RU2732708C2 - Method of producing light water with purification from impurities - Google Patents

Abstract

FIELD: refrigerating and freezing equipment.

SUBSTANCE: invention relates to methods of producing light water. Method of obtaining light water with removal of impurities is that a container with water is installed in refrigerator compartment with temperature set therein corresponding to freezing temperature of heavy water, freezing of which is determined by the presence of ice, which is removed, after which light water is poured into another container with subsequent installation into the freezer chamber of the refrigerator until its freezing, followed by separation and removal of 1/3 internal fractions containing impurities to obtain purified water, wherein in the water container a volumetric perforated device with increased heat conductivity is installed, and prior to installation of water into freezing chamber into second container current-conducting device is installed, and the refrigerator freezer temperature is set corresponding to the light water freezing point value of not lower than -2 degrees with subsequent temporary temperature reduction, wherein after freezing of water, removal of impurities-containing fractions is carried out by heating current-conducting device by supplying voltage thereto.

EFFECT: technical result of the invention is increase in light water productivity.

3 cl, 2 dwg

Description

The invention relates to methods for structuring natural drinking water and stabilizing it with reactive oxygen species and can be used in the production of high-quality drinking water, in technologies for the purification of polluted water, in medicine, food, pharmaceutical, radio engineering, electronic industry and agriculture.

The structured water phenomenon provides a scientific basis for explaining phenomena such as telepathy and clairvoyance. The human brain is more than 90% water and therefore is a sensitive receiver of electromagnetic waves propagating in the biosphere.

the human body is also almost 70% water

Brain 85% water, heart 75%, lungs 86%, muscles 75%, blood 83%, kidneys 83%, liver 96%. The human body contains an average of 4,555 liters of water! Water is the main supplier of energy for all bodily functions.

The role of structured water in the human body: - Promotes the delivery of oxygen to cells; - transports nutrients; - Provides cell hydration; - Serves as a shock absorber for bones and joints; - Protects bones and organs from blows; - Regulates body temperature; - Removes waste from the body; - Flushes out toxins; - Prevents adhesion (sticking) of cells; - Serves as a lubricant for joints; - Improves cellular communication; - Maintains normal electrical properties of cells; - Accelerates natural regeneration processes in the body.

Dr. Batmanghelidj, the creator of a clinic in London where he heals with water, blames many modern diseases on insufficient water saturation.

Water and salt immediately follow oxygen on the list of the most important substances for life. Adequate water supply can slow down or reverse the development of many health problems, such as allergies, asthma, hypertension, high cholesterol, premature aging, Alzheimer's disease, back pain, migraines, obesity and depression.

https://www.liveinternet.ru/users/yulija555/post121094997/

Structured water at home

It is much more difficult to cure a disease than to prevent it. Having learned about the therapeutic properties of structured water, many are interested in where to get this healing agent (do not go to the mountains for it!) In fact, there are two ways to turn ordinary water into structured water on your own.

How to structure water: method one

1. Fill an enamel container with clean filtered water and place it in the freezer of the refrigerator. As soon as a thin crust of ice forms, the water is poured into another saucepan. We do not need ice - it contains the most dangerous part of the liquid, containing the harmful substance deuterium. We send the water poured into the pan into the freezer again.

2. When the liquid in the pan is 2/3 frozen, there will be water in the middle, saturated with a mixture of ultra-light isomers, which are the last to freeze. This water needs to be drained, and with it harmful chemical impurities will go away.

3. The ice remaining in the container is what the experiment was started for. When it melts, you get pure and healthy water, optimally structured for your body.

How to prepare structured water: method two

1. This method is suitable for busy people who do not have time to meticulously freeze water in several stages. Pour water into several cups and place them in the freezer.

2. When the water is completely frozen, remove the ice from the cups and rinse it in running cold water - this will get rid of the surface ice with "heavy" water.

3. Place ice in a container and leave it alone until a walnut-sized piece of ice remains. We throw away this ice - it contains impurities and salts that are harmful to health. The water that remains in the container is structured.

https: // missbagiraTu / themes / health / polza-i-vred-strukturirovannoj-vodj-kak-strukturirovat-vodu-strukturirovannaya-voda-v-domashnih-usloviyah

The disadvantages of the first method according to claim 1, is the removal of heavy water (deuterium), which freezes at a positive temperature of 3.8 degrees throughout the volume of the liquid due to its poor thermal conductivity, it takes a long time. When placing a volume of water in a refrigerator containing a temperature, for example, 1 degree between the water and the volume of the refrigerator, a temperature difference appears, say 20 degrees. The first peripheral layer of water, for example 1 mm, which reaches the freezing point of 3.8 degrees, is transformed into deuterium ice, which, by analogy with natural reservoirs, further reduces the thermal conductivity of freezing of the internal volume of water.

The technical result of the invention is to increase productivity with a simultaneous increase in the quality of obtaining structured water.

The problem is solved by the fact that in a container, which is a parallelepiped filled with water at home, we install a volumetric porous device with increased thermal conductivity, for example, a metal one.

At the same time, according to the article http://www.prosvetlenie.org/wiki/8/32.html, freezing is considered slow if the entire process before freezing 50% of the water from the original volume is 2-4 liters for the container - at least 12-18 hours , and for a capacity of 5-7 liters - at least 24-26 hours or more.

FIG. 1 shows a volumetric perforated device containing a frame 1 with a handle 4 fixed to it. The frame is located in the first container with a certain gap. Moreover, the frame is a parallelepiped, all six walls of which, for example 0.5 mm thick, are perforated with holes 2 with a wire 3 passing through each hole in a three-dimensional dimension. Heavy water freezing in the first container occurs simultaneously throughout the entire volume with the smallest condensation distances into ice, which significantly reduces both the condensation time and the amount of condensed deuterium.

FIG. 2 shows a conductive impurity removal device. It contains a secondary container 5, to the bottom of the central part of which a threaded bushing 9 is fixed through the insulating layer 8, connected through the plates 7 to the bushing 6 with a wire attached to it 14. The plates 7 are located radially relative to the bushings at the same angles and occupy a third of the volume of the container 5. The ends of the plates are connected by a perforated cylindrical surface 15. Between the washers 11 fixed by a nut 12, a wire 16 is located. Thus, a voltage U can be applied to the bushings of the device using wires 14, 16. The bushing 9 is closed by a threaded plug 13.

The operation of the device consists in the fact that, if necessary, drain the water impurities after the light water freezes in the second container, unscrew the plug 13 and apply voltage U.

FIG. 1 shows a volumetric perforated device containing a frame 1 with a handle 4 fixed to it. The frame is located in the first container with a certain gap. Moreover, the frame is a parallelepiped, all six walls of which, for example, having a thickness of 0.5 mm, are perforated with holes 2 with a wire 3 passing through each hole in a three-dimensional dimension. Thus, freezing of heavy water in the first container occurs simultaneously throughout the entire volume with the smallest distances of condensation into ice, which significantly reduces both the condensation time and the amount of condensed deuterium throughout the volume of the tank. After the deuterin ice has been coded, it is removed with the handle 4 from the container, purifying the water containing there from deuterium.

FIG. 2 shows a conductive impurity removal device. It contains a secondary container B to the bottom of the central part of which a threaded bushing 9 is fixed through the insulating layer 8, connected through the plates 7 to the bushing 6 with a wire fixed to it 14. The plates 7 are located radially relative to the bushings at the same angles and occupy a third of the volume of the container B. The ends of the plates are connected by a perforated cylindrical surface 15. Between the washers 11, fixed by a nut 12, there is a wire 16. Thus, a voltage U can be applied to the bushings of the device with the help of wires 14, 16. The bushing E is closed by a threaded plug 13. The operation of the device is that when light water freezes, water dipoles that have many distinctive features from the foreign inclusions present in it freeze faster, pushing impurities towards the elevated temperature of the solution, as if not allowing these impurities into the formed ice. As you can see, the concentration of impurities increases and, if necessary, drain the water impurities after freezing of light water in the second container, we apply voltage U throughout its volume. After that, due to the melting of ice, we can extract water impurities from the secondary container or drain them using plug 13 in case of not freezing of liquid in the central part of the tank. As you can see, ice cleared of impurities is more transparent than containing impurities. On this basis, we can determine the degree of purification of light water.

Claims (3)

1. A method of obtaining light water with its purification from impurities, which consists in the fact that a container with water is installed in the refrigerating chamber of a refrigerator with a temperature set there corresponding to the freezing point of heavy water, the freezing of which is determined by the presence of ice, which is removed, after which light water is poured into another container with subsequent installation in the freezer chamber of the refrigerator until it is completely frozen, followed by separation and removal of 1/3 of the internal fractions containing impurities to obtain purified water, characterized in that a volumetric perforated device with increased thermal conductivity is installed in a container with water, and before by installing water in the freezing chamber, a conductive device is installed in the second container, and the temperature of the freezing chamber of the refrigerator is set corresponding to the freezing point of light water not lower than -2 degrees, followed by a temporary decrease in temperature, and after freezing of the removal water e fractions containing impurities are carried out by heating a conductive device by applying a voltage to it. 2. A volumetric perforated device for implementing the method according to claim 1, comprising a frame with a handle attached to it, which is a parallelepiped, all six walls of which are perforated with holes with a wire passing through each hole in a three-dimensional dimension. 3. A conductive device for purifying light water in the method according to claim 1, comprising a secondary container, to the bottom of the central part of which a threaded bushing is fixed through the insulating layer, which is covered by a plug, the threaded bushing is connected through plates with a threadless bushing, the plates are located radially relative to the bushings under the corners and occupy a third of the volume of the secondary container, the ends of the plates are connected by a perforated cylindrical surface, and the bushings have the ability to supply voltage.

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