Remediation of phenanthrene contaminated soil by ferrous oxalate and its phytotoxicity evaluation.

Phenanthrene contaminated soil was remediated by the photochemical process of ferrous oxalate. Without using HO and adjusting soil pH, phenanthrene in contaminated soil was degraded effectively by the ferrous oxalate under visible light irradiation. Ferrous oxalate possesses excellent visible light absorption ability which benefits the degradation of phenanthrene in soil under visible light irradiation.

The removal of Cu(II)-EDTA chelates using green rust adsorption combined with ferrite formation process.

Classical adsorbents such as activated carbon are inefficient to remove Cu(II)-EDTA in solution. Moreover, the heavy metals in the generated sludge can easily be dissolved back into solution. In this research, a novel strategy developed by coupling green rust adsorption and ferrite formation technology was proposed for Cu(II)-EDTA chelate removal.