Where can UV germicidal lamps be used

by:Tepro     2021-05-20
Where can UV germicidal lamps be generally used? Because the ultraviolet shortwave has a super bactericidal effect, it can reduce the content of microorganisms in the air. Once the SNA in the microorganism receives short-wave ultraviolet radiation, its structure will be destroyed and lose its activity, thereby being killed. In the process of processing-packaging-storage, the received air can be sterilized when it passes through the air pipe inlet, so that the total number of bacteria contained in the air for a long time is low. At this time, only UV lamps that do not produce ozone can be used; this UV lamp uses special quartz glass to filter out odors. Photodeoxidation production water: clean, disinfected and sterilized water used for multiple purposes in industrial production, such as washing and cleaning treatment and production process in food and beverage production industry, cosmetics, chemical industry and automobile industry. Water needs to be recycled and reused. Drinking water: Hygienic and safe drinking water supply is an important factor in ensuring health and preventing diseases. The UV germicidal lamp can sterilize drinking water without the use of chemicals, and has no effect on the taste, smell or PH value of the water. Special advantages: pathogens will not develop resistance to ultraviolet rays. The working principle of the ultraviolet germicidal lamp: The traditional oil fume purification system only uses medicine. The ozone ultraviolet lamp produced by Guangmingyuan uses the principle of 'photolysis and oxidation' to completely decompose grease and change its way of existence. 'Cold burn' the grease in the kitchen range hood, there is no residual grease after the purification process, and it plays a role of fire prevention, thorough sterilization and removal of peculiar smell. Industrial water treatment surface activation and cleaning 254nm and 185nm wavelength photon energy can directly cut off the covalent bond in the organic molecules, so that the organic molecules are activated. At the same time, the light energy of 185nm wavelength ultraviolet light can decompose oxygen (O2) in the air into ozone (O3); while the light energy of 254nm wavelength ultraviolet light can decompose O3 into O2 and active oxygen (O), this The photosensitive oxygen reaction process is continuous. Under the irradiation of these two kinds of short-wave ultraviolet light, ozone will be continuously generated and decomposed, and active oxygen atoms will be continuously generated, and more and more, due to the strong oxidation of active oxygen atoms (O), and activation The organic matter (ie hydrocarbon) molecules undergo an oxidation reaction to generate volatile gases (such as CO2, CO, H2O, NO, etc.) that escape the surface of the object, thereby completely removing the organic pollutants adhering to the surface of the object. UV curing uses the photosensitivity of a photoinitiator (photosensitizer). Under the irradiation of ultraviolet light, it is triggered to form excited ecological molecules, which are decomposed into free radicals or ions, so that unsaturated organic matter can be polymerized, grafted, Chemical reactions such as cross-linking achieve the purpose of curing. Light dechlorination is usually used for water disinfection in swimming pools and hot springs SPA pools. When chlorine reacts with sweat, urine, fat, or other substances, chloramine (combined chlorine) is produced as a by-product. By choosing different lamps or using filtering techniques, not only can the spectral range be limited, but also chemical reactions can be selectively performed. Synthetic photochemistry can not only carry out reactions in batch reactors or direct flow reactors, but also carry out large-scale or small-scale reactions. Contrary to the thermal process, the light-induced reaction can be carried out at room temperature, so that even unstable and sensitive materials can be processed. Risk and scrap rate can be minimized. The use of micro-photoreactor not only achieves the required reaction process, but also can process important (such as explosive dangerous) substances. Ultraviolet rays that can produce ozone can be used to remove odors. Most of these odors are produced in the exhaust of commercial kitchens and food workshops that can produce strong irritating odors, such as the exhaust pipes of fish shops, food processing industries, and sewage treatment uv water purifier equipment. If the odor of these irritating gases diffuses to nearby residential areas, gas pollution will occur. In some countries, such as Sweden, people have designated laws to control the emission and treatment of exhaust gas in order to reduce gas pollution from restaurants. Using ultraviolet light to treat exhaust gas is a simple method, it can prevent the occurrence of gas pollution problems, meet the requirements of official laws, and the cost is low. The above is a detailed answer to where ultraviolet germicidal lamps can be used. I believe you must have a certain understanding of ultraviolet germicidal lamps.
Tepro (China) Co., Ltd. highlighted the need to foster a human openness to technological innovation.
Check out Tepro UV Lamps for optimal quality products, and get your uvc light problem fixed. Send us an enquiry or make a call if you are interested.
Simultaneously being able to offer not only the product but also the service, gives the customer a quality 'one-stop-shop' service.
Custom message
Chat Online 编辑模式下无法使用
Chat Online inputting...