REMEDIATING RDX-CONTAMINATED WATER AND SOIL USING ZERO-VALENT IRON

Soil and water contaminated with RDX (hexahydro-1,3,5-trinitro-1,3,5-t riazine) pose a serious threat to the environment and human health. Ou r objective was to determine the potential for using zero valent iron (Fe-0) to remediate RDX-contaminated water and soil. Mixing an aqueous solution of 32 mg RDX L-1 (spiked with C-14-labeled RDX) with 10 g Fe -0 L-1 resulted in complete RDX destruction within 72 h. Nitroso deriv atives of RDX accounted for approximately 26% of the RDX transformed d uring the first 24 h; these intermediates disappeared within 96 h and the remaining C-14 products were water soluble and not strongly sorbed by iron surfaces. When RDX-contaminated soil (30 mg RDX kg(-1) spiked with C-14-RDX) was treated with a single amendment of FeO (20 g kg(-1 ) soil) in a static soil microcosm, more than 60% of the initial C-14- RDX was recovered as (CO2)-C-14 after 112 d. Treating surface and subs urface soils containing 3600 mg RDX kg(-1) with 50 g FeO kg(-1) at a c onstant soil water content (0.35-0.40 kg H2O kg(-1) soil) resulted in a 52% reduction in extractable RDX following 12 mo of static incubatio n. A second Fe-0 addition at 12 mo further reduced the initial extract able RDX by 71% after 15 mo. These results support the use of zero-val ent iron for in situ remediation of RDX-contaminated soil.