Selective Removal of Diesel Oil Hydrocarbons in Aerobic Bioremediation

In soil bioremediation, the main target is the removal of pollutants to the maximum extent. Careful monitoring of pollution concentration provides information about the process efficacy and removal efficiency. Moreover, a detailed analysis of residual pollution composition provides a detailed picture of single compound removal or presence, especially of interest when pollution is constituted by a mixture of chemical species. This paper shows the first results of a study on the speciation of diesel oil compound removal from soils by aerobic remediation. The experimental study was carried out in a microcosm using indigenous microorganisms and adopting the biostimulation strategy with a mineral salt medium for bacteria. The microcosm contained 200 g of dry soil and 14 g of diesel oil with a carbon to nitrogen ratio (C/N) equal to 180 and water content (u%) equal to 12% by mass. The residual pollution concentration in soil was monitored for 138 days to evaluate both the overall removal efficiency and that for the main groups of hydrocarbons. The results showed that the pollution composition changed during the test because of the different rate of metabolization for the single compounds: the overall removal efficiency was about 65%, and that of different hydrocarbon clusters was between 53% and 88%. The monitoring data also allowed the kinetic study of the degradation process, which was better modeled by a second-order kinetic model than by a first-order one. These findings were confirmed by analyzing other microcosms with different operative conditions (C/N = 120, 180 and u% = 8%, 12%, 15% by mass). The proposed methodology may be useful for the evaluation of compliance to concentration limits imposed by law.

Automated summary

The main goal of soil bioremediation is to remove pollutants to the maximum extent possible, and careful monitoring of pollution concentration can provide information about process efficacy and removal efficiency. Detailed analysis of residual pollution composition can provide insight into the removal or presence of single compounds, especially when pollution is a mixture of chemical species. Monitoring the pollution composition changes during a test revealed an overall removal efficiency of about 65%, with different hydrocarbon clusters showing removal efficiencies between 53% and 88%. Kinetic study of the degradation process showed that a second-order kinetic model better described the process than a first-order model.