WO2012118407A2

WO2012118407A2 - Device for disinfecting liquids with ultraviolet radiation

Info

Publication number: WO2012118407A2
Application number: PCT/RU2012/000133
Authority: WO
Inventors: Николай Николаевич КУДРЯВЦЕВ; Сергей Владимирович КОСТЮЧЕНКО; Сергей Владимирович ТИМАКОВ; Владимир Борисович ФРИДМАН
Original assignee: Закрытое Акционерное Общество Производственная Компания "Лаборатория Импульсной Техники " (Зао Пк "Лит")
Priority date: 2011-03-01
Filing date: 2012-02-28
Publication date: 2012-09-07
Also published as: RU2470873C2; RU2011107624A; WO2012118407A3

Abstract

The housing device for disinfecting water with UV radiation, with a lateral cartridge arrangement, has means for smoothing out the flow, said means being arranged directly after the cartridge inlet opening and before the cartridge outlet opening in the device body and being in the form of elements of a size A in the flow direction. The elements are arranged along the entire diameter of the cartridge inlet and outlet openings with a subsequent horizontal offset B and vertical offset C in relation to each other, with the condition that B and C are less than A, and B is approximately equal to C. The elements may be in the form of vanes, angle sections or plates.

Description

LIQUID DISINFECTION SYSTEM

UV RADIATION

The invention relates to the field of water purification and water treatment, in particular to multi-tube casing installations for disinfecting liquids with ultraviolet (UV) radiation of the bactericidal range.

Technical field

In the field of technology, when developing closed-type equipment in which the flow of the processed fluid is limited by the installation casing, there is a problem in the uneven distribution of flow velocities over the cross section during its passage through the UV irradiation zone formed by bactericidal lamps installed inside the casing. This can lead to the fact that a local water jet passing through the irradiation zone at a speed significantly higher than the average flow rate does not receive the necessary dose of UV radiation and remains uninfected, which is unacceptable by established sanitary standards.

To solve this problem, various devices are used in the hull installations, designed to ensure equalization and uniformity of velocities of individual parts of the processed fluid flow passing through the UV irradiation zone. The designs of such devices are largely determined by the geometric parameters of the installations, in particular, by the location of the inlet and outlet pipes for the inlet and outlet of water on the installation body (end or side location), the diameter of the nozzles, as well as the orientation of the lamps relative to the direction of flow.

The lateral location of the nozzles is determined by the fact that their axis is perpendicular to the longitudinal axis of the installation housing. In this case, the nozzles can be located on one or on the opposite side surfaces of the housing.

State of the art

A known casing installation for disinfecting water with UV radiation with an end arrangement of nozzles and a transverse orientation of UV lamps in the irradiation zone, in which diffusers are used to equalize the flow velocity over its cross section (US Patent US 6,976,508, F15D1 / 00, 2004).

Diffusers are placed in the installation housing immediately before the flow inlet into the lamp zone in the specified order and can have various shapes - stripes, plates, blades. The use of diffusers allows you to split the total flow into separate parts with a more uniform distribution of velocities over the cross section, which improves the hydraulic properties of the installation and allows optimal use of UV radiation from the lamps. However, the use of the known technical solution is effective only for end-to-end supply of water and cannot be used for installations with a lateral arrangement of the inlet and outlet pipes.

For the prototype of the proposed invention, an installation for disinfection of water by UV radiation was selected, comprising a casing on the side surface of which inlet and outlet openings for fluid flow are made, to which pipes for supplying and discharging treated water are connected. The axis of the nozzles is perpendicular to the longitudinal axis of the installation housing, that is, they have a lateral arrangement. Inside the case bactericidal UV lamps enclosed in quartz covers are installed in a certain order, and the longitudinal axis of the lamps are oriented parallel to the direction of flow inside the installation.

Immediately after the inlet and in front of the outlet of the nozzles, inside the installation casing there are lattices designed to equalize the flow of the processed fluid at speeds along its section. There are openings in the gratings for the installation of lamps (Passport "Installation of water disinfection by ultraviolet radiation UDV-18A500-10-300-D", manufactured by ZAO LIT, 2010)

The implementation of the means of equalizing the flow rates in the form of gratings makes it possible to take into account the peculiarities of the formation and passage of the flow through the unit body with a lateral branch pipe arrangement, which ensures the relative uniformity of the flow velocity field over the lamp section and the uniformity of the UV irradiation of the flow as a whole. However, a disadvantage of the known design is the significant pressure loss at high flow rates in the disinfection zone, which are especially significant for high-capacity installations using modern high-power UV lamps. To reduce the pressure loss, it is necessary to use gratings with a large living area, which negatively affects the alignment of the flow and, as a consequence, the effectiveness of disinfection.

Disclosure of invention

The technical result achieved by the implementation of the proposed invention is to reduce pressure losses, increase equipment productivity, increase the efficiency of water disinfection and reduce energy costs for pumping water for casing installations with lateral branch pipes. The specified technical result is achieved due to the fact that the installation for water disinfection by UV radiation, including a closed housing with a lateral arrangement of nozzles, inside which UV lamps are installed in protective covers transparent to UV radiation, as well as means for equalizing the flow located immediately after the inlet and in front of the outlet openings of the nozzles in the installation housing, according to the invention, the means for aligning the flow are made in the form of elements having a dimension A in the direction of flow, and are located along the entire diameter of the holes of the inlet and outlet nozzles with subsequent horizontal displacement B and vertical displacement C relative to each other, provided that B and C are less than A, and B is approximately equal to C.

It is advisable that the elements were made in the form of blades, corners, or plates.

Brief Description of the Drawings

In FIG. 1 shows an installation for disinfecting water with UV radiation, adopted as a prototype of the proposed technical solution; in FIG. 2 - the proposed installation, in FIG. 3 shows the location of the flow-leveling elements in the installation case, and FIG. 4 illustrates the distribution of flow on the leveling elements.

The prototype device includes a housing 1 with a lateral arrangement of the inlet and outlet pipes 2,3, in which UV lamps 4 are installed in protective covers, and grills 5 installed in the installation housing immediately after the inlet and in front of the outlet openings are used as means for equalizing flow rates .

The proposed device consists of a housing 1 with a lateral arrangement of the inlet and outlet pipes 2,3, in which are installed UV lamps 4 in protective covers, and elements 6, designed to equalize flow rates, located in the installation housing immediately after the inlet and in front of the outlet openings of the nozzles along their diagonal. The elements have a size of 8 A in the direction of flow 7 and are located with a horizontal offset of 9 V and a vertical offset of 10 C relative to each other over the entire diameter of the nozzle, with B approximately equal to C and B, C less than A.

The device operates as follows: the flow 7 of the disinfected liquid is supplied through the inlet side pipe 2 to the inlet, rotates and breaks up using equalizing elements 5 into separate parts, each of which passes along the rows of lamps 4, receiving the required dose of UV radiation, under which it is disinfected . The disinfected liquid is removed from the housing through the discharge pipe 3.

The use of many elements as a means to equalize the flow in case-mounted installations with a lateral arrangement of nozzles takes into account the specifics of their geometry when forming the flow and allows not only to compare the flow rates across the entire section of the lamp zone by dividing it into separate parts, but also to reduce the pressure loss over due to the lack of gratings, which makes the process of disinfecting liquids more effective.

An example embodiment of the invention

The liquid disinfection unit of the UDV 30A800-10-5-500 type manufactured by LIT CJSC has a cylindrical body 1 with a length of 2.6 m and a diameter of 0.7 m with a Ζ-shaped arrangement of nozzles. The diameter of the inlet and outlet pipes 2,3 is 0.5 m. The plant capacity is about 2,000 m3 / h. Inside the casing, along its entire length, 30 low-pressure bactericidal amalgam lamps 4 are installed, enclosed in protective quartz covers oriented along stream 7. The lamps are 2.5 m long. The lamps have sealed electrical contacts and are fixed to the end walls of the casing so that they longitudinal axes are oriented along the flow direction in the disinfection chamber and parallel to the longitudinal axis of the casing.

At the entrance to the housing after the inlet, 6 pieces were installed along its diagonal. elements 6 in the form of blades, each of which has a stream length of 8 A = 150 mm. The blades are located with a horizontal offset of 9 V = 84 mm relative to each other and a vertical offset of 10 C = 100 mm. The number of blades is selected so that the entire cross section of the nozzle is blocked. Compared with the prototype (for installing this type with leveling gratings) with the same performance, when using the blades as a means to equalize the flow, the pressure loss is reduced by more than 2 times, and the energy consumption for pumping water, as a result, is reduced in proportion to the drop in pressure loss.

Claims

RECEIVED / W 2 'JUNE 7, 2012, Hau 0 1 2/0 0 0 1 3 3 WO 2012/118407 PCT / RU2012 / 000133 7 FORMULA OF THE INVENTION

1. Installation for disinfecting liquids with ultraviolet radiation, comprising a housing with a lateral arrangement of the inlet and outlet pipes, inside which, in a certain order, UV lamps are installed, enclosed in protective covers that are transparent to UV radiation, and also means for equalizing the flow located

immediately after the inlet and in front of the outlet

nozzles in the installation housing, characterized in that the means for equalizing the flow are many elements,

having dimension A in the direction of flow and located along the entire diameter of the inlet and outlet of the nozzles with subsequent horizontal B and vertical C offset relative to each other, provided that B and C are less than A, and B is approximately equal to C.

2. Installation according to claim 1, characterized in that the elements for aligning the flow are in the form of blades, strips, corners.

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