Advantages of ozonolysis catalysts

Ozonolysis catalyst has high efficiency, economy, stability, environmental protection, adaptability and compatibility, for example, from the high efficiency analysis, he can accelerate ozonolysis: It can significantly reduce the activation energy required for ozone decomposition, so that ozone can be rapidly decomposed at room temperature and pressure, greatly improving the efficiency and convenience of ozone treatment, such as in some industrial wastewater treatment, can greatly increase the rate of ozone decomposition, so as to remove pollutants in wastewater more quickly.
At the same time, it can also improve the production of hydroxyl free radicals: it can catalyze the self-decomposition of ozone in water, producing a large number of hydroxyl free radicals. Hydroxyl free radicals have a very high oxidation potential, and can rapidly degrade organic matter in water without selection, so that the degradation efficiency of organic matter is significantly improved, especially in the treatment of difficult to degrade organic pollutants.
From an economic point of view, it can reduce the amount of ozone dosing: due to its efficient catalytic effect, so that in the case of achieving the same treatment effect, the amount of ozone required is greatly reduced, such as the use of ozone catalyst for wastewater treatment, can reduce the amount of ozone dosing by more than 30%, thereby reducing the production cost of ozone and operating costs.
It can also reduce the footprint of the equipment: the reaction speed is fast, the efficiency is high, and the volume of the reaction equipment required is smaller when dealing with the same amount of pollutants, which can reduce the footprint, but also reduce the basic civil construction costs and equipment investment costs.
In terms of stability, ozone decomposition catalyst has good chemical stability: In the process of catalytic decomposition of ozone, the catalyst itself does not undergo chemical changes, can play a catalytic role for a long time and stably, and has a long service life, such as some heterogeneous ozone catalysts through high-temperature sintering and other processes, so that their compressive strength is large, low wear, and service life can reach more than 5 years, reducing the replacement frequency and maintenance costs of the catalyst.
At the same time, its thermal stability is also strong: it can maintain good catalytic activity under different temperature conditions, even in a higher temperature environment, it can continue to effectively catalyze ozone decomposition, ensuring stable operation in a complex and changeable practical application environment.
From the analysis of environmental protection, it has no secondary pollution: in the process of catalytic ozone decomposition, it does not produce harmful by-products, nor will it release harmful substances such as heavy metals into the environment, after the reaction is over, the products are mainly oxygen and harmless small molecules that are degraded, such as carbon dioxide and water, in line with environmental protection requirements.
It can also be recycled: some ozone decomposition catalysts can be recycled and reused through simple treatment after reaching the service life, reducing the waste of resources and the generation of solid waste.