Abstract

Reductive dechlorination of carbon tetra-chloride (CCl4) by anaerobic bacterial communities from anaerobic digester sludge with the amendment of low concentrations of electron donors and microorganisms was undertaken to evaluate the influence of electron donors and microbial concentration on the rate of dechlorination of CCl4. Humic acid, acetate, and glucose were selected to examine the feasibility of the electron donor with respect to the remediation of a contaminated subsurface. The addition of an electron donor and microorganisms significantly enhanced the dechlorination rate of carbon tetrachloride. The addition of an electron donor increased the cell numbers of anaerobic consortia, thereby increasing the rate of dechlorination. Glucose was a better electron donor than acetate and humic acid under reducing environments. The pseudo-first-order degradation rate constants of CCl4 ranged from 0.0057 day-1 to 0.135 day-1, depending on the conditions of the electron donor and biomass supplemented. Furthermore, the addition of the electron donor in the batches amended with 0.56 mg volatile suspended solids (VSS)/l biomass had a higher enhanced efficiency than those with 1.7 mg VSS/l biomass. These results suggest that there is a potential for stimulating the dechlorinating capability of anaerobic consortia to remedy the chlorinated hydrocarbons in the oligotrophic environment if the conditions of the supplementing electron donor are properly selected.

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