Research progress on the mechanism of sulfur poisoning and resistance improvement of noble metal catalysts

Research progress on the mechanism of sulfur poisoning and resistance improvement of noble metal catalysts

SO_2 impurities are commonly encountered in practical industrial exhaust gases. During catalytic purification processes, SO_2 molecules compete with reactants for active sites. Particularly, SO_2 can undergo chemical reactions with noble metals, forming sulfate salts. This interaction weakens electr...

Full description

Saved in:
Bibliographic Details
Main Authors: XIANG Li, WANG Shengdi, WENG Xiaole*
Format: Article
Language:zho
Published: Editorial Office of Energy Environmental Protection 2024-08-01
Series:能源环境保护
Subjects:
catalytic purification
noble metals
sulfur poisoning
regeneration method
sulfur-resistant strategy
Online Access:https://eep1987.com/en/article/5088
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:SO_2 impurities are commonly encountered in practical industrial exhaust gases. During catalytic purification processes, SO_2 molecules compete with reactants for active sites. Particularly, SO_2 can undergo chemical reactions with noble metals, forming sulfate salts. This interaction weakens electron transfer capabilities, leading to severe and irreversible sulfur poisoning of catalysts. Therefore, efficiently regenerating sulfur-poisoned catalysts or designing sulfur-resistant catalysts has become a crucial challenge in the field of environmental catalysis. This paper begins by analyzing the adsorption, migration, and transformation processes of SO_2 on noble-metal based catalysts. It then explores methods for regenerating sulfur-poisoned catalysts and elucidates the involved mechanisms. Subsequently, it summarizes strategies for designing noble-metal based catalysts with excellent sulfur-resistance, including active phase regulation, support modification, and the construction of encapsulated structures, emphasizing that the key to developing sulfur-resistant catalysts lies in enhancing metal-metal/support interactions. Finally, it discusses future research directions for noble-metal based catalysts with excellent sulfur-resistance, aiming to provide guidance for the optimized design of industrial sulfur-resistant catalysts.
ISSN:2097-4183

Similar Items