RU2660869C2 - System of swimming pool water treatment - Google Patents

Abstract

FIELD: water and air purification technology.

SUBSTANCE: invention relates to combined methods for treating and disinfecting water using several chemical components and physical effects to produce clean water in a closed circuit and is designed for cleaning swimming pools and swimming pools. Swimming pool water purification system includes two functional units. In the main unit, the water from the bath or the water supply system is fed via a circulation pump to the ejector-cavitator, where water purification is provided by joint disinfection with hydrodynamic cavitation and an ozone-air mixture generated from atmospheric air in an ozone-generating UV lamp. Further, the water is filtered in a sand contact filter and after clarification it is processed by UV radiation. In the disinfection unit, the purified water passes through a faucet, where a disinfecting reagent – perhydrol, enters the dispenser through the dosing pump. Processed water is supplied to the pool.

EFFECT: due to the rational organization of hydrodynamic flows and the synergetic effect in the interaction of active influences and the use of an oxidizer with guaranteed properties, an increase in the efficiency of water treatment is provided, increase of sanitary reliability, reduction of weight and size characteristics and energy consumption, simplification of design.

1 cl, 1 dwg

Description

The invention relates to combined methods of purification and disinfection of water using several chemical components and physical influences to obtain clean water in a closed loop.

The system is designed for water purification of swimming and swimming pools.

The system consists of two functional blocks: basic cleaning and disinfection.

In the first block, water from a bathtub or a water supply system is supplied through a circulation pump to an ejector-cavitator, which is a jet device that acts as an ejector and a generator of hydrodynamic cavitation, where water is purified by simultaneous disinfection of hydrodynamic cavitation and an ozone-air mixture generated from atmospheric air into an ozone-forming lamp UV radiation. Next, the treated water is filtered in a sand contact filter and, after clarification, is treated with UV radiation.

In the second block, purified water passes through a mixer, where a disinfecting reagent, perhydrol, enters from a supply tank through a metering pump. Next, the treated water is supplied to the pool bath.

This unit is used only for disinfection of the installation and the pool bath during commissioning after installation, repair or prolonged shutdown, as well as in the case of negative analyzes of water in the pool bath.

Schematic diagram of the water treatment system of swimming pools is presented in figure 1.

Known devices of systems, stationary installations and water treatment plants of swimming pools described in sources [1], [2], [3], [4], [5], [6], [7], [8].

The closest in technical essence is the utility model RU 113266. Installation for water treatment of swimming pools using ozone, ultrasound, UV radiation and chlorine.

The signs of the closest analogue, coinciding with the essential features of the claimed model are:

- the use in the technological process of water treatment cavitation, ozonation and UV radiation, filtration, secondary disinfection;

- the generation of an ozone-air mixture in the UV radiation unit between the quartz case and the UV lamp;

- the use of overload filter volume as a contact tank for the implementation of the oxidation of impurities and disinfection.

Common disadvantages of these objects are the following:

- the complexity of the design, and hence the low reliability of the nodes, in particular the ozonizer, generator and emitters of ultrasonic vibrations;

- the simultaneous use of chlorine and ozone in the system leads to the occurrence of associated reactions and the formation of chemical compounds harmful to human health, in particular formaldehyde in the pool bath;

- high energy consumption, in particular the cost of generating acoustic cavitation;

- unsatisfactory mass and dimensional indicators of installations;

- instability of the quality of water treatment (treated water does not always meet the requirements of regulatory regulatory documentation).

The reasons that impede the receipt of the technical result provided by the invention when using the device according to the prototype are:

- insufficient oxidation of complex chemical water pollutants due to the presence of associated chemical reactions of oxidizing agents in the system causing a decrease in the activity of each of the disinfecting reagents and the absence of a combined effect on the medium being treated;

- low efficiency of disinfection by acoustic cavitation, especially when working on highly contaminated waters after the initial start-up.

The objective of the invention is to increase the efficiency of water treatment of swimming and swimming pools, increase sanitary reliability and reduce weight and size characteristics and energy consumption.

The essential features of the claimed invention, distinguishing from the closest analogue, are:

- replacing the ejector and acoustic cavitator with a single device - the ejector-cavitator at the first stage of processing will improve the technical and sanitary reliability, reduce energy consumption and the cost of the station;

- the use of joint processing by hydrodynamic cavitation and ozonation allows to achieve a synergistic effect, which allows for a significant reduction in the dose of reagents to obtain a high disinfection effect;

- the use of an active reagent - perhydrol - with a fixed composition and concentration will guarantee the oxidation of complex chemical pollutants;

- the use in the system of non-interacting oxidizing agents - ozone and perhydrol - also leads to a synergistic effect, stabilizes the oxidation of impurities, does not cause the formation of chemical compounds harmful to human health, which significantly increases the sanitary reliability of the system.

The technical result of the invention will be in the development of a system for water treatment of swimming and swimming pools, providing improved cleaning efficiency, increased sanitary reliability and reduced weight and size characteristics and energy consumption due to the rational organization of hydrodynamic flows and a synergistic effect when interacting with active influences, simplifying the design, improving the reliability of the entire installation while reducing weight and size indicators and energy consumption at the same time a gradual reduction in the functional unit - the acoustic cavitator.

The general technical result for all the features included in the formula is to increase the efficiency of water treatment due to the rational organization of hydrodynamic flows and the synergistic effect during the interaction of active influences, as well as the use of an oxidizing agent with guaranteed properties - perhydrol.

The number, purpose and operation of the functional units of the system provide a complete and comprehensive solution to the task.

A similar system can be used for complex treatment of swimming, bathing water, etc. pools, for preservation and conditioning of fresh drinking water on ships and onshore facilities, for the purpose of supplying technical (circulating) water to individual industries, enterprises, organizations, etc.

The present invention will allow for the complete integrated treatment of water in swimming and swimming pools using the processes of cavitation, ozonation, filtration, UV radiation and reagent disinfection due to the use of a synergistic effect in the system that occurs when several active influences and oxidizing agents are used simultaneously (Activated oxidative technologies (AOT's )). AOT's allows to obtain the desired effect to reduce the intensity of each of the individual effects while applying. As applied to AOT's specific system, it involves the simultaneous use of perhydrol, hydrodynamic cavitation, ozonation, and UV radiation.

In this case, this will reduce the ozone dose and the intensity of UV radiation, which reduces the overall dimensions of the system elements and their energy consumption. The use of the proposed systems for the treatment of pool water and water supply (including recycling) will improve the sanitary and epidemiological situation, reduce energy consumption and increase the technical and sanitary reliability of the installation due to the complete rejection of the ozonation unit and acoustic cavitator, reduction of the range of replacement spare parts and consumed reagents . This solution will improve the overall dimensions of water purification systems, simplify their design, reduce construction and operating costs, and allow comprehensive automation of the workflow.

BRIEF DESCRIPTION OF THE DRAWINGS

Figure 1 is a schematic diagram of a swimming pool water treatment system. The scheme is made in the form of graphical symbols for elements connected functionally by lines of water movement, perhydrol and ozone-air mixture.

The first block consists of a circulation pump (pos. 1), an ejector-cavitator (hydrodynamic cavitator) (pos. 2), a crane (pos. 3), a sand filter (pos. 4), an ozone-forming UV lamp (pos. 5) with a check valve (item 6 (1)), through which the ozone-air mixture is sucked off by the cavitator ejector.

The disinfection unit includes: check valve (pos. 6 (2)), mixer (pos. 7), perhydrol tank (pos. 8), metering pump (pos. 9).

The purified water is supplied to the pool bath (item 10).

DETAILED DESCRIPTION OF THE INVENTION

The result is achieved by the fact that the water entering the system undergoes a comprehensive treatment in accordance with the circuit diagram of the swimming pool water treatment plant shown in Figure 1, as follows.

The circulation pump (item 1) of the main treatment unit takes the source water from the pool bath (item 10) (or the centralized water supply system) and feeds it to the jet apparatus, which acts as an ejector and a generator of hydrodynamic cavitation (item 2), where highly efficient saturation of the treated water with an ozone-air mixture generated in a UV lamp (item 5) between a quartz cover and a UV lamp from atmospheric air. At this stage, preliminary processes of oxidation of impurities by ozone and disinfection by hydrodynamic cavitation take place. To prevent the treated water from being thrown into the UV lamp when the system pump stops, a non-return valve is installed at the outlet of it (item 6 (1)).

Next, the water enters through a crane (pos. 3) to control the operating mode and rinse into a sand contact filter (pos. 4), where impurities are separated and clarified by filtration.

As a crane, a 3-way valve or 3 separate valves or valves of any type can be used, providing a nominal water flow in the system while ensuring the necessary corrosion resistance and minimizing hydraulic resistance.

The next step is the treatment of water in a UV lamp (item 5), which provides the most complete post-treatment and disinfection, as well as decay of residual ozone.

After treatment, the purified water is returned to the pool bath (item 10) through the mixer (item 7).

In the case of negative analyzes of the quality of the water in the pool bath, as well as for the disinfection of the installation and pool bath during commissioning after installation, repair or prolonged shutdown, a disinfection unit is used. Then, before being fed into the bath (pos. 10), the perhydrol from the supply tank (pos. 8) is fed through the non-return valve (pos. 6.2) through the non-return valve (pos. 9).

Thus, the number, purpose and operation of functional units provide a complete and comprehensive solution to the task.

The present invention will allow for the complete comprehensive treatment of water in swimming and swimming pools using the processes of cavitation, ozonation, filtration, UV radiation and reagent disinfection due to the use of a synergistic effect system, will improve the sanitary and epidemiological situation, reduce energy consumption and increase the technical and sanitary reliability of the installation due to the complete rejection of the ozonation unit and acoustic cavitator, reducing the number of moving parts , nomenclature of spare parts and reagents consumed. This solution will improve the overall dimensions of water purification systems, simplify their design, reduce construction and operating costs, and allow comprehensive automation of the workflow.

BIBLIOGRAPHIC LIST

1. Patent of the Russian Federation RU 2042637 "Device for disinfecting water with ultraviolet and ozone."

2. Patent of the Russian Federation RU 2142430 “Device for the disinfection of water in swimming pools using chlorine and ozone”.

3. Patent of the Russian Federation RU 98123544. Installation for ozonation of water.

4. Patent of the Russian Federation RU 2092448. The method of cleaning and disinfection of water.

5. Patent of the Russian Federation RU 113266. Installation for water treatment of swimming pools using ozone, ultrasound, UV radiation and chlorine.

6. Rogozhkin G.I. Water treatment and disinfection of water in the pool. Disinfection of pools // Plumbing. - 2003. - No. 4.

7. Mozhaisky M. Cleaner than a spring // Inventor and rationalizer. - 2010. - No. 3.

8. Scherbin B.V. Bubbles clean drains // Inventor and rationalizer. - 2010. - No. 11.

Claims (1)

The swimming pool water treatment system, which includes two functional units: basic cleaning and disinfection, characterized in that the first unit contains a circulation pump, an ejector-cavitator, a sand contact filter, an ozone-forming UV lamp; and the disinfection unit consists of a series-connected mixer, metering pump and perhydrol discharge tank, the system also contains check valves and a crane as control valves, while the ozone-air mixture generated in the UV lamp from atmospheric air enters the ejector cavitator for preliminary oxidation of impurities during joint water treatment by hydrodynamic cavitation and ozonation.

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