• Title of article

    Geologic heterogeneity recognition using discrete wavelet transformation for subsurface flow solute transport simulations

  • Author/Authors

    Hussein Mustaphaa، نويسنده , , b، نويسنده , , Snehamoy Chatterjeea، نويسنده , , c، نويسنده , , Roussos Dimitrakopoulosa، نويسنده , , Thomas Grafd، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2013
  • Pages
    16
  • From page
    22
  • To page
    37
  • Abstract
    Subsurface flow and solute transport simulations are performed using different scenarios of permeability fields generated from the sequential Gaussian simulation method (SGS), the multiple-point FILTERSIM algorithm and a new multiple-point wavelet-based simulation method (SWS). The SWS method is a multiple-point pattern-based simulation method which uses discrete wavelet transformation for the representation of geologic heterogeneity. For pattern-based simulation, patterns are generated by scanning a training image with a spatial template. The pattern classifications were performed after reducing the dimension of patterns by wavelet decomposition at the suitable scale and by taking only scaling components of wavelet decomposed patterns. The simulation is performed in a sequential manner by finding the best-matched class corresponding to the conditioning data and by randomly sampling a pattern from the best-matched class. The developed method is compared with two other multi-point simulation algorithms, FLTERSIM and SIMPAT. The comparative results revealed that the proposed method is computationally faster than the other two methods while the simulation maps are comparable. Numerical simulations of two flow problems are performed using SGS, SWS and FILTERSIM realizations. The numerical results show a superiority of the SWS method over SGS and FILTERSIM in terms of reproduction of the reference images main features, and agreement with flow and transport results obtained on reference images.
  • Keywords
    spatial patterns , connectivity , Multiphase flow , Geostatistical simulation , Geologic heterogeneity , Wavelet analysis
  • Journal title
    Advances in Water Resources
  • Serial Year
    2013
  • Journal title
    Advances in Water Resources
  • Record number

    1272705