A pilot-scale zero valent iron (ZVI) Permeable Reactive Barrier (PRB) was installed using an azimuth-controlled -vertical hydrofracturing at an industrial facility to treat a chlorinated Volatile Organic Compound (VOC) plume. Following ZVI injection, no significant reduction in concentration was observed to occur with the exception of some multilevel monitoring wells, which also showed high levels of total organic carbon (TOC). These patterns suggested that the zero valent iron was not well distributed in the PRB creating leaky conditions. The geochemical data indicated reducing conditions in these areas where VOC reduction was observed, suggesting that biotic processes, associated to the guar used in the injection of the iron, could be a major mechanism of VOC degradation. Compound-Specific Isotope Analysis (CSIA) using both carbon and chlorine stable isotopes were used as a complementary tool for evaluating the contribution of abiotic and biotic processes to VOC trends in the vicinity of the PRB. The isotopic data showed enriched isotope values around the PRB compared to the isotope composition of the VOC source confirming that VOC degradation is occurring along the PRB. A batch experiment using site groundwater collected near the VOC source and the ZVI used in the PRB was performed to evaluate the site-specific abiotic isotopic fractionation patterns. Field isotopic trends, typical of biodegradations were observed at the site and were different from those obtained during the batch abiotic experiment. These differences in isotopic trends combined with changes in VOC concentrations and redox parameters suggested that biotic processes are the predominant pathways involved in the degradation of VOCs in the vicinity of the PRB. Ground Water Monitoring & Remediation. © 2012, National Ground Water Association.

Evaluating TCE abiotic and biotic degradation pathways in a permeable reactive barrier using compound specific isotope analysis / Lojkasek-Lima, Paulo; Aravena, Ramon; Shouakar-Stash, Orfan; Frape, Shaun K.; Marchesi, Massimo; Fiorenza, Stephanie; Vogan, John. - In: GROUND WATER MONITORING AND REMEDIATION. - ISSN 1069-3629. - 32:4(2012), pp. 53-62. [10.1111/j.1745-6592.2012.01403.x]

Evaluating TCE abiotic and biotic degradation pathways in a permeable reactive barrier using compound specific isotope analysis

Marchesi, Massimo;
2012

Abstract

A pilot-scale zero valent iron (ZVI) Permeable Reactive Barrier (PRB) was installed using an azimuth-controlled -vertical hydrofracturing at an industrial facility to treat a chlorinated Volatile Organic Compound (VOC) plume. Following ZVI injection, no significant reduction in concentration was observed to occur with the exception of some multilevel monitoring wells, which also showed high levels of total organic carbon (TOC). These patterns suggested that the zero valent iron was not well distributed in the PRB creating leaky conditions. The geochemical data indicated reducing conditions in these areas where VOC reduction was observed, suggesting that biotic processes, associated to the guar used in the injection of the iron, could be a major mechanism of VOC degradation. Compound-Specific Isotope Analysis (CSIA) using both carbon and chlorine stable isotopes were used as a complementary tool for evaluating the contribution of abiotic and biotic processes to VOC trends in the vicinity of the PRB. The isotopic data showed enriched isotope values around the PRB compared to the isotope composition of the VOC source confirming that VOC degradation is occurring along the PRB. A batch experiment using site groundwater collected near the VOC source and the ZVI used in the PRB was performed to evaluate the site-specific abiotic isotopic fractionation patterns. Field isotopic trends, typical of biodegradations were observed at the site and were different from those obtained during the batch abiotic experiment. These differences in isotopic trends combined with changes in VOC concentrations and redox parameters suggested that biotic processes are the predominant pathways involved in the degradation of VOCs in the vicinity of the PRB. Ground Water Monitoring & Remediation. © 2012, National Ground Water Association.
2012
Civil and structural engineering; water science; technology
01 Pubblicazione su rivista::01a Articolo in rivista
Evaluating TCE abiotic and biotic degradation pathways in a permeable reactive barrier using compound specific isotope analysis / Lojkasek-Lima, Paulo; Aravena, Ramon; Shouakar-Stash, Orfan; Frape, Shaun K.; Marchesi, Massimo; Fiorenza, Stephanie; Vogan, John. - In: GROUND WATER MONITORING AND REMEDIATION. - ISSN 1069-3629. - 32:4(2012), pp. 53-62. [10.1111/j.1745-6592.2012.01403.x]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1708158
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