Heavy metal (loid) s and organic pollutants have garnered global concern due to their
potential for bioaccumulation and carcinogenic effects. The aquatic environment is one of …

Heterogeneous Fenton processes with solid catalysts have gained much attention for water
and wastewater treatment in recent years. In the field of solid catalysts, zero valent iron (ZVI) …

The discharge of excessive phosphate from wastewater sources into the aquatic
environment has been identified as a major environmental threat responsible for …

Appropriately selecting methods for characterizing the reaction system of zerovalent iron
(ZVI) favors its application for water treatment and remediation. Hence, a survey of the …

Organic contaminants (OCs) are increasingly being reported in African aquatic systems, yet
a critical evaluation of the literature is still lacking. The objectives of this review were to:(1) …

Although the enhanced removal of heavy metals using zero valent iron (ZVI) assisted by
schwertmannite (Sch) was achieved in previous studies, their interactions between Sch and …

Providing safe drinking water is a great challenge for both the developing and the
developed world. Increasing demand and source water quality deterioration has led to the …

Permeable reactive barriers (PRBs) containing metallic iron (Fe0) as reactive materials are
currently considered as an established technology for groundwater remediation. Fe0 PRBs …

The suitability of remediation systems using metallic iron (Fe0) has been extensively
discussed during the past 3 decades. It has been established that aqueous Fe0 oxidative …

Quiescent batch experiments were conducted to evaluate the influences of Cl−, F−, HCO 3−,
HPO 4 2−, and SO 4 2− on the reactivity of metallic iron (Fe 0) for water remediation using …