Unprecedented improvement of the hydrothermal stability of amine-grafted MCM-41 silica for CO2 capture via aluminum incorporation

吸附 硅酸铝 胺气处理 热液循环 MCM-41 解吸 化学 嫁接 化学工程 核化学 无机化学 有机化学 催化作用 分子筛 工程类 聚合物
作者
Masoud Jahandar Lashaki,Hessam Ziaei‐Azad,Abdelhamid Sayari
出处
期刊:Chemical Engineering Journal [Elsevier BV]
卷期号:450: 138393-138393 被引量:19
标识
DOI:10.1016/j.cej.2022.138393
摘要

The hydrothermal stability of amine-containing CO 2 adsorbents is of paramount importance as steam stripping is often practiced for regenerating CO 2 -loaded materials. The impact of aluminum incorporation into the structure of MCM-41 silica on its adsorptive properties and hydrothermal stability during CO 2 capture was studied. Large-pore MCM-41 silica and MCM-41 aluminosilicate (Si/Al = 15) supports with similar average pore sizes of 64 and 66 Å, respectively, were synthesized using a novel method. Amine functionalization of the supports was conducted using grafting of triamine under dry and wet conditions. Amine-tethered MCM-41 aluminosilicate adsorbents exhibited higher CO 2 uptakes (up to 63% higher after 60 minutes of adsorption at 25 °C) and faster CO 2 adsorption kinetics (up to 71% faster after two minutes of adsorption at 25 °C) relative to their MCM-41 silica counterparts. Following a three-hour exposure to steam, extensive deterioration of adsorptive properties was observed for the triamine-grafted MCM-41 silica materials, particularly at low adsorption temperatures of 25 and 50 °C, showing CO 2 uptake losses as high as 73 and 56%, respectively. The triamine-grafted MCM-41 aluminosilicate materials, however, showed unprecedented hydrothermal stability with no significant drop in CO 2 uptake (respective losses as high as 27 and 17%) and adsorption kinetics. After steam stripping, N 2 adsorption-desorption measurements at 77 K showed significantly higher reductions in the Brunauer-Emmett-Teller surface area of the triamine-grafted MCM-41 silica materials (losses of 36–49%) compared to their MCM-41 aluminosilicate counterparts (losses of 31 to 35%). It is inferred that aluminum incorporation into the support increases the hydrothermal stability of the resulting grafted materials in the presence of steam.
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