Evaluating the Use of Snow-Covered Ranges to Estimate the Explosives Residues that Result From Detonation of Army Munitions

Abstract

Estimating the amounts of residues remaining after munitions detonate is complicated by the presence of residues from previous detonations and the difficulty in easily obtaining adequately sized samples to overcome spatial heterogeneity in residue deposition. This study was conducted to assess the use of snow-covered ranges to provide these types of estimates. Specifically, two snow-covered ranges were used to estimate the amount of explosives residues that result from detonation of individual mortar rounds. At Fort Drum, New York, 60-mm mortar rounds were fired, and at Camp Ethan Allen, Vermont, 81-mm mortar rounds were detonated by EOD personnel using C4 (RDX) and a blasting cap. The locations where residues were deposited were identified by the presence of soot from the detonation of TNT on the surface of the otherwise clean snow. Large surface snow samples were collected with a snow shovel and the melted snow was extracted and analyzed by gas chromatography with an electron capture detector ((GC-ECD) and reversed-phase high performance liquid chromatography (RP-HPLC). For both types of rounds, the main charge was Composition B (60% RDX and 39% TNT). The major residues produced were RDX and nitroglycerine (NG), with lesser amounts of HMX and TNT. Surface concentrations ranged from as high as 4430 micrograms/sq m for RDX to less than 0.05 microgram/sq m for TNT, both at Camp Ethan Allen.

Document Details

Document Type

Technical Report

Publication Date

Aug 01, 2000

Accession Number

ADA382526

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