Engineering Considerations for Hydroxide Treatment of Training Ranges

Abstract

The use of hydrated lime has the potential to be an effective in situ technology for the destruction and containment of explosives contamination. This was proven with the results from the SERDP project CU-1230, where it was shown to rapidly degrade RDX and TNT. However, prior to field deployment of this technology additional experimental work was required to address concerns regarding the mechanism of the alkaline hydrolysis reaction, the character of the final products of the reaction, the potential for biodegradation of the reaction products, and the amount of lime required for alkaline hydrolysis in different soils. The results can be summarized as follows. First, spectroscopic studies of the TNT alkaline hydrolysis reaction identified two well-resolved and spectrally distinct reaction intermediates. A single radical species was formed during the TNT hydroxide reaction that correlated with the second reaction intermediate. Second, TNT and RDX degraded rapidly through alkaline hydrolysis at pH 12.5. The end products of the reaction were low water-soluble molecular weight compounds that included nitrate and format. No polymer formation was observed under these reaction conditions. Third, anaerobic and aerobic incubation of neutralized hydrolysis reaction mixtures with range soil showed that there is a high potential for biodegradation. This was evidenced by mineralization of reaction end products (production of [14C]-labeled carbon dioxide) and a decrease in nitrite and nitrate concentrations. Fourth, a simple method to predict the lime required by different soils under different environmental and contamination conditions was developed based on current ASTM methods for raising soil pH. A guidance document was prepared to provide site managers a means to easily and inexpensively determine the lime dosage required to raise pH to levels required for munitions and metals remediation.

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Document Details

Document Type
Technical Report
Publication Date
Jun 01, 2007
Accession Number
ADA470974

Entities

People

  • Catherine C. Nestler
  • Deborah R. Felt
  • Edward J. Valente
  • G. R. Bishop
  • Jeffrey L. Davis
  • Leeann Riggs
  • Steven L. Larson
  • William Andy Martin

Organizations

  • Engineer Research and Development Center

Tags

Communities of Interest

  • Counter IED
  • Space

DTIC Thesaurus Topics

  • Buffers (Chemistry)
  • Chemical Compounds
  • Chemical Reaction Properties
  • Chemical Reactions
  • Chemical Synthesis
  • Chemistry
  • Data Analysis
  • Engineering
  • Environmental Protection
  • Explosives
  • Hydroxides
  • Liquid Chromatography
  • Materials Science
  • Military Training
  • Organic Chemistry
  • Test Methods
  • Waste Management

Fields of Study

  • Environmental science

Readers

  • Agricultural Chemistry/Soil Science
  • Analytical Chemistry
  • Systems Analysis and Design