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Increase in stability of BaCo/CeO2 catalyst by optimizing the loading amount of Ba promoter for high-temperature water-gas shift reaction using waste-derived synthesis gas

Author

Listed:
  • Lee, Yeol-Lim
  • Kim, Kyoung-Jin
  • Jang, Won-Jun
  • Shim, Jae-Oh
  • Jeon, Kyung-Won
  • Na, Hyun-Suk
  • Kim, Hak-Min
  • Bae, Jong Wook
  • Nam, Sung Chan
  • Jeon, Byong-Hun
  • Roh, Hyun-Seog

Abstract

The loading amount of Ba promoter in the 15 wt% Co/CeO2 catalyst system was varied from 0 wt% to 3 wt%, and the resulting catalysts were used for the high-temperature water-gas shift (HTS) reaction. The catalysts were prepared by the incipient wetness co-impregnation method and studied through various characterization techniques such as X-ray diffraction, Brunauer–Emmet–Teller measurements, CO–chemisorption, H2–temperature programmed reduction, X-ray photoelectron spectroscopy, and transmission electron microscopy. The doping of Ba as a promoter in the optimal amount (1–2 wt%) improves the reducibility of the catalyst and enhances its sintering resistance. However, the doping of an excessive amount (≥3 wt%) of the promoter lowers the reducibility of the catalyst, resulting in the instability of the active phase (Co0). Overall, the 1% BaCo/CeO2 catalyst exhibited the best performance even at a severe reaction condition (CO conc. = 38%, GHSV = 143,000 h−1) owing to the strong resistance to the sintering and high stability of the active phase.

Suggested Citation

  • Lee, Yeol-Lim & Kim, Kyoung-Jin & Jang, Won-Jun & Shim, Jae-Oh & Jeon, Kyung-Won & Na, Hyun-Suk & Kim, Hak-Min & Bae, Jong Wook & Nam, Sung Chan & Jeon, Byong-Hun & Roh, Hyun-Seog, 2020. "Increase in stability of BaCo/CeO2 catalyst by optimizing the loading amount of Ba promoter for high-temperature water-gas shift reaction using waste-derived synthesis gas," Renewable Energy, Elsevier, vol. 145(C), pages 2715-2722.
  • Handle: RePEc:eee:renene:v:145:y:2020:i:c:p:2715-2722
    DOI: 10.1016/j.renene.2019.08.050
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    Cited by:

    1. Tang, Xincheng & Wu, Yanxiao & Fang, Zhenchang & Dong, Xinyu & Du, Zhongxuan & Deng, Bicai & Sun, Chunhua & Zhou, Feng & Qiao, Xinqi & Li, Xinling, 2024. "Syntheses, catalytic performances and DFT investigations: A recent review of copper-based catalysts of methanol steam reforming for hydrogen production," Energy, Elsevier, vol. 295(C).
    2. Lee, Yeol-Lim & Kim, Kyoung-Jin & Hong, Ga-Ram & Ahn, Seon-Yong & Kim, Beom-Jun & Shim, Jae-Oh & Roh, Hyun-Seog, 2021. "Highly sulfur tolerant and regenerable Pt/CeO2 catalyst for waste to energy," Renewable Energy, Elsevier, vol. 178(C), pages 334-343.

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