Axially Resolved Performance of Cu-Zeolite SCR Catalysts

In this work, an alternative method is proposed and validated for quantifying the axial performance of a state-of-the-art Cu zeolite SCR catalyst. Catalyst cores of a standard length, with varying lengths of wash-coated regions were used to axially resolve the functional performance of the SCR catal...

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Veröffentlicht in:	SAE International journal of engines 2012-04, Vol.5 (3), p.975-984, Article 2012-01-1084
Hauptverfasser:	Henry, Cary, Kamasamudram, Krishna, Currier, Neal, Yezerets, Aleksey, Castagnola, Mario, Chen, Hai-Ying
Format:	Artikel
Sprache:	eng
Schlagworte:	Catalysts Coating effects Coatings Density Engines Entrances High temperature effects Inlets Low temperature Operating temperature Oxidation Storage capacity Temperature dependence Zeolites
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container_end_page	984
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container_title	SAE International journal of engines
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creator	Henry, Cary Kamasamudram, Krishna Currier, Neal Yezerets, Aleksey Castagnola, Mario Chen, Hai-Ying
description	In this work, an alternative method is proposed and validated for quantifying the axial performance of a state-of-the-art Cu zeolite SCR catalyst. Catalyst cores of a standard length, with varying lengths of wash-coated regions were used to axially resolve the functional performance of the SCR catalyst. This proposed method was validated by quantifying the catalyst entrance and exit effects, as well as the effect of non-uniform wash-coat loading densities. This method is less susceptible to some of the complications highlighted in the previous studies, such as flow uniformity between channels, as well as radiative heating effects, since the product gases are sampled across the entire monolith cross-section rather than through a single catalyst channel. The specific catalyst functions quantified include: NO and NH₃ oxidation, NH₃ storage capacity, as well as NOx conversion efficiency. The NOx conversion performance of the catalyst was evaluated for both the standard (NO₂/NOx=0) and fast (NO₂/NOx=0.5) SCR reactions as a function of both axial length and catalyst operating temperature.
doi_str_mv	10.4271/2012-01-1084
format	Article
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Catalyst cores of a standard length, with varying lengths of wash-coated regions were used to axially resolve the functional performance of the SCR catalyst. This proposed method was validated by quantifying the catalyst entrance and exit effects, as well as the effect of non-uniform wash-coat loading densities. This method is less susceptible to some of the complications highlighted in the previous studies, such as flow uniformity between channels, as well as radiative heating effects, since the product gases are sampled across the entire monolith cross-section rather than through a single catalyst channel. The specific catalyst functions quantified include: NO and NH₃ oxidation, NH₃ storage capacity, as well as NOx conversion efficiency. The NOx conversion performance of the catalyst was evaluated for both the standard (NO₂/NOx=0) and fast (NO₂/NOx=0.5) SCR reactions as a function of both axial length and catalyst operating temperature.</abstract><cop>Warrendale</cop><pub>SAE International</pub><doi>10.4271/2012-01-1084</doi><tpages>10</tpages></addata></record>
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source	JSTOR Archive Collection A-Z Listing
subjects	Catalysts Coating effects Coatings Density Engines Entrances High temperature effects Inlets Low temperature Operating temperature Oxidation Storage capacity Temperature dependence Zeolites
title	Axially Resolved Performance of Cu-Zeolite SCR Catalysts
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