RU2177452C2 - Device for treatment of liquid by ultra-violet radiation - Google Patents

Abstract

FIELD: disinfection and sterilization of liquids (badly turbid media) inclusive) by means of ultra-violet radiation of bactericidal range; submersible multi-lamp closed systems. SUBSTANCE: has cylinder whose base has holes; it is also provided with inlet and outlet branch pipes and inner cylinder with stiffeners. Ultra-violet lamps are placed in covers made from material transparent to ultra-violet radiation; they are located in circular clearance between envelopes in parallel with their generatrices; they are received by holes in base of outer envelope. Lamps in circular clearance are arranged over concentric circles; inlet and outlet branch pipes are located coaxially relative to envelopes and units for forming flow are located on outer of inner envelope; they are made in form of straight and/or concave blades turned at angle relative to guide. EFFECT: enhanced efficiency; possibility of processing badly turbid liquids at high flow rate. 5 cl, 2 dwg

Description

 The invention relates to the field of disinfection and sterilization of liquids (including highly turbid media) using UV radiation of the bactericidal range and can be used in closed multi-tube submersible systems.

Currently, there is a need for systems for treating liquids with UV radiation, equipped with standard mercury germicidal low-pressure lamps (type DB-75), covering the flow range from 50 to 700 m ³ / h, designed for pressures from 4 to 15 atm and suitable for processing not only transparent, but also highly turbid liquids.

 The reason for the absence of such devices is significant structural difficulties that arise during their development and consisting in solving such basic problems as reducing the number of UV lamps, increasing the efficiency of their radiation using the organization of the optimal hydrodynamic structure of the flow and reducing pressure losses. In known devices of this type of lamp, as a rule, they are located perpendicular to the direction of fluid flow (transverse flow), which makes it possible to optimally use the arc length of the lamp radiation. However, the main disadvantage of such systems is the large pressure loss in the installation. When the lamps are arranged parallel to the direction of flow (longitudinal flow), the pressure loss can be significantly reduced, however, with the indicated water flow rates and the number of lamps over 16, the diameter of the inlet and outlet nozzles occupies a disproportionately large part of the installation casing and with such a geometry, the radiation of the lamps is not used efficiently.

 For the above reasons, multi-tube designs for these costs that meet the above requirements are currently virtually absent.

A device is known for disinfecting water with UV radiation from WEDECO (type LBC), designed to disinfect only ultra-clear transparent water for industrial purposes and designed for a flow rate of up to 150 m ³ , containing a complex stainless steel case with an inlet and outlet nozzles equipped with flanges. Inside the case, 14 UV lamps in protective covers are mounted concentrically and parallel to the flow direction. The disadvantages of this installation are the limitation of the scope of application only to liquids with a high transmittance of UV radiation, as well as the inability to accommodate more lamps.

 A device for treating longitudinal flow fluid (patent WO 96/11879) is also known, comprising a cylindrical body having inlet and outlet nozzles coaxially arranged. In the irradiation zone located between the pipes, parallel to the generatrix of the housing installed 16 UV lamps. Each lamp, enclosed in a protective quartz cover, is mounted on a circuit board fixed to the housing with fasteners. The lamps are electrically connected to a power and alarm unit. The specified design allows to reduce the input hydraulic losses and eliminate stagnant zones formed due to the indirect flow passage in the devices of the standard circuit. However, this design does not allow compact placement of a larger number of lamps and is not designed for a pressure of more than 10 atm due to the weakening of the strength of the housing in the places of lamp attachment.

 A device for disinfecting a liquid with a transverse flow around lamps (RF patent 2058068, C 02 F 1/32, 94), adopted for the prototype of the invention, containing an external hollow cylindrical shell, closed at the ends of the caps, which are made holes for the supply of pipes and the installation of UV lamps in protective covers, inside of which, coaxially external, an internal hollow cylindrical shell equipped with stiffeners is installed. UV lamps enclosed in protective covers made of a material transparent to UV radiation are placed in a certain way in the annular gap between the shells parallel to their generatrix and are fixed in the holes of the end caps. In the known installation provides flow control means, which can be used as flat partitions or pipes located in the disinfection chamber between the nozzles. This design is designed for a number of lamps of more than 200. The known technical solution allows to increase the efficiency of water treatment due to the appropriate organization of the flow passing through the irradiation zone, however, it has significant pressure losses.

 The essence of the invention lies in the fact that the device for treating liquids with UV radiation includes an external hollow cylindrical shell, the bases of which are made holes, and inlet and outlet pipes connected to it, as well as an internal hollow cylindrical shell equipped with stiffeners and mounted coaxially to the external , UV lamps enclosed in covers made of a material transparent to UV radiation, located in the annular gap between the shells parallel to their generators and installed in the openings of the bases of the outer shell, as well as the means of forming the flow.

 According to the invention, the lamps in the annular gap are arranged in concentric circles, the inlet and outlet pipes are aligned with the shells, and the flow forming means are arranged along the guides of the inner shell from the outside. Means of forming the flow are made in the form of straight and / or concave blades, turned at an angle to the guide, and the direction of rotation of the blades located on the side of the inlet pipe is opposite to the direction of rotation of the blades on the side of the output pipe relative to the axis. The bases of the inner cylindrical shell are made torospherical.

The technical result of the invention is the expansion of the arsenal of technical means for disinfection and sterilization of liquids by creating closed multi-tube installations of submersible type of longitudinal flow with a flow rate of 50 to 700 m ³ / h and suitable for the treatment of highly turbid liquids.

 These signs are significant, as they are directly related to the technical result. The proposed design allows to reduce the pressure loss and compactly place the required number of radiation sources due to their orientation (longitudinal flow) and concentric arrangement, as well as significantly increase the strength of the housing due to the cylindrical geometry and minimize the area of the flat parts of the installation. The presence of an inner cylindrical shell with flow forming means located on it, made in the form of vanes rotated at an angle with different directions of rotation from the inlet and outlet nozzles, makes it possible to optimally organize the flow of the processed fluid through the installation. The flow of the processed liquid coming through the inlet pipe is directed to the inner cylindrical shell, which forces it into the annular gap, where it is exposed to UV radiation. In addition, the inner shell and the elements of the flow formation located on it provide a spiral-like mode of its flow, as a result of which the radiation of UV lamps is used more efficiently, and the radiation dose received by the flow of the treated liquid increases.

The specified set of essential features as a whole determines the feasibility of achieving a technical result - expanding the arsenal of a device for sterilizing and disinfecting liquids by creating closed multi-tube installations of submersible type of longitudinal flow with a flow rate of 50 to 700 m ³ / h, which have low pressure losses with high disinfection efficiency and suitable to use for muddy environments.

 The invention is illustrated by drawings, where in FIG. 1 shows the proposed device for processing liquids, and in FIG. 2 - UV lamp in a protective case with electrical contacts and moisture-proof seals.

 The device includes an outer shell 1 in the form of a cylinder, inlet and outlet tubes 2, 3, respectively, UV lamps 4, enclosed in protective quartz covers 5, an inner cylindrical shell 6, the base 7 of which is made torospherical and provided with stiffening ribs 8. Along the guides of the inner shell, flow forming means are placed in the form of blades 9, and the direction of rotation of the blades from the inlet side is opposite to the direction of their rotation from the side of the outlet pipe. In the bases of the outer shell there are openings 10, 11 for connecting the nozzles and installing UV lamps in the covers, respectively. The lamps in the covers have electrical contacts 12, through which they are connected to power and alarm units and means 13 to prevent liquid from entering the electrical contacts of the lamps. The device is equipped with samplers 14, additional nozzles 15 for flushing the installation, as well as nozzles 16, 17 for draining water and venting, respectively.

 The proposed device is implemented as follows.

 A device for the disinfection of drinking water with a horizontal housing has overall dimensions of 1300x1240x670 mm. The device includes an outer shell 1 (body) made of stainless steel in the form of a cylinder and attached to the corresponding holes 10 in its bases by welding the inlet and outlet pipes 2, 3, equipped with flanges. Inside the case, coaxially to it, an inner cylindrical shell 6 (fairing) is installed, having inside the ribs 8 stiffness in the form of rims, the base 7 of which have a torospherical surface and are fixed by welding. On the outside of the fairing, along its guides, 18 concave blades 9 are turned at an angle to them, twisted at an angle to them, to twist the flow, and the direction of rotation of the blades from the inlet and outlet nozzles is opposite to the axis of the shells. In the holes 11 of the bases of the cylindrical body, UV lamps 4 are installed in protective quartz covers 5. The lamps have electrical contacts 12 through which they are connected to power and signaling units. Protective covers are equipped with means 13 to prevent liquid from entering the electrical contacts of the lamps. The lamps are located in the annular gap between the walls of the housing and the fairing parallel to their generators in concentric circles. The ends of the lamps are fixed on both sides in the holes 11 of the housing bases with fasteners. The device is equipped with samplers 14 located on the inlet and outlet nozzles for monitoring the disinfected liquid and additional nozzles 15 for flushing the installation in case of contamination of the lamp covers. On the housing of the installation there are also nozzles 16, 17 for draining water and venting, respectively.

 The device operates as follows.

 Wastewater having a transmittance τ from 0.3 to 1.0 for λ = 253.7 nm is subjected to disinfection. The fluid flow through the inlet pipe enters the outer shell (housing) with a diameter of 650 mm and is directed to the inner cylindrical shell (fairing) with a diameter of 314 cm. In this case, the flow is spirally twisted with the help of blades and pushed to the walls of the housing into the annular gap between the housing and the cowling (zone irradiation), where it is exposed to bactericidal UV radiation, and from the side of the inlet pipe the blades are turned clockwise relative to the axis of the shells and the direction of the incoming stream, and at the output otiv clockwise. The sources of UV radiation are low-pressure mercury lamps of the DB-75 type in quartz covers located parallel to the generatrix of the housing and, accordingly, to the flow of the processed liquid.

 The lamps are fixed in the holes of the base of the housing. The lamps are equipped with electrical contacts for supplying power and connecting to the alarm system, which are protected against water ingress by rubber seals. The lamps are located on 2 concentric circles. The first circle consists of 16 lamps. This is followed by a second circle of 20 lamps. The length of the housing approximately corresponds to the length of the lamp in the case and is 1200 mm. The design provides for the possibility of increasing the number of lamp circles, for example, to 4. The design of the installation allows operation at a pressure in the chamber of up to 15 atm. The device can be located both horizontally and vertically.

 Example.

Wastewater having a transmittance τ from 0.3 to 1.0 for λ = 253.7 nm is subjected to disinfection. The device is located vertically. The fluid flow is supplied through the inlet pipe into the outer shell (casing), is directed to the inner cylindrical shell (fairing), on the outer surface of which there are straight blades that give the flow a spiral motion and push it to the walls of the casing in the annular gap between the casing and the fairing (irradiation zone) ) In the irradiation zone, the liquid is exposed to UV radiation from bactericidal lamps installed there. Bactericidal lamps are low pressure discharge mercury vapor lamps of the DB-75 type installed in protective covers made of borosilicate silica glass (72.2% SiO ₂ , 17.1% B ₂ O ₃ , 2.6% Al ₂ O ₃ , 5, 6% Na ₂ O, 1.4% K ₂ 0, 0.3% MgO, 0.8% CaO). The lamps have a maximum of UV radiation at a wavelength of 253.7 nm.

 The longitudinal axis of the lamps are oriented along the flow of the processed fluid.

 The lamps are fixed in the openings of the housing bases, equipped with electrical contacts for supplying power and connecting to the alarm system, which are protected from water by rubber seals.

Claims (5)

 1. A device for treating liquids with UV radiation, containing an external hollow cylindrical shell, in the bases of which holes are made, and inlet and outlet pipes connected to it, as well as an internal hollow cylindrical shell equipped with stiffeners and mounted coaxially with an external UV lamp, enclosed in covers made of a material transparent to UV radiation, located in the annular gap between the shells parallel to their generators and installed in the holes of the bases of the outer shell, as well as means for forming characterized by the fact that the lamps in the annular gap are arranged in concentric circles, the inlet and outlet pipes are aligned with the shells, and the means for forming the stream are placed along the guides of the inner shell from its outer side.  2. The device according to claim 1, characterized in that the means for forming the flow are made in the form of straight and / or concave blades.  3. The device according to claims 1 and 2, characterized in that the means of forming the flow are rotated at an angle to the guides of the inner shell.  4. The device according to claims 1 to 3, characterized in that the direction of rotation of the flow forming means located on the side of the inlet pipe is opposite to the direction of rotation of the flow forming means located on the side of the output pipe relative to the axis of the shells.  5. The device according to claims 1 to 4, characterized in that the bases of the inner cylindrical shell are made torospherical.

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