«Previous Article|Table of Contents|Next Article»

³¤°²´óѧѧ±¨£¨×ÔÈ»¿Æѧ°æ£©[ISSN:1006-6977/CN:61-1281/TN]

Issue:

2022Äê1ÆÚ

Page:

97-114

Research Field:

Æû³µÓë»úе¹¤³Ì

Publishing date:

Info

Title:

Advances in selective catalytic reduction and ammonia slipª¤catalyst for diesel fuelled vehicles

Author(s):

LI Songª²feng;  ZHANG Chunª²hua;  LI Yangª²yang;  YE Rongª²lai;  SUN Hongª²jie

School of Automobile, Chang¬ðan University, Xi¬ðan 710064, Shaanxi, China

Keywords:

automobile engineering;  emission control;  review;  reaching China ¢ö emission standard;  selective catalytic reduction (SCR);  ammonia slip catalyst (ASC);  diesel fuelled vehicle

PACS:

-

DOI:

-

Abstract:

In order to further improve the pollutant removal capability of the China ¢ö diesel vehicles and develop a more effective afterª²treatment system, the advances and application status in selective catalytic reduction (SCR) and ammonia slip catalyst (ASC) were reviewed. The reaction mechanisms of SCR and ASC were discussed, and various catalysts of the two technologies and their application advantages were introduced. In addition, the influence of catalyst type, carrier, structure, and reaction conditions on NOª­ª«xª« reduction activity, Nª­2O emission and NHª­3 slip of SCR, NHª­3 conversion and Nª­2 selectivity of ASC were introduced. The results show that as to the two SCR catalysts, the Cuª²zeolite catalyst has wider activity temperature window and excellent catalytic activity than Vª²based catalyst. However, it also faces the challenges of Nª­2O generation and NHª­3 slip. As to the three kinds of ASC, the nobleª²metal catalyst has a higher NHª­3 oxidation activity, but lower Nª­2 selectivity while zeolite catalyst shows the opposite behavior. Combining the two advantages, the dualª²layer catalyst can simultaneously achieve high NHª­3 conversion and Nª­2 selectivity over wider temperature range. But all three catalysts are limited by the Nª­2O emission problem. Therefore, the Cuª²zeolite catalyst is the most promising catalytic converters for SCR, while the doubleª²coated ASC catalyst can more efficiently reduce the increased NHª­3 caused by the Cuª²zeolite catalyst. Although both of these technologies can meet current diesel vehicle emissions standards, there are still shortcomings in existing technologies. It is necessary to further solve the Nª­2O generation problems in the catalytic process. The future development of SCR and ASC research will be mainly focused on the coupling of the two technologies, and the joint development of control systems to achieve the high SCR and ASC performance at the same time. 3 tabs, 9 figs, 78 refs.

References:

Memo

Memo:

-

Common functions

Last Update: 2022-04-06