Performance properties of ozone destruction catalysts
High-quality ozone destruction catalysts should possess a series of excellent performance characteristics. First, they should exhibit high catalytic activity, enabling rapid and efficient decomposition of ozone into oxygen at relatively low temperatures and pressures. High catalytic activity not only improves treatment efficiency but also reduces treatment costs, enhancing the economic benefits of equipment operation.
Second, the stability of the ozone destruction catalyst is a crucial indicator of its performance. In practical applications, the catalyst needs to operate stably for extended periods without deactivation due to changes in environmental factors or operating conditions. Therefore, ozone destruction catalysts should possess excellent resistance to high temperatures, humidity, and poisoning to adapt to various complex working environments.
Furthermore, the selectivity of the ozone destruction catalyst is another indispensable performance characteristic. Catalysts with good selectivity can specifically decompose ozone without negatively impacting other beneficial substances. This helps maintain the stability of the treated gas composition and avoids secondary pollution.

