Advancements in dual-phase carbonate membranes for carbon capture and syngas production
Globally, the rise in the environmental awareness on the reduction of greenhouse gas emissions has spurred the development of carbon capture and utilization (CCU) technologies, including membrane separation. Among the membrane separation technologies, dual-phase carbonate membrane is feasible for po...
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| Format: | Article |
| Language: | English |
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Elsevier
2024-12-01
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| Series: | Carbon Capture Science & Technology |
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| Online Access: | http://www.sciencedirect.com/science/article/pii/S2772656824001003 |
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| author | Liza Melia Terry Melvin Xin Jie Wee Claudia Li Guoqiang Song Jiuan Jing Chew Jian Song M. Hanif B.M. Halim Farahdila B. Kadirkhan Shaomin Liu Sibudjing Kawi Jaka Sunarso |
| author_facet | Liza Melia Terry Melvin Xin Jie Wee Claudia Li Guoqiang Song Jiuan Jing Chew Jian Song M. Hanif B.M. Halim Farahdila B. Kadirkhan Shaomin Liu Sibudjing Kawi Jaka Sunarso |
| author_sort | Liza Melia Terry |
| collection | DOAJ |
| description | Globally, the rise in the environmental awareness on the reduction of greenhouse gas emissions has spurred the development of carbon capture and utilization (CCU) technologies, including membrane separation. Among the membrane separation technologies, dual-phase carbonate membrane is feasible for post-combustion carbon capture given its high thermal and chemical stabilities at high temperatures. The integration of carbon capture and dry reforming of methane (DRM) in a catalytic dual-phase carbonate membrane reactor to function as a single device for syngas production is an emerging area of research. This paper aims to provide a comprehensive review on the progress of the dual-phase carbonate membranes and membrane reactors in carbon capture and syngas production. The working mechanism and performance of three types of carbonate membranes in CO2 separation from various aspects (i.e., material selection, membrane configuration, modifications on the materials, and operating conditions) are thoroughly examined. Additionally, an overview of the reactions involved (i.e., DRM, steam reforming of methane (SRM), and partial oxidation of methane (POM)) and catalyst design (i.e., nickel-based supported with metal oxides and zeolites) is provided. A detailed comparison of the performance of the catalytic dual-phase ceramic-carbonate membrane reactor using different types of catalysts for syngas production is presented. Finally, the review is concluded with a discussion of the challenges, recommendations, and future insights on the development of dual-phase carbonate membranes and membrane reactors. |
| format | Article |
| id | doaj-art-2016384970104e91809ceedbac8a45b7 |
| institution | OA Journals |
| issn | 2772-6568 |
| language | English |
| publishDate | 2024-12-01 |
| publisher | Elsevier |
| record_format | Article |
| series | Carbon Capture Science & Technology |
| spelling | doaj-art-2016384970104e91809ceedbac8a45b72025-08-20T01:54:53ZengElsevierCarbon Capture Science & Technology2772-65682024-12-011310028810.1016/j.ccst.2024.100288Advancements in dual-phase carbonate membranes for carbon capture and syngas productionLiza Melia Terry0Melvin Xin Jie Wee1Claudia Li2Guoqiang Song3Jiuan Jing Chew4Jian Song5M. Hanif B.M. Halim6Farahdila B. Kadirkhan7Shaomin Liu8Sibudjing Kawi9Jaka Sunarso10Research Centre for Sustainable Technologies, Faculty of Engineering, Computing and Science, Swinburne University of Technology, Jalan Simpang Tiga, 93350 Kuching, Sarawak, MalaysiaResearch Centre for Sustainable Technologies, Faculty of Engineering, Computing and Science, Swinburne University of Technology, Jalan Simpang Tiga, 93350 Kuching, Sarawak, MalaysiaDepartment of Chemical and Biomolecular Engineering, National University of Singapore, 4 Engineering Drive 4, Singapore 117585, SingaporeInstitute of Carbon Neutral New Energy, Yuzhang Normal University, Nanchang 330031, ChinaResearch Centre for Sustainable Technologies, Faculty of Engineering, Computing and Science, Swinburne University of Technology, Jalan Simpang Tiga, 93350 Kuching, Sarawak, MalaysiaDepartment of Chemical Engineering, Shandong University of Technology, Zibo 255049, ChinaCarbon Capture Utilisation & Storage (CCUS), Group Technology Commercialisation (GTC), Project Delivery & Technology (PD&T), PETRONAS Research Sdn Bhd, Block E, Lot 3288 & 3289, Off Jln Ayer Itam, Kawasan Institusi Bangi, 43000 Kajang, Selangor, MalaysiaCarbon Capture Utilisation & Storage (CCUS), Group Technology Commercialisation (GTC), Project Delivery & Technology (PD&T), PETRONAS Research Sdn Bhd, Block E, Lot 3288 & 3289, Off Jln Ayer Itam, Kawasan Institusi Bangi, 43000 Kajang, Selangor, MalaysiaSchool of Engineering, Great Bay University, Dongguan 523000, ChinaDepartment of Chemical and Biomolecular Engineering, National University of Singapore, 4 Engineering Drive 4, Singapore 117585, Singapore; Corresponding authors.Research Centre for Sustainable Technologies, Faculty of Engineering, Computing and Science, Swinburne University of Technology, Jalan Simpang Tiga, 93350 Kuching, Sarawak, Malaysia; Corresponding authors.Globally, the rise in the environmental awareness on the reduction of greenhouse gas emissions has spurred the development of carbon capture and utilization (CCU) technologies, including membrane separation. Among the membrane separation technologies, dual-phase carbonate membrane is feasible for post-combustion carbon capture given its high thermal and chemical stabilities at high temperatures. The integration of carbon capture and dry reforming of methane (DRM) in a catalytic dual-phase carbonate membrane reactor to function as a single device for syngas production is an emerging area of research. This paper aims to provide a comprehensive review on the progress of the dual-phase carbonate membranes and membrane reactors in carbon capture and syngas production. The working mechanism and performance of three types of carbonate membranes in CO2 separation from various aspects (i.e., material selection, membrane configuration, modifications on the materials, and operating conditions) are thoroughly examined. Additionally, an overview of the reactions involved (i.e., DRM, steam reforming of methane (SRM), and partial oxidation of methane (POM)) and catalyst design (i.e., nickel-based supported with metal oxides and zeolites) is provided. A detailed comparison of the performance of the catalytic dual-phase ceramic-carbonate membrane reactor using different types of catalysts for syngas production is presented. Finally, the review is concluded with a discussion of the challenges, recommendations, and future insights on the development of dual-phase carbonate membranes and membrane reactors.http://www.sciencedirect.com/science/article/pii/S2772656824001003CatalystsCatalytic methane reformingCarbon dioxide separationMembrane reactorMixed ionic-electronic conducting |
| spellingShingle | Liza Melia Terry Melvin Xin Jie Wee Claudia Li Guoqiang Song Jiuan Jing Chew Jian Song M. Hanif B.M. Halim Farahdila B. Kadirkhan Shaomin Liu Sibudjing Kawi Jaka Sunarso Advancements in dual-phase carbonate membranes for carbon capture and syngas production Carbon Capture Science & Technology Catalysts Catalytic methane reforming Carbon dioxide separation Membrane reactor Mixed ionic-electronic conducting |
| title | Advancements in dual-phase carbonate membranes for carbon capture and syngas production |
| title_full | Advancements in dual-phase carbonate membranes for carbon capture and syngas production |
| title_fullStr | Advancements in dual-phase carbonate membranes for carbon capture and syngas production |
| title_full_unstemmed | Advancements in dual-phase carbonate membranes for carbon capture and syngas production |
| title_short | Advancements in dual-phase carbonate membranes for carbon capture and syngas production |
| title_sort | advancements in dual phase carbonate membranes for carbon capture and syngas production |
| topic | Catalysts Catalytic methane reforming Carbon dioxide separation Membrane reactor Mixed ionic-electronic conducting |
| url | http://www.sciencedirect.com/science/article/pii/S2772656824001003 |
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