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Evaluation Of In Situ Steam-Injection Processes For Reduction Of Petroleum Compounds Within An Abandoned Canal
Citation:
Barth, E., G. Weinkam, AND P. Clark. Evaluation Of In Situ Steam-Injection Processes For Reduction Of Petroleum Compounds Within An Abandoned Canal. Remediation Journal. John Wiley & Sons, Ltd., Indianapolis, IN, 20(3):121-132, (2010).
Impact/Purpose:
To evaluate a conceptual approach of a novel application of in-situ thermal processes that would either use a steam injection process or a steam/surfactant injection process to remediate petroleum contaminated sediment residing in an abandoned canal.
Description:
A conceptual approach of a novel application of in-situ thermal processes that would either use a steam injection process or a steam/surfactant injection process was considered to remediate petroleum contaminated sediment residing in an abandoned canal. Laboratory tests were conducted in an attempt to volatilize or mobilize contaminants of concern (selected polycyclic aromatic hydrocarbons [PAHs]) from the contaminated sediment into a phase that could be physically removed. The processes were operated above ambient temperature and pressure in an attempt to increase the removal of the contaminants of concern from the sediment. The ability of both the steam injection process and the steam/surfactant process to remove PAHs from the sediment was considered ineffective; as only two of the seventeen selected PAHs (naphthalene and C1 naphthalene) were associated with a percentage mass reduction greater than 34% for both treatments (four trials). The steam/surfactant injection process generally resulted in higher reductions than the steam injection process, but had larger variances within the two trials using the treatment type. This preliminary evaluation suggests that steam-based injection processses for removing petroleum contamination from this canal sediment, using the surfactants selected, equipment set-up, and operating conditions studied, would be considered ineffective.
