Cold-Start NO Mitigation by Passive Adsorption Using Pd-Exchanged Zeolites: From Material Design to Mechanism Understanding and System Integration.

Environ Sci Technol

National Engineering Laboratory for VOCs Pollution Control Technology and Equipment, Guangdong Provincial Key Laboratory of Atmospheric Environment and Pollution Control, School of Environment and Energy, South China University of Technology, 510006 Guangzhou, China.

Published: March 2023

AI Article Synopsis

  • Efficiently reducing harmful nitrogen oxides (NO) in low-temperature diesel exhausts during cold starts poses a significant challenge, with passive NO adsorbers (PNA) showing potential to capture and release NO at varying temperatures.
  • This review highlights advancements in material design and system integration for palladium-exchanged zeolites, focusing on the synthesis process, aging effects, and performance of these materials.
  • It also explores the mechanistic understanding of NO storage and release, interactions with exhaust components, and discusses practical applications and challenges in implementing Pd-zeolite-based PNA for cold-start NO emissions reduction.

Article Abstract

It remains a major challenge to abate efficiently the harmful nitrogen oxides (NO) in low-temperature diesel exhausts emitted during the cold-start period of engine operation. Passive NO adsorbers (PNA), which could temporarily capture NO at low temperatures (below 200 °C) and release the stored NO at higher temperatures (normally 250-450 °C) to downstream selective catalytic reduction unit for complete abatement, hold promise to mitigate cold-start NO emissions. In this review, recent advances in material design, mechanism understanding, and system integration are summarized for PNA based on palladium-exchanged zeolites. First, we discuss the choices of parent zeolite, Pd precursor, and synthetic method for the synthesis of Pd-zeolites with atomic Pd dispersions, and review the effect of hydrothermal aging on the properties and PNA performance of Pd-zeolites. Then, we show how different experimental and theoretical methodologies can be integrated to gain mechanistic insights into the nature of Pd active sites, the NO storage/release chemistry, as well as the interactions between Pd and typical components/poisons in engine exhausts. This review also gathers several novel designs of PNA integration into modern exhaust after-treatment systems for practical application. At the end, we discuss the major challenges, as well as important implications, for the further development and real application of Pd-zeolite-based PNA in cold-start NO mitigation.

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Source
http://dx.doi.org/10.1021/acs.est.2c06207DOI Listing

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