In this work, the inverse fluidized-bed bio-adsorption column is applied for the first time and is demonstrated using the torrefied rice husk (TRH) for the removal of methylene blue from the solution. The bio-adsorbents were characterized by BET, FI-IR, and SEM. The inverse fluidized-bed adsorption column using TRH becomes saturated in the 95-min continuous adsorption, during which the breakthrough time is 22 min, the overall MB removal (R) is 84%, and the adsorption capacity (Qexp) on the TRH is 6.82 mg g-1. These adsorption characteristics are superior to those in the fixed-bed adsorption column (R of 52% and Qexp of 2.76 mg g-1) at a lower flow rate (100 vs. 283 cm3 min-1). Torrefaction of RH significantly increases the surface area (28 vs. 9 m2 g-1) and enhances the surface functional groups, leading to an improved maximum equilibrium adsorption amount from 21.5 to 38.0 mg g-1 according to Langmuir model in the batch adsorption system. Besides, the increased Qexp on the TRH is also obtained in the inverse fluidized-bed (5.25 vs. 2.77 mg g-1, 89% higher) and the fixed-bed (2.76 vs. 1.53 mg g-1, 80% higher) adsorption columns compared to that on the RH.
Keywords: Adsorption capacity; Bio-adsorption; Inverse fluidized bed; Textile wastewater; Torrefaction.
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