JPH0525560B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention aims to provide a method for separating and collecting only the crystalline pearl layer portion from a seashell, such as an oyster shell. The separated and collected crystalline pearl layer portion is used as an odorless water purification material, water quality improvement material, or medicinal calcium material.

[Conventional technology]

The main component of shells is calcium carbonate, and also contains trace components such as calcium phosphate and magnesium carbonate.

On the other hand, when looking at the shell 1 from a structural perspective, as shown in FIG.
It has a scale-like laminated structure of a prismatic layer 3 made of an amorphous organic compound containing an alkali metal compound, and a pearl layer 4 made of a composite salt of an alkali metal compound containing calcium as a main component.

The pearl layer 4 is mostly composed of odorless and crystalline calcium, whereas the outer shell layer 2 is composed of a nitrogen-containing compound, and the prismatic layer 3 is composed of amorphous calcium. When these organic compounds are immersed in water, they not only produce a bad odor but also breed bacteria. Therefore, if the pearl layer 4 can be separated from the outer shell layer 2 and the prismatic layer 3 using some kind of separation means, pearly calcium Ca with a coarse and dense crystal structure can be purified from the shell 1. be done. Since this calcium Ca has water purification and water quality improvement functions, it can be used as a water purification material or a water quality improvement material. Furthermore, this calcium Ca can also be used as a medicinal calcium agent.

When using the above calcium Ca as a water purification material, the limescale odor is removed from tap water by using an electrolytic treatment means, and the tap water is turned into ionized weakly alkaline water. To explain in more detail, by flowing tap water between positive and negative electrodes to which a DC voltage is applied, the tap water is ionized, producing chlorine ions Cl ^- , hydroxide ions OH ^- , hydrogen ions H ⁺ , etc. to occur. When calcium Ca is brought into contact with tap water that has generated ions, the ions and calcium Ca undergo a chemical reaction, producing chlorine ions Cl ^-
is calcium chloride, CaCl ₂ , hydroxide ion OH ^-
becomes calcium hydroxide, Ca(OH) ₂ . This chemical reaction between chlorine ions Cl ^- and calcium Ca removes chlorine Cl, which is the cause of the limescale odor.
Also, calcium chloride produced in tap water
_CaCl2 becomes a necessary source of calcium for the human body, and calcium hydroxide Ca(OH) ₂ converts tap water into ionized slightly alkaline water. Further, the hydroxide ion OH ^- reacts with calcium carbonate, which is the main component of the pearl layer 4 of the shell 1, to generate carbon dioxide gas, as shown in the reaction formula below.

[2OH ^- +Ca(Ca ₂ ) ₂ →Ca(OH) ₂ +2CO ₂ ] Water becomes better when this carbon dioxide gas dissolves in the water.

[Problem to be solved by the invention]

As understood from the above explanation, calcium Ca, which is the main component of the pearl layer 4 of the shell 1, exhibits an excellent water quality improving function. This calcium is used not only as a water quality improvement material but also as a medicinal material.
However, in a natural seashell, for example, an oyster shell 1 shown in FIG. Therefore, if the outer shell layer 2 and the prismatic layer 3 are used as a water purification material or water quality improving material without being separated and removed, the following problems will occur. That is, if the outer shell layer 2 made of a nitrogen-containing compound and the prismatic layer 3 made of a containing organic compound are attached to the pearl layer 4 without being separated, when the pearl layer portion is immersed in water, the nitrogen-containing The compounds and organic compounds they contain rot, emitting a unique odor and allowing bacteria to grow.

Considering these circumstances, until now pearl layer 4
Various methods have been attempted for the purpose of separating the pearl layer 4 from the outer shell layer 2 and the middle layer prismatic layer 3, but no means for separating and collecting the pearl layer 4 that can be carried out on an industrial scale has been established. Nakatsuta.

[Means to solve the problem]

As a means for solving the above problems, the present invention provides scales for shells having an outer shell layer made of a titanium compound, a prismatic layer made of an amorphous organic compound, and a pearl layer made of a complex salt of a crystalline alkali metal compound. A step of crushing the shell into pieces, a step of immersing the crushed shell in high-temperature and high-pressure hot water or alkaline water to decompose and remove the outer shell layer and the prismatic layer, and a step of crushing the prismatic layer and the outer shell layer into pieces. A process of separating and removing amorphous alkali metal compounds adhering to the crystalline part of the pearl layer by stirring and washing the pearl layer that has been decomposed and removed. A method for separating and collecting a shell part, and a method for separating and collecting shells having an outer shell layer consisting of a nitrogen-containing compound, a prismatic layer consisting of an amorphous organic compound, and a pearl layer consisting of a complex salt of a crystalline alkali metal compound. A step of crushing the shell into scales, a step of firing the above-mentioned crushed shell at a temperature that does not oxidize and decompose the pearl layer, and a step of immersing the shell pretreated by the above-mentioned firing in alkaline water for a long time. Alternatively, a step of decomposing and removing the outer shell layer and the prismatic layer by boiling in alkaline water for a short time, and stirring and washing the pearl layer from which the prismatic layer and the outer shell layer have been decomposed and removed. Then,
The present invention provides a method for separating and collecting a pearly part from a seashell, which is characterized by a combination with a step of separating and removing an amorphous alkali metal compound adhering to a crystalline part of a pearly layer.

[Effect]

In the first separation and collection method, the shells 1 are crushed into scales, and then immersed in hot water (steam) or alkaline water at high temperature and pressure to remove nitrogen-containing compounds and amorphous organic compounds from the pearl layer 4. Decompose and remove from. After this, the pearl layer portion was poured into water and washed while stirring to decompose and remove the amorphous alkali metal compound contained in the prismatic layer 3 from the pearl layer portion, resulting in a purified product. Collect only the pearly part.

In addition, in the second separation collection method, shells 1
After crushing it into scales, it is introduced into a firing furnace and pretreated by firing at a temperature that does not oxidize the pearly part. Thereafter, the shell 1 is immersed in alkaline water for a predetermined period of time, and if necessary, boiled to convert the nitrogen-containing compound and the amorphous organic compound into a pearl layer using decomposition means such as hydrolysis. Decompose and remove from 4. Next, the pearl layer portion is poured into water and washed with stirring to separate and remove the amorphous alkali metal compound contained in the prismatic layer 3 from the pearl layer portion, resulting in purified pearls. Collect only the quality parts.

Example 1 FIG. 1 is a flowchart showing a first specific example of the method of the present invention.

Since it is difficult to separate and remove the outer shell layer 2 and the prismatic layer 3 from the oyster shell 1 as it is, it is crushed into scales prior to decomposition treatment. The crushed shell 1 is introduced into an autoclave (not shown) and exposed to high-temperature, high-pressure hot water (steam) or alkaline water to decompose the outer shell layer 2 and the prismatic layer 3, forming pearls. Separate and remove from layer 4.
Next, most of the outer shell layer 2 and the prismatic layer 3 are peeled off,
Or the pearl layer portion 4 of the shell 1 that has been dissolved and separated
The amorphous alkali metal compound adhering to the pearl layer 4 is separated and removed by pouring it into water and washing it with stirring. In this way, only the crystalline pearly part whose main component is calcium Ca is separated and collected.

Example 2 FIG. 2 is a flowchart showing a second specific example of the method of the present invention.

After the oyster shell 1 is crushed into scales, it is introduced into a firing furnace (not shown) and fired at a temperature that does not cause the pearl layer 4 to oxidize and decompose. Through this pretreatment, a part of the nitrogen-containing compound constituting the outer shell layer 2 is decomposed and condensed, and the amorphous organic compound (alkali metal compound) constituting the prismatic layer 3 is decomposed and condensed.
A part of it is carbonized. Seashell 1 after the above pretreatment
The outer shell layer 2 and the prismatic layer 3 are decomposed using a decomposition means such as hydrolysis by immersing them in an alkaline treatment liquid, for example, an aqueous solution of caustic soda, and boiling if necessary. Next, an outer shell layer 2,
The pearl layer portion 4 of the shell 1 from which most of the prismatic layer 3 has been peeled off or dissolved and separated is poured into water and washed while stirring to remove the amorphous material adhering to the pearl layer portion 4. Separate and remove alkali metal compounds. In this way, calcium
Only the crystalline pearly part whose main component is Ca is separated and collected.

〔Effect of the invention〕

When the pearly part of the shell is used as a purification material or water quality improvement material, the nitrogen-containing compounds and amorphous alkali metal compounds that cause bad odors are completely separated and removed, resulting in highly pure calcium. Demonstrates good water purification function. calcium
The pearly part of the shell, whose main component is Ca, is a tasteless and odorless substance with a dense crystal structure.
As the water permeates into the interior, it reacts with the chlorine in the water, removing the chlorine that causes the chlorine odor, and converting tap water into ionized weakly alkaline water. In addition, this calcium does not breed bacteria and exhibits an excellent water quality improvement function. For this reason, adding calcium purified from seashells to water for coffee, tea, or rice, either as it is or in packaged form, makes the water more delicious and also promotes the slightly alkalinizing of the water.

[Brief explanation of the drawing]

1 and 2 are flowcharts of the method of the present invention, and FIG. 3 is an enlarged longitudinal sectional view of a seashell. 1...shell, 2...outer shell layer, 3...prismatic layer, 4
...Pearl layer.

Claims (1)

[Claims] 1. A seashell having an outer shell layer made of a nitrogen-containing compound, a prismatic layer made of an amorphous organic compound, and a pearl layer made of a complex salt of a crystalline alkali metal compound is made into scales. a step of crushing; a step of immersing the crushed shell in high-temperature, high-pressure hot water or alkaline water to decompose and remove the outer shell layer and the prismatic layer; and a step of decomposing and removing the prismatic layer and the outer shell layer. A process of separating and removing an amorphous alkali metal compound adhering to the crystalline part of the pearl layer by stirring and washing the pearl layer; How to separate and collect. 2. Crushing into scales a shell having an outer shell layer made of a nitrogen-containing compound, a prismatic layer made of an amorphous inclusion compound, and a pearl layer made of a complex salt of a crystalline alkali metal compound; A process of firing the crushed shells at a temperature that does not oxidize and decompose the pearl layer, and immersing the pre-treated shells in alkaline water for a long time or boiling them for a short time in alkaline water. The process of decomposing and removing the outer shell layer and the prismatic layer, and stirring and washing the pearl layer from which the prismatic layer and the outer shell layer have been decomposed and removed, removes the crystalline portion of the pearl layer. A method for separating and collecting pearly parts from shells, characterized by the combination of a step of decomposing and removing an amorphous alkali metal compound attached to a shell.