When choosing microwave electrodeless ultraviolet sterilization equipment, there are different wave bands to choose from, Customized Aquaculture sterilization equipment It is recommended to select disinfector with deep ultraviolet wave band. Because the deep ultraviolet wave band has a wider sterilization range and stronger sterilization ability. Aquaculture sterilization equipment programme In addition, when using the disinfector in the deep ultraviolet wave band, we must pay attention to the radiation dose and time. If the irradiation dose is not enough or the time is too short, there is no way to achieve the expected sterilization effect.

Microwave and ultraviolet water treatment equipment is a special form of material operation, which is a particle flow without connection. Each UV photon with a wavelength of 253.7 nm has an energy of 4.9 eV. When ultraviolet rays irradiate microorganisms, energy transfer and accumulation will occur, and the accumulation results in the inactivation of microorganisms, thus achieving the purpose of disinfection. When bacteria and viruses absorb more than 3600~65000uW/cm2, it has a strong destructive power to the DNA and RNA of bacteria and viruses, and can make bacteria and viruses lose their viability and fecundity, thereby eliminating bacteria and viruses, achieving disinfection and sterilization effect. On the one hand, ultraviolet light can mutate nucleic acids, hinder their replication, transcriptional blockade and protein synthesis; on the other hand, the generation of free radicals can cause photoionization, thus leading to cell death. Aquaculture sterilization equipment programme The sterilization principle of the microwave ultraviolet water treatment equipment is to use the irradiation intensity of the ultraviolet lamp, that is, the irradiation intensity emitted by the ultraviolet sterilization lamp, which is inversely proportional to the distance of the irradiated disinfectant. Customized Aquaculture sterilization equipment When the irradiation intensity is constant, the longer the irradiated disinfectant stays, the closer it is to the germicidal lamp, the better its germicidal effect, and vice versa. With strong destructive power, it can make bacteria and viruses lose their viability and reproduction, and then eliminate bacteria and viruses to achieve disinfection and sterilization effect.

1. The welding of equipment shell and framework shall be firm without obvious deformation or burn through defects. 2. The equipment surface shall be evenly sprayed with the same color, and the surface shall be free of flow marks, bubbles, paint leakage and peeling. 3. The appearance of the equipment shall be neat and beautiful without obvious hammer marks and unevenness. The panel instruments, switches, indicator lights and labels shall be installed firmly and correctly. In order to ensure the stability of the equipment, we need to replace the lamp regularly, Customized Aquaculture sterilization equipment The imported lamp should be replaced after 9000 hours of continuous service or one year to ensure a high disinfection rate. Aquaculture sterilization equipment programme When replacing the lamp tube, first pull out the power socket of the lamp tube, pull out the lamp tube, then carefully insert the cleaned new lamp tube into the sterilizer, install the gasket, check for water leakage, and then plug in the power supply. Be careful not to touch the quartz glass of the new lamp tube with your fingers, otherwise the disinfection effect will be affected due to stains.

Compared with traditional water disinfection methods such as chlorine disinfection, Customized Aquaculture sterilization equipment Microwave electrodeless ultraviolet sterilization equipment is relatively safe and environmentally friendly. Chlorine agent is used for disinfection. When chlorine kills germs in water, due to its strong oxidation, it reacts with natural organic substances in water and generates disinfection by-products such as trichloromethane and haloacetic acid, Aquaculture sterilization equipment programme They all have potential carcinogenicity and certain mutagenicity to human body. Trichloromethane is also classified as Category 2B carcinogen in the list of carcinogens published by the International Cancer Research Institute of the World Health Organization, which poses a health threat of carcinogenicity, teratogenicity and mutagenicity.