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Strategic Fast Induction Heating to Combat Hysteresis Barriers in a Flexible MOF for Rapid CO2 Desorption in Biogas Upgrading |
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| Authors: | Rahul Maity Mohsen Gholami Sunil A. Peter Matthias Schoukens Segato Tiriana Gino V. Baron Joeri F. M. Denayer |
| Affiliation: | 1. Department of Chemical Engineering (CHIS), Vrije Universiteit Brussel, Brussels, 1050 Belgium;2. Service Materials Engineering, Characterization, Synthesis, and, Recycling (4MAT), Université Libre de Bruxelles, Brussels, 1050 Belgium Contribution: Investigation (supporting) |
| Abstract: | A major challenge in Cyclic Swing Separation using flexible adsorbents that have high equilibrium CO2 adsorption capacity is their very low-pressure hysteresis that hinders efficient desorption. Mg-Gallate MOF is such a flexible adsorbent that only begins to release CO2 at its pore closing pressure at 0.08 bar and 30 °C, showing very slow and inefficient desorption in pressure or temperature swing. Therefore, a novel strategy is presented that combines state of art technique Magnetic Induction Heating with a vacuum swing for fast and efficient CO2 desorption from flexible adsorbents at a moderately elevated temperature (70 °C). |
| Keywords: | adsorption fast regeneration flexibility and hysteresis magnetic induction heating metal–organic frameworks |