A Monitored Natural Attenuation (MNA) assessment approach typically used for contaminant remediation feasibility assessment was developed here for remediation-reagent delivery assessment. Subsurface delivery of oxidants, such as aqueous ozone (O) for in situ chemical oxidation (ISCO) of groundwater contaminants, is naturally attenuated by oxidant demand and reactivity. We compared mixed reactor kinetic experiments, sand column tracer transport experiments, and reactive transport modeling and assessment methods to quantify natural attenuation kinetics, aqueous O solute transport, oxidant demand kinetics, and ISCO reagent delivery limitations. Sorption of aqueous O to quartz sand was observed during transport of O through water-saturated porous media. Pseudo 1st order decomposition rate constants of O bulk attenuation with transport were comparable to mixed reactor experiments without transport, and reactive transport modeling of miscible-displacement column experiments was used to quantify each attenuation process. Aqueous ionic strength was correlated with O decomposition rate constants, which was the dominant reagent delivery attenuation process. These results suggest that aqueous O decomposition and oxidant delivery attenuation can be predictable upon characterization of the sediment oxidant demand and dispersion, and increasing groundwater velocity during aqueous O injection can maximize transport distance for reagent delivery.
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| http://dx.doi.org/10.1016/j.chemosphere.2020.125848 | DOI Listing |
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