1. Evaluation of CO 2 /H 2 O Co-Adsorption Models for the Anion Exchange Resin Lewatit VPOC 1065 under Direct Air Capture Conditions Using a Novel Lab Setup.
- Author
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Chimani, Florian M., Bhandari, Aditya Anil, Wallmüller, Andreas, Schöny, Gerhard, Müller, Stefan, and Fuchs, Josef
- Subjects
ION exchange resins ,AIR conditioning ,CARBON dioxide ,THERMOGRAVIMETRY ,SORBENTS ,ATMOSPHERIC temperature - Abstract
This study aimed to develop a laboratory-scale direct air capture unit for evaluating and comparing amine-based adsorbents under temperature vacuum swing adsorption conditions. The experimental campaign conducted with the direct air capture unit allowed for the determination of equilibrium loading, CO
2 uptake capacity, and other main performance parameters of the investigated adsorbent Lewatit VP OC 1065® . The investigations also helped to understand the co-adsorption of CO2 and H2 O on the tested material, which is crucial for improving temperature vacuum swing adsorption processes. This was achieved by obtaining pure component isotherms for CO2 and H2 O and using three different co-adsorption isotherm models from the literature. It was found that the weighted average dual-site Toth model emerged as the most accurate and reliable model for simulating this co-adsorption behaviour. Its predictions closely align with the experimental data, particularly in capturing the adsorption equilibrium at various temperatures. It was also observed that this lab-scale unit offers advantages over thermogravimetric analysis when conducting adsorption experiments on the chosen amine. The final aim of this study is to provide a pathway to develop devices for testing and developing efficient and cost-effective adsorbents for direct air capture. [ABSTRACT FROM AUTHOR]- Published
- 2024
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