The influence of oxalic acid on release rates of metals from contaminated river sediment
References (12)
- et al.
Mechanisms of dissolution of iron oxides in aqueous oxalic acid solutions
Hydrometallurgy
(1996) - et al.
Chemical characterization of sediments and pore water from the upper Clark Fork River and Milltown reservoir, Montana
Environ Toxicol Chem
(1994) Arsenic distribution in soils
Controls on Mn, Fe, Co, Ni, Cu and Zn concentrations in soils and water: the significant role of hydrous Mn and Fe oxides
- et al.
Covariation of selected trace elements with binding substrates in cores collected from two contaminated sediments
Bull Environ Contam Toxicol
(1989) Contaminant mobilization resulting from redox pumping in a metal-contaminated river-reservoir system
Cited by (13)
Chemical treatments for mobilizing arsenic from contaminated aquifer solids to accelerate remediation
2010, Applied GeochemistryCitation Excerpt :Here the focus is on adding chemical species in order to increase As mobilization with the ultimate goal of improving the pump and treat operation efficiencies at As contaminated Superfund sites. The presence of various chemical anions or ligands can promote As release by competing with As for soil and sediment sorption sites or can lead to complexation reactions that mobilize As (Darland and Inskeep, 1997; Hongshao and Stanforth, 2001; Klarup, 1997; Panias et al., 1996; Tao et al., 2006; Zeng et al., 2008). Though it is recognized that chemical additions could positively impact pump and treat remediation (i.e., the principles behind the methods are understood), the authors know of few other studies that have investigated potential applications of chemical additions at sites contaminated with As (Keimowitz et al., 2005b; Palmer and Fish, 1992).
The effect of citrate, oxalate, acetate, silicate and phosphate on stability of synthetic arsenic-loaded ferrihydrite and Al-ferrihydrite
2005, Journal of Hazardous MaterialsEffect of Oxalic and Citric Acids on Zinc Release Kinetic in Two Calcareous Soils
2016, Communications in Soil Science and Plant AnalysisIn situ oxalic acid injection to accelerate arsenic remediation at a superfund site in New Jersey
2014, Environmental ChemistryBioleaching of heavy metals from mine tailings by aspergillus fumigatus
2012, Bioremediation Journal