• Title of article

    Well-data-based prediction of productivity decline due to sulphate scaling

  • Author/Authors

    Bedrikovetsky، نويسنده , , Pavel and Silva، نويسنده , , Raphael M.P. and Daher، نويسنده , , José S. and Gomes، نويسنده , , José A.T. and Amorim، نويسنده , , Vera C.، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2009
  • Pages
    11
  • From page
    60
  • To page
    70
  • Abstract
    Sulphate scaling can have a disastrous impact on oil production in waterflood projects with incompatible injected and formation waters. This is due to precipitation of barium/strontium sulphate from the mixture of both waters and the consequent permeability reduction resulting in loss of well productivity. stem where sulphate scaling damage occurs is determined by two governing parameters: the kinetics coefficient characterising the velocity of chemical reaction and the formation damage coefficient reflecting permeability decrease due to salt precipitation. us work has derived an analytical model-based method for determination of two coefficients from laboratory corefloods during quasi-steady state commingled flow of injected and formation waters. The current study extends the method for determination of kinetics and formation damage coefficients from production well data consisting of barium concentrations in the produced water and of well productivity decline. lyse production data for five wells from giant offshore field A, submitted to seawater flooding (Campos Basin, Brazil), and obtain values of the two sulphate scaling damage parameters. The two coefficient values were used for prediction of productivity decline for these wells. The values of kinetics and formation damage coefficients as obtained from either laboratory or field data vary in the same range intervals. These results validate the proposed mathematical model for sulphate scaling damage and the analytical model-based method “from lab and wells to wells”.
  • Keywords
    Porous media , Sulphate , reactive flow , Scaling , Productivity index , Formation damage
  • Journal title
    Journal of Petroleum Science and Engineering
  • Serial Year
    2009
  • Journal title
    Journal of Petroleum Science and Engineering
  • Record number

    2219326