Fluid Flow Model for Predicting the Intrusion Rate of Subsurface Contaminant Vapors into Buildings

McAlary, Todd A.; Gallinatti, John; Thrupp, Gordon; Wertz, William; Mali, Darius; Dawson, Helen

Fluid Flow Model for Predicting the Intrusion Rate of Subsurface Contaminant Vapors into Buildings

2018

A new method is presented for calculating a building-specific subslab to indoor air attenuation factor for use in assessing subsurface vapor intrusion to indoor air. The technique includes (1) subslab gas extraction with flow and vacuum measurements and mathematical modeling to characterize the bulk average vertical gas conductivity of the floor slab, (2) monitoring of the ambient pressure gradient across the floor slab with a micromanometer, (3) calculating the volumetric flow of soil gas into the building (Qₛₒᵢₗ), and (4) dividing Qₛₒᵢₗ by the building ventilation rate (Qbᵤᵢₗdᵢₙg) to calculate a building-specific attenuation factor. Sample calculations using order statistics from 121 individual tests are comparable to the U.S. Environmental Protection Agency empirical attenuation factors for residential buildings and the U.S. Navy empirical attenuation factors for commercial/industrial buildings. A case study of a commercial building shows encouraging agreement between the attenuation factors calculated via this method and via conventional subslab and indoor air sampling.

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