MD1723Z - Device for decontamination of liquids - Google Patents

Abstract

The invention relates to the decontamination of liquids from pathogenic agents, present in polluted fluids (for example, water, blood, blood plasma) under the action of ultraviolet radiation, and can be used in medicine, food industry, agriculture.The device for decontamination of liquids comprises a housing, containing a decontamination compartment (11) and an electrical compartment (10), in the decontamination compartment (11), on a support (2), is fixed a tube, consisting of two quartz cylinders of different diameters (16) and (17), connected at the ends by welding, the inner cylinder is wound with a quartz spiral (15) and contains an ultraviolet radiation source (12) with a connector (4), the tube has an outer shell of reflective material (18) and inlet (3) and outlet (13) holes for liquid, the electrical compartment (10) contains a switch (6), an electrical ballast (8), an electrical wire (5), connected to the connector (4) and a control device (7).

Description

The invention refers to the decontamination of liquids from pathogenic agents, present in polluted fluids (for example water, blood, blood plasma) under the action of ultraviolet radiation, and can be applied in medicine, the food industry, agriculture.

Devices for disinfecting infected liquids with the help of ultraviolet C (UVC) radiation, with wavelengths of approximately 254 nm, are known, widely used in the food, pharmaceutical, cosmetic industry, for the disinfection of swimming pools, in agriculture. The scheme of these disinfection devices is basically the same, the infected liquid is introduced into the tube with the help of a pump, and under the action of ultraviolet radiation present in the tube, pathogens are inactivated, therefore the liquid becomes decontaminated [1, 2].

The disadvantages of these disinfection devices consist in the fact that the pathogens in the infected liquid that are subjected to UVC radiation are not completely penetrated by this radiation, and for a complete inactivation of these pathogens, a long-term exposure to radiation is required, which leads to a consumption increased energy. Also, they require special and difficult cleaning methods after use.

As the closest solution to the given invention can serve the device for disinfecting the liquid, which contains a cylindrical UVC radiation source, surrounded by three concentric tubes of different diameters, with a cooling liquid to remove the heat from the UVC radiation source, which flows between the inner tube and the middle tube, and the liquid to be decontaminated which flows between the middle tube and the outer one. Therefore, the contaminated liquid that passes through this tube is subjected to UVC radiation that acts on the pathogens in the liquid, thus inactivating them [3].

The disadvantage of this device is that the pathogens are not completely penetrated by the ultraviolet radiation due to their laminar movement, and a good part of the ultraviolet radiation is absorbed by the liquid flowing between the inner tube and the middle tube, which makes the device work low , and for complete inactivation in this sense, a much longer exposure time under UVC radiation will be required.

The technical problem that the invention solves is to increase the efficiency of the disinfection rate of the infected liquid.

The technical problem is solved with the help of the device for decontamination of liquids, which includes a casing, which contains a decontamination compartment and an electrical compartment, in the decontamination compartment, on a support, a tube consisting of two quartz cylinders with different diameters is fixed, joined at the ends by welding, the inner cylinder is wound with a quartz spiral having a diameter equal to the distance between the cylinders and contains a source of ultraviolet radiation with a connector, the tube has an external coating of reflective material and inlet and outlet ports of liquid, the electrical compartment contains a switch, an electrical ballast, an electrical wire joined to the connector and a control device.

The peculiarity of the proposed device is the introduction of a quartz spiral with the spiral diameter ds equal to the distance between the quartz cylinders of the decontaminator tube and the spiral pitch 2ds.

The quartz spiral will make it possible for the contaminated liquid to go through a rotating movement along the tube, as a result of this rotating movement the pathogens in the liquid will be penetrated from all sides by the UVC radiation, and due to the evanescence zone that appears around the spiral on its entire surface, it becomes possible to inactivate pathogens much faster. The exposure of the pathogens in the tube under the influence of UVC is more effective compared to other solutions, because the circular path due to the quartz spiral is longer than the rectilinear path, and because the mass of the pathogens is greater than the mass of the fluid, they are directed to the area with increased intensity of UVC radiation, similar to the centrifuge effect. At the same time, the quartz spiral plays the role of dispersion of ultraviolet radiation, and the pathogens that are in the immediate vicinity are effectively inactivated. The outer covering of the tube is made of thin reflective material of the order of several tens of microns, which acts as a reflector and does not allow ultraviolet radiation to exit the tube.

The advantage of this device is the direction of the pathogens with the help of the quartz spiral inserted in the decontamination tube towards the evanescence zones with increased radiation intensity, which appear around the spiral and thus the pathogens are subjected to higher doses of radiation with their inactivation.

The invention is explained by the drawing in the figure, which represents the scheme of the device for decontamination of liquids.

The device contains an ultraviolet radiation source 12 inserted in a decontaminating tube 14, fixed on a support 2 in the decontamination compartment 11. The decontaminating tube consists of two quartz cylinders with different diameters 16 and 17, respectively 25mm and 30mm, which are joined at the ends by the welding method, and the external covering of the tube 18 is made of reflective material. Through an inlet hole 3, the infected liquid enters the tube, performing the rotation movement due to the quartz spiral 15, after which it exits through an outlet hole 13. In the electrical compartment 10, there is the switch 6, the ballast 8, the electrical wire 5, which ensures the current transport to connector 4, and optionally a control device 7 can be installed, which will provide information about the ultraviolet lamp. The housing of the device 9 is fixed on some legs 1.

253.7 nm tube bactericidal lamps with wire connection to electronic ballast can be used in the device. For example, F18T8 GERMICIDAL bactericidal lamps up to 1 inch in diameter and 24 inches long from any licensed UVC lamp manufacturer that will be suitable in size and power may be used as germicidal lamp models.

PANLIGHT's F18T8 GERMICIDAL 18 Watt radiation source is arranged to ensure maximum penetration of UV light through the tubular body and to ensure maximum exposure of the fluid to the emitted UV radiation.

Optionally, a control element can be installed in the device that can be purchased from www.alibaba.com, for example: electric meter ORNO ORWE512 single phase 100 A 230 V IP51 or 12 IN 1 Din Rail AC Monitor 110V 220V 100A Voltage Current Power Factor Electric Energy Frequency Meter VOLT AMP.

The electronic ballast is an inverter whose role is to transform the alternating current from the network into direct current for the start and operation of the tube bactericidal lamp, generally of high frequency.

In the device claimed as an example of an electronic ballast, an electronic model HL 385 18 W of the manufacturer HOROZ is taken (Electronic ballast HL 385 18 W. Electromotor service. Online, URL: https://electromotor.md/produs/balast-electronic -hl-385-18-w/).

The liquid decontamination device works in the following way.

With the help of the switch 6, the source of ultraviolet radiation 12 is supplied by means of the ballast 8. The contaminated liquid is introduced into the decontaminating tube 14 through the inlet hole 3 with the help of an external pump or, based on the laws of physics, the container with the infected liquid should be higher than the device for decontamination of the liquid 9. The infected liquid undergoes a rotational movement due to the quartz spiral 15 along the tube, after which it exits through the exit hole 13. The control device 7 is optional, which can provide information both about the decontamination time and about the state of the ultraviolet radiation source (functionality, working time). The fact that the outer cover 18 is made of reflective material does not allow UVC radiation to exit the tube.

Therefore, a bactericidal device is proposed, simple in construction and which allows to disinfect the liquid much more effectively compared to other devices.

1. US 2014328720 A1 2014.11.06

2. UV disinfection system for water treatment. Alfaa The UV Expert, 02.12.2022, Online, URL: <https://www.alfaauv.com/blog/uv-disinfection-system-water-treatment/>

3. CA 2589100 A1 2006.06.08

Claims (1)

Device for the decontamination of liquids, which includes a housing, which contains a decontamination compartment and an electrical compartment, in the decontamination compartment, on a support, a tube consisting of two quartz cylinders of different diameters, joined at the ends by welding, is fixed, the inner cylinder is wound with a quartz spiral having a diameter equal to the distance between the cylinders and contains a source of ultraviolet radiation with a connector, the tube has an external coating of reflective material and liquid inlet and outlet holes, the electrical compartment contains a switch, an electrical ballast, an electrical wire joined to the connector and, optionally, a control device.