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Impact of Water Vapor on the Performance of a Cu-SSZ-13 Catalyst under Simulated Diesel Exhaust Conditions

Nathan Ottinger, Yuanzhou Xi, Christopher J. Keturakis, Z. Gerald Liu

2021SAE International Journal of Advances and Current Practices in Mobility13 citationsDOI

Abstract

<div class="section abstract"><div class="htmlview paragraph">Cu-SSZ-13 selective catalytic reduction (SCR) catalysts are broadly applied in diesel aftertreatment systems for the catalytic conversion of oxides of nitrogen (NO + NO<sub>2</sub>). Diesel exhaust contains a wide range of water vapor concentrations depending on the operating condition. In this study, we evaluate the impact of water vapor on the relevant SCR catalytic functions including NO<sub>x</sub> conversion, NO oxidation, NH<sub>3</sub> oxidation, and N<sub>2</sub>O formation under both standard and fast SCR conditions. Reactor-based experiments are conducted in the presence and absence of water vapor. Results indicate that water vapor can have both a positive and negative impact on low temperature NO<sub>x</sub> conversion for standard SCR reaction. At low inlet NO<sub>x</sub> concentrations, the presence of water vapor has a negative effect on NO<sub>x</sub> conversion, whereas, at high inlet NO concentrations, water vapor improves NO<sub>x</sub> conversion. At high temperatures, water vapor has a beneficial effect on NO<sub>x</sub> conversion at all NO<sub>x</sub> inlet concentrations evaluated. Experiments under fast SCR conditions reveal that water vapor improves low temperature NO<sub>x</sub> conversion mainly by minimizing the accumulation of ammonium nitrate, as evidenced with temperature programmed desorption (TPD) results. Furthermore, NO oxidation by ammonium nitrate formed under fast SCR conditions is shown to be significantly faster in the presence of water vapor.</div></div>

Topics & Concepts

Water vaporCatalysisChemistryDiesel exhaustDiesel fuelNitrogenSelective catalytic reductionAnalytical Chemistry (journal)Inorganic chemistryEnvironmental chemistryOrganic chemistryCatalytic Processes in Materials ScienceCatalysis and Oxidation ReactionsIndustrial Gas Emission Control