Removal of sulfamethoxazole in aqueous solution by two activated carbons from secondary sludge and biomass

Abstract: Removal behavior of sulfamethoxazole (SMX) by two carbonaceous materials was studied. The adsorbents were obtained by pyrolysis (550°C, 1 h under nitrogen flow), followed by acid washing of residuals consisting of a biological secondary sludge (SSCM) and a local herbaceous plant (Phragmites communis, RCM). The morphology, elemental composition and chemical properties of the obtained carbonaceous materials were fully characterized. The equilibrium and kinetics of SMX adsorption were studied and modelled, togeth… Show more

“…Adsorption, as a typical physicochemical method, was considered a promising technology for effectively removing organic contaminants from wastewater due to its operational simplicity, effective efficiency, low energy input, and environmental friendliness (Heo et al, 2019). Diverse adsorbents, including activated carbon, carbon nanotube, and biochar have been applied to remove SMX from aqueous solution (Zhao et al, 2016;Rodríguez-Martínez et al, 2019). Among these, biochar generally prepared through partial or complete carbonization of naturally abundant biomass under oxygen-limited conditions, exhibited significant advantages towards adsorption and resource utilization due to its high porosity and abundant functional groups.…”

Physicochemical and adsorptive properties of biochar derived from municipal sludge: sulfamethoxazole adsorption and underlying mechanism

“…Adsorption, as a typical physicochemical method, was considered a promising technology for effectively removing organic contaminants from wastewater due to its operational simplicity, effective efficiency, low energy input, and environmental friendliness (Heo et al, 2019). Diverse adsorbents, including activated carbon, carbon nanotube, and biochar have been applied to remove SMX from aqueous solution (Zhao et al, 2016;Rodríguez-Martínez et al, 2019). Among these, biochar generally prepared through partial or complete carbonization of naturally abundant biomass under oxygen-limited conditions, exhibited significant advantages towards adsorption and resource utilization due to its high porosity and abundant functional groups.…”

Physicochemical and adsorptive properties of biochar derived from municipal sludge: sulfamethoxazole adsorption and underlying mechanism

Mechanism of sulfamethoxazole adsorption on wastewater-sludge-based biochar: Sludge type and modification improvement

UV-Vis absorption spectrophotometry and LC-DAD-MS-ESI(+)-ESI(−) coupled to chemometrics analysis of the monitoring of sulfamethoxazole degradation by chlorination, photodegradation, and chlorination/photodegradation