Plasma equipment ozone purification solutions

In the field of industrial production and environmental purification, plasma equipment is highly favored for its efficient pollutant degradation ability. However, ozone will inevitably be produced during its operation. If not properly handled, it will not only cause harm to human health, but also may affect the normal operation of the equipment and the quality of the surrounding environment. The ozone decomposition catalyst developed by Minstrong provides an efficient and stable solution to the ozone purification problem of plasma equipment.

The principle of ozone generation by plasma equipment is based on its ionization process. During plasma discharge, high-energy electrons collide with oxygen molecules in the air, causing oxygen molecules to decompose into oxygen atoms, which then combine with oxygen molecules to generate ozone. Although ozone has a certain oxidizing property and plays a positive role in disinfection and sterilization, when the ozone concentration in the environment exceeds the standard, it will strongly irritate the human respiratory tract, eyes, etc., and long-term contact may also cause respiratory diseases and reduce human immunity. In addition, ozone will react with other substances in the air to generate secondary pollutants, affecting air quality.

Minstrong 's ozone decomposition catalyst has shown excellent performance in solving the ozone problem of plasma equipment. The catalyst is mainly composed of highly active metal oxides (such as copper-manganese composite oxides) and special porous ceramic carriers, and forms a unique nanoscale active structure through advanced preparation technology. Its core technical parameters are very impressive: under the conditions of air velocity 5000-20000 h⁻¹ and relative humidity 0-90%, the decomposition efficiency of ozone concentration of 5-200 mg/m³ is stably maintained at more than 95%; the operating temperature range is -10℃-80℃, which can adapt to a variety of complex environments. During the reaction, ozone molecules are quickly adsorbed on the rich active sites on the surface of the catalyst, and through redox reactions, they are quickly decomposed into stable oxygen molecules. The whole process can be carried out efficiently at room temperature and pressure.

From the perspective of practical application, the Minstrong ozone decomposition catalyst has gained many successful cases with its good applicability and stability. In a plasma waste gas treatment project of an electronics factory, the original plasma equipment of the factory treated waste gas containing volatile organic compounds (VOCs), and the outlet ozone concentration was as high as 150 mg/m³, far exceeding the national standard. After installing the customized ozone decomposition catalyst device of Minstrong, the ozone concentration was tested by a third-party testing agency and dropped to below 0.01PPM, which fully complies with the requirements of the "Comprehensive Emission Standards for Air Pollutants", and the catalyst has been running stably for more than 3 years without obvious performance degradation. In addition, in the workshop air purification project of a food processing plant, the plasma equipment combined with the Minstrong catalyst not only efficiently decomposed the ozone generated by the equipment, but also further purified the residual odor substances in the air, creating a healthier and more comfortable working environment for employees.

Minstrong provides full-process professional services for the installation and use of catalysts. The professional technical team will design the optimal catalyst installation plan based on the specific parameters of the plasma equipment such as power, processing air volume, and waste gas composition, combined with the on-site space layout, to ensure seamless connection between the catalyst and the equipment and give full play to the best ozone decomposition effect. During the use of the catalyst, professionals are regularly arranged to conduct performance testing and maintenance. Advanced testing equipment is used to monitor the activity of the catalyst in real time, and possible problems are solved in a timely manner to provide customers with comprehensive protection.

Minstrong Ozone Decomposition Catalyst provides a solid and reliable guarantee for the ozone purification of plasma equipment with its excellent performance, rich practical application results, and professional and complete service system. Choosing Minstrong Ozone Decomposition Catalyst is not only responsible for the production environment and employee health, but also an important boost for enterprises to achieve green and sustainable development, allowing industrial production to move forward steadily on the road of environmental protection and efficiency.