Accession Number : ADA306366
Title : Study of the Long-Term Desorption of Trichloroethylene from Clay Soils Using Infrared Spectroscopy.
Descriptive Note : Master's thesis,
Corporate Author : AIR FORCE INST OF TECH WRIGHT-PATTERSON AFB OH SCHOOL OF ENGINEERING
Personal Author(s) : Stager, Mary P.
PDF Url : ADA306366
Report Date : DEC 1995
Pagination or Media Count : 117
Abstract : Slow desorption of contaminants from soil presents one of the greatest challenges to modeling contaminant fate and transport and implementing effective remediation technologies. The kinetics of long-term desorption of trichloroethylene (TCE) from powdered clay soils were studied to determine the desorption rates and mechanism. Infrared absorption spectroscopy was used to monitor the concentration of TCE desorbed from contaminated flint clay for 71 hours. Observed gas phase TCE concentrations as a function of time were compared to that predicted by a one-site Langmuir desorption mechanism. The Langmuir model, with a single type of bonding site, did not account for the release of entrained contaminant past the rapid desorption phase, indicating the need for a desorption model based more than one type of binding site. A second model, based on a Gamma distribution of desorption rate coefficients, fit the entire desorption profile. Application of infrared absorption spectroscopy to measure long-term desorption allowed continuous measurement of desorption over long time periods (days). A multiplex design in the optical detection system improved measurement capabilities, allowing quantification of contaminant to 0.06 torr of TCE. The ability to measure such small changes in contaminant concentration is an important development in characterizing and understanding long-term desorption trends.
Descriptors : *INFRARED SPECTROSCOPY, *SOILS, *CLAY, *DESORPTION, *TRICHLOROETHYLENE, MEASUREMENT, OPTICAL EQUIPMENT, OPTICAL DETECTION, MODELS, POWDERS, PROBABILITY DISTRIBUTION FUNCTIONS, SITES, THESES, VAPOR PHASES, PROFILES, PATTERNS, CONTAMINANTS, BONDING, ABSORPTION SPECTRA, MULTIPLEXING, ENTRAINMENT.
Subject Categories : Organic Chemistry
Atomic and Molecular Physics and Spectroscopy
Distribution Statement : APPROVED FOR PUBLIC RELEASE