In situ colloidal MnO₂deposition and ozonation of 2, 4-dinitrotoluene

Laboratory experiments are presented that demonstrate a novel in situ semipassive reactive barrier for the degradation of 2, 4 dinitrotoluene created by coating aquifer surfaces by deposition of colloidal MnO₂which catalyzes ozone degradation and enhances contaminant oxidation. Ozone is added to the reactive barrier and is transported through the zone with the contaminants by existing hydraulic gradients. The communication presents the preliminary laboratory investigation demonstrating the viability of this method. Studies were conducted by coating Ottawa sand with colloidal MnO₂Results show that concentrations of MnO₂in the range of 0.2 mg/g can be deposited with no measurable change in hydraulic conductivity, that there is significant coverage of the sand material by MnO₂and the deposition was not reversible under a wide range of chemical conditions. Ozonation of 2, 4-dinitrotoluene in the presence of MnO₂-coated sand was demonstrated to result in pseudo-first-order degradation kinetics with respect to DNT with half-lives ranging from 28 to 22 min (at pH 6 and 7, respectively), approximately 25% faster than experiments performed in the absence of MnO₂.