraying the mineral liquid and spraying warm air to vaporize and remove the water, the mineral from the seawater to sodium chloride rather than the seawater Mineral products with a high group content can be easily manufactured.
[0045]
As in claim 5, there is provided a means for evaporating moisture by blowing warm air on the seawater sprayed above the water tank containing seawater or concentrated seawater; According to the mineral group concentrating device with a structure in which the mineral group falls into the aquarium, the concentration of crystallized sodium chloride and the mineral group continues to drop and dissolve in the seawater in the aquarium. An intermediate product consisting of the liquid of the mineral group and the crystallized sodium chloride can be produced efficiently and in large quantities.
[0046]
Moreover, since sodium chloride is crystallized and the mineral group is liquid, the crystallized sodium chloride and the liquid mineral group can be easily separated in the next separation apparatus. Since the mineral group liquid is concentrated, a large amount of mineral products can be manufactured smoothly and efficiently in the instantaneous crystallization apparatus.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing the entire apparatus for producing seawater processed products according to the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Seawater concentration apparatus 2 Crystallized sodium chloride separation apparatus 3 Mineral group crystallization apparatus 4 Seawater atomization apparatus 5 Fan 6 Treatment room n Net
9 Seawater tank 10 Seawater 12 Concentrated mineral tank 13 Fine cloth 14 Crystallized sodium chloride 15 Low sodium chloride and high mineral group liquid 16 Low sodium chloride and high mineral group crystal

Claims (5)

It is characterized in that a mineral group liquid containing sodium chloride is produced by separating and removing crystallized sodium chloride from a liquid concentrated by vaporizing and removing water in seawater until sodium chloride in seawater crystallizes. To produce a high-mineral group solution. Separating and removing the crystallized sodium chloride from the liquid concentrated by vaporizing and removing water in the seawater until the sodium chloride in the seawater crystallizes, and producing a mineral group liquid containing sodium chloride;
Workpiece manufacturing method of seawater, which comprises a by Chikiri the mineral group liquid and by blowing warm air moisture vaporization remove Ru by crystallization process.   A mineral group liquid characterized by dissolving sodium chloride crystals containing a pre-crystallized mineral group in seawater or concentrated seawater so that a portion of sodium chloride is in a crystalline state and the mineral group is in a liquid state Concentration method. A concentrator that concentrates the seawater until the sodium chloride crystallizes;
Filtered concentrated solution prepared in the thickener, and the sodium chloride crystallized was separated and removed, to obtain a mineral group liquid containing sodium chloride device,
Wherein the mineral group liquid was Chikiri, and by blowing warm air to contain a device for vaporizing the moisture workpiece manufacturing apparatus of sea water, characterized in. A device for concentrating sodium chloride in sea water until it crystallizes,
Has a water tank for seawater or concentrated seawater
A means for blowing warm air on the seawater sprayed above the water tank to vaporize water is provided,
An apparatus for concentrating mineral groups, characterized in that sodium chloride and mineral groups that have been crystallized by vaporization of water fall into the water tank.

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