Jeffrey L. Heiderscheidt scite author profile

Laboratory characterization studies, one‐dimensional flow‐through studies, and numerical model simulations were conducted to examine site conditions and system features that may have adversely affected in situ chemical oxidation (ISCO) performance at the Naval Training Center’s (NTC) Operable Unit 4 located in Orlando, Florida, and to identify potential ISCO system modifications to achieve the desired remediation performance. At the NTC site, ISCO was implemented using vertical injection wells to deliver potassium permanganate into a ground water zone for treatment of tetrachloroethylene and its breakdown products. However, oxidant distribution was much more limited than anticipated. Characterization studies revealed that the ground water zone being treated by ISCO was very fine sand with a small effective particle size and low uniformity coefficient, along with a high organic carbon content, high natural oxidant demand (NOD), and a high ground water dissolved solids concentration, all of which contributed to full‐scale ISCO application difficulties. These site conditions contributed to injection well permeability loss and an inability to achieve the design oxidant injection flow rate, limiting the actual oxidant distribution at the site. Flow‐through experiments demonstrated that more favorable oxidant delivery and distribution conditions are enabled by applying a lower oxidant concentration at a faster delivery rate for a greater number of pore volumes. Numerical simulations, run for a variety of conditions (injection/extraction well flow rates, injected oxidant concentration, amount of NOD present, and NOD oxidation rate), also revealed that low–oxidant concentration injection at a high flow rate is a more effective method to deliver the required mass of oxidant to the target treatment zone.

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Principles of ISCO Related Subsurface Transport and Modeling

Heiderscheidt

Illangasekare

Borden

et al. 2010

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Jeffrey L. Heiderscheidt

Intermediate-scale 2D experimental investigation of in situ chemical oxidation using potassium permanganate for remediation of complex DNAPL source zones

Incorporating Sustainability and Green Engineering into a Constrained Civil Engineering Curriculum

Optimization of Full‐Scale Permanganate ISCO System Operation: Laboratory and Numerical Studies

Principles of ISCO Related Subsurface Transport and Modeling

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