Technoeconomic Investigation of Amine-Grafted Zeolites and Their Kinetics for CO Capture.

Solid adsorbents with precise surface structural chemistry and porosity are of immense interest to decode the structure-property relationships and maintain an energy-intensive path while achieving high activity and durability. In this work, we reported a series of amine-modified zeolites and their CO capture efficiencies. The amine impregnated molecular zeolite compounds were characterized and systematically investigated for CO adsorption capacity through thermogravimetric analysis for the occurrence of atmospheric pure CO gas at 75 °C with diethylenetriamine (DETA), ethylenediamine (EDA), monoethanolamine (MEA), and triethanolamine (TEA)-loaded zeolite 13X, 4A, and 5A adsorbents.

Polyethylenimine-Modified Zeolite 13X for CO Capture: Adsorption and Kinetic Studies.

A class of high molecular weight polyethylenimine (PEI)-modified zeolite 13X adsorbents were synthesized by varying the concentration of imines and screened for preliminary investigation of CO capture studies. The impregnated molecular amine zeolite composite was characterized and CO adsorption performance was investigated through TGA in the presence of atmospheric pure CO gas at 25, 50, 75, and 100 °C, respectively, using 20-80 wt % of PEI-loaded zeolite 13X adsorbents. This paper reports on the effects of temperature and amine (PEI) loading on CO adsorption capacity and estimated kinetic parameters through modeling of selected models which represent the reaction rate and diffusion rate models.