What Are Ozone Depletion Catalysts?
Ozone destructive catalysts are made from the active ingredients manganese dioxide (MnO2) and copper oxide (CuO). They are black or dark brown in appearance and come in columnar, granular, and powder forms. Ozone destructive catalysts are primarily used to destroy ozone in exhaust emissions, effectively decomposing ozone into oxygen at room temperature without requiring any additional energy.
Ozone destructive catalysts can efficiently decompose ozone into oxygen, eliminating ozone odor and achieving compliant emissions. The catalyst uses a chemical synthesis method to manufacture the active ingredients, precisely controlling every process parameter of the synthesis reaction. Alumina is used as a binder, and the active ingredient content is over 85%. The powder contains no binder and has an active ingredient content of over 99%. The catalyst does not contain activated carbon, can withstand high temperatures when treating high concentrations of ozone, does not burn, is non-volatile, safe to use, and does not cause secondary pollution.
Ozone destructive catalysts effectively improve ozone utilization and the mineralization capacity of organic matter, significantly reducing operating costs, making them ideal catalysts for next-generation ozone destructive catalytic oxidation.

