RU2548437C1 - Method of water treatment by freezing and device to this end - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: tank 1 is filled with water to the level some 1.0-1.5 cm above that of funnel 4. Note here that valves 6, 7 and drain valve 10 are closed. Tank 1 is cooled down to produce 0.5-1.0 mm deep ice ply above funnel surface. Thereafter, vale 6 is opened to decrease water level in tank 1 to displace ice ply with deuterium into funnel inside. Then, water is tank is cooled down to produce ice in amount of 70-80% of initial amount of water. At secondary freezing of initial water with impurities as dissolved substances and insecticides is divided into fresh clean ice and residual brine accumulated at the bottom of tank 1. Then, brine is discharged by opening valve 9. Produced ice is defrosted and drained via drain valve 10. Water is ready for use.

EFFECT: simplified process.

4 cl, 1 dwg

Description

The invention relates to the field of technology for water purification, and more specifically to methods and devices for water purification by freezing it using freezers of domestic refrigerators or special thermostats, or free cooling.

A known method of industrial water purification by freezing it and a device for its implementation / 1 /. The device includes a tank for placing water and technical means for its cooling (freezing) and heating (defrosting).

The known method / 2 / purification of drinking water in everyday life by freezing it and the device / 3 / for its implementation. The method includes pouring water into the container, first placing the container in the freezer, cooling the water until a deuterium layer of 1-3 mm thick is formed on its surfaces, removing the container from the refrigerator and removing the layer of deuterium ice, placing the container in the freezer again and holding for the formation of a clean layer of ice and untreated, untreated, chemically contaminated water (residual brine), removing the container from the freezer and separating pure ice from the residual brine, thawing pure ice. During the secondary freezing process, the initial water, containing impurities in the form of dissolved salts, organic substances and pesticides, is separated into fresh pure ice and residual brine, which is concentrated in the central zone of the frozen primary volume of water.

The known method of water purification has the following disadvantages:

- the presence of two separate stages of freezing and two separate stages of separation of ice from water increases the complexity of its cleaning;

- inconvenient removal of deuterium (heavy) water associated with removing the container from the freezer, pouring unfrozen water into a new (temporary) container, removing the formed layer of the first ice (1-3 mm thick) on the upper surface of the water, bottom and near the side walls of the main containers, transfusion of water from a temporary container into the main one, its installation in a freezer;

- sometimes used at an early stage, the removal of the first ice layer from only one upper surface, without transfusion of water into a temporary container, increases the amount of remaining deuterium water in the treated water.

Given these shortcomings, the outwardly ″ simple ″ way to purify water by freezing it is not widespread in the domestic environment, although the problem of obtaining a ″ glass of clean drinking water ″ is extremely relevant.

A known device / 3 / for purification of drinking water by freezing it includes a container (reservoir) for holding water, a top cover with a recess for placing a layer of ice of primary freezing, a bottom with a recess for placing water and a layer of ice of secondary freezing, heating elements and constipation, providing clamping the lid and bottom to the tank, gaskets between the lids and the tank.

The disadvantages of the known device for water purification in everyday life: design complexity; insufficient amount of deuterium ice to be removed, as this is supposed to be done from only one top surface of the frozen water; the difficulty of removing deuterium ice even from only one upper surface, since the process of ice formation occurs along the entire inner surface of the container; the difficulty of separating pure ice and residual brine using a removable bottom with a deep excavation, since the formation of secondary ice does not occur from top to bottom, but over the entire surface.

The closest in technical essence to the proposed one is a method of purifying water by freezing it, including cooling a container of water to a freezing temperature, holding, separating deuterium ice, pure ice and residual brine, thawing pure ice, characterized in that the water is cooled at a thermal ratio flows in the side and end surfaces, equal to 50-500, maintain it until the product is obtained in one operation in the form of a layer of pure ice along the contour of the tank in a volume of 25-50% of the initial volume of water s, a layer of deuterium ice with a thickness of 0.5-4.0 mm on both end surfaces and a residual brine inside the product, moreover, to remove deuterium ice from the side surfaces of the product, the container with the product is kept in the defrosting mode after being removed from the freezer, which is 20-40% longer than the thawing time required to separate the product from the tank, and to remove deuterium ice located in the end surfaces of the product and the residual brine, light blows are applied to both end surfaces the rest of the product, remove them and pour the brine / 4 /.

A device for cleaning water by freezing it, including a container for placing water with a lid and a bottom, the container in vertical section has the shape of an inverted truncated cone, the lid being coated with a heat-insulating coating, and the bottom of the tank is supported by a removable glass with a heat-insulating coating placed inside it / four/.

The disadvantage of this method is its complexity, low culture of obtaining pure water.

The technical result of the invention is to simplify the technology for producing pure water while increasing its culture by automating the technology for producing water.

The technical result is achieved in that the water is cleaned by freezing, including cooling the water tank to the freezing temperature, holding, separating deuterium ice, pure ice and residual brine, thawing pure ice, the tank is filled with water to a level exceeding 1.0 -1.5 cm level of the funnel with perforation installed in the tank, while the water is cooled to obtain a layer of deuterium ice on the surface of the water in the tank with a thickness of 0.5-1.0 mm, after which partial water growth (3-5% of the total volume of water in the tank) from the tank, ensuring separation of deuterium ice from the remaining water, after discharge, further freeze the water until ice is formed in an amount of up to 70-80% of the initial amount of water, then discharge brine and subsequent thawing of pure ice, while the inner surface of the container is made of non-wettable material.

In a device for purifying water by freezing it, which implements the proposed method, including a container for placing water with a lid and a bottom, a funnel is installed inside the tank in its upper part, rigidly fixed around the circumference to the inner surface of the tank, a drain pipe from the funnel through a valve located in at the bottom of the tank, connected to an additionally introduced sump, while in the places where the funnel is connected to the inner wall of the tank, perforations are made, the internal cavity of the tank through the second valve, Installed in the bottom of the tank, connected to the inner cavity of the sump, the inner cavity of the tank is connected to a drain with a drain valve of clean water, while the inner surface of the tank and all the elements inside it are made of non-wettable material.

In FIG. 1 schematically shows the proposed device that implements the proposed method.

A device for purifying water by freezing it contains a container 1 for placing water with a cover 2 and a bottom 3. Inside the container 1, in its upper part, a funnel 4 is installed, rigidly fixed around the circumference to the inner surface of the tank 1. A drain pipe 5 from the funnel 4 through a valve 6 located in the bottom 3 of the tank 1 is connected to an additionally introduced sump 7 located under the tank 1. Perforation holes 8 are made at the junction of the funnel 4 with the inner wall of the tank 1. The internal cavity of the tank 1 through the second valve 9, installed in the bottom 3 of the tank 1, is connected to the inner cavity of the sump 7. The inner cavity of the tank 1 is connected to a drain valve 10 of pure water.

To prevent freezing of ice on the inner wall of the tank 1, as well as on the elements located in the tank, they are made of non-wettable material (due to the exclusion of crystallization centers for ice formation). As non-water-wettable materials, for example, fluoroplastic, polyethylene, polypropylene, perfluoroalkyl and perfluoropolyether materials, as well as various kinds of water-repellent coatings can be used (for more details see, for example, Pan-phobic coatings to replace hydrophobic ones, www / corrosio.ru / posts / panafobnyie-pokryitiya-na-smenu-gidrofobnyih).

The device operates as follows.

The following theoretical calculations are the basis of water purification by freezing it: when “light” (H ₂ O) and “heavy” (D ₂ O + T ₂ O) are mixed, isotopic exchange occurs: H ₂ O + D ₂ O = 2HDO; H ₂ O + T ₂ O = 2NTO. Therefore, deuterium and tritium are in water in the form of HDO and NTO. At the same time, the freezing temperature for D ₂ O is +3.8 degrees Celsius, and for T ₂ O - +9 degrees Celsius, HDO and NTO freeze at +1.9 degrees Celsius and +4.5 degrees Celsius, respectively. It is established that at temperatures ranging from 0 to 1.9 degrees Celsius, water molecules with deuterium and tritium, in contrast to “light” (protium water), are in a metastable-solid state.

To obtain clean water, the tank 1 is filled, for example, with tap water or water that has passed through preliminary treatment to a level exceeding the level of the funnel by 1.0-1.5 cm. At this time, the valves 6 and 9 are closed, the drain edge 10 is also closed. Capacity 1 together with a sump 7 is placed in a refrigeration unit or subjected to natural cooling for a time sufficient for the formation of deuterium ice above the surface of the funnel 4 with a thickness of 0.5-1.0 mm (deuterium ice begins to form at a temperature of + 3.8 degrees Celsius and below ) The thickness of the ice in the range of 0.5-1.0 mm is enough for all the "heavy" water to separate from the "light". After that, valve 6 is opened, the water level in tank 1 decreases and the entire ice layer formed with deuterium and tritium is in the inner cavity of the funnel (even if it does not pass through valve 6, it will still be isolated from the water in tank 1. After that, the water in the tank is subjected to further cooling to ice formation in an amount up to 70-80% of the initial amount of water (this value is not critical and may differ significantly from the indicated value) .In the process of secondary freezing, the initial water containing impurities in the form of dissolved salts, organic substances and pesticides, it is separated into fresh pure ice and residual brine, which is concentrated in the lower part of the tank 1. After this, the brine is discharged by opening valve 9. The formed ice is thawed and drained through the drain valve 10. The water is ready for consumption.When thawing water in the tank 1, the remaining ice that is left in the funnel 4 and its drain pipe 5 is also thawed. Water through the open valve 6 is discharged into the sump 10. Valves 6 and 9 can be controlled as Mechanical Protection by (as shown) or electrically (in the figure, this embodiment is not shown). Also, the valves 6 and 9 and the drain valve 10 can be controlled according to a predetermined program, fulfilling the above-described algorithm for the functioning of the proposed device (the control device is not shown in the drawing).

Prior to the next cycle of operation of the device, the sump 7 is emptied. Valves 6 and 9 and the drain cock are closed. After that, the device is ready to work again.

Simplification of the technology for producing pure water while improving its culture by automating the technology for producing water is the advantage and advantage of the proposed technical solution compared to the prototype.

In March 2014, on the basis of SKBMT Engineering, limited liability company. Russia. 613040, the city of Kirovo-Chepetsk, Kirov region, st. Factory, d. 12 conducted an experimental verification of the proposed method and device. The test showed the efficiency of the proposed device and good water purification. After applying this design and technology, the concentration of heavy water and other contaminants in the finished water decreased many times.

Information sources

1. Lyubarsky V.M. Precipitation of natural waters and methods for their processing. M .: Stroyizdat, 1980. 98-99. fig. 22.

2. Advice just in case. M .: newspaper ″ Working platform ″, N 21 (321), 01/30/91.

3. RF patent. N 2058262. CI (Stakhiev Yu.M., Prokofiev G.F.) 04.20.96, C02F 1/22.

4. Patent of the Russian Federation, No. 2142914. C1 (Stakhiev Yu.M.) 12.20.99, C02F 1/22.

Claims (4)

1. The method of purification of water by freezing, including cooling the tank with water to a freezing temperature, exposure, separation of deuterium ice, pure ice and residual brine, thawing pure ice, characterized in that the tank is filled with water to a level exceeding 1.0- 1.5 cm level of the funnel with perforation installed in the tank, while the water is cooled to obtain a layer of deuterium ice on the surface of the water in the tank with a thickness of 0.5-1.0 mm, after which a partial discharge of water (3-5% of total volume of water in it bones) from the tank, ensuring the separation of deuterium ice from the remaining water, after discharge, further freeze the water until ice is formed in an amount of up to 70-80% of the initial amount of water, then discharge the brine and then thaw the pure ice. 2. The method according to p. 1, characterized in that the inner surface of the tank is made of non-wettable material. 3. A device for purifying water by freezing it, including a container for placing water with a lid and a bottom, characterized in that a funnel is installed inside the tank, in its upper part, rigidly fixed around the circumference to the inner surface of the tank, a drain tube from the funnel through the valve located at the bottom of the tank is connected to an additionally introduced sump, while in the places where the funnel is connected to the inner wall of the tank, perforations are made, the internal cavity of the tank through a second valve installed in the bottom of the tank, connected to the inner cavity of the sump, the inner cavity of the tank is connected to a drain valve of clean water. 4. The device according to p. 3, characterized in that the inner surface of the container and all the elements inside it are made of material not wetted by water.