Assessment of zeolite 13X and LewatitA® VP OC 1065 for application in a continuous temperature swing adsorption process for biogas upgrading

Two commercially available CO2-adsorbent materials (i.e., zeolite 13X (13X) and LewatitA (R) VP OC 1065 (Lewatit)) were evaluated for their applicability in a continuous temperature swing adsorption (TSA) process for biogas upgrading. The equilibrium adsorption characteristics of carbon dioxide and methane were determined by fixed bed and TGA tests. While relatively high CO2 capacities were measured for both materials (3.6 and 2.5 mol kg(-1)), neither of them was found to adsorb significant amounts of CH4. Lewatit showed to be fully regenerable at 95 degrees C, whereas for 13X, the regeneration was not complete at this temperature. However, 13X showed no degradation up to 190 degrees C, whereas Lewatit started to degrade at 110 and 90 degrees C when exposed to N-2 and air, respectively. Fluidization tests showed that Lewatit provides a high mechanical stability, while on the contrary, the tested 13X showed considerable attrition. An equilibrium adsorption model was fitted to the measured CO2 adsorption data. The adsorption model was then integrated into an existing simulation tool for the proposed TSA process to roughly estimate the expectable regeneration energy demand for both materials. It was found that depending on the operating conditions, the regeneration energy demand lies between 0.32-0.54 kWh(th)/m(prodgas)(3) for 13X and 0.71-1.10 kWh(th)/m(prodgas)(3) for Lewatit. Since heat integration measures were not considered in the simulations, it was concluded that the proposed TSA process has a great potential to reduce the overall energy demand for biogas upgrading and that both tested adsorbent materials may be suitable for application in the proposed TSA process.