Article: Numerical evaluation of different landfill daily cover in semiarid areas - Jordan Journal: International Journal of Environment and Waste Management (IJEWM) 2015 Vol.16 No.2 pp.95 - 111 Abstract: Efficient and suitable daily landfill cover is considered the most important aspect for minimising the negative impact of landfills on the local environment and population, especially in arid and semiarid countries. In this study, numerical model, HYDRUS-2D/3D, was used to investigate the impact of landfill cover type, cover thickness and antecedent water content on the quantity and the rate of contaminant percolation through the Mafraq landfill in Jordan during a 30-year simulation period. Four different cover types (sandy loam, clay loam, silt and clay), three cover thicknesses (0, 50, 100 cm) and two antecedent soil water content values (θi = 0.12 and 0.20 m3m−3) were simulated. Initial chloride concentration of 665 mg/l which is equal to the measured concentration in Mafraq landfill leachate was used during simulation. Simulation results showed that maximum chloride concentration for different scenarios at all locations within the soil profile during the entire simulation period was less than the chloride concentration in the municipal solid waste (MSW) leachate. In addition, as the landfill cover thickness increases, the concentration of chloride at a certain location decreases. Meanwhile, the time required to reach this location increases. The simulation results also showed that the effect of θi on chloride concentration reduction increases as the cover thickness increases. A cover thickness of 50 cm is suitable in case of low θi. Inderscience Publishers - linking academia, business and industry through research

Title: Numerical evaluation of different landfill daily cover in semiarid areas - Jordan

Authors: Mohammad Aljaradin; Kenneth M. Persson

Addresses: Department of Natural Resources and Chemical Engineering, Tafila Technical University, Box 179, 66110 Tafila, Jordan ' Department of Water Resources Engineering, Lund University, Box 118, 221 00 Lund, Sweden

Abstract: Efficient and suitable daily landfill cover is considered the most important aspect for minimising the negative impact of landfills on the local environment and population, especially in arid and semiarid countries. In this study, numerical model, HYDRUS-2D/3D, was used to investigate the impact of landfill cover type, cover thickness and antecedent water content on the quantity and the rate of contaminant percolation through the Mafraq landfill in Jordan during a 30-year simulation period. Four different cover types (sandy loam, clay loam, silt and clay), three cover thicknesses (0, 50, 100 cm) and two antecedent soil water content values (θ_i = 0.12 and 0.20 m³m⁻³) were simulated. Initial chloride concentration of 665 mg/l which is equal to the measured concentration in Mafraq landfill leachate was used during simulation. Simulation results showed that maximum chloride concentration for different scenarios at all locations within the soil profile during the entire simulation period was less than the chloride concentration in the municipal solid waste (MSW) leachate. In addition, as the landfill cover thickness increases, the concentration of chloride at a certain location decreases. Meanwhile, the time required to reach this location increases. The simulation results also showed that the effect of θ_i on chloride concentration reduction increases as the cover thickness increases. A cover thickness of 50 cm is suitable in case of low θ_i.

Keywords: leachate migration; HYDRUS-2D/3D; semiarid climate; landfill daily cover; Jordan; numerical simulation; modelling; landfill cover type; cover thickness; antecedent water content; chloride concentration; environmental pollution; municipal solid waste; MSW.

DOI: 10.1504/IJEWM.2015.071286

International Journal of Environment and Waste Management, 2015 Vol.16 No.2, pp.95 - 111

Accepted: 25 Jan 2015
Published online: 19 Aug 2015 *

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Title: Numerical evaluation of different landfill daily cover in semiarid areas - Jordan

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