Gavin Harle scite author profile

The formation of ammonia (NH 3 ) as a byproduct during the operation of a three-way catalyst (TWC) in a simulated exhaust stream was investigated using a commercially available Pd/Rh TWC under steady-state and lean/rich cycling conditions. Ion molecular reaction-mass spectrometry was applied to determine NO, NO 2 , and NH 3 concentrations at a time resolution of 0.6 s. Catalyst aging was shown to result in a significant increase in the amount of NH 3 formed, which has received limited attention in the literature to date. The selectivity toward NH 3 formation has been shown to increase with the decrease in the oxygen storage capacity (OSC) of a TWC induced by thermal aging. NH 3 has been shown to mainly form within the exhaust temperature range of 250−550 °C. Typical lambda and rich operational condition duration periods found in vehicle test procedures were also employed to investigate their effects on NH 3 formation. The results suggest that a decrease in the lambda and/or an increase in the duration of rich operating conditions will lead to an increase in the selectivity toward NH 3 formation. Improving the OSC of TWCs and effectively controlling the lambda near to 1.0 with limited duration in rich operating conditions are therefore significant factors in the reduction of NH 3 emissions.

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Ammonia removal in selective catalytic oxidation: Influence of catalyst structure on the nitrogen selectivity

Wang

Ren

Harle

et al. 2021

Journal of Hazardous Materials

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The effect of textural properties of CeO2-SiO2 mixed oxides on NH3-SCO activity of Pt/CeO2-SiO2 catalyst

Chang

Harle

et al. 2020

Applied Catalysis A: General

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Extending the Lindqvist Family to Late 3d Transition Metals: A Rational Entry to CoW₅ Hexametalate Chemistry

et al. 2009

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Rational addition of capping groups to the phosphomolybdate Keggin anion [PMo12O40]3− by mild, non-aqueous reductive aggregation

et al. 2012

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Gavin Harle

Ammonia Formation over Pd/Rh Three-Way Catalysts during Lean-to-Rich Fluctuations: The Effect of the Catalyst Aging, Exhaust Temperature, Lambda, and Duration in Rich Conditions

Ammonia removal in selective catalytic oxidation: Influence of catalyst structure on the nitrogen selectivity

The effect of textural properties of CeO2-SiO2 mixed oxides on NH3-SCO activity of Pt/CeO2-SiO2 catalyst

Extending the Lindqvist Family to Late 3d Transition Metals: A Rational Entry to CoW₅ Hexametalate Chemistry

Rational addition of capping groups to the phosphomolybdate Keggin anion [PMo12O40]3− by mild, non-aqueous reductive aggregation

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Gavin Harle

Ammonia Formation over Pd/Rh Three-Way Catalysts during Lean-to-Rich Fluctuations: The Effect of the Catalyst Aging, Exhaust Temperature, Lambda, and Duration in Rich Conditions

Ammonia removal in selective catalytic oxidation: Influence of catalyst structure on the nitrogen selectivity

The effect of textural properties of CeO2-SiO2 mixed oxides on NH3-SCO activity of Pt/CeO2-SiO2 catalyst

Extending the Lindqvist Family to Late 3d Transition Metals: A Rational Entry to CoW5 Hexametalate Chemistry

Rational addition of capping groups to the phosphomolybdate Keggin anion [PMo12O40]3− by mild, non-aqueous reductive aggregation

Contact Info

Product

Resources

About

Extending the Lindqvist Family to Late 3d Transition Metals: A Rational Entry to CoW₅ Hexametalate Chemistry