KR102036844B1 - Method for preparation of organic germamium from granite - Google Patents

Abstract

The present invention provides a method for producing organic germanium from natural granite comprising the step of mixing the anaerobic fermentation material with germanium-containing granite powder and maintaining the fermentation at a temperature of 40 to 60 ℃ for 6 to 15 days to produce organic germanium.

Description

Organic germanium production method from natural granite {METHOD FOR PREPARPARATION OF ORGANIC GERMAMIUM FROM GRANITE}

The present invention is to provide a method for producing organic germanium from natural ore granite.

Recently, as industrial development rapidly increases, industrial wastewater generated from various factories, etc., is introduced into drinking water sources, and water quality thereof is deteriorated. In general, tap water supplied to each household is withdrawn from the water system of each stream through the intake station, and the contaminated water from the reservoir is purified and supplied through the water supply pipe.

However, the water supply pipe is also severely corroded due to lack of management and contaminated water, and even if a large amount of disinfectant is used in the water purification process, there is a problem of causing unpleasant feelings due to odor when ingested without additional treatment. In addition, the reaction of chlorine and organic substances used in the water purification plant may cause a problem in that carcinogenic substances such as chloroform, bromoform, trihalomethane, etc., which are disinfection by-products are generated. Furthermore, solvents used in IT-related factories and laundry factories, trichloroethane, tetrachloroethylene, and the like, which are chemical pollutants included in detergents, are causes of contamination.

Therefore, in general, when drinking water for drinking or drinking tap water, the tendency to use purified water is common. However, bottled water or purified water is susceptible to contamination by microorganisms and generates off-flavor.

In order to solve the above problems and the like, a conventional water tank is formed of a synthetic resin and uses a reverse osmosis water purifier purified by a fine filter. However, the water purifier as described above is not only able to further activate the beneficial components such as minerals, but also has a problem that harms the health by the E. coli removal action and sterilization action and deodorization action harmful to the human body.

Water purifiers and filters as described above have the advantage of removing harmful substances in the water and preventing the second pollution of the river water, but because the filter is formed in a multi-stage process of treating each material with a filter layer, as described above Rather, it passes through several filtration layers formed as a problem that the beneficial minerals contained in water are also filtered.

The present invention is to dissolve by the anaerobic microorganism of the GeO ₂ β-type from natural ore to produce an organic germanium, to be ingested by allowing the organic germanium to be eluted in water.

The present invention relates to a method of eluting organic germanium from natural granite, comprising mixing anaerobic fermentation material with germanium-containing granite powder and maintaining it at a temperature of 40 to 60 ° C. for 6 to 15 days to produce organic germanium. It provides a method for eluting organic germanium from natural granite.

For example, the granular powder from which the organic germanium is produced may be immersed in water to elute the organic germanium.

The anaerobic fermentation material may use at least one yeast selected from the group consisting of fresh yeast, active dry yeast, instant yeast.

The anaerobic fermentation material is preferably included in an amount of 5 to 50 parts by weight based on 100 parts by weight of granite.

The germanium-containing ore powder is preferably a powder having an average particle size of 100 to 500 mesh.

The present invention can be used by directly connecting to tap water, and can simultaneously supply organic germanium while removing microorganisms and heavy metals dissolved in the water, providing fresh water full of immunity and vitality to modern people tired of daily life in the industrial society. There is an advantage to supply.

The present invention is to provide a method for producing an organic germanium from natural ores such as granite in order to be able to elute the organic germanium in water in the purified water.

To this end, the present invention is to ferment the natural ore containing germanium to be converted to organic germanium, it is possible to elute the organic germanium in water in the water purification process by including it as a filter material.

To this end, the present invention uses natural ore as a source of germanium. The natural ore is not particularly limited as long as it contains germanium, and may be suitably used in the present invention. As such germanium containing ore, granite can be used suitably, for example.

It is preferable to grind and use the said germanium containing ore. The present invention is intended to ferment the germanium contained in the ore, it is preferable to use the germanium-containing ore pulverized for the smooth fermentation of the germanium.

Although the grinding of the ore is not particularly limited, it is preferable to grind to an average particle size of 100 to 500 mesh. The smaller the particle size of the ore is, the more preferable it is for fermentation, but it is not preferable because much effort and cost are consumed for grinding. In addition, if the particle size of the crushed ore is large, the fermentation efficiency is lowered, and the fermentation takes more time and is not preferable. Therefore, it is more preferable to grind the ore to have a particle size within the above range.

And adding fermentation material to the pulverized ore powder, followed by mixing. The fermentation material is not particularly limited as long as it can change the germanium contained in the ore to organic germanium, but as an anaerobic fermentation material (anaerobic bacteria), for example, live yeast, active dry yeast and instant yeast . These can be used independently, of course, can also be used in mixture of 2 or more.

The anaerobic fermentation material is preferably added in an amount of 5 to 50 parts by weight based on 100 parts by weight of the germanium-containing ore. When it contains less than 5 parts by weight of anaerobic fermentation materials, germanium contained in the ore can not be sufficiently fermented, even if it contains more than 50 parts by weight does not contribute to the improvement of further fermentation effect. More preferably, it may be included in an amount of 5 to 20 parts by weight.

After the fermentation material is added to the crushed ore and mixed, the fermentation material is maintained at a temperature of 40 to 60 ° C. for 6 to 15 days. It is preferable to carry out the fermentation under the above temperature and time conditions to ferment the germanium present in the ore to produce organic germanium. In particular, the growth of anaerobic bacteria is less active at a temperature below 40 ℃, and anaerobic bacteria die at 60 ℃ or more can not be fermented.

By such fermentation process, germanium in the ore is fermented by fermentation material and is converted into organic germanium. Such organic germanium may, for example, be contained in a filter, and the organic germanium may be eluted during the purification process to provide the organic germanium-containing water.

Therefore, the organic germanium-containing ore may be applied to the filter material. The filter material may be suitably used in the present invention as long as it is generally used, but is not particularly limited, and examples thereof include nonwoven fabrics, activated carbon, zeolites, ceramic balls, granite, and natural mineral ores.

In applying the organogermanium-containing ore to the filter material as described above, for example, a method of filling with a porous substrate in a filter cartridge, or dispersing the organic germanium on one porous substrate and laminating another porous substrate thereon. It can be carried out by repeating, and the filter can be prepared by a method of embedding the organic germanium-containing ore in the pores of the activated carbon.

At this time, if necessary, the organic germanium may be applied by a method such as dispersing in a binder and then applying to the surface of the filter material. In addition, various known methods may be applied.

In the same manner as above, an organic germanium-elutable filter on which an organic germanium-containing ore is supported on the surface of the filter material may be obtained, and the organic germanium may be eluted in the purification process by the filter to provide an organic germanium-containing water. By drinking such germanium-containing water, the beneficial effect of germanium can be obtained.

Anyone in modern times is not only acidified easily due to pollution, stress, heavy drinking, overeating, and overwork, but is also susceptible to adult diseases. In such a modern society, germanium can be ingested by drinking water containing germanium provided in the present invention. It can be beneficial to your health. For example, it is oxygen to neutralize the hydrogen ions generated when the constitution is acidified, and drinking the organic germanium-containing water of the present invention can restore the body fluid to normal alkalinity.

Example

Hereinafter, an Example is given and this invention is demonstrated more concretely. The following examples illustrate specific embodiments of the present invention and are not intended to limit the present invention.

Example  One

400 g of granite was ground to a particle size of 200 to 400 mesh.

To the crushed granite powder was added 35 g of anaerobic fermentation material and stirred for 60 minutes to mix homogeneously.

Subsequently, the mixture of the granite and anaerobic fermentation material was placed in a reactor and kept in a range of 36 to 40 ° C. for 15 days for fermentation.

The granite powder containing the organic germanium was homogeneously supported on a nonwoven substrate to prepare a filter, and then water (Ge not detected) was passed through the filter.

The water component after passing through the filter was analyzed. The analysis was performed on 10 liters of water that passed through the filter for the first time (first filter pass water) and 10 liters of water that passed through the filter (3650L pass water) after treating 3650 liters of water. (This is to evaluate the performance of the filter after one year, assuming 10 liters of water per day for a family of four.)

The evaluation results are shown in Table 1 below.

ingredient First filter pass 3650L pass through Concentration in ppb Ge 150 100 Cr 0.40 0.57 Mn 2.87 0.26 Co 0.10 or less 0.10 or less Cu 0.46 0.29 Zn 36.53 9.88 Se 0.10 or less 0.23 La 0.10 or less 0.10 or less

As can be seen from Table 1, germanium was detected in Ge-undetected water, and 100ppb was detected in water even after filtering 3650L of water, indicating that the germanium elution performance could be maintained for a long time.

Furthermore, according to the present invention, from Table 1, trace amounts of components such as Se, La, Cr, etc., which are not generally included in water, are also detected. According to the present invention, metal components other than Ge may also be eluted together to provide useful effects to the human body. You can get water.

Claims (5)

Mixing the anaerobic fermentation material with germanium-containing granite powder and maintaining it at a temperature of 40 to 60 ° C. for 6 to 15 days to convert the germanium in natural granite into organic germanium;
Preparing a filter by supporting a natural granite powder in which germanium in the natural granite is converted to organic germanium on a nonwoven substrate; And
The water purification method using natural granite consisting of using the filter as a water filter to obtain water eluted organic germanium.
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