A novel CAU-10-H MOF membrane for hydrogen separation under hydrothermal conditions

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Hua Jin
  • Alexander Wollbrink
  • Rui Yao
  • Yanshuo Li
  • Juergen Caro
  • Weishen Yang

Organisationseinheiten

Externe Organisationen

  • CAS - Dalian Institute of Chemical Physics
  • Graduate University of Chinese Academy of Sciences
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Seiten (von - bis)40-46
Seitenumfang7
FachzeitschriftJournal of membrane science
Jahrgang513
Frühes Online-Datum7 Apr. 2016
PublikationsstatusVeröffentlicht - 1 Sept. 2016

Abstract

Hydrogen selective membranes with excellent hydrothermal stability are highly demanded in ethanol steam reforming. For this goal, a novel CAU-10-H MOF membrane has been prepared on α-Al2O3 disc for the first time by in situ solvothermal synthesis. The as-prepared CAU-10-H membrane shows high selectivity for H2 with mixed gas separation factors of 10.5 and 74.7 for H2/CO2 and H2/CH4 binary mixtures, respectively, indicating the successful synthesis of CAU-10-H membrane with high-quality. The performance of the CAU-10-H membrane for hydrogen separation in the presence of steam was systematically investigated by variation of feed pressure (2-5 bar) and temperature (150-300 °C). The CAU-10-H membrane is selective for H2, with separation factors of 11.1 and 5.67 for H2 over CO2 and H2O, respectively. More importantly, the CAU-10-H membrane is still structure-preserving and hydrogen-selective after long-term test under hydrothermal conditions. These results demonstrate that the CAU-10-H membrane is an excellent candidate for hydrogen separation in steam reforming of ethanol in a membrane reactor.

ASJC Scopus Sachgebiete

Zitieren

A novel CAU-10-H MOF membrane for hydrogen separation under hydrothermal conditions. / Jin, Hua; Wollbrink, Alexander; Yao, Rui et al.
in: Journal of membrane science, Jahrgang 513, 01.09.2016, S. 40-46.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Jin H, Wollbrink A, Yao R, Li Y, Caro J, Yang W. A novel CAU-10-H MOF membrane for hydrogen separation under hydrothermal conditions. Journal of membrane science. 2016 Sep 1;513:40-46. Epub 2016 Apr 7. doi: 10.1016/j.memsci.2016.04.017
Jin, Hua ; Wollbrink, Alexander ; Yao, Rui et al. / A novel CAU-10-H MOF membrane for hydrogen separation under hydrothermal conditions. in: Journal of membrane science. 2016 ; Jahrgang 513. S. 40-46.
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abstract = "Hydrogen selective membranes with excellent hydrothermal stability are highly demanded in ethanol steam reforming. For this goal, a novel CAU-10-H MOF membrane has been prepared on α-Al2O3 disc for the first time by in situ solvothermal synthesis. The as-prepared CAU-10-H membrane shows high selectivity for H2 with mixed gas separation factors of 10.5 and 74.7 for H2/CO2 and H2/CH4 binary mixtures, respectively, indicating the successful synthesis of CAU-10-H membrane with high-quality. The performance of the CAU-10-H membrane for hydrogen separation in the presence of steam was systematically investigated by variation of feed pressure (2-5 bar) and temperature (150-300 °C). The CAU-10-H membrane is selective for H2, with separation factors of 11.1 and 5.67 for H2 over CO2 and H2O, respectively. More importantly, the CAU-10-H membrane is still structure-preserving and hydrogen-selective after long-term test under hydrothermal conditions. These results demonstrate that the CAU-10-H membrane is an excellent candidate for hydrogen separation in steam reforming of ethanol in a membrane reactor.",
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T1 - A novel CAU-10-H MOF membrane for hydrogen separation under hydrothermal conditions

AU - Jin, Hua

AU - Wollbrink, Alexander

AU - Yao, Rui

AU - Li, Yanshuo

AU - Caro, Juergen

AU - Yang, Weishen

PY - 2016/9/1

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N2 - Hydrogen selective membranes with excellent hydrothermal stability are highly demanded in ethanol steam reforming. For this goal, a novel CAU-10-H MOF membrane has been prepared on α-Al2O3 disc for the first time by in situ solvothermal synthesis. The as-prepared CAU-10-H membrane shows high selectivity for H2 with mixed gas separation factors of 10.5 and 74.7 for H2/CO2 and H2/CH4 binary mixtures, respectively, indicating the successful synthesis of CAU-10-H membrane with high-quality. The performance of the CAU-10-H membrane for hydrogen separation in the presence of steam was systematically investigated by variation of feed pressure (2-5 bar) and temperature (150-300 °C). The CAU-10-H membrane is selective for H2, with separation factors of 11.1 and 5.67 for H2 over CO2 and H2O, respectively. More importantly, the CAU-10-H membrane is still structure-preserving and hydrogen-selective after long-term test under hydrothermal conditions. These results demonstrate that the CAU-10-H membrane is an excellent candidate for hydrogen separation in steam reforming of ethanol in a membrane reactor.

AB - Hydrogen selective membranes with excellent hydrothermal stability are highly demanded in ethanol steam reforming. For this goal, a novel CAU-10-H MOF membrane has been prepared on α-Al2O3 disc for the first time by in situ solvothermal synthesis. The as-prepared CAU-10-H membrane shows high selectivity for H2 with mixed gas separation factors of 10.5 and 74.7 for H2/CO2 and H2/CH4 binary mixtures, respectively, indicating the successful synthesis of CAU-10-H membrane with high-quality. The performance of the CAU-10-H membrane for hydrogen separation in the presence of steam was systematically investigated by variation of feed pressure (2-5 bar) and temperature (150-300 °C). The CAU-10-H membrane is selective for H2, with separation factors of 11.1 and 5.67 for H2 over CO2 and H2O, respectively. More importantly, the CAU-10-H membrane is still structure-preserving and hydrogen-selective after long-term test under hydrothermal conditions. These results demonstrate that the CAU-10-H membrane is an excellent candidate for hydrogen separation in steam reforming of ethanol in a membrane reactor.

KW - CAU-10-H membrane

KW - Gas permeation

KW - H/CO separation

KW - H/HO separation

KW - Metal-organic frameworks

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