1. Y. Liu, L. Li, Q. Wang, Study on pollution situation at typical chrome residue contaminated sites and corresponding integrated remediation plan, Res. Environ. Sci., 22 (2009) 248–253.
  2. J. Li, Some experiment results of conduction and induced polarization characteristics for polluted water with the variation of the pollution concentration, Chin. J. Geophys., 42 (1999) 428–434.
  3. H. Liu, The complex dispersion properties of the chromecontaminated soil, Geophys. Geochem. Explor., 34 (2010) 372–375.
  4. C. Nai, Y. Liu, H. Liu, L. Dong, Experiment results of conduction, spectral induced polarization and dielectric characteristics for chrome-contaminated soil, Environ. Sci., 32 (2011) 758–767.
  5. E.G. Flekkøy, A physical basis for the Cole-Cole description of electrical conductivity of mineralized porous media, Geophysics, 78 (2013) 355–368.
  6. Y. Zhu, C.X. Nai, X.C. Lv, Y.L. Wang, The complex resistivity dispersion properties of chromium-contaminated soil in the ultra-low frequency power supply, Res. Environ. Sci., 26 (2013) 555–560.
  7. H. Liu, Parametric inversion on complex resistivity mathematic model of chrome-contaminated soil, Res. Environ. Sci., 23 (2010) 480–484.
  8. T. Nielsen, CR1 Dmod: A Matlab program to model 1D complex resistivity effects in electrical and electromagnetic surveys, Comput. Geosci., 32 (2006) 1411–1419.