RU2010772C1 - Method of preparing curative drinking water and apparatus for effecting same - Google Patents

Abstract

FIELD: water processing. SUBSTANCE: new method prescribed preparing ice from starting water by freezing water vapor at temperature not exceeding +10 C. For this purpose, vacuum was set up in housing to enable vigorously evolving vapor to condense and freeze on surfaces of freezer pipes, resultant ice was allowed to thaw and at the same time exposed to ultraviolet and infrared radiation and thawed-ice water was then saturated with either gas or gas mixture (for example, carbon dioxide or mixture of carbon dioxide and xenon) admitted in housing via apparatus branch pipe. Thus prepared drinking water possessed curative properties. EFFECT: ameliorated biological qualities of drinking water. 1 cl, 2 dwg

Description

 The invention relates to methods for the integrated treatment of water to improve its biological properties, as well as to devices for implementing the above methods.

 A known method of water treatment, including obtaining from the source water of ice, thawing and collecting melt water. Moreover, ice is produced by direct freezing of the source water [1].

 Due to the fact that the process of freezing water is stopped before its entire volume freezes, and the residue that does not go into ice is drained, the concentration of heavy metal ions and radioactive isotopes is reduced in the water obtained by melting the “ice cup”. Nevertheless, this method also does not allow to reduce the content of heavy (tritium and deuterium) water molecules in melt water, which, to a greater extent, together with light (protium) water molecules pass into ice. In addition, the aforementioned method does not allow to efficiently structure the water and does not provide the conditions allowing in the process of its implementation to actively influence the properties of the resulting water.

 To implement the known method, a device is used, which is a domestic or industrial refrigerator (freezer) containing a housing in which the device for freezing in the form of a chamber and a container for source water are placed [2]. The disadvantages of the known method and device are that they do not provide for the separation of water into light and heavy with the removal of the latter and do not significantly improve its biological properties.

 The aim of the invention is to provide a method and apparatus for producing healing drinking water — water freed from harmful and toxic impurities, with a reduced content of deuterium and tritium, with an ice-like structure and increased biological properties — healing properties.

This is achieved by that in the known method for producing drinking water, comprising the preparation of the initial water ice, thawing it and collect melt water, according to the invention, the preparation is carried out by freezing the ice vapor produced from the source of water at a temperature not exceeding +10 ^{° C} and In the process of ice thawing, it is exposed to ultraviolet and infrared radiation and saturate melt water with a gas or a mixture of gases.

 This goal is also achieved by the fact that the known installation for producing drinking water, comprising a housing with a device for freezing and a container for source water, according to the invention, is equipped with heating means mounted on the outer surface of the container for source water, an additional device for freezing, made in in the form of curly tubular elements, a container for collecting melt water, sources of infrared and ultraviolet radiation, a pipe for connecting the housing to a vacuum source, a device ystvom for supplying gas to the housing or the gas mixture, wherein the main unit is set to freeze on the outer surface of the container for raw water and an additional device for freezing and sources of ultraviolet and infrared radiation disposed above the vessel for collecting the melt water.

Capacity for water source should provide adjustment of the water temperature from 0 ^o C to +10 ^o C and have an optimum evaporation surface. This requirement is met by the proposed design of the evaporation tank for the source water in the form of a cone without a bottom facing down with a ratio of the base diameter of this cone to its height equal to 1.62, with means for cooling water in it until an ice crust forms and heating means for melting this ice, which are made in the form of tubular elements covering the evaporation tank.

 Studies of the physicochemical properties of deuterium and tritium, as well as various impurities dissolved in water, including harmful and poisonous, made it possible to establish the following.

When light (H ₂ O) and heavy (D ₂ O + T ₂ O) water are mixed, an isotopic exchange occurs: H ₂ O + D ₂ O = ₂ NDO; H ₂ O + T ₂ O = 2NTO. Therefore, deuterium and tritium in ordinary water are not in the form of D ₂ O and T ₂ O, but in the form of NDO and NTO. This fact significantly changes the situation, since the temperature of transition to the solid state (freezing temperature) for D ₂ O is +3.8 ^о С, and for Т ₂ О + 9 ^о С, НДО and НТО freeze at +1.9 ^о С, respectively and at +4.5 ^o C.

 In addition, in order to sharply reduce the partial pressure of a substance in a liquid state, it must be converted to a less active, for example, solid state.

An analysis of the physicochemical properties of protium or light water H ₂ O, data on the properties of heavy water with deuterium NDO and tritium NTO, allowed us to outline the main technological operations of the method for producing healing drinking water.

It was found that at a temperature within +1.9. . . 0 ^о С water molecules with deuterium and tritium, unlike protium water, are in a metastable-solid inactive state. This can be used for fractional separation of light and heavy water by creating a vacuum of air above the surface of the water, cooled to +1.9. . . 0 ^C. protium water at this temperature is rapidly vaporize and be captured, for example, on the chilled surface of the freezer tubes, turning into ice, and the heavy water, having a much smaller partial pressure, ie. E. Are in an inactive, metastable solid state, will mainly remain in the mother liquor of the evaporation tank for the source water. In addition, salts of heavy metals, petroleum products, various detergents, dioxins, nitrates, etc., having significantly larger molecular sizes - 100. . 1000 times the size of the H ₂ O molecule, under these conditions will also remain in the mother liquor. In the presence of ice in the evaporation capacity, deuterium and protium water molecules, having an increased affinity for ice, condense mainly on its surface. It is known that ice in equilibrium with water attracts deuterium as it were, which significantly reduces the concentration of heavy water in the resulting product.

 The choice of the optimum water temperature in the evaporation tank before creating a vacuum is justified by the following facts.

The dependence of steam pressure over an open surface (mirror) of water at normal atmospheric pressure on temperature is known. Thus, at ⁰ ° C the vapor pressure of 4.6 mm Hg. Art. With increasing water temperature up to + 10 ^о С, the vapor pressure increases to 9.2 mm Hg. Art. , i.e., twice. Upon further temperature increase occurs a sharp rise in the vapor pressure, and at ¹⁰⁰ C it corresponds to 760 mmHg. Art. Simple calculation shows that with increasing temperature from 0 ^{° C to} 40 ° C the vapor pressure over water surface increases about 10 times, and from 0 ^o C to 100 ^o C - 160 times. The evaporation rate of heavy deuterium and tritium water, depending on temperature, correlates with the vapor pressure above the water mirror. Data obtained in laboratory conditions indicate a significant influence of the temperature of the source water before its evaporation on the change in the deuterium content in melt water obtained from condensed and frozen steam. When the evaporation temperature of the source water ⁰ ° C. . 1.9 ^о С the deuterium content in melt water decreases on average by 33%, and at a temperature of 10 ^о С - only by 12.7%. At ²⁰ ° C and higher deuterium substantially not delayed in initial water when it evaporates.

 It is known that water obtained from snow or ice with a low deuterium content has biologically active, healing properties that have a beneficial effect on all living things - plants, animals and humans. The biological activity of water can still be significantly increased by combining certain effects on it, for example, by a stream of ultraviolet rays.

 The proposed solution provides ultraviolet and infrared irradiation of ice in the process of its melting and water during its appearance during ice melting, which allows melt water to be obtained with increased biological activity, since for ultraviolet and infrared (in the range of 4-6 μm) ice absolutely black body.

 Equilibrium or excessive saturation of melt water with gases with desired properties will additionally provide targeted healing properties to water, thereby preventing spontaneous saturation of melt water with gases of an undesirable composition upon contact with air at the time of ice melting.

 The method of obtaining healing drinking water, according to the present invention, is as follows.

Take an initial water temperature of which must be from 0 ° ^{C to} 10 ° C in the presence of a crust of ice water screen. The lower the temperature of the water, the higher the degree of its purification from contaminants, including heavy water. Cold water vapor formed above the surface of the source water is frozen. In this case, water vapor first condenses on the surface of the freezer in the form of a liquid, which, when frozen, turns into ice. For greater efficiency, the process of vaporization above the surface of the source water creates a vacuum. Moreover, the highest rate of vaporization is observed when boiling water. After the formation of a sufficient amount of ice on the surface of the freezer, it begins to melt. To do this, they affect the ice with infrared radiation. At the same time, ice is irradiated with ultraviolet rays and saturate the resulting melt water with gas or a mixture of gases - to give the water enhanced biological and healing properties. A variety of gas compositions can be used as gases or their mixtures: purified air, oxygen, inert gases, ozone, therapeutic gas compositions, etc. Equilibrium saturated and irradiated melt water is then collected in a container and used for its intended purpose.

 In FIG. 1 shows the proposed installation, a longitudinal section of a General view; in FIG. 2 is a cross-sectional view of this installation.

 The VIN-4 "Nadiya" installation for producing healing drinking water contains a housing 1 in which an evaporation tank 2 for source water is installed with a heating device 3 in the form of a tubular electric heater and a device for freezing 4 in the form of a tubular element. The heating element 3 is made of X20H80 alloy, and its shell is made of X19H10T steel. The tubular element of the device 4 is made in the form, for example, of a thin-walled copper tube, the ends of which are connected to a pump (not shown in the drawing) for pumping refrigerant through it. In the housing 1 there is a valve 5 for supplying water to the tank 2 to be treated, and a valve 6 for draining the spent sediment. The housing 1 has an additional device for freezing, made in the form of a set of thin-walled curly tubular elements 7, which are connected to a pump (not shown in the drawing) for pumping liquid refrigerant through them.

A device for freezing 7 together with sources of ultraviolet 8 and infrared 9 radiation is placed above the tank 10. As a source of ultraviolet rays 8, an apparatus, for example, UV-800, generating radiation with a wavelength of 300 is used. . 400 nm. As a source of infrared rays 9, an emitter of the type KGT-200-1000 is used, which creates radiation with a wavelength of 3.6. . . 6.5 microns. The internal cavity of the housing 1 by a pipe 11 is connected to a source of rarefaction of air - for example, with a fore-vacuum pump of the type VN-1MG (not shown in the drawing). The housing 1, in addition, is equipped with a device 12 for supplying gas or a mixture of gases into its internal cavity. The installation is equipped with a temperature control system, which includes a high-precision temperature regulator VRT-3 with a copper-constantan thermocouple, whose hot junction (bead) is fixed in the internal cavity of the tank 2 (not shown in the drawing). The output of the VRT-3 controller is connected to the input of the heater. The tube cooler 4 is connected to a pump for pumping through it, for example, cooled to a temperature of -1.0. . . +1.0 ^о С white alcohol (not shown in the drawing). In tank 2 there is another thermocouple, the output of which is connected to a secondary recorder-recorder KSP-4 (not shown in the drawing). Case 1 has portholes for monitoring the processes of freezing cold steam and ice melting - 13 and 14. The vessel 10 has valves 15 for draining melt water and a pipe 16 for connecting to the unit for forming the structure and properties of melt water 17. Block 17 includes an internal a conical tank 18 with minerals and an outer conical tank 19 with minerals. At the outlet of the container 19, a filter 20 is installed, which contains a copper grid coated with silver and linen fabric (not shown in the drawing). The outer container 19 of the block 17 has a drain valve 21.

PRI me R. From the water supply, an evaporation tank for the source water 2 is filled with water and refrigerant is pumped through the device 4. In this process the cooling water in the tank 2 is stopped when reaching the temperature not exceeding 10 ^{° C,} and the formation in the bulk water ice crust. Then the housing 1 is sealed and air is pumped out through the pipe 11 to create a vacuum. The creation of rarefaction is accompanied first by intensive evolution of gases from the entire volume of the source water and their removal, and then by intensive vaporization up to boiling water, which can be observed through portholes 13 and 14. At the same time, the refrigerant, for example, liquid nitrogen, is pumped through the tubular elements of device 7. The generated steam condenses and freezes on the outer surface of the curly elements of the device for freezing 7. The process is stopped when the thickness of the ice on the tubular elements of the device 7 reaches a predetermined value. The foreline pump is turned off, sources of ultraviolet 8 and infrared 9 radiation are turned on, and carbon dioxide or a mixture of gases, for example, ozone and xenon, are introduced into the cavity of the housing 1 through the device 12. Bring the pressure in the housing 1 to atmospheric. Using a heating element 3, the ice crust is melted in the evaporation tank 2, and the spent water precipitate through the valve 6 is poured out. As the ice is irradiated and the ice melts, melt water enters the tank 10. From the tank 10 it enters the block 17 for the formation of the structure and properties of melt water. Passing through the minerals of the inner 18 and outer 19 containers and then through the filter 20, drinking water completes its path, acquiring healing properties.

 For a clearer picture of the proposed method for producing healing drinking water at the VIN-4 "Nadiya" installation, it is advisable to summarize the factors characterizing the conversion of source water into pure biologically active healing drinking water. The proposed method and installation of VIN-4 allows you to purify water from harmful and toxic substances, including tritium, and reduce the deuterium content by 30 percent or more, as well as carry out biological activation of the resulting water by irradiating ice before and at the time of its transition from solid state into the water by rays, the spectral and energy characteristics of which are close and similar to sunlight in highlands (with the advantage of ultraviolet and infrared radiation).

 In addition, micro-saturation of melt water is carried out in the process of its formation during the melting of ice with specially selected gases to give it directed healing and healing properties.

 And, finally, obtaining a qualitatively new healing product is achieved by creating conditions for the interaction of activated melt water with specially selected natural minerals under conditions of filling two conical tanks installed with a gap in one another with golden section parameters, when the ratio of the diameter of the base of each cone to its height is 1.62. (56) 1. Denisov I., Matveev S., Worker M., 1991, N 11, p. 34-36.

 2. Polytechnical Dictionary edited by Acad. N.I. Artobolevsky, M., 1977, p. 546.

Claims (2)

1. A method of obtaining healing drinking water, including obtaining ice from the source water, thawing it and collecting melt water, characterized in that the ice is produced by freezing water vapor generated from the source water at a temperature not exceeding 10 ^{° C.} , and during thawing ice it is exposed to ultraviolet and infrared radiation and saturate melt water with a gas or a mixture of gases.  2. Installation for producing medicinal drinking water, comprising a housing with a device for freezing and a container for source water, characterized in that it is equipped with a heating device mounted on the outer surface of the source water tank, an additional device for freezing, made in the form of curly tubular elements, a container for collecting melt water, sources of ultraviolet and infrared radiation, a pipe for connecting the housing to a vacuum source and a device for supplying gas or mixture to the housing and gases, while the main device for freezing is installed on the outer surface of the container for the source water, and the additional device for freezing and sources of ultraviolet and infrared radiation are located above the container for collecting melt water.

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