Reidar Zapf-Gilje scite author profile

Screening level models are now commonly used to estimate vapor intrusion for subsurface volatile organic compounds (VOCs). Significant uncertainty is associated with processes and models and, to date, there has been only limited field‐based evaluation of models for this pathway. To address these limitations, a comprehensive evaluation of the Johnson and Ettinger (J&E) model is provided through sensitivity analysis, comparisons of model‐predicted to measured vapor intrusion for 11 petroleum hydrocarbon and chlorinated solvent sites, and review of radon and flux chamber studies. Significant intrusion was measured at five of 12 sites with measured vapor attenuation ratios (αm's) (indoor air/source vapor) ranging from ∼1 × 10−6 to 1 × 10−4. Higher attenuation ratios were measured for studies using radon, inert tracers, and flux chambers; however, these ratios are conservative owing to boundary conditions and tracer properties that are different than those at most VOC‐contaminated sites. Reasonable predictions were obtained using the J&E model with comparisons indicating that model‐predicted vapor attenuation ratios (αp's) were on the same order, or less than the αm's. For several sites, the (m were approximately two orders of magnitude less than the a 's indicating that the J&E model is conservative in these cases. The model comparisons highlight the importance in using appropriate input parameters for the J&E model. The regulatory implications associated with use of the J&E model to derive screening criteria are also discussed.

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Comparison, Validation, and Use of Models for Predicting Indoor Air Quality from Soil and Groundwater Contamination

Hers

Zapf-Gilje

Evans

et al. 2002

Soil and Sediment Contamination: An International Journal

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Reidar Zapf-Gilje

Evaluation of vadose zone biodegradation of BTX vapours

Evaluation of the Johnson and Ettinger Model for Prediction of Indoor Air Quality

Comparison, Validation, and Use of Models for Predicting Indoor Air Quality from Soil and Groundwater Contamination

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