The Study of C3H6 Impact on Selective Catalytic Reduction by Ammonia (NH3-SCR) Performance over Cu-SAPO-34 Catalysts

In present work, the catalytic performance of Cu-SAPO-34 catalysts with or without propylene during the NH3-SCR process was conducted, and it was found that the de-NOx activity decreased during low temperature ranges (<350 degrees C), but obviously improved within the range of high temperatures (>350 degrees C) in the presence of propylene. The XRD, BET, TG, NH3-TPD, NOx-TPD, in situ DRIFTS and gas-switch experiments were performed to explore the propylene effect on the structure and performance of Cu-SAPO-34 catalysts. The bulk characterization and TG results revealed that neither coke deposition nor the variation of structure and physical properties of catalysts were observed after C3H6 treatment. Generally speaking, at the low temperatures (<350 degrees C), active Cu2+ species could be occupied by propylene, which inhibited the adsorption and oxidation of NOx species, confining the SCR reaction rate and causing the deactivation of Cu-SAPO-34 catalysts. However, with the increase of reaction temperatures, the occupied Cu2+ sites would be recovered and sequentially participate into the NH3-SCR reaction. Additionally, C3H6-SCR reaction also showed the synergetic contribution to the improvement of NOx conversion at high temperature (>350 degrees C).

Automated summary

The catalytic performance of Cu-SAPO-34 catalysts during the NH3-SCR process was found to be influenced by the presence of propylene, with a decrease in de-NOx activity at low temperatures (<350 degrees C) and an improvement at high temperatures (>350 degrees C). Various experiments were conducted to explore the propylene effect on the structure and performance of the catalysts, revealing that propylene inhibited NOx adsorption and oxidation at low temperatures but contributed to NOx conversion at high temperatures.