With the rapid development of the ceramic industry, the problem of nitrogen oxides in natural gas emissions from kilns isbecoming increasingly prominent. As an effective means of reducing nitrogen oxide emissions, one of the key aspects of fluegas den...
With the rapid development of the ceramic industry, the problem of nitrogen oxides in natural gas emissions from kilns isbecoming increasingly prominent. As an effective means of reducing nitrogen oxide emissions, one of the key aspects of fluegas denitrification technology lies in the use of catalysts. However, catalysts often face wear issues during long-term operation,which not only affects denitrification efficiency but also increases operating costs. Therefore, studying and applying catalystanti wear devices is of great significance for improving the efficiency of flue gas denitrification in the ceramic industry andreducing environmental pollution. This article aims to explore the application of anti-wear devices for natural gas flue gasdenitrification catalysts in the ceramic industry, analyze their design principles, application effects, and optimization strategies,in order to provide useful references for the further development of flue gas denitrification technology in the ceramic industry.