Gordon Thrupp scite author profile

Gordon Thrupp

2Publications

28Citation Statements Received

45Citation Statements Given

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Geosyntec Consultants (United States)

Publications

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

McAlary

Gallinatti

Thrupp

et al. 2018

Environ. Sci. Technol.

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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 ( Q), and (4) dividing Q by the building ventilation rate ( Q) 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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High Purge Volume Sampling—A New Paradigm for Subslab Soil Gas Monitoring

McAlary¹,

Nicholson²,

Yik³

et al. 2010

Groundwater Monitoring Rem

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Subslab soil gas sampling and analysis is a common line of evidence for assessing human health risks associated with subsurface vapor intrusion to indoor air for volatile organic compounds; however, conventional subslab sampling methods have generated data that show substantial spatial and temporal variability, which often makes the interpretation difficult. A new method of monitoring has been developed and tested that is based on a concept of integrating samples over a large volume of soil gas extracted from beneath the floor slab of a building to provide a spatially averaged subslab concentration. Regular field screening is also conducted to assess the trend of concentration as a function of the volume removed to provide insight into the spatial distribution of vapors at progressive distances away from the point of extraction. This approach minimizes the risk of failing to identify the areas of elevated soil vapor concentrations that may exist between discrete sample locations, and can provide information covering large buildings with fewer holes drilled through the floor. The new method also involves monitoring the extraction flow rate and transient vacuum response for mathematical analysis to help interpret the vapor concentration data and to support an optimal design for any subslab venting system that may be needed.

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Gordon Thrupp

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

High Purge Volume Sampling—A New Paradigm for Subslab Soil Gas Monitoring

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