KR20030008746A - Manufacturing method of water treatment agent using mineral - Google Patents

Abstract

PURPOSE: A method for preparing water treatment agent using minerals is provided to mix the water treatment agent with water injected into a water purifier so that mineral materials are contained in drinking water, and supply a mixture of the water treatment agent and water to plants so that growth of the plants is promoted. CONSTITUTION: The method for preparing water treatment agent using minerals comprises first process of crushing minerals such as sericite, veinstone or phyllite in the ore state to a particle size corresponding to a sieve size of 60 to 150 mesh, and removing impurities by refining the crushed mineral; second process of heating and agitating the mixture after adding some of sulfuric acid solution and water to the mineral in the state that the refined mineral is put into a container having a high corrosion resistance so as to extract distilled water from the mixture; third process of preparing 20 to 40% aqueous sulfuric acid solution by mixing the distilled water extracted from the second process with an undiluted sulfuric acid solution; fourth process of heating the mixture in a sealed container to a temperature of 80 deg.C or higher for 10 hours after mixing the 20 to 40% aqueous sulfuric acid solution with the minerals agitated in the second process in a mixing ratio of 1:1; fifth process of extracting water treatment agent from which crushed ore is filtered by pressing the solution using a filter press, thereby penetrating the solution into a filter paper having a pore size of 2 microns; sixth process of thickening concentration of the water treatment agent by heating the extracted water treatment agent; and seventh process of extracting a sediment removed solution from a mixed solution in which sediments are settled down by leaving the mixture still for 24 hours after mixing the thickened water treatment agent with germanium contained underground water in a mixing ratio of 1:4.

Description

Manufacturing method of water treatment agent using minerals {omitted}

The present invention relates to a method for producing a water treatment agent using minerals, and to prepare a sulfuric acid solution by extracting distilled water while crushing minerals such as biotite ore, ganban stone, cheonmaeum and the like with a sulfuric acid solution, and distilled water, The sulfuric acid aqueous solution and minerals are mixed in a 1: 1 ratio to heat the filtered water treatment agent, and then mixed with the groundwater to prepare the water treatment agent. It relates to a method for producing a water treatment agent using a mineral that can promote the.

In general, people need water to live. Therefore, people drink water to live while replenishing the body's needed moisture. However, these days, water purification equipment is necessary because it is difficult to drink the water of the river without purification due to pollution and the like. Therefore, although the government sends integrated tap water to general households, chlorine and the like are mixed in the home, so the household is equipped with a water purifier.

Therefore, conventionally, the user is drinking water purified by removing chlorine or rust generated from a water pipe using a water purifier using activated carbon and a filter at home.

However, in the related art, the water purifier simply removes impurities contained in the water, and thus, it is not possible to filter out organic substances harmful to humans. There was a disadvantage of not drinking the useful ingredients.

Therefore, the present invention has been conceived in view of such circumstances, and the distilled water is extracted while crushing minerals, such as sorghum feldspar, elvan, and feldspar, with purified sulfuric acid, and then distilled water is mixed to prepare an aqueous sulfuric acid solution. Sulfate aqueous solution and minerals are mixed 1: 1, heated to thicken the filtered water treatment agent, and then mixed with groundwater to prepare the water treatment agent. It is an object of the present invention to provide a method for producing a water treatment agent using minerals which can be promoted.

In order to achieve the above object, the present invention is a process for crushing and refining minerals, such as biotite ore, elvan

Mixing the purified raw material with a sulfuric acid solution and heating and stirring in a container to extract distilled water;

Mixing distilled water and sulfuric acid stock solution to produce a 20-40% sulfuric acid solution,

Mixing the aqueous sulfuric acid solution and the stirred minerals in a 1: 1 ratio and then heating the resultant container at a temperature of 80 ° C. or higher for at least 10 hours,

Pressing the solution with a press and then passing the filter paper to extract the filtered water treatment agent with minerals;

Heating the water treatment agent to thicken the solution,

The above solution is mixed with groundwater containing germanium at a ratio of 1: 4, and left for 24 hours to prepare a water treatment agent by extracting a solution from which precipitates are removed. It is possible to mix the water treatment agent prepared by the present invention so that mineral materials useful to humans, but not easily deficient, may be included in the drinking water, and the water treatment agent of the present invention may be mixed with water and supplied to plants to promote plant growth.

1 is a process chart showing the manufacturing method of the present invention.

1 is a process chart showing the manufacturing process of the present invention, the first step of crushing the minerals of the minerals of the ore state, elvan or feldspar to 60 ~ 150Mesh by the pulverizer, purifying the crushed minerals to remove impurities ,

A second step of extracting distilled water from the mixture by stirring while heating a purified sulfuric acid solution and a mixture of some sulfuric acid solution in a state of strong corrosion resistance;

A third step of preparing 20-40% aqueous sulfuric acid solution by mixing distilled water extracted from the second process with a sulfuric acid stock solution (H ₂ SO ₄ , 20 ° C., 98.29% solution having a specific gravity of 1.834),

A fourth step of mixing the aqueous solution of 20-40% sulfuric acid with the mineral which has been stirred in the second step in a 1: 1 manner, and then heating the resultant container at a temperature of 80 ° C. or higher for 10 hours;

A fifth step of extracting the water treatment agent filtered out of the crushed ore by passing the solution having passed through the fourth step through a filter press of 2 microns while pressing the filter press;

A sixth step of heating the water treatment agent extracted in the fifth step to increase the concentration of the stock solution;

Water treatment agent using minerals by mixing the water treatment agent thickened by the sixth process with groundwater containing germanium at a ratio of 1: 4 and left for 24 hours to extract the solution from which the precipitate is removed from the mixed solution in which the precipitate is formed. To prepare.

Referring to the configuration of the present invention as described above in more detail.

After mining ore minerals in the mine, the ore is put into a grinder to crush the mineral in the form of small particles in the size of 60 ~ 150Mesh, the crushed mineral is purified to remove impurities other than minerals.

In the state in which the above-mentioned impurities are removed, the sulfuric acid solution and water are mixed and heated and stirred in a highly corrosion-resistant container (for example, 36 kinds of stainless steel containers) to extract distilled water from the mixture.

The distilled water extracted in the above process produces a great difference in the effects of growth promotion or drinking water of plants described later, compared to distilled water mixed with sulfuric acid solution in the following process, so that distilled water is extracted from minerals and sulfuric acid solution and Have to mix.

The distilled water extracted as described above is mixed with a sulfuric acid stock solution (H ₂ SO ₄ , 20 ℃, 98.29% solution having a specific gravity of 1.834) to prepare a 20-40% sulfuric acid solution. At this time, the aqueous sulfuric acid solution is mixed with distilled water extracted from the mineral to include a fine substance obtained with the distilled water.

After the 20-40% sulfuric acid solution prepared as described above and the stirring was finished, the minerals extracted with distilled water were mixed 1: 1, and then heated in a closed container at a temperature of 80 ° C. or higher for 10 hours. In this case, the reason for using the sealed container is to prevent the fine substance extracted with distilled water from being separated to the outside of the container when heated to 80 ℃ or more. In addition, heating by mixing the aqueous sulfuric acid solution and the mineral will heat the aqueous sulfuric acid solution and the mineral so that the process of the mineral reacts with the aqueous sulfuric acid solution to produce a sulfate.

The sulfuric acid aqueous solution and mineral mixture solution of the above process is filtered with a filter press (mainly used in a left and right press, a pottery factory, etc.), and passed through a filter paper to extract a fine mineral filtered water treatment agent.

The minerals are crushed, but the minerals are not good for health if they are accumulated in the human body as ore, so the minerals are filtered with a fine filter paper of about 2 microns in order not to be included in the water treatment agent.

As described above, when the water treatment agent that has filtered the mineral is heated to a low temperature to evaporate only water at a low temperature, the water treatment agent has a volume of about 50%. At this time, the fine components to be evaporated with the distilled water will react with the sulfuric acid solution so that the components do not evaporate, even if the component does not react with the sulfuric acid solution is heated to a low temperature it is possible to suppress the evaporation as possible. At this time, the pH concentration of the water treatment agent is about 1.5.

The water treatment agent produced in the above process is mixed with groundwater containing germanium (Ge) in a ratio of 1: 4 and left to stand for 24 hours. At this time, the water treatment agent is left for 24 hours, the sediment does not go away is located on the lower side of the mixed solution, to separate only the solution located on the top to prepare the water treatment agent of the present invention.

At this time, the pH concentration of the water treatment agent is mixed with the groundwater and is changed from strong acid to neutral.

Referring to the state of use of the water treatment agent using the mineral prepared as described above is as follows.

First, when the water treatment agent is used in the water purification device is as follows.

The user is drinking the filtered water by adding the water treatment agent to the water purification device together with the water. At this time, the water treatment agent and water of the present invention are diluted 300 to 400 times, and the pH is adjusted to 6.5 to 7.5, and then introduced into the water purification device. At this time, the water added with the water treatment agent is the organic material mixed in the water and the water treatment agent is reacted to generate a precipitate, the organic matter is precipitated by the precipitate, the water is purified. At this time, the water purification device is a preferred embodiment using a water treatment agent prepared according to the present invention to the water purification device using a general activated carbon and a filter. Therefore, after the organic material is precipitated by the water treatment agent, the water is again filtered by the 2 micron ceramic filter and the activated carbon, so that the user drinks more purified water than the generally purified water. In addition, the water treatment agent of the present invention is a fine component extracted from the mineral (Ca, P, Mg, K, Na, Se, Si, Ge, Zn, Mn, Fe, Ni, Mo, Li, V, W, Ba, Ti, Rb, Al, etc.), and the user is drinking with water.

In addition, the water treatment agent using the mineral produced by the present invention will promote the growth of plants. The results of the experiment on grapes are as follows. That is, the dilution is made by diluting the water treatment agent 1000 to 1500 times, and the diluent is supplied to the grapes once a week. As a result, the average sugar content of grapes harvested at the harvester is 15.6%, whereas the water treatment agent of the present invention The grapes fed were found to maintain an average sugar content of 19.9%.

It is not yet clear what kind of action in the plant is beneficial to the growth of the plant, but as shown in this experiment, the effect on the growth of the plant was found to be very large.

As described above, the present invention mixes the water treatment agent prepared in accordance with the present invention with water when water is added to the water purification device, and includes the material useful to humans in the purified water to drink the material useful to the people together. Will be.

In addition, the present invention is to supply the water treatment agent prepared according to the present invention with water to promote the growth of the plant, and to put the water treatment agent in the waste water has an effect that the organic matter contained in the waste water precipitates.

Claims (1)

A first step of crushing minerals in the ore state of mica, elvan or feldspar into 60 to 150 meshes by a mill, and purifying the crushed minerals to remove impurities; A second step of extracting distilled water from the mixture by stirring while heating a purified sulfuric acid solution and a mixture of some sulfuric acid solution in a state of strong corrosion resistance; A third step of preparing a 20-40% sulfuric acid solution by mixing distilled water and sulfuric acid stock solution extracted in the second step; A fourth step of mixing the aqueous solution of 20-40% sulfuric acid with the mineral which has been stirred in the second step in a 1: 1 manner, and then heating the resultant container at a temperature of 80 ° C. or higher for 10 hours; A fifth step of extracting the water treatment agent in which the crushed ore is filtered by passing the above solution with a filter press of 2 microns; A sixth step of heating the extracted water treatment agent to increase the concentration; Water treatment agent using mineral, characterized in that prepared by mixing the thickened water treatment agent with germanium-containing ground water at a ratio of 1: 4 and left for 24 hours to extract the solution from which the precipitate is removed from the mixed solution formed precipitate Manufacturing method.