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Utility of Compound‐Specific Isotope Analysis for Vapor Intrusion Investigations
Author(s) -
Beckley Lila,
McHugh Thomas,
Philp Paul
Publication year - 2016
Publication title -
groundwater monitoring and remediation
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.677
H-Index - 47
eISSN - 1745-6592
pISSN - 1069-3629
DOI - 10.1111/gwmr.12185
Subject(s) - volatile organic compound , intrusion , environmental science , environmental chemistry , sampling (signal processing) , indoor air , contamination , environmental engineering , chemistry , computer science , geology , telecommunications , ecology , organic chemistry , geochemistry , biology , detector
Different types of data can be collected to evaluate whether or not vapor intrusion is a concern at sites impacted with volatile organic compound ( VOC ) contamination in the subsurface. Typically, groundwater, soil gas, or indoor air samples are collected to determine VOC concentrations in the different media. Sample results are evaluated using a “multiple lines of evidence” approach to interpret whether vapor intrusion is occurring. Data interpretation is often not straightforward because of many complicating factors, particularly in the evaluation of indoor air. More often than not, indoor air sample results are affected by indoor or other background sources making interpretation of concentration‐based data difficult using conventional sampling approaches. In this study, we explored the practicality of compound‐specific isotope analysis ( CSIA ) as an additional type of evidence to distinguish between indoor sources and subsurface sources (i.e., vapor intrusion). We developed a guide for decision‐making to facilitate data interpretation and applied the guidelines at four different test buildings. To evaluate the effectiveness of the CSIA method for vapor intrusion applications, we compared the interpretation from CSIA to interpretations based on data from two different investigation approaches: conventional sampling and on‐site GC / MS analysis. Interpretations using CSIA were found to be generally consistent with the other approaches. In one case, CSIA provided the strongest line of evidence that vapor intrusion was not occurring and that a VOC source located inside the building was the source of VOCs in indoor air.

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