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Field-scale evaluation of a biobarrier for the treatment of a trichloroethene plume
- Source :
- Remediation Journal. 22:29-41
- Publication Year :
- 2011
- Publisher :
- Wiley, 2011.
-
Abstract
- In the 1960s, trichloroethene (TCE) was used at what is now designated as Installation Restoration Program Site 32 Cluster at Vandenberg Air Force Base to flush missile engines prior to launch and perhaps for other degreasing activities, resulting in releases of TCE to groundwater. The TCE plume extends approximately 1 kilometer from the previous launch facilities beyond the southwestern end of the site. To limit further migration of TCE and chlorinated degradation by-products, an in situ, permeable, reactive bioremediation barrier (biobarrier) was designed as a cost-effective treatment technology to address the TCE plume emanating from the source area. The biobarrier treatment would involve injecting carbon-based substrate and microbes to achieve reductive dechlorination of volatile organic compounds, such as TCE. Under reducing conditions and in the presence of certain dechlorinating microorganisms, TCE degrades to nontoxic ethene in groundwater. To support the design of the full-scale biobarrier, a pilot test was conducted to evaluate site conditions and collect pertinent design data. The pilot test results indicated possible substrate delivery difficulties and a smaller radius of influence than had been estimated, which would be used to determine the final biobarrier well spacing. Based on these results, the full-scale biobarrier design was modified. In January 2010, the biobarrier was implemented at the toe of the source area by adding a fermentable substrate and a dechlorinating microbial culture to the subsurface via an injection well array that spanned the width of the TCE plume. After the injections, the groundwater pH in the injection wells continued to decrease to a level that could be detrimental to the population of Dehalococcoides in the SDC-9TM culture. In addition, 7 months postinjection, the injection wells could not be sampled due to fouling. Cleaning was required to restore their functions. Bioassay and polymerase chain reaction analyses were conducted, as well as titration tests, to assess the need for biobarrier amendments in response to the fouling issues and low pH. Additionally, slug tests were performed on three wells to evaluate possible localized differences in hydraulic conductivity within the biobarrier. Based on the test results, the biobarrier was amended with sodium carbonate and inoculated a second time with SDC-9TM. The aquifer pH was restored, and reductive dechlorination resumed in the treatment zone, evidenced by the reduction in TCE and the increase in degradation products, including ethene. © 2011 Wiley Periodicals, Inc.
- Subjects :
- Dehalococcoides
geography
education.field_of_study
Environmental Engineering
geography.geographical_feature_category
biology
Waste management
Population
Environmental engineering
Aquifer
biology.organism_classification
Pollution
Bioremediation
Slug test
Reductive dechlorination
Environmental science
education
Waste Management and Disposal
Injection well
Groundwater
Subjects
Details
- ISSN :
- 10515658
- Volume :
- 22
- Database :
- OpenAIRE
- Journal :
- Remediation Journal
- Accession number :
- edsair.doi...........b20cf3cebb2cd6a2972a7f402a71fc5a