WO2013006085A1 - Microwave gas-discharge source of ultraviolet radiation - Google Patents

Abstract

The invention relates to the field of instrumentation and, in particular, to gas-discharge devices for purifying potable and wastewater and sterilizing materials and equipment using gas-discharge ultraviolet radiation. The technical result of the invention is the creation of a fairly simple and reliable source of ultraviolet radiation which allows an ultraviolet lamp to operate optimally. The technical result is achieved in that the microwave gas-discharge source of ultraviolet radiation contains a microwave frequency generator connected to an external element, an internal element, and a gas-filled volume. The internal element consists of a metal cylindrical rod with a mirrored surface that reflects ultraviolet radiation. The external element is disposed coaxially with the internal element and consists of a metallic latticework that is cylindrical in shape, and the gas-filled volume consists of two coaxial cylindrical quartz tubes (a cylindrical toroid ring) disposed coaxially with the internal element.

Description

 Microwave gas discharge source of UV radiation

Technical field

The proposal relates to the field of instrumentation, more specifically to gas-discharge devices for water purification and sterilization of materials and equipment with ultraviolet radiation of a gas discharge. The proposed device is intended for use in medicine, biotechnology, food and pharmaceutical industries, and can also be used for the treatment of drinking or wastewater, for sterilization of industrial and other premises and equipment located in them in industry or in domestic conditions.

State of the art

Recently, gas-discharge sources of UV radiation have been developed, in which a microwave generator is used to excite a gaseous medium. These systems using electrodeless lamps have a number of advantages compared to traditional electrode systems: relatively small dimensions and weight; low cost of power sources; lack of contamination of the inner walls as a result of atomization of electrodes, etc.

A device is known that contains a microwave generator, internal and external conductive extended elements connected directly to a magnetron, a gas discharge lamp located between the first and second elements and filled with argon and mercury vapor. The discharge lamp is a dielectric cylindrical toroid, along the axis of which there is an internal element (metal cylindrical rod). The surface of the inner element is not mirrored (RU 2236060 C1, 09/10/2004).

A disadvantage of the known device is the lack of a mirror surface of the internal element, which does not allow to increase the intensity of UV radiation.

Offer Disclosure

The technical result of the proposal is the creation of a fairly simple and reliable UV radiation source that can effectively achieve the optimal operating mode of UV lamps (increase the intensity of UV radiation).

The technical result is achieved in that the microwave gas-discharge source of UV radiation contains a microwave generator, an external element connected to it, an internal element and a gas-filled container, while the internal element is made in the form of a cylindrical metal rod with a mirror reflecting UV radiation, the external element is mounted coaxially with the internal element and made in the form of a cylindrical metal mesh, opaque to microwave radiation, a gas-filled container made of two coaxial cylinders drichic quartz tubes (cylindrical toroid) and is located coaxially with the inner element.

Brief Description of the Drawings of the Proposal

In FIG. 1 shows a general view of a microwave gas discharge source of UV radiation.

In FIG. 2 is a section i - i of FIG. one.

Options for implementing the proposal

The microwave gas-discharge source of UV radiation contains a microwave generator 5 (in particular, a magnetron and power to it from a standard household oven g = 2.45 GHz, Ν = 1κΒτ), an external element 1, an internal element 3, and a gas-filled container 2 connected to it. Internal element 3 made in the form of a cylindrical metal rod with a mirror surface reflecting UV radiation. The outer element 1 is mounted coaxially with the inner element 3 and is made in the form of a metal mesh of a cylindrical shape. The gas-filled container 2 is made of two coaxial cylindrical quartz tubes (cylindrical toroid), is located coaxially with the inner element 1 and is filled with argon and mercury vapor.

The operation of the device is as follows. Generator 5 (magnetron) when connected to the network generates microwave radiation with a frequency of 2.45 GHz and a power of N = 1 kW. This radiation ionizes the gas medium in the tank 2, which begins to emit UV radiation at a wavelength of 254 nm. The mirror surface of the inner element 3 reflects UV rays and increases the total power emitted by the outer surface of the toroidal lamp.

Industrial applicability

The system can be used for disinfection of drinking and waste water flows, for bactericidal effects on the surface of solids, as well as for bactericidal cleaning of indoor air, etc.

Claims

Formula A microwave gas discharge source of UV radiation, characterized in that it contains a microwave generator, an external element connected to it, an internal element and a gas-filled container, while the internal element is made in the form of a cylindrical metal rod with a mirror reflecting UV radiation, the external element is mounted coaxially with the internal element and is made in the form of a metal mesh of a cylindrical shape, and the gas-filled container is made of two coaxial cylindrical quartz tubes and is located coax of the inner member.