Discussion on Production Process of Ozone Decomposition Catalyst

The commonly used production processes of ozone decomposition catalysts are mixed molding method and impregnation method. Users need to choose the catalyst reasonably according to the project's capital investment and operation requirements. Minzhuang independently develops the production process of ozone decomposition catalyst to provide customers with comprehensive cost-effective and good results Ozone decomposition catalyst.

Catalysts are additives that promote industrial development, and catalysts are used in chemical production. This article discusses the production process of the ozone decomposition catalyst.

The function of the ozone decomposition catalyst is to accelerate the decomposition of ozone at room temperature, thereby eliminating the damage caused by ozone to the environment. At present, there are various ozone decomposition catalysts on the market, with various specifications, effects, and prices. To choose a suitable ozone decomposition catalyst, it is necessary to understand the common production process of ozone decomposition catalyst.

Like most other catalyst production, the production process of ozone decomposition catalyst also includes mixed molding method, dipping method, and spraying method. Among them, the mixed molding method has a high content of active ingredients, a high raw material cost, and a long service life, but it has the characteristics of low utilization rate and low strength. The catalyst produced by the impregnation method has a low content of active ingredients and has a shorter service life than the catalyst produced by the hybrid molding method. However, the catalyst produced by the impregnation method has high strength, high utilization rate and low cost. The spraying method is less used in the production of ozone decomposition catalysts. Simple spraying causes the active ingredients of the catalyst to be easily lost and uneven distribution. Multi-layer spraying can significantly improve product quality but brings problems such as complex processes and high costs.

Therefore, the current ozone decomposition catalysts on the market are mainly produced by the mixed molding process and the impregnation process. These two processes are one of the main factors affecting the performance and price of the catalyst. Engineers can choose reasonably according to the project's capital investment and operational requirements. 

Minstrong specializes in the development and production of gas purification catalysts, and independently develops ozone catalyst production processes to provide customers with comprehensive cost-effective and high-performance ozone decomposition catalysts.