Contribution of ozone decomposition catalysts in environmental protection

In the field of environmental protection, ozonolysis catalysts are playing a vital role.
In terms of industrial waste gas treatment, the waste gas emitted by many factories contains pollutants such as nitrogen oxides and volatile organic compounds. Under the action of ultraviolet light, these pollutants will have a complex reaction with ozone, forming photochemical smog, endangering human health and ecological environment. Ozonolysis catalysts can accelerate the decomposition of ozone into oxygen and reduce the chance of ozone participating in the reaction, thus effectively reducing the risk of photochemical smog. For example, after a petrochemical plant uses an ozone-decomposition catalyst to treat the waste gas, the ozone concentration in the surrounding air is significantly reduced, and the frequency of photochemical smog is reduced by [X]%.
In the field of sewage treatment, ozone is often used to disinfect and degrade organic pollutants. However, excessive ozone can cause secondary pollution if discharged directly into the environment. Ozonolysis catalyst can quickly decompose the residual ozone after wastewater treatment and avoid its adverse impact on the environment. Taking an urban sewage treatment plant as an example, after the installation of the ozone decomposition catalyst device, the residual amount of ozone in the discharged water is almost undetectable, which meets the strict environmental protection emission standards, and does not cause any ozone pollution to subsequent natural water bodies.
Ozone decomposition catalyst can also be used in indoor air purification. In some places where ozone generators are used for disinfection, such as hospitals, laboratories, etc., ozone decomposition catalysts can decompose excess ozone in time, protect the health of indoor personnel, and create a safe indoor environment for people.