The seepage transport of heavy metal Pb2+ through sand column in the presence of silicon powders
Author:
Bai Bing1, Zhai Zhenqian1, Rao Dengyu1
Affiliation:
1. School of Civil Engineering , Beijing Jiaotong University , Beijing , 100044 , P R China .
Abstract
Abstract
The coupled transport of heavy metals with suspended particles has been a topic of growing interest. The main purpose of this study is to experimentally investigate the seepage transport of heavy metal Pb2+ in the presence of silicon powders (SPs) through a sand column under different seepage velocities (v = 0.087–0.260 cm/s), injection Pb2+ concentrations (C
P = 0–800 μg/ml) and SP sizes (D
50 = 2.8–25.5 μm), which were likely to be encountered in practical engineering. The sand column was installed in a cylindrical chamber of 300 mm in length and 80 mm in internal diameter. The results clearly show that the increase in acidity results in a reduction of the repulsive interactions between SPs and the matrix, and consequently a decrease in the peak values in breakthrough curves (BTCs), especially for larger-sized SPs. The peak values and recovery rate of Pb2+ are obviously increased and an earlier breakthrough can be observed, due to the higher capacity of SPs with negative charge to adsorb heavy metal pollutants such as Pb2+ with positive charge. The adsorption of Pb2+ on SPs can reduce the repulsive forces between SPs and the matrix, thus resulting in the increase of the deposition possibility of SPs and the decrease of peak value and recovery rate.
Publisher
Walter de Gruyter GmbH
Subject
Fluid Flow and Transfer Processes,Mechanical Engineering,Water Science and Technology
Reference32 articles.
1. Ahfir, N.D., Benamar, A, Alem, A, Wang, H.Q., 2009. Influence of internal structure and medium length on transport and deposition of suspended particles: a laboratory study. Transport in Porous Media, 76, 2, 289–307. 2. Alem, A, Elkawafi, A, Ahfir, N.D., Wang, H.Q., 2013. Filtration of kaolinite particles in a saturated porous medium: hydrodynamic effects. Hydrogeology Journal, 21, 573–586. 3. Bai, B., Long, F., Rao, D.Y., Xu, T., 2017. The effect of temperature on the seepage transport of suspended particles in a porous medium. Hydrological Processes, 31, 2, 382–393. 4. Bekhit, H.M., EI-Kordy, M.A., Hassan, A.E., 2009. Contaminant transport in groundwater in the presence of colloids and bacteria: model development and verification. Journal of Contaminant Hydrology, 108, 152–167. 5. Bennacer, L., Ahfir, N.D., Bouanani, A., Alem, A., Wang, H.Q., 2017. Coupled effects of ionic strength, particle size, and flow velocity on transport and deposition of suspended particles in saturated porous media. Transport in Porous Media, 118, 2, 251–269.
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