4.1 Article

Adsorption of CO2 and N2 on bimetallic Mg-Al hydrotalcites and Z-13X zeolites under high pressure and moderate temperatures

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DOI: 10.1016/j.ceja.2022.100437

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Hydrotalcites; CO 2 adsorption; Freundlich; Zeolite 13X; N 2 adsorption; Heat of adsorption

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This study investigated the adsorption of carbon dioxide on a commercial hydrotalcite (HT) and compared it with zeolite 13X (Z13X) using gravimetric analysis. The results showed that HT had higher adsorption capacities and surface area coverage at low pressures compared to Z13X. However, HT exhibited hysteresis and deactivation effects, indicating the need for further research on its regenerability. The CO2 adsorption isotherms of HT were successfully fitted to the Freundlich model.
The adsorption of carbon dioxide on a commercial hydrotalcite (HT) was investigated using gravimetric analysis at 473 K, 573 K and 673 K and pressures up to 10 bar. The CO2 adsorption performance of HT was correlated with a wide range of physicochemical characterisation techniques. For further understanding and comparative purposes, the same adsorption and characterisation measurements are reported for a commercial zeolite 13X (Z13X). The HT exhibited higher adsorption capacities per unit mass of sorbent at relatively low pressures and per unit surface area over the whole range of pressures analysed, compared to zeolite 13X. However, HT showed adsorption-desorption isotherms with a hysteresis loop indicating a stronger binding energy. The HT also presented deactivation upon cycling (up to - 10%, depending on conditions) suggesting the need for future studies focused on improvement of its regenerability. The same performance regarding hysteresis and deactivation was observed in the presence of N2. The CO2 adsorption isotherms of HT were successfully fitted to the Freundlich model. The values of heat of adsorption calculated -56 and -84 kJ mol-1 for the 1st and 5th cycle, are indicative of a chemisorption process. The data of this work provide information regarding fundamentals of CO2 adsorption of the materials that is useful in the design of realistic adsorption units in conventional and novel H2-Carbon Dioxide Capture processes, especially in the sorption-enhanced H2 reaction process.

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