Treatment Technology 1,4-Dioxane and Specialty VOC-Contaminated Water
Emerging contaminants like 1,4-dioxane pose unique remediation challenges. Companies and the environmental engineering consulting firms that they hire to remediate sites contaminated by these compounds are often faced with technologies that are unable to achieve consistent results or solutions that are too expensive to maintain. ECT2 has developed a synthetic media treatment system that efficiently and effectively removes 1,4-dioxane and a broad range of other VOCs from Superfund, aerospace, general manufacturing, landfill, and heavy industry sites throughout the U.S. and abroad. These systems have produced reliably steady, non-detectable effluent concentrations for 1,4-dioxane and other VOCs commonly encountered in remediation applications.
The Enigmatic
1,4-Dioxane
1,4-dioxane is a solvent used in products such as paints and lacquers and in processes such as organic chemical manufacturing. Previous extensive use with 1,1,1-trichloroethane (TCA) as a stabilizer and corrosion inhibitor make it likely to be present at TCA-contaminated sites; however, technologies, such as air stripping, that are effective for treating chlorinated solvents are often ineffective for treating dioxane. Due to the contaminant’s high solubility, low potential to partition from the dissolved phase to vapor, and low affinity for organic matter in soil, groundwater is the primary medium of concern for 1,4-dioxane. Among the most mobile organic contaminants in the saturated zone, it may be found farther downgradient than the leading edge of a solvent plume.
Likely to be
Carcinogenic to Humans
Classified by EPA as “likely to be carcinogenic to humans” by all routes of exposure, as of 2016, 1,4-dioxane had been identified at more than 34 sites on the EPA National Priorities List (NPL), and may be present at many other sites where the common practice of analyzing by a limited list of available methods for regulatory compliance has precluded its detection. 1,4-Dioxane is included on the EPA’s fourth drinking water contaminant candidate list and is included in the Third Unregulated Contaminant Monitoring Rule (UCMR3). While a federal maximum contaminant level (MCL) has not been established for 1,4-dioxane in drinking water, a lifetime Health Advisory (HA) of 0.2 mg/L has been established. Eighteen states have established drinking water and groundwater guidelines, ranging from 0.25-77 µg/l, with six at or below 1 ppb.
Innovative Approach to
Proven Technology
Using a time-proven treatment approach in an innovative way, ECT2 designs ex-situ water treatment systems incorporating a carbonaceous synthetic adsorbent with a high affinity for 1,4-dioxane and other organic compounds. The product’s hydrophobic nature and unique pore size distribution facilitate the removal of 1,4-dioxane and other highly miscible organic contaminants from groundwater, enabling compliance with tight permitting limits for 1,4-dioxane of less than 0.2 µg/l and delivering consistent, reliable treatment, independent of changes in influent concentrations, pH, and flow rates.
In Contrast to
GAC and AOP
In contrast to GAC, which is not only unable to reliably achieve stringent treatment requirements for 1,4-dioxane but must also be reactivated off site, our synthetic adsorbent can be regenerated in place thousands of times using simple regenerative methods, such as low-pressure steam, with no loss in capacity or the ability to achieve low-level effluent residuals. In addition, our technology does not experience the sensitivity to influent concentration and pH or the deleterious effects of free radical scavenging and inorganic scale fouling that cause advanced oxidation processes (AOP) to struggle to achieve stable, consistent treatment results, nor does it generate undesired reaction byproducts such as bromate, aldehydes, or organic acids that may occur with the use of AOP. Our technology delivers results that meet stringent treatment requirements while simplifying process design, reducing long-term operating costs, increasing safety, and avoiding hazardous reagents and byproducts.
Rapid-deployment
Mobile Treatment System
ECT2’s comprehensive process solution for 1,4-dioxane and specialty VOC contamination is available as a modular, portable system capable of rapid deployment and application as a source area control measure. The M-25 mobile treatment system, with a nominal capacity of 25 gallons per minute, is intended for sites needing immediate treatment for short- or long-duration assignments. System simplicity allows plug-and-play rapid installation, with limited operator oversight, and the system can be on site and ready for operation in as little as a few weeks. With in-place regeneration, the media can be cycled thousands of times without losing its adsorption capacity or the ability to reliably achieve low-level effluent residuals.
Case Studies:
FOAM-X™ Foam Fractionation Paired with PFASigator™ PFAS-Destruction Technology Successfully Treats PFOS to Non-Detect with No Off-Site PFAS Disposal
Historic PFAS contamination required a pump-and-treat solution for PFAS remediation of site groundwater. This project coupled ECT2's FOAM-X foam fractionation technology with a PFAS-destruction technology to successfully treat water to non-detect.
Content:
A Five Year Case Study: Treatment of PFAS-Impacted Groundwater Using Regenerable Ion Exchange Resin
In this article within Australian Water Association's Water e-Journal, ECT2’s team of experts provide a five-year review on regenerable ion exchange resin performance at multiple project sites in Australia.