Опубликована: Янв. 1, 2023

Antibiotics and heavy metals often co-exist as non-point-source contaminants in wastewater their quite contrary physiochemical properties make co-removal processes challenging. In this work, a bifunctional zero-valent iron-modified hydrochar derived from walnut peel (MWPHC) was synthesized, which then applied for the simultaneous removal of tetracycline (TC) Cu(II) wastewater. Based on characterizations, Fe0 species were successfully distributed surface substrates. The TC could be synergistically immobilized, bridging effects observed between them, MWPHC exhibited excellent ability (qmax = 433.59 mg/g) 586.25 mg/g). Furthermore, engineering feasibility evaluated using column regeneration experiments. These results shed light tailored an environmental functional material pollution control co-existing antibiotic metal agro-industrial

Язык: Английский