RU2294315C2 - Water decontamination plant - Google Patents

Abstract

FIELD: decontamination of water and clear aqueous solutions.

SUBSTANCE: proposed water decontamination plant has housing with inlet branch pipe tangentially secured on its side surface and outlet branch pipe. Inner surface of housing is polished. Housing is provided with germicidal lamp enclosed in quartz casing. Inlet flow of water washes the bipolar silver electrode unit. Proposed plant is provided with radial turbine mounted in lower part of housing. Axes of inlet and outlet branch pipes are shifted relative to longitudinal axis of housing at a distance corresponding to turbine impeller.

EFFECT: enhanced efficiency and reliability; possibility of preservation of water; low cost of equipment; reduced mass and overall dimensions; increased service life of germicidal lamp; saving of energy.

2 dwg

Description

The invention relates to the field of disinfection of water and clear aqueous solutions.

To assess the novelty and inventive step of the claimed solution, we consider a number of well-known technical means of a similar purpose.

Known bactericidal apparatus for water treatment, containing a vertical cylindrical chamber with water inlet and outlet pipes, an ultraviolet germicidal lamp and a protective quartz cover mounted coaxially in the chamber cavity, an ejector and two tubes, one of which is connected to the atmosphere, and the other for introducing ozone connected to the vacuum cavity of the ejector, which is installed inside the chamber and connected with its diffuser to the water outlet pipe, see a.c. USSR No. 1768520, C 02 P 1/32.

In the described apparatus, a bactericidal lamp is installed inside the ejector coaxially with it, and an increase in the quality of water treatment is achieved through the implementation of a synergistic effect.

The disadvantage of this apparatus is that the ozone treatment of water using it is more complex and expensive, as are the ozone generator and the power source used in the apparatus.

Known bactericidal installation, which consists of a radiation chamber, a starting device and an electrical alarm control system, see the Handbook for the treatment of natural and waste water. Paal L.L., Karu Ya.Ya., Melder H.A., Repin B.N., M .: Higher School, 1994

The source of ultraviolet rays is a mercury-quartz lamp installed in a quartz case in the center of a metal case. The case protects the lamp from contact with water, but freely transmits ultraviolet rays. On the surface of the housing there is a viewing hole (viewing eye) through which the lamp operation is visually checked. The housing has an inlet and outlet nozzles. To start the installation, the chamber is filled with water and a bactericidal lamp is turned on. After 10-15 minutes, the inlet and outlet pipes for the incoming and treated water are opened. Disinfection of water occurs during the flow of water in the space between the body and the case with direct exposure to ultraviolet rays on microbes.

The presence of interfering substances in the water that absorb light radiation reduces the effectiveness of disinfection. Therefore, it is necessary to constantly clean the outer surface of the quartz cover from the deposited sediment. The quartz cover is cleaned periodically by the reciprocating movements of the handle. In addition, for greater reliability of operation, it is advisable to use a system of light or sound alarm, displayed in the premises of the duty service. Ultrasonic radiation acts instantly, at the same time, the radiation does not impart residual bactericidal properties to the water, as well as odor or taste, in addition, the bactericidal unit does not need reagents, it is compact, and its operation can be easily automated.

Despite these advantages, the known installation for disinfecting water has disadvantages. It does not provide prolonged antimicrobial action. since there are no agents that impede the further growth of microorganisms, the effectiveness of disinfecting water of such an installation is low.

A device for disinfecting water, comprising a housing with a flow chamber, a bactericidal lamp of ultraviolet radiation, installed in a protective sealed cover made of quartz glass, inlet and outlet tubes, see RF patent No. 2091319, C 02 F 1/32.

In a protective case placed in the flow chamber, additional ultraviolet germicidal lamps are radially mounted. The flow chamber is made in the form of a glass with a central conical nozzle, the cone of which is directed to the place of water intake and located coaxially relative to bactericidal lamps. The outer surface of the nozzle and the inner surface of the housing are made of material with high reflectivity.

The disadvantage is that in its design, the device is complex and expensive.

A device for sterilizing liquids is known, containing a source of ultraviolet radiation, made in the form of a longitudinally cylindrical emitter, a reflector and a photoreactor, see RF patent No. 2071946, C 02 F 1/32. The reflector is made in the form of two sections, the first of which is a flat reflective element, and the second is an elliptical half cylinder, with a UV source and a photoreactor located in the focal zone of the latter. The elliptical half-cylinder is the second section of the reflector, it is formed as a result of the cross-section of the original elliptical cylinder by a longitudinal plane oriented normal to the plane in which the focal zones of the original elliptical cylinder are located, the flat reflecting element being placed in the said longitudinal section plane.

In this device for sterilizing liquids, the reflector is used as a reflecting surface for concentration of the rays of the ultraviolet radiation source and subsequent processing of liquids, in addition, the device has a complex structure and is expensive.

A device for sterilizing drinking water is known, consisting of a housing, a cartridge for incorporating an ultraviolet source, a lamp (UFDLR-400), a parabolic reflector, safety glass, a UFS light filter through which the lamp rays pass and enhance their concentration, a silver-plated plate located directly in the flow of drinking water to be sterilized, see RF patent No. 2073646, C 02 P 1/32. A silver plated plate is an electrode of an electrochemical silver ionizer. The essence of the described device lies in the fact that through the use of ultraviolet rays concentrated by a parabolic reflector on the surface of the flow of drinking water, and the use of a silver-plated plate in the flow with the creation of a current strength of 10 mA on it, water disinfection is ensured.

Despite the advantages that this device has in terms of increasing labor productivity, replacing the existing disinfection by chlorinating water with the proposed one, improving the quality of disinfecting drinking water and guaranteeing its taste, it has several disadvantages, namely:

- the complexity of the device, leading to its high cost;

- the synergistic effect of disinfection is achieved only with a single current value of 10 mD, which limits the practical possibilities of using the device;

- there are losses of radiant energy, which reduces the effectiveness of water disinfection;

- the inability to control the output of the amount of silver, providing a concentration of water and regulation of the synergistic effect.

A known installation for disinfecting water, which will include a housing with inlet and outlet nozzles, a bactericidal lamp and an electrode of an electrochemical silver ionizer located in the stream of treated water passing through the cavity of the housing and connected to a current source, which is characterized in that it is equipped with pressure sensors, temperature and light, the inner surface of the body is polished, reflecting the flow of radiant energy, the bactericidal lamp is enclosed in a quartz case and installed in the cavity to rpusa. In addition, the silver ionizer is equipped with additional silver electrodes mounted in the lower part of the housing under the inlet pipe mounted tangentially on the side surface of the housing, see application for the grant of a patent of the Russian Federation for invention No. 98111985. One of the temperature sensors is located on the inlet pipe, and the second is in the installation case, the light sensor is installed at the viewing window made on the case, and the pressure sensor is located in the case of the silver electrochemical ionizer. The essence of this technical solution lies in the fact that ultraviolet rays act together with electrochemically produced silver ions on the treated water, as a result of which a synergistic effect occurs and the disinfection and preservation of water are ensured.

According to the greatest number of similar features and the result achieved using them, this technical solution is selected as the prototype of the claimed invention.

The disadvantages of the prototype is the lack of processing efficiency due to the lack of the necessary degree of mixing of the liquid inside the installation.

The objective of the invention is to increase the effectiveness of disinfection, ensuring water conservation, reducing the cost of equipment, reducing weight and size characteristics, increasing the reliability of the installation, increasing the time for replacing a bactericidal lamp and saving energy.

The invention is expressed in the following set of essential features, sufficient to achieve the goal.

Installation for water disinfection, including a housing with inlet and outlet nozzles, the inner surface of which is polished, reflecting the flow of radiant energy, a bactericidal lamp, which enclosed in a quartz cover and installed in the cavity of the housing, an electrochemical silver ionizer, the electrode of which is located in the stream of treated water, passing through the cavity of the housing, and connected to a current source, additional silver electrodes mounted in the lower part of the housing under the inlet pipe, fixed to the lateral surface of the housing tangentially as well as pressure, temperature and light, characterized therein, that the radial turbine is supplied, installed in the lower part of the housing, wherein the axis of the input and output pipes are offset relative to the longitudinal axis of the housing a distance corresponding to the radius of the turbine impeller.

This is a set of essential features of the invention, providing the above technical result.

The claimed technical solution is new, because it is characterized by the presence of a new set of features that are not available in similar solutions known from the prior art.

Due to the implementation of the essential features of the invention, important new properties of the object are achieved, consisting in increasing the degree of mixing of the liquid inside the installation due to the operation of the turbine, which ultimately leads to an increase in the efficiency of water treatment.

The above allows you to recognize the claimed technical solution meets the criterion of "inventive step".

The invention is illustrated by drawings, where figure 1 shows a section through the claimed device, figure 2 - section aa in figure 1.

Installation for water disinfection consists of a housing 1, an inlet pipe 2, mounted on the side surface of the housing 1 tangentially, an outlet pipe 3. The inner surface of the housing 1 is polished to reflect the flow of radiant energy. An inspection hole 4 is made on the housing 1. In the housing 1, a bactericidal lamp 5 is placed, enclosed in a quartz case 6. The housing 1 also has a removable electrochemical silver ionizer 7 so that a tangentially incoming water stream is washed by a block of bipolar silver electrodes 8. The installation includes two temperature sensor, one of which is the temperature sensor of the source water 9 is located on the inlet pipe 2, and the other temperature sensor of the treated water 10 is placed in the housing 1 of the installation. The light sensor 11 is installed at the inspection window - holes 4. In the lower part of the housing 1 there is a drain pipe 12. A pressure sensor 13 is placed in the housing of the electrochemical silver ionizer 7. The installation is equipped with a partition 14 installed in the lower part of the housing 1 and provided with an opening for the fluid flow about a quartz cover 6 of a bactericidal lamp 5. The installation is equipped with a radial impeller 15 installed in the lower part of the housing 1, while the axes of the inlet and outlet pipes 2 and 3 are offset relative to the longitudinal axis of the housing 1 a melting corresponding to the radius of the impeller of the turbine 15.

Installation works as follows.

The source water entering through the inlet pipe 2 washes the silver electrodes 8 of the electrochemical silver ionizer 7 and is electrochemically saturated with silver ions, then passes in the space between the quartz cap 6 and the housing 1. Ultraviolet rays act on microbial bodies, and the treatment effect is enhanced by reflected from the walls of the housing 1 light flux. Under the action of bactericidal rays, the shell of microorganisms is damaged, as a result of which favorable conditions are created for the penetration of silver ions into organisms. Silver blocks bacterial enzymes, as a result of which the cell dies. Therefore, when combined with silver ions and bactericidal rays, a synergistic effect of water disinfection is observed.

Disinfected water leaves through the outlet pipe 3. Silver ions present in the disinfected water exclude further development (growth) of microorganisms in it (bacteriostatic effect).

The inclusion of the bactericidal lamp 5 is initially done manually. The inclusion of an electrochemical silver ionizer 7 is carried out from a pressure sensor 13, when water enters the installation, the pressure in the water supply system decreases. To save the operating life of the bactericidal lamp 5 in the absence of water consumption for a long time, it is envisaged to turn on the bactericidal lamp 5 from the differential signal of the sensors 9 and 10 (when the temperature difference reaches 10 ° C between the temperature of the water in the installation and the temperature of the source water, the bactericidal lamp 5 is turned off, when cooling and a temperature difference of 2-5 ° C on the contrary - inclusion). The operation of the bactericidal lamp 5 is visually controlled through the inspection hole 4 and automatically from the equipment sensor 11.

The partition 14 operates as a nozzle with a sharp edge, as a result of which the fluid velocity increases behind it and the fluid flow deviates to the walls of the housing 1. This is a soldier a vortex flow leading fluid to the bactericidal lamp 5 and mirror stacks of the housing 1, which leads to improved fluid miscibility and Washability of a bactericidal lamp 5.

When installing a radial impeller, a flow turbulence is also provided in order to improve the miscibility and washability of the bactericidal lamp 5, while it is advisable to increase the inlet flow velocity to 4-6 m / s by reducing the diameter of the inlet 2. For this purpose, a Laval nozzle can be used. When the unit is turned on, a liquid stream from the inlet pipe 2 or nozzle enters the impeller of the turbine 16 and spins it, which creates a vortex flow inside the housing 1, directed along and around the quartz cover 6 of the bactericidal lamp 5.

The possibility of industrial application of the claimed technical solution is not in doubt, so it can be implemented using well-known technical means.

Using the claimed solution in comparison with all known means of a similar purpose provides increased disinfection efficiency, water conservation, reduced equipment costs, reduced overall dimensions, increased plant reliability, increased time for replacing the bactericidal lamp, and energy savings.

Claims (1)

Installation for water disinfection, including a housing with inlet and outlet nozzles, the inner surface of which is polished, reflecting the flow of radiant energy, a bactericidal lamp, which is enclosed in a quartz case and installed in the cavity of the housing, an electrochemical silver ionizer, the electrode of which is located in the stream of treated water, passing through the cavity of the housing, and connected to a current source, additional silver electrodes mounted in the lower part of the housing under the inlet pipe, fixed to the lateral surface of the housing tangentially as well as pressure, temperature and light, characterized in that it is provided with a radial impeller mounted in the lower housing part, wherein the axis of the input and output pipes are offset relative to the longitudinal axis of the housing a distance corresponding to the radius of the turbine impeller.

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