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- Title
Field Study of Vertical Screening Distance Criteria for Vapor Intrusion of Ethylene Dibromide.
- Authors
Hers, Ian; Wilson, John T.; Kolhatkar, Ravi V.; Lahvis, Matthew A.; Luo, Emma; Jourabchi, Parisa
- Abstract
Several regulatory agencies recommend screening petroleum vapor intrusion (PVI) sites based on vertical screening distance between a petroleum hydrocarbon source in soil or groundwater and a building foundation. U.S. Environmental Protection Agency (U.S. EPA) indicate the risk of PVI is minimal at buildings that are separated by more than 6 feet (1.8 m) from a dissolved‐phase source and 15 feet (4.6 m) from a light nonaqueous phase liquid (LNAPL) source. This vertical screening distance method is not, however, recommended at sites with leaded gasoline sources containing ethylene dibromide (EDB) because of a lack of field data to document EDB attenuation in the vadose zone. To help address this gap, depth‐discrete soil‐gas samples were collected at a leaded gasoline release site in Sobieski, Minnesota (USA). The maximum concentration of EDB in groundwater (175 μg/L) at the site was high relative to those observed at other leaded gasoline release sites. Soil gas was analyzed for EDB using a modification of U.S. EPA Method TO‐14A that achieved analytical detection limits below the U.S. EPA Vapor Intrusion Screening Level (VISL) for EDB based on a 10−6 cancer risk (<0.16 μg/m3). Concentrations of EDB in soil gas above LNAPL reached as high as 960 μg/m3 and decreased below the VISL within a source‐separation distance of 7 feet. This result coupled with BioVapor model predictions of EDB concentrations indicate that vertical screening distances recommended by regulatory agencies at PVI sites are generally applicable for EDB over the range of anticipated source concentrations and soil types at most sites.
- Subjects
MINNESOTA; UNITED States. Environmental Protection Agency; ETHYLENE dibromide; MEDICAL screening; NONAQUEOUS phase liquids; GASES; SOIL classification
- Publication
Ground Water Monitoring & Remediation, 2022, Vol 42, Issue 1, p65
- ISSN
1069-3629
- Publication type
Article
- DOI
10.1111/gwmr.12484