Effect of hydrothermal aging on NOx reduction performance for Sb-V-CeO2/TiO2 catalyst

Authors
Jeong, Young EunKumar, Pullur AnilHa, Heon PhilLee, Kwan-young
Issue Date
2018-11
Publisher
SPRINGER
Citation
RESEARCH ON CHEMICAL INTERMEDIATES, v.44, no.11, pp.6803 - 6829
Abstract
Herein, we investigated the NOx reduction performance of Sb-V-CeO2/TiO2 (SbVCT) catalyst subjected to hydrothermal aging, where 6 vol% of H2O was fed to the SbVCT for 16h with variable temperatures of 550-750 degrees C. The structural, morphological, redox, and acid properties of fresh and aged catalysts were comprehensively characterized using X-ray diffraction (XRD), transmission electron microscopy (TEM), Raman, N-2-physisorption, temperature programmed reduction/desorption (H-2-TPR/NH3/NO-TPD) and in situ DRIFTS. The XRD, Raman and TEM results of the fresh and the one hydrothermally aged at 550, 600 degrees C catalysts indicated the presence of finely dispersed polymeric vanadia, antimony, and nano-crystalline ceria species on TiO2 support. The SbVCT catalysts hydrothermally aged at the temperatures600 degrees C showed better NOx conversions than the others aged>600 degrees C. This was because aging at the temperatures600 degrees C could help to minimize the loss of surface redox/acid properties that were originally inherent to surface vanadyl and CeO2 species that went into CeVO4 and large CeO2 aggregates. This in turn led to the loss of surface redox and acidic characters indigenous to the SbVCT and reduced its NOx reduction performance. Moreover, the NOx reduction performance of hydrothermally aged V-WO3-TiO2 catalyst, when compared with that of SbVCT catalyst, showed relatively low NOx conversions at the temperatures below 300 degrees C.
Keywords
IN-SITU DRIFTS; MIXED-OXIDE CATALYST; NITRIC-OXIDE; ACTIVITY ENHANCEMENT; SURFACE-PROPERTIES; REACTION-MECHANISM; TITANIA CATALYSTS; VANADIA-TITANIA; ACTIVE-SITES; FAST NH3-SCR; IN-SITU DRIFTS; MIXED-OXIDE CATALYST; NITRIC-OXIDE; ACTIVITY ENHANCEMENT; SURFACE-PROPERTIES; REACTION-MECHANISM; TITANIA CATALYSTS; VANADIA-TITANIA; ACTIVE-SITES; FAST NH3-SCR; Hydrothermal aging; CeVO4; Polymeric VOx species; Raman spectra; NOx conversion
ISSN
0922-6168
URI
https://pubs.kist.re.kr/handle/201004/120750
DOI
10.1007/s11164-018-3523-9
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KIST Article > 2018
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