Activated carbon prepared from catechol distillation residue for efficient adsorption of aromatic organic compounds from aqueous solution

At present, activated carbon (AC) derived from industrial wastes has a great practical significance. In this work, residue activated carbon (RAC) was successfully synthesized from catechol distillation residue by a simple activation process based on two steps. The optimized RAC (RAC-800, activated at 800 °C) had high specific surface area (1800 m2/g) and large total pore volume (0.91 cm3/g). RAC-800 portrayed the evident increase of the graphitic structure and possessed abundant functional groups. Catechol (CC), phthalic acid (PA) and dimethyl phthalate (DMP) were chosen as typical pollutant to investigate the effect of different functional groups on adsorption aromatic compounds, and the equilibrium adsorption capacity of RAC-800 for CC, PA and DMP was 221.5, 365.0 and 449.9 mg/g, respectively. The adsorption behaviors were systematically studied by the combination of kinetic and thermodynamic model. The adsorption process was dominated by the π-π interaction, assisted by hydrogen bonding, hydrophobic and electrostatic interactions. In addition, regeneration study showed that the adsorption capacity can still remain over 88.5% after five cycles. In total, fine chemical distillation residues are promising to turn into the precursor of activated carbon, which has potential to be used as a good adsorbent for removal of aromatic compounds. •Residue activated carbon (RAC) was synthesized by catechol distillation residue.•RAC displayed large surface area, rich defects, and abundant functional groups.•Hydroxyl, carboxyl and ester groups were elucidated on adsorption mechanism.•RAC exhibited high performance in adsorption of CC, PA and DMP.•π-π interaction played major role in aromatic compounds adsorption.