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Volume 2 Issue 3
Sep.  2014
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ZHANG Zhi-qiang, LI Hong-chao, WANG Yu-qing, et al. 2014: Application of Visual MODFLOW to simulation of migration in Cr6+ contaminated site. Journal of Groundwater Science and Engineering, 2(3): 28-35.
Citation: ZHANG Zhi-qiang, LI Hong-chao, WANG Yu-qing, et al. 2014: Application of Visual MODFLOW to simulation of migration in Cr6+ contaminated site. Journal of Groundwater Science and Engineering, 2(3): 28-35.

Application of Visual MODFLOW to simulation of migration in Cr6+ contaminated site

  • Publish Date: 2014-09-28
  • On the basis of site investigation and data collection of a certain electro plating factory, the groundwater flow and solute transport coupled models were established by applying Visual MODFLOW 4.1 software, which was used to conduct a numerical simulation that forecast the transport process of Cr6+ in groundwater. The results show that contamination plume of Cr6+ transports with groundwater flow direction. Without control measures, in 3 650 days, 19 wells for drinking would be contaminated, and the range of transport would be 52 172 m2, the maximum contamination would be 35.8 mg/L
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  • QIAO Xiao-hui, CHEN Jian-ping, et al. 2013. Spatial distribution of heavy metals in groundwater from the piedmont to coastal areas in the North China Plain. Earth and Environment, 41(03): 209-215.
    HUANG Xiao-gang, DONG Ze-jun, et al. 2013. Simulation and prediction of hydro?dynamic field of groundwater Cr (VI) pollution based on MOLDFLOW. Journal of Water Re?sources & Water Engineering, 24(01): 192- 195.
    LIU Ming-zhu, CHEN Hong-han, et al. 2006. Modeling of transformation and tran?sportation of PCE and TCE by bio?degradation in shallow groundwater. Earth Science Frontiers (China University of Geosciences, Beijing: Peking Uni?versity), 13(01): 155-159.
    GAO An-hu, WANG Ming-yu, et al. 2013. Risk investigation of groundwater con?tamination of hexavalent chromium in Jiaozuo part of the middle route of south to north water transfer project. Journal of University of Chinese Academy of Sciences, 30(06): 763-769.
    SHI Qi-meng, WANG Qiang, et al. 2012. Application of Visual MODFLOW to simulate groundwater contamination mig?ration. Yellow River, 34(12): 69-71, 74.
    MA Zhi-fei, AN Da, et al. 2012. Simulation on contamination forecast and control of groundwater in a certain hazardous waste landfill.Environmental Science, 33(01): 64-70.
    ZHAO Qing-hui, WANG Xing-run, et al. 2011. Numerical simulation of transportation and migration of hexavalent chromium in groundwater and remedial guide limit value of typical chromium slag con?taminated sites. Environmental En?gineering, 29(02): 16-19.
    WEI Peng-xiang. 2011. Application of Visual MODFLOW to simulation of groundwater contamination migration. Water Re?sources Protection, 27(04): 19-21,41.
    HE Xiao-wen, XU Guang-quan, et al. 2011. Research on accumulation characteristic of shallow groundwater metal element. Chinese Journal of Environmental En?gineering, 5(02): 322-326.
    WANG Yong-qing, JIA Zhong-hua, et al. 2007. Visual MODFLOW and its application problems in groundwater simulation. Journal of Nanhua University (Science and Tech-nology), 18(05): 90-92.
    ZHANG Zhao-ji, et al. 2012. Regional ground??-water contamination assessment in the North China Plain. Jouranl of Jilin University (Earth Science Edition), 42(05): 1 456-1 461.
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