TY - JOUR
T1 - Modeling diffusive Cd and Zn contaminant emissions from soils to surface waters
AU - Bonten, Luc T. C.
AU - Kroes, Joop G.
AU - Groenendijk, Piet
AU - van der Grift, Bas
PY - 2012/9/1
Y1 - 2012/9/1
N2 - Modeling contaminant transport of diffusive contaminants is generally
difficult, as most contaminants are located in the top soil where soil
properties will vary strongly with depth and often a strong gradient in
contaminant concentrations exists. When groundwater periodically
penetrates the contaminated layers, stationary models (like most 3D
models) cannot adequately describe contaminant transport. Therefore we
have combined a hydrological instationary model using a 1D distributed
column approach with a simple geochemical model to describe contaminant
transport in the soil. Special to this model is that it includes lateral
drainage from the soil column to different types of surface waters,
which makes it possible to calculate surface water emissions especially
for fluctuating groundwater tables. To test this model approach, we used
it to quantify surface water emissions from soils in a catchment in the
Kempen area which has been diffusively contaminated with Cd and Zn by
zinc smelters. We ran the model for the period 1880-2000, starting with
an uncontaminated soil in 1880. The model could describe both water
discharge, surface water concentrations and current soil contents of Cd
and Zn well. Further the model calculations showed that a stationary
approach would underestimate leaching to surface waters considerably.
AB - Modeling contaminant transport of diffusive contaminants is generally
difficult, as most contaminants are located in the top soil where soil
properties will vary strongly with depth and often a strong gradient in
contaminant concentrations exists. When groundwater periodically
penetrates the contaminated layers, stationary models (like most 3D
models) cannot adequately describe contaminant transport. Therefore we
have combined a hydrological instationary model using a 1D distributed
column approach with a simple geochemical model to describe contaminant
transport in the soil. Special to this model is that it includes lateral
drainage from the soil column to different types of surface waters,
which makes it possible to calculate surface water emissions especially
for fluctuating groundwater tables. To test this model approach, we used
it to quantify surface water emissions from soils in a catchment in the
Kempen area which has been diffusively contaminated with Cd and Zn by
zinc smelters. We ran the model for the period 1880-2000, starting with
an uncontaminated soil in 1880. The model could describe both water
discharge, surface water concentrations and current soil contents of Cd
and Zn well. Further the model calculations showed that a stationary
approach would underestimate leaching to surface waters considerably.
U2 - 10.1016/j.jconhyd.2012.06.008
DO - 10.1016/j.jconhyd.2012.06.008
M3 - Article
SN - 0169-7722
VL - 138
SP - 113
EP - 122
JO - Journal of Contaminant Hydrology
JF - Journal of Contaminant Hydrology
ER -