• Title of article

    Electron donor and pH relationships for biologically enhanced dissolution of chlorinated solvent DNAPL in groundwater

  • Author/Authors

    Perry L. McCarty، نويسنده , , Min-Ying Chu، نويسنده , , Peter K. Kitanidis، نويسنده ,

  • Issue Information
    دوماهنامه با شماره پیاپی سال 2007
  • Pages
    7
  • From page
    276
  • To page
    282
  • Abstract
    Biologically enhanced dissolution offers a method to speed removal of chlorinated solvent dense non-aqueous-phase liquid (DNAPL) sources such as tetrachloroethene (PCE) and trichoroethene (TCE) from aquifers. Bioremediation is accomplished by adding an electron donor to the source zone where fermentation to intermediates leading to acetic acid and hydrogen results. The hydrogen and possibly acetic acid are used by dehalogenating bacteria to convert PCE and TCE to ethene and hydrochloric acid. Reductive dehalogenation is thus an acid forming process, and sufficient alkalinity must be present to maintain a near neutral pH. The bicarbonate alkalinity required to maintain pH above 6.5 is a function of the electron donor: 800 mg/L of bicarbonate alkalinity is sufficient to achieve about 1.2 mM TCE dechlorination with glucose, 1.7 mM with lactate, and a much higher 3.3 mM with formate. Laboratory studies indicate that in mixed culture, formate can be used as an electron donor for complete conversion to ethene, contrary to pure cultures studies indicating it cannot. Various strategies can be used to add electron donor to an aquifer for DNAPL dehalogenation while minimizing pH problems and excessive electron donor usage, including use of injection-extraction wells, dual recirculation wells, and nested injection-extraction wells.
  • Keywords
    lactate , glucose , groundwater , DNAPL , dehalogenation , Tetrachloroethene , trichloroethene , pH , Alkalinity , Bioremediation , Electron donor , Formate , hydrogen
  • Journal title
    European Journal of Soil Biology
  • Serial Year
    2007
  • Journal title
    European Journal of Soil Biology
  • Record number

    966035