RU46197U1 - WATER TREATMENT PLANT "CRYSTAL" - Google Patents

Abstract

The utility model relates to the technique of purification of drinking water from impurities and can be used for water treatment in technological lines of food production. The water treatment plant includes an aerator, filters and storage tank. All elements of the installation are connected by water conduits and mounted on the frame. Purification of water from impurities occurs sequentially in each filter of the installation. The source water passes through a vortex aerator and is saturated with oxygen. In the iron removal filter, iron is oxidized and trapped in quartz sand. On the softening filter, water is purified from hardness salts. A sorption filter loaded with active birch carbon frees water from organic impurities. A mechanical filter removes particulate matter from water. Bactericidal treatment of water is carried out due to exposure to water with ultraviolet rays in the sterilizer. The installation provides water purification and bringing its quality to the requirements of sanitary norms and rules for drinking water.

Description

The utility model relates to the technique of purification of drinking water from impurities and can be used for water treatment in technological lines of food production.

A known installation for producing drinking water, including interconnected aerators, filters for water purification, a mineralizer to improve water quality, while one of the conduits has a section with magnets for magnetic treatment of water (see patent of the Russian Federation No. 2101232, class C. 02 F 1/48, 1998). The disadvantage of this installation is the insufficiently complete purification of drinking water.

The closest in technical essence and the achieved result is a complex for producing drinking water, including an aerator, storage tank, filters, and a pumping station interconnected by water conduits (see patent of the Russian Federation No. 2083506, class 02 F 1/78, 1/28 , 1997). The disadvantage of this complex is the insufficiently complete water purification.

The objective of the utility model is to create a water treatment plant that provides effective purification of drinking water from mechanical impurities, high iron content, removal of dissolved gases, organic impurities and hardness salts, as well as bactericidal treatment of water.

The problem is solved in the installation of a water treatment plant, including aerator, filters, a storage tank and a pumping station connected by water ducts, while the installation has a frame, a reaction tank and ultraviolet

a sterilizer, and an aerator with a reaction vessel is located in the deferrization filter housing, behind which a storage tank is located, then a pump station is located and a softening filter, a sorption filter and a filter for removing mechanical impurities are connected in series, connected by a water conduit to an ultraviolet sterilizer, while all these elements are fixed to frame.

The essence of the utility model is illustrated by drawings, where Fig. 1 shows a diagram of a water treatment plant, Fig. 2 shows a deferrization filter with an aerator and a reaction tank.

The water treatment plant includes a vortex aerator 1 for deep aeration of water, a reaction tank 2, built directly into the deferrization filter housing 3 with quartz sand and a storage tank 4. After the storage tank 4, a pump station 5 is located, and a softening filter 6 with an ion-exchange resin for cleaning is installed in series water from hardness salts (Ca ⁺ , Mg ⁺ , sorption filter 7 with loading from active birch charcoal to release water from organic impurities, mechanical filter 8 for cleaning from of particles of 5 microns or more in size and an ultraviolet sterilizer 9 for bactericidal treatment of water with ultraviolet rays.

Installation water treatment works as follows. Purification of water from impurities occurs sequentially in each filter of the complex. Each individual filter purifies water from a certain group of impurities.

At the first stage of water purification, the deferrization filter 3 operates, which is a cylindrical vertically located container. The source water passes through the vortex aerator 1 and is saturated with oxygen. The high performance of the dissolved oxygen vortex aerator 1 is ensured by the interaction of coaxially swirling water flows rotating in opposite directions with the formation of a rarefaction zone into which atmospheric air enters. To intensify the process of saturation of the source water with atmospheric oxygen

the reaction vessel 2 is used, which is built directly into the deferrization filter housing 3. As a result of oxygen saturation of the water, the dissolved Fe ^{+ 2} iron is oxidized and passes into Fe ⁺³ . After passing through quartz sand, water is purified from colloidal formations of iron oxide, and enters the storage tank 4.

At the second stage, water is purified from hardness salts by the ion exchange method in a softening filter 6, where water is supplied by the pumping station 5 from the storage tank 4. When water passes through the filter material (ion-exchange resin) with active ionic groups fixed on them, an exchange reaction with ions of the same sign in the water. In the process of filtering water through ion-exchange resins, they are saturated with purified metals (Ca, Mg), and water is softened.

In the third stage of purification, water passes through a sorption filter 7, which is a cylindrical vertically located container. Inside the housing of the sorption filter 7 is placed a sorbent load of activated birch carbon, passing through which water is freed from organic impurities.

In the fourth stage of purification, water passes through a mechanical filter 8 and is purified from solid particles with a size of 5 μm or more.

At the fifth stage of water purification, a bactericidal water treatment device in the form of an ultraviolet sterilizer 9 is operating. Water is disinfected by exposure to water from ultraviolet rays emitted by a mercury arc lamp. The flow of water to be disinfected moves in the gap formed by the inner surface of the sterilizer body 9 and a quartz tube in which there is a mercury arc lamp.

After all stages of purification, the water quality becomes relevant to the requirements of sanitary norms and rules for drinking water, after which the water is supplied to consumers.

Claims (1)

A water treatment plant including an aerator, filters, a storage tank and a pump station connected by water ducts, characterized in that it is equipped with a frame, a reaction tank and an ultraviolet sterilizer, the aerator with a reaction tank located in the deferrization filter housing, behind which a storage tank, pump station and a softening filter, a sorption filter and a mechanical filter connected by a conduit to an ultraviolet sterilizer are installed in series, all of which cients installation fixed to the frame.