Simulation of Nickel in soils affected by wastewater and sludge by using Hydrus 1D

Paper Details

Research Paper 01/01/2015
Views (483) Download (15)
current_issue_feature_image
publication_file

Simulation of Nickel in soils affected by wastewater and sludge by using Hydrus 1D

Azita Behbahaninia, Amirpouya Sarraf
J. Bio. Env. Sci.6( 1), 51-55, January 2015.
Certificate: JBES 2015 [Generate Certificate]

Abstract

Transport of heavy metals in contaminated soils can cause groundwater pollution. In the present study Hudrus one dimensional software was used for nickel metal transfer from soil to groundwater. Concentrations of Ni was considered in wastewater and sludge as boundary conditions on the flow of incoming water, the concentration of Ni was considered in leaching water as the outlet boundary. Considering the equilibrium model Crank Nicholson and Galerkin finite element by software Haydrus. Concentration changes of Ni was simulated over irrigation period. For this purpose the software Haydrus numbered 1 to number of soil layers, Depth of 100 cm, the depth of groundwater. Time period of irrigation was 150 days. Distribution curves of Ni concentrations in the soil profile shows the experimental results with computational results obtained from the model are similar. And it can be applied in order to determine the concentration distribution of metals in the non- unsaturated zone soil and anticipated arrival time to a specified depth. It can be used to control metal concentrations in the soil and groundwater.

VIEWS 24

Behbahaninia A, Mirbagheri SA, Khorasani N, Nouri J, Javid A. 2009. “Heavy metals contamination of municipal effluent in Soil and Plant”. International Journal of Food, Agriculture Environment, 7(3, 4), 851 – 856

Camobreco VJ, Richards BK, Steenhuis TS, Peverly JH, McBride MB. 1996. Movement of heavy metals through undistributed and homogenized soil columns. Soil Science. 161 (11), 740 – 750.

Ghorbani M, Farsadizadeh D, Jahangiri H, Chapokpor J, Fathi P. 2009. Water engineering softwares. Noorpardazan publications.

Jacques D, Simunek J ,Mallants D , Van Genuchten MTh. 2008 . Modeling Coupled Water flow, Solute transport and geochemical reactions affecting heavy metal migration in a podzol soil.Geoderma. 145, 449 – 461 http://dx.doi.org/10.1016/j.agee.2008.06.008

Mirbagheri SA. 2004 . Modeling contaminant transport in soil column and ground water pollution control. International Journal of Environmental Science and Technology. 1 (2), 149 – 158

Moradi A, Abbaspour KC, Afyuni M. 2005. Modeling field-scale Cadmium transport below the root zone of a sewage sludge amended soil in an arid region in central Iran. Journal of contaminant Hydrology. 79, 187 – 206. http://doi: 10.1016/j.jconhyd.2005.07.005

Nguyen Ngoc M, Dultz S, Kasbohm J. 2009. Simulation of retention and transport of copper, lead and zinc in a padding soil of the Red River Delta, Vietnam. Agriculture, Ecosystem and Environment. 129, 8 – 16. http://doi.org/10.1016/j.agee.2008.06.008doi

Sarvestani H, Mirbaghei SH. 1982. Modeling of transfer and conversion Se in soil column in unsaturated by difference unlimited. PhD thesis of civil engineering, University of Shiraz. 56-59

Simunek J, Jacque D, Van Genuchten MTh, Malleants D. 2006. Multicomponent Geochemical Transport Modeling using Hydrus – D and HP . Journal of the American water resources Association. (6), 1537 – 1547

Šimůnek J, van Genuchten MTh. 2008. Modeling nonequilibrium flow and transport processes using Hydrus, Vadose Zone Journal, 7 (2), 782 – 797. http://doi:10.2136/VZJ2007.0074

Simunek J, Ejna M, Saito H, Sakai M, van Genuchten MTh. 2009.The HYDRUS- D Software Package for Simulating the One-Dimensional Movement of Water ,Heat and Multiple Solutes in Variably Saturated Media, Version., HYDRUS Software Series 3, Department of Environmental Sciences, University of California Riverside, Riverside, California USA 315.

Vrugt JA, Hopmans JW, Imunek JS .2001 . Calibration of a two-dimensional root water uptake model, Soil Science Society of American Journal. 65 (4), 1027 – 1037. http://doi:10.2136/sssaj2001.6541027x