Effect of dechlorinating bacteria on the longevity and composition of PCE-containing nonaqueous phase liquids under equilibrium dissolution conditions

The influence of dechlorinating microorganisms on PCE and its reduced end p roducts in the presence of a PCE-containing nonaqueous phase liquid (NAPL) was investigated. Experiments were conducted in continuous-flow stirred-tan k reactors (CFSTRs) containing a mixed PCE dechlorinating culture and a mod el NAPL consisting of PCE and tridecane. Comparisons between biotic and abi otic CFSTRs demonstrated that dechlorination resulted in a factor of 14 inc rease in PCE removal rates from the NAPL. The formation of dechlorination d aughter products trichloroethene and cis-dichloroethene were observed, and cis-dichloroethene was not dechlorinated further. Partitioning of daughter products between phases caused temporal changes in the chlorinated ethenes distribution within the NAPL. The combined effects of dissolution and dechl orination on the removal of chlorinated ethenes from the NAPL were describe d using a mathematical model that approximated dechlorination as a pseudo-f irst-order process. Pseudo-first-order dechlorination rate coefficients for PCE and TCE were determined and were 0.18 and 0.27 h(-1), respectively. It was determined that total chlorinated ethenes removal from the NAPL would be achieved in 13 days in biotic CFSTRs, as compared to 77 days in the abio tic CFSTRs-corresponding to an 83% reduction in longevity of the chlorinate d ethenes component of the NAPL.