Development of Thermally Durable Cu/SCR Catalysts

Selective catalytic reduction (SCR) of NOx by NH3 is under intensive development as a technology to enable diesel engines to meet stringent NOx emission regulations. Cu/zeolite SCR catalysts are leading candidates because of their ability to catalyze NOx reduction at the low temperatures encountered...

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Bibliographic Details
Main Authors: Fedeyko, Joseph M, Chen, Hai-Ying, Ballinger, Todd H, Weigert, Erich C, Chang, Hsiao-Lan, Cox, Julian P, Andersen, Paul J
Format: Report
Language:English
Online Access:Request full text
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Summary:Selective catalytic reduction (SCR) of NOx by NH3 is under intensive development as a technology to enable diesel engines to meet stringent NOx emission regulations. Cu/zeolite SCR catalysts are leading candidates because of their ability to catalyze NOx reduction at the low temperatures encountered on many diesel vehicles. However, both engine evaluation and laboratory studies indicated that commonly available Cu/zeolite SCR catalysts did not have sufficient thermal stability to maintain performance during the full useful life of a vehicle (with steady-state NOx conversion decreasing ~ 10% over 64 hours of hydrothermal aging at 670 °C). Characterization of aged Cu/zeolite catalysts revealed that the loss of zeolite acidity was the main deactivation mechanism; while the zeolite support maintained its framework structure and surface area after aging. Improvement of the hydrothermal stability of the acid sites resulted in a new generation of SCR catalysts. The new catalysts exhibit higher NOx conversions over a wider temperature window and negligible deactivation during 670 °C hydrothermal aging. These improvements were verified on engine with the durable SCR catalyst displaying a 10% increase in NOx conversion over an LA-4 cycle.
ISSN:0148-7191
2688-3627
DOI:10.4271/2009-01-0899