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Mathematical Modeling of Column and Field Dense Nonaqueous Phase Liquid Tracer Tests
Authors:David J. Wilson  Ronald A. Burt  Douglas S. Hodge
Affiliation:(1) Eckenfelder Inc., 227 French Landing Drive, Nashville, Tennessee, 37228, U.S.A.;(2) Eckenfelder Inc., 227 French Landing Drive, Nashville, Tennessee, 37228, U.S.A.;(3) Jacobs Engineering Group Inc., 600 Seventeenth St., Suite 1100N, Denver, Colorado, 80202, U.S.A.
Abstract:Mathematical models for the simulation of dense nonaqueous phase liquid tracer tests (DTTs) in laboratory columns and in the field are developed and examined. The DTT technique is a means of estimating the quantity of dense nonaqueous phase liquid (DNAPL) in a domain of interest in an aquifer. The two-dimensional field DTT model uses the Method of Principal Directions and an asymmetrical upwind algorithm for describing advective transport. Both models include diffusion transport of tracer into and from low-permeability porous structures such as clay lenses, as well as the mass transport kinetics of partitioning tracer to and from the DNAPL droplets. The dependence of the effluent tracer concentration curves on the parameters of the models is explored, and conclusions are drawn regarding the applicability of, and several possible problems with, the DTT technique. Model results indicate that the DTT performs well at locating distributed droplets of DNAPL, but is unlikely to be useful in the assessment of pooled DNAPL.
Keywords:DNAPL  dense nonaqueous phase liquid  tracer test
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