Self-Formed, Mixed-Conducting, Triple-Phase Membrane for Efficient CO2/O2 Capture from Flue Gas and in Situ Dry-Oxy Methane Reforming

We report here a high-temperature, low-cost, mixed-conducting, triple-phase membrane for high-flux and selective CO2/O-2 capture and in situ conversion of methane into syngas via dry-oxy methane reforming (DOMR). The membrane is composed of a porous NiO-SDC matrix filled with molten carbonate. With Ar as the sweeping gas, the membrane exhibits a CO2 and O-2 flux density of 1.17 and 0.52 mL min(-1) cm(-2), respectively, at 850 degrees C. With CH4-Ar as the sweep gas and Ni0.2Mg0.8O-1 wt % Pt (NMP) as the catalyst, the in situ DOMR reaction delivers a syngas production rate of 7.4 mL min(-1) cm(- 2) with a CH4 conversion rate of 84.1%. A long-term test of the membrane reactor shows a stable performance.