JP5838567B2 - Preparation of strong alkaline ionic liquid by incineration ash of light snowy grass and ghetto - Google Patents

Description

  The present invention relates to a method for easily producing colorless and transparent alkaline ionized water and alkaline ionized water.

  Conventionally, a diaphragm made of unglazed, porous plastic, etc. is provided between the anode and the cathode, and tap water or mineral water is put into this and electrolyzed to generate alkaline water at the cathode and alkaline ion water to obtain acidic water at the anode. Containers are widely used, alkaline ionized water is used for beverages, cooking, medicine, etc., and acidic water is used for beauty, sterilization, and the like. As the anode of this alkaline ion water generator, a ferrite electrode, an iridium oxide electrode, and a platinum electrode are used, and as the cathode, stainless steel is used, but when alkaline ion water is produced by electrolysis, the hardness component in water Adhered to the cathode as a scale, the cell voltage increased, and eventually the current could not be supplied, so periodic scale removal was necessary. Patent Document 1 discloses prevention of scale adhesion by reversing the polarity of an electrode for a very short time.

  On the other hand, the present inventor has reported that alkaline ionized water can be obtained by putting into a water a discharge plasma sintered body of ghetto plant incineration ash or a mixture of ghetto plant incineration ash and aluminum powder. (Patent Document 2).

Japanese Patent Laid-Open No. 03-109988 JP 2007-130568 A

However, the production of alkaline ionized water by electrolytic treatment requires an anode, a cathode and a diaphragm. On the other hand, the method of Patent Document 2 requires a discharge plasma sintering apparatus, the means for producing alkaline ionized water is not simple, and the apparatus is expensive.
Accordingly, an object of the present invention is to provide a method for obtaining alkaline ionized water inexpensively and easily.

  Therefore, the present inventors have made various studies to develop a simpler production of alkaline ionized water, and found that alkaline ionized water can be obtained by injecting ash obtained by incineration of ghetto or kosendangusa plants into water. . However, the obtained alkaline ionized water is not a little colored, and there is a problem in using it for beverages, cooking, medicine, and the like. Therefore, when further examination was continued, among the incineration ash of the plant body, the alkaline ionized water obtained using the incineration ash incinerated at a temperature of less than 500 ° C. was colored yellow, while at a temperature of over 700 ° C. Alkaline ion water obtained using incineration ash obtained by incineration is colored red, but alkali ion water obtained using incineration ash obtained by incineration at a temperature of 500 to 700 ° C. It became colorless and transparent, and it discovered that there was no taste and smell and came to complete this invention.

That is, this invention provides the alkaline ionized water obtained by throwing into the water the ash which incinerated the plant body of the ghetto or Kosendangusa at 500-700 degreeC under normal pressure or pressurization.
Moreover, this invention provides the manufacturing method of alkaline ionized water characterized by throwing into the water the ash which incinerated the plant body of the ghetto or Kosendangusa under normal pressure or pressurization at 500-700 degreeC.

  The alkaline ionized water of the present invention is easily obtained, is colorless and transparent, has no taste and smell, and can be widely used for beverages, cooking, medical treatments and the like.

The pH change when ghetto incineration ash is thrown into water is shown. The change of pH when Awayukisendangusa incineration ash is thrown into water is shown.

  The plant used for the production of the alkaline ionized water of the present invention is ghetto or kosendangusa. Here, ghetto (moon peach) is a ginger family plant, and its extract is known to have bactericidal and insecticidal action. The ghetto plant used in the present invention may be any of stalks, roots, leaves, flowers, fruits and seeds of ghettos, and may include stems and leaves. On the other hand, Kosendangusa (Bidens pilosa L.) is a plant of the genus Sendangusa. Examples of the Cosendangusa include B. pilosa var. Pilosa, B. pilosa var. Minor (Blume) Sherff, B. piosa var. Radiata Sch. Bipo, il. var. bisetosa), but Awayusendangusa is particularly preferred. These kosendangusa may be any of leaves, flowers, stems, roots, fruits and seeds, and it is more preferable to use stems and leaves.

  These plant bodies may be incinerated as they are, or may be incinerated after drying.

  These plant bodies may be incinerated under normal pressure or under pressure, but normal pressure is economical. In the present invention, the incineration temperature is important, and incineration at 500 to 700 ° C. is important from the viewpoint of preventing coloring of alkaline ionized water by introducing the obtained incineration ash into water. In incineration below 500 ° C., the resulting alkaline ionized water is colored yellow. On the other hand, in incineration above 700 ° C., the obtained alkaline ionized water is colored red to brown. When incinerated ash obtained by incineration at 500 to 700 ° C. is put into water, colorless and transparent alkaline ionized water is selectively obtained. A more preferable incineration temperature is 550 to 650 ° C, and further preferably 570 to 620 ° C.

  The incineration time may be the time until the entire plant body becomes ash, and may be adjusted according to the dry state of the plant body.

  If the obtained incineration ash is thrown into water, the pH of the water will rise to 11-13 rapidly, and alkali ion water will be obtained simply. The amount of incinerated ash used is 5 to 40 g per liter of water. The time required for raising the pH is 1 second to 1 minute. Moreover, the water used may be natural water or tap water, and the temperature may be 5 to 60 ° C, and further 15 to 30 ° C.

  The incinerated ash charged into water may be removed by means such as filtration after the pH is stabilized.

  The obtained alkaline ionized water has a pH of 11 to 13, and the pH is stable for a long time. It is colorless and transparent, tasteless and odorless. Therefore, it is useful for beverages, cooking, medical care and the like.

  EXAMPLES Next, although an Example is given and this invention is demonstrated in detail, this invention is not limited to these Examples.

Example 1
Ghetto plants (including stems and leaves) were incinerated at a temperature of 300 ° C., 600 ° C. or 900 ° C. without heat treatment. 40 g of the obtained incinerated ash was introduced per liter of tap water. The pH change of the obtained alkaline ionized water is shown in FIG.
Moreover, when the obtained alkaline ionized water was observed with the naked eye, the alkaline ionized water obtained using 300 ° C. incinerated ash without heat treatment was yellow. Moreover, the alkali ion water obtained using 900 degreeC incineration ash was red. On the other hand, the alkaline ionized water obtained using 600 ° C. incinerated ash was colorless and transparent, tasteless and odorless.

Example 2
Awayukisendangusa (including stems and leaves) was incinerated at a temperature of 300 ° C., 600 ° C. or 900 ° C. without heat treatment. 40 g of the obtained incinerated ash was introduced per liter of tap water. The pH change of the obtained alkaline ionized water is shown in FIG.
Moreover, when the obtained alkaline ionized water was observed with the naked eye, the alkaline ionized water obtained using 300 ° C. incinerated ash without heat treatment was yellow. Moreover, the alkali ion water obtained using 900 degreeC incineration ash was red. On the other hand, the alkaline ionized water obtained using 600 ° C. incinerated ash was colorless and transparent, tasteless and odorless.

Example 3
Awayukisendangusa (including stems and leaves) was used and incinerated at a temperature of 400 ° C, 500 ° C, 600 ° C, 700 ° C or 800 ° C. 40 g of the obtained incinerated ash was introduced per liter of tap water. The obtained alkaline ionized water quickly became pH 11-13.
Moreover, when the obtained alkali ion water was observed with the naked eye, the alkali ion water obtained using 400 degreeC incineration ash was yellow. Moreover, the alkali ion water obtained using 800 degreeC incineration ash was red. On the other hand, alkaline ionized water obtained using 500-700 ° C. incinerated ash was colorless and transparent, tasteless and odorless. However, the incinerated ash around 600 ° C. had the best color.

Claims (3)

  A method for producing alkaline ionized water, characterized in that ash obtained by incinerating a plant body of ghetto or kosendangusa at 500 to 700 ° C. at normal pressure or under pressure is poured into water. Bidens pilosa is, the preparation of the alkali ion water according to claim 1 is a bubble snow Bidens. The method for producing alkaline ionized water according to claim 1 or 2 , wherein the pH of the alkaline ionized water is 11 to 13.

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