Impact of KOH Activation on Rice Husk Derived Porous Activated Carbon for Carbon Capture at Flue Gas alike Temperatures with High CO<sub>2</sub>/N<sub>2</sub> Selectivity
Rajib Nandi, Mithilesh Kumar Jha, Sujit Kumar Guchhait, Debanjan Sutradhar, Shashikant Yadav
Abstract
High Resolution Image Download MS PowerPoint Slide Metal-free porous activated carbon is an effective alternative to capture CO 2 due to its high surface area and textural advantages. In this regard, the present research work explores a suitable method for producing activated porous carbon with a high specific surface area through a two-step reaction involving rice husk and KOH at 600 °C for 1 h to capture CO 2 . By varying the ratio of rice husk biomass to KOH, the texture and specific surface area of the activated porous carbon has been altered. A high surface area of ∼755 m 2 /g and a micropore volume of 0.243 cm 3 /g have been observed in the porous carbon produced with a KOH/biomass weight ratio of 3 (PAC2). Nitrogen contents in PAC1 and PAC2 were approximately 2.27 and 2.71 atom %, respectively. When compared with other materials, PAC2 has the highest CO 2 adsorption capability, reaching up to 3.13 mmol/g at 0 °C and 1.55 mmol/g at 50 °C. The isosteric heat of adsorption confirms the presence of both physisorption and chemisorption. The materials turn out to be highly CO 2 /N 2 selective, with the highest selectivity of 131, proving that the samples are potential materials for capturing CO 2 from flue gases. These findings unequivocally show that porous activated carbon can be used to make CO 2 adsorption efficient, inexpensive, and, more importantly, extremely effective.