Using Sodium Hypochlorite Generation System in Water Plant Disinfection is very Economical
Sodium hypochlorite generation system in the water plant disinfection is very economical. At present, the mainly disinfection methods used in the water treatment are liquid chlorine, chlorine dioxide disinfection method, ozone disinfection method and ultraviolet disinfection method. Among them, liquid chlorine is the most effective, but the transportation and storage of chlorine gas are particularly unsafe, and chlorine disinfection will produce some by-products. Especially in the operation and management of water plants, it requires safety approval and operation management and other tedious work. So that with the increasing cost of liquid chlorine disinfection, large urban waterworks are gradually restricting the use of liquid chlorine to seek more safe and effective disinfectants.
As we all know, sodium hypochlorite solution is a widely used broad-spectrum bactericidal algae killing strong oxidant. Its bactericidal effect is stronger than chlorine gas and it can beseem as a truly efficient, broad-spectrum, safe strong sterilization, virus killing agents. Compared with other disinfectants, sodium hypochlorite solution can be dissolved with water at any ratio. It has been widely used in places including tap water and industrial circulating water.
With the continuous development of technology, the state has issued the relevant standards of sodium hypochlorite generation system very early. And our company is the advocate of the domestic sodium hypochlorite generator disinfection application, and the industry leader in technology. Our main products are hypochlorite generator, electrolysis sodium hypochlorite generator, chlorine dioxide generator manufacturers, buried sewage treatment equipment.
Sodium hypochlorite generator is a kind of high-tech equipment for producing green and efficient disinfectant. Using salt and water as raw materials, the equipment produces a compound disinfectant based on sodium hypochlorite and reactive oxygen species.