Environmental Engineering Reference
In-Depth Information
transport, and multicomponent solute transport with major ion equilibrium and kinetic chem-
istry. Version 2.0. Research Report No. 141 US Salinity Laboratory, USDA, ARS, Riverside,
CA, 186 pp
Šimunek J, Valocchi AJ (2002) Geochemical transport. In: Dane JH, Topp GC (eds) Methods of
soil analysis, part 1, physical methods, chapter 6.9, 3rd edn. SSSA, Madison, WI, pp 1511-1536
Šimunek J, Van Genuchten MTh (2006) Contaminant transport in the unsaturated zone: theory and
modeling, chapter 22. In: Delleur J (ed) The handbook of groundwater engineering, 2nd edn.
CRC, Boca Raton, FL, pp 22.1-22.46
Šimunek J, Van Genuchten MTh (2008) Modeling nonequilibrium flow and transport with
HYDRUS. Vadose Zone J, Special issue “Vadose zone modeling” 7:782-797
Šimunek J, Van Genuchten MTh, Šejna M (2005) The HYDRUS-1D software package for simu-
lating the one-dimensional movement of water, heat, and multiple solutes in variably-saturated
media. Version 3.0, HYDRUS Software Series 1, Department of Environmental Sciences,
University of California Riverside, Riverside, CA, 270 pp
Šimunek J, Van Genuchten MTh, Šejna M (2006c) The HYDRUS software package for simulating
two- and three-dimensional movement of water, heat, and multiple solutes in variably-saturated
media, Technical manual, version 1.0, PC Progress, Prague, Czech Republic, 241 pp
Šimunek J, Van Genuchten MTh, Sejna M (2008) Development and applications of the HYDRUS
and STANMOD software packages and related codes. Vadose Zone J, Special issue “Vadose
zone modelling” 7(2):587-600
Šimunek J, Van Genuchten MTh, Šejna M, Toride N, Leij FJ (1999a) The STANMOD com-
puter software for evaluating solute transport in porous media using analytical solutions of
convection-dispersion equation. Versions 1.0 and 2.0, IGWMC - TPS - 71, International
Ground Water Modeling Center, Colorado School of Mines, Golden, CO, 32 pp
Šimunek J, Wendroth O, Van Genuchten MTh (1998b) A parameter estimation analysis of the
evaporation method for determining soil hydraulic properties. Soil Sci Soc Am J 62(4):
894-905
Šimunek J, Wendroth O, Wypler N, Van Genuchten MTh (2001) Nonequilibrium water flow
characterized from an upward infiltration experiment. Eur J Soil Sci 52(1):13-24
Smolders E, McLaughlin M (1996) Effect of Cl on Cd uptake by Swiss Chard in nutrient solutions.
Plant Soil 179:57-64
Sposito G, Barry DA (1987) On the Dagan model of solute transport I groundwater: foundational
aspects. Water Resour Res 23:1867-1875
Steefel CI, MacQuarrie KTB (1996) Approaches to modeling of reactive transport in porous media.
In: Lichtner PC, Steefel CI, Oelkers EH (eds) Reactive transport in porous media. Reviews in
mineralogy. Chapter 2, vol 34, Mineralogical Society of America, pp 83-129
Steefel CI, Yabusaki SB (1996) OS3D/GIMRT, software for multicomponent-multidimensional
reactive transport. User manual and programmer's guide, PNL-11166, Pacific Northwest
National Laboratory, Richland, WA
Thibault DH, Sheppard MI, Smith PA (1990), A critical compilation and review of default soil
solid/liquid partition coefficients, K d , for use in environmental assessments. AECL-10125
Thiele-Bruhn S (2003) Pharmaceutical antibiotic compounds in soils - a review. J Plant Nutr Soil
Sci 166:145-167
Tolls J (2001) Sorption of veterinary pharmaceuticals in soils: a review. Environ Sci Technol
35:3397-3406
Toride N, Leij FJ, Van Genuchten MTh (1993) A comprehensive set of analytical solutions for
nonequilibrium transport with first-order decay and zero-order production. Water Resour Res
29(7):2167-2182
Toride N, Leij FJ, Van Genuchten MTh (1995) The CXTFIT code for estimating transport param-
eters from laboratory or field tracer experiments. Version 2.0, Research report no. 137 US
Salinity Laboratory, USDA, ARS, Riverside, CA
Totsche KU, Kögel-Knaber I (2004) Mobile organic sorbent affected contaminant transport in soil:
numerical case studies for enhanced and reduced mobility. Vadose Zone J 3:352-367
Search WWH ::




Custom Search