Pt substitution in Pd/Rh three-way catalyst for improved emission control

Do Yeong Kim, Wo Bin Bae, Sang Woo Byun, Young Jin Kim, Dal Young Yoon, Changho Jung, Chang Hwan Kim, Dohyung Kang, Melanie J. Hazlett, Sung Bong Kang

Research output: Contribution to journalArticlepeer-review

3 Scopus citations

Abstract

Gasoline engine vehicle emissions, such as nitrogen oxides (NOx), CO and hydrocarbons (HCs), are a major source of air pollution, and require improved emission control systems. By-product NH3 and N2O emissions, which come from low N2 selectivity in the emission control system, are also a major concern. The current study has comprehensively investigated the impact of the Pt-substitution in commercial Pd/Rh-based three-way catalyst (TWC) formulations with respect to catalytic performance. TWC performance was systematically evaluated with respect to the warm-up catalytic converter (WCC) and the under-floor catalytic converter (UCC). This included evaluating TWC activity under realistic simulated exhaust conditions including fuel-rich, stoichiometric and fuel-lean (0.99≤λ≤1.01). Pt-substituted TWCs outperformed Pd-based counterparts, regardless of the converter type (WCC or UCC), in CO, C3H6 and C3H8 oxidation and NO reduction reactions under the simulated exhaust conditions tested. Moreover, Pt-substituted TWCs exhibited significant stability upon hydrothermal aging at 1,050 °C. The results show that after aging the Pt-substituted catalyst retained higher N2 selectivity than the Pd-based TWC. Over Pd-based TWCs, N2 selectivity drastically dropped from 70–80% to 15–35% after aging, while Pt-substituted TWCs N2 selectivity dropped from 80–100% to only 60–80%. The key finding from this study is that Pt incorporation in a Pd/Rh TWC improves the emission control from gasoline vehicles in terms of both CO and HC oxidation and NOx reduction.

Original languageEnglish
Pages (from-to)1606-1615
Number of pages10
JournalKorean Journal of Chemical Engineering
Volume40
Issue number7
DOIs
StatePublished - Jul 2023

Keywords

  • Aging Effect
  • Emission Control
  • Pt Substitution
  • Realistic Exhaust Gas Condition
  • Three-Way Catalyst

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