Environmental Engineering Reference
In-Depth Information
to the regular transport models, much work remains at hand to obtain a reactive
prediction model that can tell us about the fate and transport of contaminants in
the subsoil system. Present research into coupling between geochemical models
and advection-dispersion models has identiied the complex and highly demand-
ing computational requirements for a coupled model. Nevertheless, a realistic
reactive coupled model is needed if we are to reach the stage where knowledge of
the fate and persistence of contaminants in the subsoil system is to be obtained.
References
Allison, J.D., Brown, D.S., and Novo-Gradac, K.J. (1991), MINTEQA2/PRODEFA2, A Geochemical
Assessment Model for Environmental Systems, USEPA, 1991.
Appelo, C.A.J. and Postma, D. (1993),
Geochemistry, Groundwater and Contamination
, Balkema,
Rotterdam, 536 pp.
Aziz, C.E., Newell, C.J., Gonzales, J.R., Haasm, P.E., Clement, T.P., and Sun, Y. (2000), BIOCHLOR
Natural Attenuation Decision Support System, User's Manual, Version 1.1, USEPA Ofice of
Research and Development, EPA/600/R-00/008.
Ball, J.W. and Nordstrom, D.K. (2001), User's Manual for wateq4f, with Revised Thermodynamic
Data Base and Test Cases for Calculating Speciation of Major, Trace, and Redox Elements
in Natural Waters, U.S. Geological Survey, Open-File Report 91-183, Menlo Park, CA, 1991.
Revised and reprinted April 2001.
Carey, G.R., van Geel, P.J., Murphy, J.R., McBean, E.A., and Rover, F.A. (1998), Full-scale ield appli-
cation of a coupled biodegradation-redox model BIOREDOX. In G.B. Wickramanayake and
R.H. Hinchee (eds.),
Natural Attenuation of Chlorinated Solvents
, Batelle Press, Columbus, Ohio,
pp. 213-218.
Chiou, G.T., Schmedding, D.W., and Manes, M. (1982), Partition of organic compounds on octanol-
water system,
Environmental Science and Technology
, 16:4-10.
Delaney, J.M., Puigdomenech, I., and Wolery, T.J. (1986), Precipitation Kinetics Option of the EQ6
Geochemical Reaction Path Code, Lawrence Livermore National Laboratory Report, UCRL-
56342, Livermore, CA, 44 pp.
Domenico, P.A. (1987), An analytical model for multidimensional transport of a decaying contami-
nant species,
Journal of Hydrology
, 91:49-58.
Einstein, A. (1905), Uber die von der Molekularkinetischen Theorie der Warme Geoforderte Bewegung
von in Rubenden Flussigkeiten Suspendierten Teilchen,
Annalen der Physick
, 4:549-660.
EPA (2014), MINTEQA2, http://www2.epa.gov/exposure-assessment-models/minteqa2 (accessed
June 28, 2014).
Felmy, A.R., Girvin, D.C., and Jeene, E.A. (1984), MINTEQ—A Computer Programme for Calculating
Aqueous Geochemical Equilibria, PB84-157148, EPA-600/3-84-032, February.
Grbic-Galic, D. (1990), Methanogenic transformation of aromatic hydrocarbons and phenols in
groundwater aquifers,
Journal of Geomicrobiology
, 8:167-200.
Karickhoff, S.W. (1984), Organic pollutants sorption in aquatic system,
Journal of Hydraulic Engineering
,
110:707-735.
Karickhoff, S.W., Brown, D.S., and Scott, T.A. (1979), Sorption of hydrophobic pollutants on natural
sediments,
Water Resources
, 13:241-248.
Kenaga, E.E. and Goring, C.A.I. (1980), Relationship between Water Solubility, Soil Sorption, Octanol-
Water Partitioning and Concentration of Chemicals in Biota, ASTM-STP 707, pp. 78-115.
Lerman, A. (1979),
Geochemical Processes: Water and Sediment Environments
, John Wiley & Sons, New
York, 481 pp.
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