4.7 Article

In situ deposition of OD CeO2 quantum dots on Fe2O3-containing solid waste NH3-SCR catalyst: Enhancing redox and NH3 adsorption ability

期刊

WASTE MANAGEMENT
卷 149, 期 -, 页码 323-332

出版社

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.wasman.2022.06.030

关键词

NH3-SCR; CeO2 quantum dots; Fe2O3-containing solid waste; DFT calculation

资金

  1. National Natural Science Foundation of China [51974049, 52104322]

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In this study, Fe2O3-containing solid waste derived from Zn extraction process was used as the base material for catalyst preparation. The introduction of OD CeO2 quantum dots onto Fe2O3-containing solid waste nanorods significantly enhanced the NH3-SCR catalytic activity, N2 selectivity, and SO2 tolerance of the catalyst.
As NOx has been turning into a crucial environmental problem, NH3-SCR technology with relatively simple device, reliable operation and low secondary pollution, has become a widely used commercial and mature denitration technology. However, some weaknesses restricted the further application of commercialized V2O5-WO3/TiO2 NH3-SCR catalysts, while Fe2O3 -based catalysts have received much attention due to their high thermal stability, passable N-2 selectivity and low cost. In this study, Fe2O3-containing solid waste derived from Zn extraction process of electric arc furnace dust was exploited as the base material for catalyst preparing. Owing to the complementary and synergistic effect of CeO2 and Fe2O3, OD CeO2 quantum dots (CeQDs) with fullyexposed active sites, large specific surface area, and rapid charge transfer have been introduced and deposited onto Fe2O3-containing solid waste nanorods. The in-situ deposition of CeQDs led to the admirable enhancement in NH3-SCR catalytic activity, N2 selectivity and SO2 tolerance of the extremely low-cost Fe2O3 catalyst. Comprehensive characterizations and DFT calculations describing the adsorption of O-2 and NH3 were applied to analyze the catalyst structure and further investigate the detailed relationship between structural properties and activity as well as reaction mechanism. This work provides new insights for the high-value utilization of iron-containing solid waste and a practical reference for boosting the performance of NH3-SCR catalysts by introducing quantum dots.

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