FIXATION OF LEAD IN CONTAMINATED SOILS BY COAGGLOMERATION WITH METAL-BINDING AGENTS

Adsorption of lead from an aqueous solution by both agricultural peat moss and soil has been measured. The results may be described by a Lan gmuir isotherm model. Adsorption isotherms fitted the ''H'' type descr ibed in the Giles classification. Saturation adsorption was reached at equilibrium lead concentrations > 3000 mg/L for peat, compared with s imilar to 250 mg/L for soil. Calculation of the isotherm parameters sh owed the maximum lead adsorption to be 150 mg lead/g of peat. This com pared with only 12.64 mg/g of lead for soil alone. Several tests were carried out to evaluate the lead binding capacity of peat in a spiked soil sample. Results from leaching tests (Environmental Protection Age ncy, EPA, Toxicity Characteristic Leaching Procedure, TCLP, at pH 2.9) on soil-peat mixtures confirmed the excellent metal binding capacity of peat in the samples tested. The amount of lead leached from a soil sample, spiked with 1840 mg/kg of water-soluble lead, decreased with i ncreasing amounts of peat loading. Total fixation was achieved at a pe at loading of 20%.