Impact of microbial activity on the hydraulic properties of fractured chalk

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28 Scopus citations

Abstract

The impact of microbial activity on fractured chalk transmissivity was investigated on a laboratory scale. Long-term experiments were conducted on six fractured chalk cores (20 cm diameter, 23-44 cm long) containing a single natural fracture embedded in a porous matrix. Biodegradation experiments were conducted under various conditions, including several substrate and oxygen concentrations and flow rates. 2,4,6-Tribromophenol (TBP) was used as a model contaminant (substrate). TBP biodegradation efficiency depended mainly on the amount of oxygen. However, under constant oxygen concentration at the core inlet, elevating the flow rates increased the removal rate of TBP. Transmissivity reduction was clearly related to TBP removal rate, following an initial slow decline and a further sharp decrease with time. The fracture's transmissivity was reduced by as much as 97% relative to the initial value, with no leveling off of the clogging process. For the most extreme cases, reductions of 262 and 157 μm in the equivalent hydraulic apertures were recorded for fractures with initial apertures of 495 and 207 μm, respectively. The reductions in fracture transmissivity occurred primarily because of clogging by bacterial cells and extracellular polymeric substances (EPS) produced by the bacteria. Most of the biodegradation activity was concentrated near the fracture inlet, where the most suitable biodegradation conditions (nutrients and oxygen) prevailed, suggesting that the clogging had occurred in that vicinity. The clogging must have changed the structure of the fracture void, thereby reducing the active volume participating in flow and transport processes. This phenomenon caused accelerated transport of non-reactive tracers and doubled the fracture's dispersivity under constant flow rates.

Original languageEnglish
Pages (from-to)315-336
Number of pages22
JournalJournal of Contaminant Hydrology
Volume76
Issue number3-4
DOIs
StatePublished - 1 Feb 2005

Keywords

  • 2,4,6-Tribromophenol
  • Bioclogging
  • Biodegradation
  • Fractured chalk
  • Transmissivity

ASJC Scopus subject areas

  • Environmental Chemistry
  • Water Science and Technology

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