RU2403209C2 - Complex module for treating liquid medium in stream - Google Patents

Abstract

FIELD: chemistry.

SUBSTANCE: invention relates to decontamination of liquid media in a stream and can be used in treating waste water. The complex module for treating a liquid medium in a stream contains a horizontal element connected to a hollow metallic element and a second hollow element enclosed in the jacket of a UV lamp, a unit of start-control devices and wires which connect the UV lamp to the unit of start-control devices. The UV lamp is placed horizontally inside the hollow metallic element in an airtight seal. In the second hollow element there are ultrasonic transmitters which are rigidly connected to resonators which are made in form of rods, pipes or plates.

EFFECT: invention increases efficiency of decontaminating liquid and enables cleaning of protective jackets of UV lamps from biocontamination and salt depositions.

2 cl, 2 dwg

Description

The invention relates to the disinfection of liquid media in a stream, through a complex effect on the liquid stream with UV radiation and an ultrasonic acoustic field.

A known module containing a horizontal element and a metal hollow element connected to it, UV lamps enclosed in protective covers made of a material transparent to UV radiation, each of which is horizontally mounted in a hermetic seal in a hollow element, ballast control unit (ballast) as well as wires passing inside a separate hollow element that connect the UV lamp to the ballast.

RU 2223231, IPC C02F 1/32, 2004

The disadvantages of the known module are low operational properties, the need for frequent routine maintenance to clean the protective covers of UV lamps from biofouling and salt deposits.

The tasks to which the proposed solution is directed are to increase the operational and functional properties of the structure for liquid processing.

The technical result is achieved by the fact that the complex module for processing a liquid medium in a stream contains a horizontal element and a metal hollow element connected to it, UV lamps enclosed in protective covers made of a material transparent to UV radiation, each of which is horizontally mounted in an airtight seal in the hollow element, the ballast control unit (PRA), as well as the wires passing inside the tubes that connect the UV lamp to the ballast control unit, the suspension rail, while horizontally The second hollow element is attached to the solid element with ultrasonic emitters installed in it, rigidly connected to the resonators made in the form of rods or tubes and / or plates located along the covers with UV lamps, and ultrasonic emitters are also installed in the horizontal element rigidly connected to additional resonators, and the horizontal element is removable, in contact with the groove or with the grooves, through which the flow of the processed fluid flows, and the grooves have acoustic isolation on the outside on the sides of which (s) ultrasonic emitters are installed, also having acoustic isolation and located at the points of maximum oscillations.

The drawing shows a comprehensive module for processing a liquid medium in a stream:

figure 1 - General view;

figure 2 is a side view.

The complex module for processing a liquid medium in a stream contains a horizontal element 1, a hollow element 2, in which UV lamps 4 enclosed in covers 3 are mounted, a second additional hollow element 5 connected to a horizontal element, in which ultrasonic emitters 6 are mounted, rigidly connected to the resonators 7 located along the covers 3 with UV lamps 4. The horizontal element is removable and is in contact with the groove or grooves 8 and 9, which are acoustically separated from each other and on the outside of which there are ultrasonic emitters 10 with acoustic decoupling 11 and installed at the points of maximum oscillations. Ultrasonic emitters 6 with resonators 7 are also installed in the horizontal element 1 (ultrasonic emitters 6 with resonators 7 installed in the horizontal element 1 are identical to ultrasonic resonators 6 with resonators 7 installed in the second additional hollow element 5, but their location is different: resonators 7 of ultrasonic emitters 6 installed in the second additional hollow element have a horizontal arrangement, the resonators in the horizontal element are vertical). UV lamps 4 are connected to the control cabinet 12. Ultrasonic emitters 6 are connected to the control cabinet 13.

The principle of operation of a complex module for processing a liquid medium in a stream in non-pressure systems is as follows. In the gutter or gutters 8 and 9, connected through an elastic-elastic gasket, the flow of the processed fluid moves, the removable horizontal element 1 is installed so that the longitudinal axis of the covers with UV lamps 4 are directed along the flow direction or at some angle to the flow (in the second case turbulent flows are formed in the flow, which contribute to a more effective disinfection). Under the influence of UV radiation, most types of bacteria die in the fluid stream. Simultaneously with UV irradiation in the medium of the fluid to be treated by means of ultrasonic emitters 6, 10 installed in the second additional hollow element, an acoustic field of the ultrasonic range is created in the horizontal element and on the outside of the grooves 8 and 9, which contributes to a more effective disinfection of the treated liquid.

Moreover, under the influence of an acoustic field of ultrasonic frequency in a liquid medium, OH, O ₂ free radicals are formed, which additionally oxidize organic and inorganic substances in liquid effluents. The acoustic field, which is created by means of ultrasonic transducers, provides effective cleaning of protective covers with UV lamps 4 from biofouling and salt deposits contained in the processed liquid medium. Thus, one of the most acute problems of bio-pollution of UV-disinfection plants is solved.

The proposed design of a comprehensive module for disinfecting liquids in a stream is the most effective system for reagent-free disinfection of sewage, even of high turbidity, with which conventional, well-known UV-disinfecting plants are ineffective.

Claims (2)

1. A comprehensive module for processing a liquid medium in a stream, containing a horizontal element and a metal hollow element connected to it, UV lamps enclosed in protective covers made of UV-transparent material, each of which is horizontally mounted in an airtight seal in a metal floor element, control gear unit, wires that connect the UV lamp to the control gear unit, characterized in that a second hollow element is attached to the horizontal element with installed in it ultrasonic emitters, rigidly connected to resonators made in the form of rods, tubes or plates. 2. The complex module for processing a liquid medium in a stream according to claim 1, characterized in that the horizontal element is removable, in contact with the grooves for the liquid medium, acoustically separated from each other, on the outside of which ultrasonic emitters with acoustic decouples are installed at the points of maximum vibrations .

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