Advances in Ceramic–Carbonate Dual-Phase Membrane Reactors for Direct CO2 Separation and Utilization DOI Creative Commons
Xue Kang, Qing Yang,

Jiajie Ma

et al.

Membranes, Journal Year: 2025, Volume and Issue: 15(2), P. 53 - 53

Published: Feb. 6, 2025

Excessive (carbon dioxide) CO2 emissions are a primary factor contributing to climate change. As one of the crucial technologies for alleviating emissions, carbon capture and utilization (CCU) technology has attracted considerable global attention. Technologies capturing in extreme circumstances indispensable regulating levels industrial processes. The unique separation characteristics ceramic–carbonate dual-phase (CCDP) membranes increasingly employed at high temperatures due their outstanding chemical, thermal durability, mechanical strength. This paper presents an overview approaches materials. It also elaborates on research progress three types CCDP with distinct permeation mechanisms, concentrating principles, materials, structures. Additionally, several typical membrane reactors, such as dry reforming methane (DRM) reverse water–gas shift (RWGS), discussed demonstrate how captured can function soft oxidant, converting feedstocks into valuable products through oxidation pathways designed within single reactor. Finally, future challenges prospects high-temperature related reactors proposed.

Language: Английский

Advances in Ceramic–Carbonate Dual-Phase Membrane Reactors for Direct CO2 Separation and Utilization DOI Creative Commons
Xue Kang, Qing Yang,

Jiajie Ma

et al.

Membranes, Journal Year: 2025, Volume and Issue: 15(2), P. 53 - 53

Published: Feb. 6, 2025

Excessive (carbon dioxide) CO2 emissions are a primary factor contributing to climate change. As one of the crucial technologies for alleviating emissions, carbon capture and utilization (CCU) technology has attracted considerable global attention. Technologies capturing in extreme circumstances indispensable regulating levels industrial processes. The unique separation characteristics ceramic–carbonate dual-phase (CCDP) membranes increasingly employed at high temperatures due their outstanding chemical, thermal durability, mechanical strength. This paper presents an overview approaches materials. It also elaborates on research progress three types CCDP with distinct permeation mechanisms, concentrating principles, materials, structures. Additionally, several typical membrane reactors, such as dry reforming methane (DRM) reverse water–gas shift (RWGS), discussed demonstrate how captured can function soft oxidant, converting feedstocks into valuable products through oxidation pathways designed within single reactor. Finally, future challenges prospects high-temperature related reactors proposed.

Language: Английский

Citations

0