Litcius/Paper detail

Amine Adsorbents Stability for Post‐Combustion CO<sub>2</sub> Capture: Determination and Validation of Laboratory Degradation Rates in a Multi‐staged Fluidized Bed Pilot Plant

Stefan H. A. M. Leenders, Galina Pankratova, John Wijenberg, Julija Romanuka, Farahnaz Gharavi, J. Tsou, Melina Infantino, Lennart van Haandel, S.V.B. van Paasen, Paul‐Emmanuel Just

2023ChemSusChem15 citationsDOIOpen Access PDF

Abstract

Abstract Alternative to current liquid amine technologies for post‐combustion CO 2 capture, new technologies such as adsorbent‐based processes are developed, wherein material lifetime and degradation is important. Herein a robust method to determine degradation rates in a laboratory setup is developed, which was validated with a continuous multi‐staged fluidized bed pilot plant designed to capture 1 ton CO 2 per day. An amine functionalized polystyrene adsorbent showed very good agreement between the experimental 1000‐hour laboratory degradation rates and 2200 hours of degradation in a pilot plant. This validates how laboratory experiments can be extrapolated for sorbent screening and for scale‐up. Resulting, the oxidative degradation in the desorber at high temperatures (120 °C) and low O 2 concentrations (150 ppmv) is 3 times higher compared to the adsorber at low temperatures and high O 2 (56 °C, 7 vol %). Laboratory degradation experiments can hence be used to further optimize process operations to limit degradation or screen for potential new adsorbents.

Topics & Concepts

Pilot plantDegradation (telecommunications)SorbentAmine gas treatingAdsorptionCombustionFluidized bedChemistryChemical engineeringProcess engineeringMaterials scienceWaste managementOrganic chemistryComputer scienceTelecommunicationsEngineeringCarbon Dioxide Capture TechnologiesChemical Looping and Thermochemical ProcessesMembrane Separation and Gas Transport