Preparation and CO2 adsorption of diamine modified montmorillonite via exfoliation grafting route

In this paper, diamine modified montmorillonite was prepared by water aided exfoliation/grafting method. The materials were characterized by elemental analysis (EA), X-ray diffraction (XRD), diffuse reflectance infrared Fourier transform spectrometer (DRIFTS), automated surface area and porosity analyser (ASAP 2420) and thermogravimetric analysis (TGA). Adsorption of carbon dioxide on modified montmorillonite was investigated by isothermal CO2 adsorption, temperature ramp CO2 adsorption, regeneration screening test with adsorption/desorption cycles, and multiple cyclic test. The maximum adsorption capacity for modified montmorillonite is 2.4 mmol g−1 at 100 °C. In a 15% CO2 in N2 mixture, the material achieves a maximum adsorption capacity of 1.8 mmol g−1, which is 75% of its maximum capacity in pure CO2. The optimum adsorption and desorption temperature are found to be 80 and 160 °C, respectively, by regeneration testing. The long term performance was also studied in pure CO2, 15% CO2 in N2 and 15% CO2 in N2 with 1000 ppm SO2. The material is stable in pure CO2 and 15% CO2 in N2, while the adsorption capacity drops dramatically with the presence of SO2. In order to understand the kinetics of CO2 adsorption, four kinetics models were evaluated, with the Avrami equation providing the best experimental-simulation fit.

• We propose a novel adsorbent for post-combustion CO2 capture.
• Diamine modified montmorillonite via water aided exfoliation/grafting method.
• Maximum adsorption in 15% CO2 balanced by N2 is in the flue gas temperature range.
• Long term performance cycling indicates good stability when in pure and 15% CO2.