Several points to pay attention to during the regeneration process of denitration catalysts
Publishdate:2020-10-22 Views:40
In order to prevent material waste and catalyst poisoning or environmental pollution, many enterprises adopt denitrification catalyst regeneration technology during the processing and production process. This not only effectively prolongs the use of catalysts but also reduces the cost of resources and materials for enterprises. The price of denitrification catalyst regeneration technology is not high and it is also worth choosing to improve material recycling for enterprises. Of course, during the process of regenerating denitrification catalysts, users also need to pay attention to the following points:
Several points to pay attention to during the regeneration process of denitration catalysts
Advanced and catalytic activity evaluation
When regenerating denitration catalysts, users should pay attention to understanding the activity rate of the catalyst. Special testing tools can be used for effective testing. Only when it is confirmed that the actual activity value can be achieved can effective regeneration engineering be carried out, so as to improve the quality of the regenerated denitration catalyst and achieve the standard utilization rate.
Secondly, the deactivation rate of the catalyst
Due to the fact that denitrification catalyst regeneration is a rapid reaction that occurs on the surface of the catalyst, it is necessary to effectively understand the deactivation rate, density or strength of the catalyst before regeneration. Only when it has high activity and can accelerate the deactivation rate of the regeneration catalyst, can the toxic substances in the regeneration pores of the denitrification catalyst be completely removed and utilized reasonably.
Thirdly, the conversion rate of the catalyst
The bidding for denitrification catalyst regeneration also has strict requirements and can only be implemented when the conversion rate meets certain conditions. Therefore, attention should be paid to the conversion rate of various components during catalyst conversion. Deactivated catalysts contain high iron components. Only by effectively removing the iron component can good conversion rates be achieved during the denitrification catalyst regeneration process.
In order to prevent material waste and catalyst poisoning or environmental pollution, many enterprises adopt denitrification catalyst regeneration technology during the processing and production process. This not only effectively prolongs the use of catalysts but also reduces the cost of resources and materials for enterprises. The price of denitrification catalyst regeneration technology is not high and it is also worth choosing to improve material recycling for enterprises. Of course, during the process of regenerating denitrification catalysts, users also need to pay attention to the following points:
Several points to pay attention to during the regeneration process of denitration catalysts
Advanced and catalytic activity evaluation
When regenerating denitration catalysts, users should pay attention to understanding the activity rate of the catalyst. Special testing tools can be used for effective testing. Only when it is confirmed that the actual activity value can be achieved can effective regeneration engineering be carried out, so as to improve the quality of the regenerated denitration catalyst and achieve the standard utilization rate.
Secondly, the deactivation rate of the catalyst
Due to the fact that denitrification catalyst regeneration is a rapid reaction that occurs on the surface of the catalyst, it is necessary to effectively understand the deactivation rate, density or strength of the catalyst before regeneration. Only when it has high activity and can accelerate the deactivation rate of the regeneration catalyst, can the toxic substances in the regeneration pores of the denitrification catalyst be completely removed and utilized reasonably.
Thirdly, the conversion rate of the catalyst
The bidding for denitrification catalyst regeneration also has strict requirements and can only be implemented when the conversion rate meets certain conditions. Therefore, attention should be paid to the conversion rate of various components during catalyst conversion. Deactivated catalysts contain high iron components. Only by effectively removing the iron component can good conversion rates be achieved during the denitrification catalyst regeneration process.