论文部分内容阅读
The three way catalysts (TWCs) promoters (Ce Zr)O 2, (Pr Ce Zr)O 2 and (Pr Zr)O 2 were prepared by sol gel like method. They were characterized by XRD, EXAFS and BET surface area determination. The reduction features of the promoters were measured by temperature programmed reduction (TPR) of H 2 to access the potential for the promoters containing praseodymia as oxygen storage component in three way catalyst. The (Pr Zr)O 2 cubic solid solution is formed at high temperature up to 800 ℃, which makes it more reducible than the (Ce Zr)O 2 solid solution. For the (Pr Ce Zr)O 2 samples, the ternary solid solution plays an important role in the reduction process. The performance of the three way catalysts with fully formulated Pt, Pd and Rh is proceeded by using both light off temperature under a stoichiometric gas composition and the conversion of CO, C 3H 6 and NO under changing air/fuel ratio at a constant reaction temperature 400 ℃ . The results indicate that a small amount of praseodymia doping into (Ce Zr)O 2 favors the light off temperature of C 3H 6 and NO, and all the catalysts containing praseodymia obviously exhibits enhanced width of S value for NO conversion at lean region ( S ≥1.00).
The three way catalysts (TWCs) promoters (Ce Zr) O 2, (Pr Ce Zr) O 2 and (Pr Zr) O 2 were prepared by sol gel like method. They were characterized by XRD, EXAFS and BET surface area determination. The reduction features of the promoters were measured by the temperature programmed reduction (TPR) of H 2 to access the potential for the promoters containing praseodymia as oxygen storage component in three way catalyst. The (Pr Zr) O 2 cubic solid solution is formed at high For the (Ce Zr) O 2 solid solution, the ternary solid solution plays an important role in the reduction process. The performance of the three way catalysts with fully formulated Pt, Pd and Rh are proceeded by using both light off temperature under a stoichiometric gas composition and the conversion of CO, C 3 H 6 and NO under changing air / fuel ratio at a constant reaction temperature 400 ° C. The results indicate that a small amount of praseodymia doping into (Ce Zr) O 2 favors the light off temperature of C 3H 6 and NO, and all the catalysts containing praseodymia explicit obviously enhanced width of S value for NO conversion at lean region (S ≥ 1.00) .