Issue 16, 2023

Preparation of BCYF0.10–YDC/BCYF0.10–Ni dual-layer hollow fiber membrane for dry reforming of methane and hydrogen purification

Abstract

A ceramic hydrogen permeable membrane reactor for dry reforming of methane (DRM) carries out both the reaction and separation process simultaneously, enabling the production of synthesis gas and pure hydrogen, while also mitigating greenhouse gas emissions. In this study, we prepared F-doped Ba0.95Ce0.8Y0.2O3−δF0.10 (BCYF10) and Ce0.8Y0.2O2−δ (YDC) ceramic powders, a BCYF0.10–YDC/BCYF0.10–Ni dual-layer hollow fiber (HF) membrane, and catalysts with different Ni contents. The catalysts were packed outside the BCYF0.10–YDC/BCYF0.10–Ni HF membrane to obtain a catalytic membrane reactor. The results showed that the hydrogen permeation flux of the dual-layer HF membrane was 0.54 mL min−1 cm−2 at 900 °C with a feed gas of 50 vol% H2/He. Steam and CO2 could increase the hydrogen permeation flux. At 950 °C, the conversion of CH4 and CO2 for Ni/BCYF0.10–YDC catalyst with 30 wt% Ni was 74.5% and 87.1%, respectively. The membrane reactor composed of 30 wt% Ni/BCYF0.10–YDC catalyst maintained good reaction and separation stability during continuous operation for 720 min at 900 °C. The CO and H2 selectivities, as well as carbon balance fluctuated around 87.5%, 69.9%, and 89.4%, respectively, indicating the feasibility of constructing a DRM–hydrogen separation coupled membrane reactor for DRM and concurrent separation of hydrogen.

Graphical abstract: Preparation of BCYF0.10–YDC/BCYF0.10–Ni dual-layer hollow fiber membrane for dry reforming of methane and hydrogen purification

Supplementary files

Article information

Article type
Paper
Submitted
29 Mme 2023
Accepted
08 Upu 2023
First published
10 Upu 2023

Catal. Sci. Technol., 2023,13, 4673-4683

Preparation of BCYF0.10–YDC/BCYF0.10–Ni dual-layer hollow fiber membrane for dry reforming of methane and hydrogen purification

J. Wang, B. Shao, C. Li, J. Song, B. Meng, X. Meng, N. Yang, S. Kawi, J. Sunarso, X. Tan and S. Liu, Catal. Sci. Technol., 2023, 13, 4673 DOI: 10.1039/D3CY00595J

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