| Literature DB >> 29431991 |
Daofei Lv1, Renfeng Shi1, Yongwei Chen1, Ying Wu1, Houxiao Wu1, Hongxia Xi1, Qibin Xia1, Zhong Li1.
Abstract
The separation of ethane from ethylene using cryogenic distillation is an energy-intensive process in the industry. With lower energetic consumption, the adsorption technology provides the opportunities for developing the industry with economic sustainability. We report an iron-based metal-organic framework PCN-245 with interpenetrated structures as an ethane-selective adsorbent for ethylene/ethane separation. The material maintains stability up to 625 K, even after exposure to 80% humid atmosphere for 20 days. Adsorptive separation experiments on PCN-245 at 100 kPa and 298 K indicated that ethane and ethylene uptakes of PCN-245 were 3.27 and 2.39 mmol, respectively, and the selectivity of ethane over ethylene was up to 1.9. Metropolis Monte Carlo calculations suggested that the interpenetrated structure of PCN-245 created greater interaction affinity for ethane than ethylene through the crossing organic linkers, which is consistent with the experimental results. This work highlights the potential application of adsorbents with the interpenetrated structure for ethane separation from ethylene.Entities:
Keywords: adsorption capacity; adsorption selectivity; ethane-selective adsorbent; ethylene/ethane separation; interpenetrated structure; stability
Year: 2018 PMID: 29431991 DOI: 10.1021/acsami.7b19414
Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN: 1944-8244 Impact factor: 9.229