RU2000120175A

RU2000120175A - DEVICE FOR MEASURING THE INTENSITY OF UV RADIATION FROM A LAMP AND THE UV PROCESSING SYSTEM EQUIPPED WITH SUCH A DEVICE

Info

Publication number: RU2000120175A
Application number: RU2000120175/28A
Authority: RU
Inventors: Повл КААС
Original assignee: Повл КААС
Priority date: 1998-01-27
Filing date: 1999-01-27
Publication date: 2002-08-20

Claims

1. A device for measuring the intensity of electromagnetic energy from a lamp device containing at least one UV lamp, preferably related to the type of lamps placed in the container in connection with its use for disinfecting or photochemical treatment of running water or flowing liquids, the device for the intensity measurement contains optical fiber means (10) and sensor means, characterized in that the optical fiber means contain two doped optical fibers (1, 2; 1 ', 2'), adapted to accommodate parallel to the lamp (7) or lamps (7, 7 ', 7' '), preferably along their entire length, and two differently doped cut-off glass filters (3, 4, 3', 4 '), covering each of the optical fibers (1, 2; 1 ', 2'), and the sensor means (6) are located at least one end of each of the optical fibers (1, 2; 1, 2 ').

2. A device for measuring intensity according to claim 1, characterized in that reflective means are placed at the corresponding other ends of the optical fibers (1, 2; 1 ', 2').

3. The device for measuring the intensity according to claim 1 or 2, characterized in that the first cut-off glass filter (3, 4, 3 ', 4') is doped to obtain a boundary filter wavelength of approximately 245 nm, and the second cut-off glass filter (3 ', 4', 3, 4) is doped to obtain a filter boundary wavelength of approximately 260 nm.

4. A device for measuring intensity according to any one of the preceding paragraphs, characterized in that one or both of the optical fibers (1, 2; 1 ', 2') are doped to convert ultraviolet electromagnetic energy supplied through cut-off glass filters (3, 4, 3 ', 4'), into the light, preferably with a wavelength of approximately 430-470 nm.

5. A device for measuring intensity according to claim 4, characterized in that the sensor means comprise photodiodes on a silicon single crystal, other silicon photodiodes or other photodiodes.

6. A device for measuring the intensity according to any one of the preceding paragraphs, characterized in that the light guide means comprise two or more optical fibers (1, 2, 1 ', 2'), placed in pairs together with the associated doped cut-off glass filters (3, 4 , 3 ', 4').

7. A device for measuring the intensity according to any one of the preceding paragraphs, characterized in that the two cutting glass filters (3, 4, 3 ', 4') covering the optical fibers (1, 2; 1 ', 2') are enclosed in a sheath ( 5) from a transparent material, preferably quartz glass, with two or more channels placed in pairs to accommodate cutting glass filters (3, 4, 3 ', 4').

8. A device for measuring intensity according to any one of the preceding paragraphs, characterized in that it further comprises an outer shell (22) doped to a state of a neutral filter with absorption, depending on the level of radiation energy at which the device is used.

9. UV treatment system, preferably a UV disinfecting system or photochemical reaction system, in which there is a lamp device containing uniformly distributed UV lamps (7, 7 ', 7' '), characterized in that it is parallel to the lamps (7, 7', 7 '') a device for measuring radiation intensity according to any one of the preceding paragraphs is installed.

10. The system according to p. 9, characterized in that it further comprises a reaction container of polygonal or circular cross-section, and the lamp device is installed inside the container and the UV lamp (7, 7 ', 7``) is evenly distributed, at least one circumference, and a device for measuring radiation intensity is installed in the center of the specified circle parallel to the lamps (7, 7 ', 7``).

11. The system according to p. 10, characterized in that the inner side (21) of the container is provided with a reflective surface, so that the UV radiation is directed to the center where the radiation intensity is measured.

12. The system according to p. 10 or 11, characterized in that the UV lamps (7, 7 ', 7``) are arranged in at least two concentric circles so that none of the lamps obscures any other in relation to to a centrally located device for measuring radiation intensity.

13. The system according to p. 9, characterized in that it contains a channel-shaped reaction container of a polygonal, preferably square, or circular cross-section, a lamp device is installed inside the container, and the UV lamps (7, 7 ', 7``) are uniformly arranged as along of the container channel, and in its cross section, wherein at least one device for measuring radiation intensity according to any one of the preceding paragraphs is located along the channel of the channel between the lamps (7, 7 ', 7' ') and the inner side of the channel.

14. A system having a polygonal or circular cross-section reaction container in which a lamp device is installed comprising one UV lamp and an intensity measuring device, characterized in that the UV lamp (7) is located in the center of the container, and the intensity measuring device is made according to any of paragraphs. 1-8 and placed between the lamp and the container wall.