In situ loading metal oxide particles on bio-chars: Reusable materials for efficient removal of methylene blue from wastewater

Abstract

Dyeing wastewater produced from textile industry has attracted considerable attention due to its pollution on environment. In this study, bio-char (BC), TiO2/bio-char (BC-T), TiO2/MgO/ZnO/bio-char composites (BC-TMZ) were prepared and utilized to remove methylene blue (MB). The surface morphology and composition of BC, BC-T and BC-TMZ were described by XRD, EDS, SEM, BET and TEM. Furthermore, the synergistic removal effects of as-prepared materials in MB solutions were explored under different bio-char dosage, initial MB concentration, reaction time and different light irradiation conditions. Finally, the residual MB solutions after treatment are characterized by LC-MS. The results indicated that the metal oxide particles (Fe2O3, ZnO, MgO and TiO2) have been loaded into pores of the BC-TMZ. Moreover, the BC-TMZ which act as both adsorbent and catalytic, possesses excellent reusability (reused for 4 times) to remove MB from solution. The adsorption behaviors of BC-TMZ were described by Pseudo-second order model and Langmuir model well. The maximum adsorption-catalytic capability of BC-TMZ (0.8 g/L) for MB (50 mg/L) was 62.5 mg/g with UV light irradiation (253.7 nm, 40 W) in 4 h. The MB molecules can be decomposed completely by BC-TMZ. The BC-TMZ is potential to be used as a reusable material for the removal of pollutants.