EA029882B1 - Water purification and disinfection device - Google Patents

Abstract

The claimed invention relates to the field of liquid media treatment, in particular, to water treatment for its purification and disinfection to produce drinking water or to produce water suitable for discharge to surface water bodies. The technical result is higher efficiency of water purification and disinfection. Said technical result is attained by provision of a water purification and disinfection device comprising a housing with two fittings for water inlet and outlet, a protective tube containing an UV lamp, wherein the water inlet fitting is located in the lower part of the housing, the water outlet fitting is located in the upper part of the housing, water inlet and outlet fittings have incisions and are fastened to the housing by means of a threaded bolt-and-nut joint; disposed above the inlet fitting are insoluble annular work electrodes connected, through an additional outlet fitting, to a low-voltage DC source and to a control unit; the protective tube is installed in the lower portion of the housing, in an aperture with at least two sealing rings, and the ultraviolet lamp is inside the protective tube. The electrodes used are of inert-silicon type where SiOis implanted in the crystalline lattice.

Description

The invention relates to the field of processing liquid media, in particular water, for the purpose of its purification and disinfection and use for the production of drinking water, as well as for the production of water suitable for discharge into surface water intakes. The technical result is to increase the efficiency of cleaning and disinfection of water. Delivered technical result is achieved by a device for cleaning and disinfecting water, consisting of a housing with two nozzles for water inlet and outlet, a protective tube, where a UV lamp is placed, while the water inlet fitting is located in the lower part of the housing; the upper part of the body; the water inlet and outlet fittings with notches are attached to the body using a bolt-nut threaded connection; annular insoluble electrodes are placed above the inlet fitting, connected through an additional With a low voltage DC power supply and control unit, a protective tube mounted on the bottom of the housing in an opening with at least two o-rings, and an ultraviolet lamp located inside the protective tube. In this case, inert-silicon electrodes are used with the introduction of δίθ ₂ into the crystal lattice.

029882 Β1

029882

The invention relates to the field of processing of liquid media, in particular water, with the aim of its purification and disinfection and use to obtain drinking water, as well as to obtain water suitable for discharge into surface water intakes.

Analogous to the claimed device is a plant for the preparation of drinking water, which includes a coagulation chamber with a set of soluble electrodes, equipped with a water inlet fitting, and a flotation chamber with a set of insoluble electrodes, equipped with a fitting for water withdrawal and a foam outlet fitting, fine filter, the inlet fitting of which connected to the outlet of the flotation cell. The installation is designed in such a way that the coagulation chamber and the flotation chamber are located coaxially to each other, the inlet nozzle in the coagulation chamber is located below the soluble electrodes, the outlet nozzle in the flotation chamber is located below the working electrodes. The foam outlet fitting is located in the foam container at the level of the overflow of water flow from the coagulation chamber into the flotation chamber, while the anode of the flotation chamber is made of electrically conductive filter material. The outlet fitting of the fine filter is connected to the inlet fitting of the ultraviolet (UV) disinfection unit, on the inner surface of the working chamber of which a grid or plate made of silver is placed coaxially on the protective casing on the insulating spacers (RF patent number 87694, date of publication: 20.10.2009 g .).

Another analogue is an electrochemical water purification device, which includes an electrochemical water purification unit, comprising a housing with an inlet funnel with a ring magnet. Inside the case there is a set of soluble electrodes connected to a power source, the case of the electrical treatment unit is equipped with a fitting for water drainage and a fine filter, the inlet fitting of which is connected to the output fitting of the electrical treatment housing. The soluble electrodes are made of one anodically soluble material in the electrical treatment unit, an additional set of insoluble electrodes is placed below the set of soluble electrodes, the output nozzle for water extraction is located below the insoluble electrodes, in the upper part of the electrical treatment unit there is a foam collector coaxial to the unit body, the foam collector is separated from the foam block housing with a movable gate with the possibility of vertical movement (patent for utility model of the Russian Federation No. 90067, the date of publication katsii: 27.12.2009).

The prototype of the claimed technical solution is a water disinfection unit, consisting of a body with two nozzles for water inlet and outlet, a protective flask, where the UV lamp is placed, characterized in that working insoluble electrodes are placed above the inlet pipe and connected via an additional output fitting to a DC source low voltage and control unit. An ultrasonic oscillator can be additionally placed between the inlet pipe and the working electrodes (RF patent for utility model No. 87693, published: 10/20/2009).

It was established experimentally that a big disadvantage of the prototype is, for example, that the pipes are connected to the housing by welding, and the electrodes are not annular, thus welding causes metal corrosion, and the design of the electrodes is not effective for all-round processing of the liquid, which affects low reliability and efficiency in cleaning and disinfecting water, which is already revealed three months after intensive use of the device.

The technical result of the claimed device is to increase the efficiency of cleaning and disinfection of water.

The technical result is achieved due to the device for cleaning and disinfecting water, consisting of a body with two nozzles for water inlet and outlet, a protective tube, where the UV lamp is placed, while the water inlet is located in the lower part of the body; the upper part of the body, fittings for water inlet and outlet are attached to the body using a threaded connection, for example, having notches, annular working insoluble electrodes are placed above the inlet fitting, connected through an additional ny outlet fitting with DC low voltage, and a control unit, a protective tube mounted at the bottom of the housing in the hole with at least two sealing rings, an ultraviolet lamp positioned within the protective tube.

When this is used, the inert-silicon electrodes with the introduction into the crystal lattice

δίθ ₂ .

The invention is illustrated in the drawing.

It shows the main view of the device.

In the device for cleaning and disinfecting water in the lower part of the housing [1] is located the water inlet fitting [2], the outlet of the water outlet [3] is located in the upper part of the housing [1]. Fittings for water inlet and outlet [2] and [3], which have notches [5], are attached to the body [1] by means of a threaded connection [4], for example a bolt nut, for a reliable connection, for example, with a fitting, pipe or pipe (not shown). This method of fastening eliminates corrosion at the joints of the housing with fittings, in contrast to the use of welding.

Above the inlet nozzle [2] there are annular working insoluble electrodes [6] connected via an additional outlet nozzle [7] with a low-voltage DC source

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and the control unit, which affects the increase in the volume of treated water and its quality.

The protective tube [8] is mounted in the lower part of the body in the hole [9] with at least two sealing rings [10], the ultraviolet lamp [11] is located inside the protective tube, which affects the increase in safety during transportation and operation of the device, preventing water penetration inside the tube, which will lead to a short circuit and failure of the device as a whole.

The device operates as follows.

The treated water through the inlet fitting located in the lower part enters the device body, flows around the protective tube with its UV lamp located inside and exits the outlet fitting located in the upper part of the body. Immediately above the inlet nozzle are placed annular insoluble working electrodes inert-silicon with intrusion into the crystal lattice δίθ ₂ , to which power is supplied from a direct current source with a supply voltage not lower than the water discharge voltage through the connection nipple.

On the working electrodes through the connection fitting serves power from a DC source, for example, 2.8 V.

Under the action of electric current at the anode begins the release of fine oxygen bubbles. The resulting flow of gas mixture flows around the protective tube. When the mixture passes through a stream of ultraviolet radiation from a UV lamp, oxygen generated at the anode recombines into ozone, which, together with ultraviolet radiation, cleans and disinfects the treated stream.

By means of catalysis and photolysis, the effect of "water ozone" is created, which in turn makes it possible to more effectively purify and disinfect water from microbiology in a short period of time.

The device is equipped with an automated control system. Light alarm warns about the depressurization of the device, the need to clean the surface of the protective tube from deposits or replace the UV lamp.

The results of testing the effects of the device on poliovirus P1, conducted at the Pasteur Research Institute of Epidemiology and Microbiology, showed the following.

The experiments were carried out with a poliovirus type 1 concentration of 1000 doses (the virus titer on the Ner-2 cell culture was 6.5 1 of TC ϋ ₅₀ ). Dilution of the virus to 10 ^{-4 is} carried out using sterile full phosphate-saline buffer solution with a pH of 7.2-7.4, which contains, in addition to sodium and potassium ions, calcium and magnesium ions necessary to stabilize the virus.

The experiment was carried out in a box under sterile conditions; only sterile laboratory glassware was used.

For the experiment, a device for cleaning and disinfecting water was used, into which 250 ml of vaccinated liquid were poured with a peristaltic pump. Why turn on the device for one minute. The first portion (50 ml) after passing through the system was discarded. Then 2 samples of 50 ml (sample No. 1) and 150 ml (sample No. 2) were collected. Poliovius P1-1000 doses and samples No. 1 and 2 immediately after their preparation were titrated on the Hep-2 cell culture.

Sample No. 3 (sample No. 2 after exposure in the refrigerator for 2 h) was also titrated on Hep-2 cell culture. Sample No. 4, which is a mixture of sample No. 3 and poliovirus P1-1000 doses in equal volumes, and sample No. 5 (sample No. 4 after exposure in the refrigerator for 30 minutes) was also titrated on Hep-2 cell culture.

Conclusion

Analysis of the results showed that after the vaccinated liquid was found in the device and the device was turned on to the network for 1 min, the virus was inactivated.

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Protocol.

Titration of poliovirus P1 before passing through the device

Protocol (application).

Titration of sample number 2 (poliovirus P1 after passing through the device)

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Titration of sample No. 3 (sample No. 2 after 2 h exposure in the refrigerator)

Protocol (application).

Titration of sample No. 4 (mixture of sample No. 3 and poliovirus P1 - 1000 doses)

Titration of sample number 5 (sample number 4 after exposure for 30 minutes in the refrigerator)

Thus, the analysis and testing of the prototype confirm the technical result of the claimed invention: an increase in the efficiency of water purification and disinfection.

The invention is new because the entire set of features is not known from the prior art given in the appropriate section of the description.

It has a criterion of inventive step, since for a specialist it does not follow from the prior art.

And also it is industrially applicable in the field of processing liquid media, in particular water, for the purpose of its purification and disinfection and use for obtaining drinking water, as well as for obtaining water,

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suitable for discharge into surface water intakes.

Claims (2)

CLAIM 1. Device for cleaning and disinfecting water, consisting of a housing with a water inlet fitting located in the lower part of the housing, with a water outlet fitting located in the upper part of the housing, working insoluble electrodes are located above the inlet fitting, connected through an additional outlet fitting to a constant source low voltage current, control unit, protective tube and ultraviolet lamp, located inside the protective tube, characterized in that the fittings for water inlet and outlet, having notches, cr pyatsya to the housing by a threaded bolt-nut connections, the electrodes are annular, the protective tube mounted at the bottom of the housing in the hole with at least two sealing rings, wherein the automation unit is adapted to perform a shift operation, the polarity of the electrodes. 2. A device for cleaning and disinfecting water according to claim 1, characterized in that electro-inert-silicon electrodes are used with intrusion into the crystal lattice δΐθ ₂ .