RU74908U1 - WATER UV DISINFECTION SYSTEM - Google Patents

Abstract

An ultraviolet water disinfection system, characterized in that it comprises a sieve compartment having five channels, each of which has at least one sieve with a clearance of 1.4 mm; Department of ultraviolet (UV) disinfection, has eight channels, one of which is a backup, collection and distribution channel connecting these offices, inlet and outlet channels, a water level maintenance system is installed in each of the channels of the UV disinfection department, including an electrically adjustable shutter switch and an ultrasonic level sensor, shutoff gates are installed at the inlet and outlet of the channel, four UV sections are installed in each channel, each of which consists of two modules, in each of which It sets 36 germicidal UV lamp in a quartz protective covers so that the lamp longitudinal axis oriented transversely to the direction of water flow; each of the modules is equipped with a system of mechanical cleaning of the surface of quartz covers, which turns on after a certain period of time; also in one of the UV sections, a UV sensor is installed to control the intensity of UV radiation, in addition, a tau meter is installed in each channel, designed to measure the transmission of ultraviolet radiation by water, in addition, the system includes a chemical washing unit for quartz covers.

Description

The utility model relates to the field of disinfection (disinfection) of treated wastewater in wastewater treatment plants. The lack of disinfection at treatment facilities leads to the fact that pathogenic microorganisms - bacteria, viruses, protozoa, together with treated wastewater enter water bodies, the infection of which by pathogenic microorganisms limits the use of water bodies for swimming, recreation, sports, and drinking water supply, as there is a likelihood of contracting diseases such as cholera, typhoid, dysentery, acute respiratory infections and others. Wastewater disinfection is one of the most important measures to ensure the sanitary and epidemiological well-being of the population.

Until recently, the main method of wastewater disinfection was chlorination, which reduces bacterial contamination of wastewater, but retains the risk of infection with viruses, has negative environmental consequences. The most promising and environmentally friendly method of disinfection of large volumes of wastewater is the method of disinfection with ultraviolet radiation (UV radiation). The bactericidal effect of ultraviolet radiation is based on the destruction of chemical bonds in the DNA and RNA molecules of living cells of microorganisms in water, due to the photochemical effect of light energy. Unlike chemical disinfectants, ultraviolet does not affect the chemical composition of water and, accordingly, does not lead to the formation of harmful by-products.

A known installation for treating wastewater from organic and mineral substances by ultraviolet radiation, comprising a pre-treatment unit, including a clarifier clarifier with an integrated mixing-flocculation chamber, a clarified water tank, a filter, an ultraviolet irradiation chamber, pipelines (Patent No. 65042 U1 of 07.27.2007 ) is an analogue.

The disadvantage of this installation is the lack of disinfection of wastewater.

Known modular system for treating water with ultraviolet radiation, which contains modules installed in the flow of the processed medium, equipped with devices for cleaning covers, connected to a source of pressure, while the module contains a housing consisting of vertical uprights and transverse bases in which UV lamps are installed in covers made of a material transparent to ultraviolet radiation, and the device for cleaning lamp covers is made in the form of transverse gratings with holes for lamps, in which the cleaning rings are installed, the device is installed in the housing with the ability to move relative to the lamp covers by connecting with a moving element configured to move along a vertical rail installed in the module housing, the moving element being made in the form of a closed hollow cylinder connected to a hollow cylinder of a smaller diameter, made with the possibility of movement relative to this cylinder (patent No. 2210545 C2 from 08.20.2003) -analogue.

The disadvantage of this system is the complexity of the design of the module, an increase in its dimensions, which leads to an increase in the depth of the channel in which the modular system is mounted, as well as an insufficient degree of disinfection of wastewater.

The technical result achieved by the claimed utility model is to increase the efficiency of wastewater disinfection.

The essence of the utility model lies in the fact that the ultraviolet disinfection system for water contains a sieve compartment having five channels, each of which has at least one sieve with a clearance of 1.4 mm; an ultraviolet (UV) disinfection unit having eight channels, one of which is a backup, collection and distribution channel connecting these compartments, inlet and outlet channels, a water level maintenance system is installed in each of the channels of the UV disinfection unit, including an electrically adjustable shutter switch and an ultrasonic level sensor; shutoff gates are installed at the inlet and outlet of the channel; four UV sections are installed in each channel, each of which consists of two modules, each of which has 36 bactericidal UV lamps in protective quartz covers, so that the longitudinal axis of the lamps is oriented across the direction of water flow; each of the modules is equipped with a system of mechanical cleaning of the surface of quartz covers, which turns on after a certain period of time; in one of the UV sections, a UV sensor is installed to control the intensity of UV radiation; in addition, a tau meter is installed in each channel, designed to measure the transmission of ultraviolet radiation by water. The system also has a chemical washing unit for quartz covers.

The utility model is illustrated by the following figures of the drawings:

figure 1 shows a General view of the system of ultraviolet disinfection of water; figure 2 is a General view of the Department of UV disinfection; figure 3 is a General view of the UV module.

The system contains: 1 - separation of sieves, 2 - channel of separation of sieves, 3 - sieve, 4 - separation of UV disinfection, 5 - channel of separation of UV disinfection, 6 - collection and distribution channel, 7 - inlet channel, 8 - outlet channel, 9 - UV section, 10 - UV module, 11 - UV lamp, 12 - quartz protective cover, 13 - mechanical cleaning system for quartz covers, 14, 15 - shut-off valves at the inlet and outlet of the channel, 16 - level maintenance system water, 17 - tau meter, 18 - UV sensor, 19 - chemical washing unit.

System ultraviolet disinfection of water works as follows. Pre-biologically treated water from treatment plants through two channels is fed through the supply channel 7 to the screen 1 (filtering unit). The sieve compartment is designed to remove small-sized floating debris that has passed through the sewage treatment plant in transit. The sieve (filtering) compartment contains five channels 2, each of which has at least one flat slotted sieve 3 with a 1.4 mm gap, which allows to separate small debris from purified water. After filtering, water enters the collection and distribution channel 6, through which it is supplied to the UV disinfection unit 4, which consists of eight channels 5, one of which is reserve. Each channel can operate in two modes: local and remote control. Each channel has four UV sections 9, consisting of two UV modules 10, each of which has 36 bactericidal UV lamps 11, enclosed in protective quartz covers 12, and installed in such a way that the longitudinal axes of the lamps are oriented transversely to the direction of water flow , which contributes to a better UV-disinfection of water. These lamps are characterized by the highest efficiency - about 30% of the electric energy is converted into bactericidal radiation with a wavelength of 254 nm, an electric current with an ultrahigh frequency is supplied to the lamps

40 kHz. Water flows around quartz covers and under the influence of UV radiation located in them bactericidal lamps, is disinfected. Quartz covers have a system 13 for mechanical cleaning of the surface of quartz covers, which consists of the lower and upper plates connected by screeds, and a pneumatic cylinder connected to the lower plate. The system is driven by compressed air. Fluoroplastic scrapers are installed in the lower and upper plates, which clean the covers. The cleaning system turns on after a certain period of time, for example, after 24 hours.

If necessary, there is additionally a system for chemical washing of quartz covers of modules, which is carried out using the washing unit 19 using an oxalic acid solution. The electric pump pumps the washing solution through the washing unit, with the UV modules installed in it, which ensures the cleaning of quartz covers.

At the inlet and outlet of each channel of the UV-disinfection department, shut-off valves 14 and 15 are installed, designed to fill the channel with water when putting it into operation and to stop the flow of water when the channel is put out of operation and other technological needs that require stopping the water supply and closing the channel .

In addition, in the channels of the UV-disinfection department, a system for maintaining the water level 16 is installed, including a control switch shutter and an ultrasonic level sensor. In the event of a change in the water level in the channel, namely, the maximum level of 2745 mm for the first module in the channel and the minimum level of 2455 mm for the last module in the channel, an ultrasonic level sensor (for example, a Milltronics Probe sensor) is turned on, the signal from which comes into the control system, and then to the electric shutter

enters the control system, and then to the electric shutter switch adjustable, which raises or lowers the shutter shield. A tau meter 17 is also installed in each channel of the UV disinfection unit, designed to measure the transmission of ultraviolet radiation by water.

In the channel, the tau meter is mounted on a support that is attached to the channel wall. The tau meter has a casing under which two UV sensors are installed and a pneumatic cylinder that drives the mechanical cleaning frame, and a UV lamp is also placed in a protective quartz case. When the frame is moved, the surface of the quartz cover and the caps of the UV sensors are cleaned.

To control the intensity of UV radiation in one of the sections installed UV sensor 18 (for example, type DI-24), having a photodiode for detecting UV radiation. The system also contains a control and monitoring panel, power cabinets and controls designed to carry out the operation of the system. The purified and disinfected water from the UV disinfection unit enters the discharge channel 9, from where it is sent to a reservoir, for example, to the Moscow river. The studies found that the claimed system of UV-disinfection of water received from treatment plants provides the following indicators:

№№ pp Name unit of measurement Before UV disinfection After UV disinfection (project) MPC (San PiN 2.1.5.980-00) Avg Max. one The number of total coliform bacteria CFU / 100 ml 4.2 × 10 ⁵ 8.3 × 10 ⁵ <500 <500 2 The number of thermotolerant coliform bacteria CFU / 100 ml 1.5 × 10 ⁵ 1.8 × 10 ⁵ <100 <100 3 The number of coliphages PFU / 100 ml 200 280 <100 <100

which indicates the high quality of water disinfection by the claimed UV disinfection system.

Claims (1)

The ultraviolet water disinfection system, characterized in that it contains a sieve compartment having five channels, each of which has at least one sieve with a clearance of 1.4 mm; Department of ultraviolet (UV) disinfection, has eight channels, one of which is a backup, collection and distribution channel connecting these offices, inlet and outlet channels, a water level maintenance system is installed in each of the channels of the UV disinfection department, including an electrically adjustable shutter switch and an ultrasonic level sensor, shutoff gates are installed at the inlet and outlet of the channel, four UV sections are installed in each channel, each of which consists of two modules, in each of which It sets 36 germicidal UV lamp in a quartz protective covers so that the lamp longitudinal axis oriented transversely to the direction of water flow; each of the modules is equipped with a system of mechanical cleaning of the surface of quartz covers, which turns on after a certain period of time; also in one of the UV sections, a UV sensor is installed to control the intensity of UV radiation, in addition, a tau meter is installed in each channel, designed to measure the transmission of ultraviolet radiation by water, in addition, the system includes a chemical washing unit for quartz covers.