There is a lack of vapor intrusion (VI) models that reliably account for weather conditions and building characteristics, especially at sites where active alternative pathways, such as sewer connections and other preferential pathways, are present.
Here, a method is presented to incorporate freely available models, CONTAM, and CFD0, to estimate site-specific building air exchange rates (AERs) and indoor air contaminant concentrations by accounting for weather conditions and building characteristics at a well-known VI site with a land drain preferential pathway. To account for uncertainty in model input parameters that influence indoor air chlorinated volatile organic compound (CVOC) concentration variability, this research incorporated Monte Carlo simulations and compared model results with retrospective field data collected over approximately 1.5 years from the study site. The results of this research show that mass entry rates for TCE are likely influenced by indoor air pressures that can be modeled as a function of weather conditions (over seasons) and building characteristics. In addition, the results suggest that temporal variability in indoor air TCE concentrations is greatest (modeled and measured) due to the existence of a land drain, which acts as a preferential pathway, from the subsurface to the granular fill beneath the floor slab. The field data and modeling results are in good agreement and provide a rare comparison of field data and modeling results for a VI site. The modeling approach presented here offers a useful tool for decision makers and VI practitioners as they assess these complex and variable processes that have not been incorporated within other VI models.
- Geosyntec Authors: Elham Shirazi, Chase Holton
- All Authors: Elham Shirazi, Chase Holton, Geosyntec Consultants; Kelly G Pennell, Gregory S. Hawk, Arnold Stromberg, University of Kentucky
- Title: The Royal Society of Chemistry's Environmental Science: Processes & Impacts Journal
- Event or Publication: Publication
- Practice Areas: Vapor Intrusion Assessment and Remediation
- Citation: Elham Shirazi, Ph.D. (California) and Chase Holton, Ph.D., P.E. (Colorado) coauthored a paper entitled "Comparison of Modeled and Measured Indoor Air Trichloroethene (TCE) Concentrations at a Vapor Intrusion Site: Influence of Wind, Temperature, and Building Characteristics" that was recently published in the Royal Society of Chemistry's Environmental Science: Processes & Impacts journal. Elham and Chase's coauthors were the University of Kentucky's Kelly G Pennell, Ph.D., Gregory S. Hawk, and Arnold Stromberg, Ph.D.
- Date: February 2020
- Publication Type: Journal Article