RU2679234C1 - SHUNGITE WATER WITH NORMALIZATION BY pH PRODUCTION METHOD - Google Patents

Abstract

FIELD: industrial water supply.SUBSTANCE: invention can be used in the industrial water supply for the tap water treatment. Method comprises the drinking water contacting with shungite for 14–16 hours, used as a layer of group IIIA shungite crushed mineral with fraction size of 5–20 mm. At that, the alkalization is carried out with increased water hardness with pH values > 8.0, located together with shungite in the ratio of 1:2–1:5 by volume in a sealed container (1), connected to the water supply mains (11), without access of light and air. Additionally, performing the pH parameter monitoring and the water quality control by the pH sensor (12), installed in the shungite layer and transmitting information about the pH value to the control unit (13), which, at pH > 7.5, signals on the water alkaline composition, in the range from pH > 7.3 to pH < 7.5 signals on the normalized water, and at pH < 7.3 signals on the water acid composition. Treated water intake is carried out through the tube (5) from the shungite layer with the tap (8) with automatic replenishment from the water supply mains (11) opening.EFFECT: invention allows to produce enriched with the set of trace elements polished shungite water, by the pH normalized for use as the table mineral water.1 cl, 2 dwg, 1 ex

Description

The invention relates to the purification of drinking water with natural minerals with additional saturation of water with minerals from minerals.

A known method for producing purified drinking water, RF patent No. 2074120, which includes its sequential filtering through crushed natural minerals: first through a mixture of zeolite and schungite and then through pure schungite.

The disadvantage of this method is the low organoleptic properties of water - a mixture of zeolite and shungite gives it an unpleasant odor. The presence of shungite in zeolite prevents the release of some useful trace elements into the water due to a change in the pH parameter in the vessel with zeolite. Mineralization of water with a continuous flow of water is very small.

There is also a known method of producing artificially mineralized water for external use, RF patent No. 2074723. In this method, the crushed mineral shungite is poured with water in a ratio of 1: 1 by volume and they are kept together at room temperature for 2-3 days, and then the infusion is drained.

The disadvantage is the low pH value. The water becomes acidic, which is good for cosmetic purposes and is not recommended for table water. In addition, the organoleptic properties of such water do not correspond to table water, and the set of trace elements in it is quite narrow.

A known method for producing purified drinking water with its enrichment with a balanced amount of potassium necessary for the body, RF patent No. 2041167. In this method, water is passed through crushed magnetite quartzite and crushed zeolite.

The disadvantage of this method is the weak therapeutic effect of the obtained water and its low organoleptic properties, as well as the short shelf life of such water.

Closest to the proposed is a method of producing artificially mineralized water, RF patent No. 2140274, by contacting drinking room temperature water with crushed mineral shungite group III A with a fraction size of 5-20 mm in ratio with water 1: 1 by volume and contacting room drinking water temperature with crushed zeolite with a fraction size of 5-20 mm in the ratio with water 1: 1 by volume. Contact with water of both minerals is carried out for 14-16 hours, and then the infusion obtained on zeolite is mixed with the infusion obtained on shungite.

A sign that is common with the proposed method is the receipt of mineralized water by contact and infusion for 14-16 hours of drinking water with schungite, used as a layer of crushed mineral of schungite of group IIIA with a fraction size of 5-20 mm.

The disadvantage of this method is the restriction on the application, because for many regions, water has increased rigidity and additional alkalization of water by zeolite is impractical; lack of control and, accordingly, the possibility of regulating the pH parameter - an important indicator of water quality; lack of intake of infused water from the zone of its formation for fresh water consumption, as water quickly loses its healing properties without contact with shungite.

The objective of the invention is to provide a method for producing mineralized water with the elimination of increased hardness of drinking water, bringing it to the optimum pH with adjusting the water quality according to the pH parameter, the intake of infused water from the shungite zone of its formation with automatic replenishment from the water supply network

The technical result achieved in this case is that in the proposed method tap water of increased hardness, having pH values> 8.0, is brought to the optimum pH value = 7.4 ± 0.1, it is monitored and adjusted according to this indicator taking into account micronutrient saturation at the selected optimal ratio of shungite to water, is used for consumption in the form of infused shungite water directly from the zone of its formation with automatic replenishment from the water supply network.

The problem is solved due to the fact that in the known method for producing mineralized water by contacting drinking water for 14-16 hours with schungite, used as a layer of crushed mineral of group IIIA schungite with a fraction size of 5-20 mm, the alkalization of water is replaced by using increased water hardness with pH> 8.0, which is located together with shungite in a ratio of 1: 2-1: 5 by volume in a sealed container connected to the water supply network without access of light and air. Additionally, it is envisaged to control and regulate the water quality by pH with a digital pH sensor installed in the lower part of the schungite layer, transmitting information about the pH value to the control unit, which at pH <7.3 opens e-mail. the valve for replenishing the hydraulic accumulator with pH-normalized water displaced under the pressure of alkaline water from the water supply network, at pH> 7.5 closes the el. valve, at pH> 7.5, indicates the alkaline composition of water, at pH in the range from pH> 7.3 to pH <7.5, indicates the normalization of water by pH, and at pH <7.3 the acid composition of water. The intake of infused water is carried out through a tube of shungite layer when opening the tap with automatic replenishment from the water supply network.

The features of the proposed method, distinctive from the features of the known method, consist in the fact that the alkalization of water is replaced by the use of drinking water of increased hardness with pH> 8.0, which is placed together with shungite in a ratio of 1: 2-1: 5 by volume, in an airtight tanks connected to the water supply network, without access to light and air. Monitoring and regulation of water quality according to the pH parameter is carried out by a digital pH sensor installed in the schungite layer, which transmits information about the pH value to the control unit, which at pH <7.3 opens e-mail. the accumulator replenishment valve with normalized water displaced under the pressure of alkaline water from the water supply network, at pH> 7.5, closes the el. valve, at pH> 7.5, indicates the alkaline composition of water, at pH in the range from pH> 7.3 to pH <7.5, indicates the normalization of water by pH, and at pH <7.3 the acid composition of water. The intake of infused water is carried out through the tube from the schungite layer when opening a tap connected to the tube, with automatic replenishment from the water supply network.

The author does not know how to obtain saline water with distinctive features in accordance with the claimed technical solutions.

The invention meets the requirements of novelty and positive effect, as well as the criterion of "significant differences".

For the implementation of the proposed new method, it is important to effectively use the properties of shungite when interacting with water, to determine the quality indicators of the resulting water. The mineral shungite of group IIIA belongs to the variety III with the content of shungite carbon with a carbon content of 20-35% C and has a silicate high-silicon base type A (1). This breed, containing more than 20 macro- and microelements useful for the human body, is able to form infusion with water - schungite water, which has a number of sorption, catalytic, bactericidal and antiseptic properties. Water is completely purified from organic and inorganic impurities, disinfected from Escherichia coli, radionuclides, pesticides, petroleum products, heavy metals, viruses, bacteria, and simple organisms. Shungite water is a carrier of biologically active substances with antioxidant properties, characterized by the ability to neutralize active radicals and increase human immunity. To a large extent, this is due to the ability of shungite to absorb oxygen and actively interact with it. Shungite as a strong reducing agent absorbs oxygen from water. In the process of chemical interaction with this oxygen, atomic oxygen is formed, which is the strongest oxidizing agent, oxidizing sorbed organic substances to CO2 and H2O and releasing the surface of shungite for new sorption events.

The unique properties of schungite are associated with the presence of fullerenes (2) and fullerene-like carbon in it. It is known that the introduction of fullerenes in sorbents leads to a significant increase in their efficiency in the absorption of compounds dissolved in water. In addition to sorption properties, fullerenes have bactericidal properties that are used in the purification of tap water (3). Fullerene-like or schungite carbon contained in shungite (4), upon contact with water, helps to order water structures with the formation of water clusters and acquire unique biological properties close to cellular fluid (5). The healing effect of shungite water is to replace cellular water with a partially destroyed structure with shungite water, which allows to increase the life time and efficiency of human cells. The formation of shungite water is an inertial process. When shungite comes in contact with water, mineralization, water purification, and the acquisition of new unique properties occur over long enough hours. Therefore, their use in flow filters for water purification is difficult. On the other hand, shungite water retains its activity without contact with shungite for only a short time, after which ordered water clusters begin to self-destruct, and water acquires the structure of ordinary water. It also follows from this that the exact amount of water that is in contact with shungite after infusion will be shungite water and can be used for an effective healing effect.

In nature, shungite water is found in the Republic of Karelia at the Tsaritsyn Klyuch spring located in Zaonezhye, near the Zazhoginsky shungite deposit, at the Three Ivana spring in Zaonezhie and at the sources of the Marcial Waters sanatorium. Studying the mechanism of the formation of schungite water from sources made it possible to simulate this process and take some indicators as a basis. It was taken into account that the formation of shungite water occurs in a closed system without access of light and oxygen. Water, following the example of Marcial Waters sources, retains its qualities for a limited time, due to the short duration of the water cluster connections in isolation from the schungite environment. Upon contact with air, water also begins to actively absorb oxygen, which neutralizes the antioxidant ability of shungite water to absorb radicals and actively reacts with iron compounds, changing the chemical composition. To take advantage of the healing properties inherent in the natural composition of water, it is recommended to drink it right at the source. The source “Tsaritsyn Klyuch” got its name due to its healing properties, known since ancient times. According to historical data (6), the mother of the first king of the Romanov dynasty, Mikhail, was healed by the water of the spring. An interesting fact: in 2013, in the year of the 400th anniversary of the Romanov dynasty, EFER LLC was engaged in restoration of the source. The participant of the work, carpenter Akulkin, was in the field for about a month at the source and used its water. A month later, he had eczema in his hands, tormenting him for many years. The water of the Tsaritsyn Klyuch spring passes through the shungite rocks of group IIIA, and its pH value has a stable value of 7.3-7.4. The pH is the basic parameter of the acid-base balance of water. In the body, the most important indicator that needs to be controlled is the pH of the blood, because the blood is responsible for the delivery of nutrients and minerals. Normal blood pH is considered to be from 7.35 to 7.47. With an increase in the deviation of the norm from the standard coefficient, the predisposition to diseases grows. So, the deviation of blood pH by 0.5 units. in any direction (+/-) leads to death. The systematic use of increased hardness drinking water is one of the factors contributing to the development of pathological changes in the human body, such as urolithiasis, sclerosis, hypertension, etc. [7]. An analysis of the tap water hardness map in Russian cities shows that regions with increased water hardness include a significant part of the territory of the Russian Federation, including the regions of the Central and Southern regions, the Southern Urals, Novosibirsk Region, and Altai Territory (8). Although the pH standards for drinking water, according to the rules of SanPin, are 6–9 units, and there is a wide range of known consumed drinks outside these standards, the most optimal indicator of drinking water for constant consumption is a pH from 7.3 to 7.5. In Japan, this indicator is associated with life expectancy.

The allocation of trace elements from shungite depends on the duration of contact of minerals with water, which is taken from practice within 14-16 hours, during which a significant part of the trace elements manages to stand out, which is close to saturation. When shungite interacts with water, an oxidative process occurs, the pH parameter changes, the rate of change of which, in turn, is determined by the ratio of mineral and water. Depending on the hardness of the water used (initial pH), an optimal volume ratio is selected at which the pH will be equal to 7.5 over a period of 14-16 hours. This ratio of schungite and water is optimal for a given alkaline water and is in the range of 1: 2-1: 5 by volume.

Let us consider the new method on the principle of operation of a device for producing schungite water, a general view of which is shown in FIG. 1a. The device includes a closed container 1 with water 2 and shungite 3. Shungite 3 is a layer of crushed mineral of schungite of group IIIA with a grain size of 5-20 mm, placed in a container 4 with a tube 5 with holes for water intake 6 and an outlet filter 7. The tube 5 is connected to a crane 8 for filling schungite water and to el. valve 9. Excess water is removed through the drain 10, and the water itself comes from the water supply through the hose 11. In the tank 2, a digital pH sensor 12 is installed, connected to the control unit 13, which, in turn, is connected to el. a valve 9 connected in water with a hydraulic accumulator 14. On the valve 8, an operating mode switch 15 is installed.

In the proposed method for producing mineralized water, tap water with a pH> 8.0 entering the tank 1, insists on shungite 3. In this case, the water is oxidized, which is controlled by a digital pH sensor 12. A red LED (not shown) registers that the pH parameter is water in the alkaline zone. Water in the process of infusion is saturated with microelements and acquires the properties of shungite water. At pH <7.5, water is ready for use and a green LED (not shown) lights up. If during 14-16 hours the green LED does not light up (not shown), then it is necessary to increase the content of shungite, which is added to the water. The ratio of shungite to water can be in the range 1: 2-1: 5 by volume, with the optimal ratio, the green LED turns on after 14-16 hours. Prepared shungite water is poured at the opening of the tap 8. Poured water is replenished from the water supply, which makes this process continuous. The passage of water occurs as follows. Under the pressure of the water supply network, water flows through the pipe 5 from the container 4 from the lower zone of schungite water formation through the holes for water intake 6, in the lower part of the pipe 5, and the outlet filter 7. The water in the tank 1 is always under pressure. Therefore, the movement of water in the container 4 with shungite 3 begins when the schungite water is supplied from the lower layer, while the upper layer is slowly shifted to the filter and gradually passes through the entire schungite layer with water consumption. Shungite water, infused in contact with shungite, enters tap 8, and it is important not to go beyond the boundary of the infused water. This is controlled by the pH value of the infused water using a digital pH sensor 12. At pH <7.3, which indicates that shungite water is selected to the lower set pH value and the sensor is in alkaline water, which must be infused, the red LED turns on together with green (not shown). When water is insisted in the schungite layer, processes of purification of water from organic and inorganic impurities, saturation with minerals, oxidation of water to the optimal pH value, formation of antioxidant biologically active properties in contact with shungite, which are preserved in the absence of access to light and air, take place. If you don’t pour water from the tap, after a certain time the pH of the water will reach 7.3 and the control unit 13 will issue a command to open the email. valve 9, and water, normalized to pH (from pH> 7.3 to pH <7.5), cyclically fills the accumulator 14. Water in the accumulator after 1-2 hours without contact with shungite loses some biologically active properties, but retains their properties in chemical composition and pH. It can be used by turning the mode switch 15 to the "Normalized water" position. If you do not select water for a long time, the sensor will be in an acidic environment, as evidenced by the simultaneously turned on red and green LEDs. Such soft water is recommended for external use for cosmetic purposes. Water is used for drinking in a normalized environment: from pH> 7.3 to pH <7.5 with the green LED on. It is poured with a tap 8 when the switch 15 is in the "Shungite water" mode.

The proposed method provides a softening of alkaline water to optimal pH values, with the regulation of this parameter, which is especially important for many regions of the Russian Federation with high water hardness

The proposed method allows to produce high-quality after-treatment of drinking water, mineralize water with useful microelements, give the water the properties inherent in natural shungite water.

The proposed method is implemented in the device “pump-room“ Tsaritsyn Klyuch ”, in which the mechanism of water formation of the natural spring“ Tsaritsyn Klyuch ”is used. The pump room is used by the employees of the EFER Engineering Center LLC organization to receive drinking water, the quality of which complies with the established standards for drinking water, see fig. 16.

Bibliography:

1. Kalinin Yu.K., Kalinin A.I., Skorobogatov G.A. Shungites of Karelia for new building materials, in chemical synthesis, gas purification, water treatment and medicine. SPb .: Publishing House of the Ural Scientific Center of St. Petersburg State University, VVM. - 2008 .-- 219 p.

2. RF patent No. 2270801 for the invention "Method for the isolation of fullerenes from schungite" from 07/06/2001, Publ. 02/27/2006 Bull. Number 6

3. Grun N.A. Post-treatment of tap water by filtration through birch activated carbon modified with fullerenes. / A.N. Kim, N.A. Grun // Materials of the international scientific-practical conference held in PSUPS April 23, 2013 - 2013. - P. 19-21.

4. Rozhkova NN, Andrievsky GV. Fullerenes in shungite carbon // International symposium "Fullerenes and fullerene-like structures": Collection of scientific papers. June 5-8, 2000. - BSU, Minsk. - 2000 - S. 63-69.

5. Fullerenes in nature. [Electronic resource]

URL: http://www.o8ode.ru/article/oleg2/shungit/fulleren.htm

6. Shaizhin, N.S. Zaonezhskaya prisoner, Grand Duchess nun Martha Ivanovna, in the world noblewoman Ksenia Ivanovna Romanova, mother of Tsar Mikhail Fedorovich: On the 300th anniversary of the Royal House of Romanov / N.S. Shayzhin. - Petrozavodsk: Olonets. Lip. Type., 1912.- 34 s, 4 l. silt - Reprinted from the "Memorial Book" for 1912.

7. Wise I.V. On the effect of the mineral composition of drinking water on public health (review) [Electronic resource] // Hygiene and sanitation. - 1999. - No. 1. URL: http: //elibrarv.karelia.ru/book.shtml? Id = 174 # t20c.

8. Goldovskaya-Cirrus L.F. and others. On the possibility of using natural clay and shungite materials to eliminate the increased hardness of drinking water. - Scientific statements of BelSU. Series Natural Sciences, 2010, 15 (86) Issue 12, p. 126-129.

Claims (2)

1. A method of producing schungite water with pH normalization by contacting drinking water with shungite for 14-16 hours, used as a layer of crushed mineral of group IIIA schungite with a fraction size of 5-20 mm, characterized in that the alkalization of the water is replaced by using increased water hardness with pH> 8.0, which is together with shungite in the ratio of 1: 2 - 1: 5 by volume in a sealed container connected to the water supply network, without access of light and air, while pH-quality control is carried out using pH- sensor, tired embedded in the schungite layer, transmitting information on the pH value to the control unit, which at pH> 7.5 indicates the alkaline composition of water, in the zone from pH> 7.3 to pH <7.5, indicates normalized water, and at pH < 7.3 indicates the acid composition of water, while the infusion of infused water is carried out through a tube from the schungite layer when the tap is opened with automatic replenishment from the water supply network. 2. The method according to p. 1, characterized in that the water quality is additionally regulated by the pH parameter through the control unit, which at pH <7.3 opens an electric valve to replenish the accumulator with normalized water under the pressure of the water supply network, and at pH> 7, 5 closes the electric valve.

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