Performance of a ceramic membrane reactor with high oxygen flux Ta-containing perovskite for the partial oxidation of methane to syngas

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autorschaft

  • Huixia Luo
  • Yanying Wei
  • Heqing Jiang
  • Wenhui Yuan
  • Yangxiao Lv
  • Jürgen Caro
  • Haihui Wang

Organisationseinheiten

Externe Organisationen

  • South China University of Technology
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Seiten (von - bis)154-160
Seitenumfang7
FachzeitschriftJournal of membrane science
Jahrgang350
Ausgabenummer1-2
Frühes Online-Datum24 Dez. 2009
PublikationsstatusVeröffentlicht - 15 März 2010

Abstract

A novel dense BaCo0.7Fe0.2Ta0.1O3-δ (BCFT) perovskite membrane was successfully synthesized from BaCO3, Co2O3, Fe2O3 and Ta2O5 by a simple solid state reaction. X-ray diffraction (XRD) was used to characterize the phase formation process of BCFT precursors after ball-milling 24 h in ethanol and calcining at different temperatures. The oxygen permeation under different driving forces shows that the oxygen permeation under an air/He oxygen gradient is controlled by bulk diffusion at 900 °C for a membrane thickness from 0.6 mm to 1.2 mm. However, the oxygen permeation under the stronger oxygen gradient in the partial oxidation of methane (POM) to syngas reaction at 900 °C is limited by the oxygen surface exchange. The POM to syngas in the BCFT reactor was successfully performed. Methane conversion was found to be >99% with 94% CO selectivity and 16.2 ml/min cm2 oxygen permeation flux under a steady state condition was obtained at 900 °C. Moreover, the BCFT membrane reactor has been steadily operated in the POM to syngas reaction for more than 400 h without any fractures.

ASJC Scopus Sachgebiete

Zitieren

Performance of a ceramic membrane reactor with high oxygen flux Ta-containing perovskite for the partial oxidation of methane to syngas. / Luo, Huixia; Wei, Yanying; Jiang, Heqing et al.
in: Journal of membrane science, Jahrgang 350, Nr. 1-2, 15.03.2010, S. 154-160.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Luo H, Wei Y, Jiang H, Yuan W, Lv Y, Caro J et al. Performance of a ceramic membrane reactor with high oxygen flux Ta-containing perovskite for the partial oxidation of methane to syngas. Journal of membrane science. 2010 Mär 15;350(1-2):154-160. Epub 2009 Dez 24. doi: 10.1016/j.memsci.2009.12.023
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title = "Performance of a ceramic membrane reactor with high oxygen flux Ta-containing perovskite for the partial oxidation of methane to syngas",
abstract = "A novel dense BaCo0.7Fe0.2Ta0.1O3-δ (BCFT) perovskite membrane was successfully synthesized from BaCO3, Co2O3, Fe2O3 and Ta2O5 by a simple solid state reaction. X-ray diffraction (XRD) was used to characterize the phase formation process of BCFT precursors after ball-milling 24 h in ethanol and calcining at different temperatures. The oxygen permeation under different driving forces shows that the oxygen permeation under an air/He oxygen gradient is controlled by bulk diffusion at 900 °C for a membrane thickness from 0.6 mm to 1.2 mm. However, the oxygen permeation under the stronger oxygen gradient in the partial oxidation of methane (POM) to syngas reaction at 900 °C is limited by the oxygen surface exchange. The POM to syngas in the BCFT reactor was successfully performed. Methane conversion was found to be >99% with 94% CO selectivity and 16.2 ml/min cm2 oxygen permeation flux under a steady state condition was obtained at 900 °C. Moreover, the BCFT membrane reactor has been steadily operated in the POM to syngas reaction for more than 400 h without any fractures.",
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TY - JOUR

T1 - Performance of a ceramic membrane reactor with high oxygen flux Ta-containing perovskite for the partial oxidation of methane to syngas

AU - Luo, Huixia

AU - Wei, Yanying

AU - Jiang, Heqing

AU - Yuan, Wenhui

AU - Lv, Yangxiao

AU - Caro, Jürgen

AU - Wang, Haihui

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N2 - A novel dense BaCo0.7Fe0.2Ta0.1O3-δ (BCFT) perovskite membrane was successfully synthesized from BaCO3, Co2O3, Fe2O3 and Ta2O5 by a simple solid state reaction. X-ray diffraction (XRD) was used to characterize the phase formation process of BCFT precursors after ball-milling 24 h in ethanol and calcining at different temperatures. The oxygen permeation under different driving forces shows that the oxygen permeation under an air/He oxygen gradient is controlled by bulk diffusion at 900 °C for a membrane thickness from 0.6 mm to 1.2 mm. However, the oxygen permeation under the stronger oxygen gradient in the partial oxidation of methane (POM) to syngas reaction at 900 °C is limited by the oxygen surface exchange. The POM to syngas in the BCFT reactor was successfully performed. Methane conversion was found to be >99% with 94% CO selectivity and 16.2 ml/min cm2 oxygen permeation flux under a steady state condition was obtained at 900 °C. Moreover, the BCFT membrane reactor has been steadily operated in the POM to syngas reaction for more than 400 h without any fractures.

AB - A novel dense BaCo0.7Fe0.2Ta0.1O3-δ (BCFT) perovskite membrane was successfully synthesized from BaCO3, Co2O3, Fe2O3 and Ta2O5 by a simple solid state reaction. X-ray diffraction (XRD) was used to characterize the phase formation process of BCFT precursors after ball-milling 24 h in ethanol and calcining at different temperatures. The oxygen permeation under different driving forces shows that the oxygen permeation under an air/He oxygen gradient is controlled by bulk diffusion at 900 °C for a membrane thickness from 0.6 mm to 1.2 mm. However, the oxygen permeation under the stronger oxygen gradient in the partial oxidation of methane (POM) to syngas reaction at 900 °C is limited by the oxygen surface exchange. The POM to syngas in the BCFT reactor was successfully performed. Methane conversion was found to be >99% with 94% CO selectivity and 16.2 ml/min cm2 oxygen permeation flux under a steady state condition was obtained at 900 °C. Moreover, the BCFT membrane reactor has been steadily operated in the POM to syngas reaction for more than 400 h without any fractures.

KW - Membrane reactor

KW - Mixed conductor

KW - Oxygen permeation

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