Designing Adsorbents for CO 2 Capture from Flue Gas-Hyperbranched Aminosilicas Capable of Capturing CO 2 Reversibly
Georgia Institute of Technology · National Energy Technology Laboratory
Abstract
Carbon dioxide adsorption from a simulated flue gas stream was successfully performed with a hyperbranched aminosilica (HAS) material. The HAS was synthesized by a one-step reaction, spontaneous aziridine ring-opening polymerization off of surface silanols, to form a 32 wt % organic/inorganic hybrid material. The adsorption measurements were performed in a fixed-bed flow reactor using humidified CO2. The advantage of this adsorbent over previously reported adsorbents is the stability of the organic groups covalently bound to the silica support compared to those made by physisorbed methods. Furthermore, a large CO2 capacity (∼3 mmol CO2/g adsorbent) associated with the high loading of amines was observed.
Citation impact
- FWCI
- 87.24
- Percentile
- 100%
- References
- 24
Authors
6- JCJason C. HicksCorresponding
Georgia Institute of Technology, National Energy Technology Laboratory
- JHJeffrey H. Drese
Georgia Institute of Technology, National Energy Technology Laboratory
- DJDaniel J. Fauth
National Energy Technology Laboratory, Georgia Institute of Technology
- MLMcMahan L. Gray
National Energy Technology Laboratory, Georgia Institute of Technology
- GQGenggeng Qi
Georgia Institute of Technology, National Energy Technology Laboratory
Topics & keywords
- Chemistry
- Adsorption
- Flue gas
- Aziridine
- Polymerization
- Covalent bond
- Chemical engineering
- Amine gas treating
- Clean water and sanitation