Field Study of Soil Vapor Extraction for Reducing Off‐Site Vapor Intrusion
Autor: | Brian Schumacher, Robert Truesdale, Lloyd D Stewart, Rebecca Connell, Chris Lutes, John H. Zimmerman |
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Rok vydání: | 2020 |
Předmět: |
chemistry.chemical_classification
Soil vapor extraction 0207 environmental engineering Environmental engineering 02 engineering and technology Pressure differential 010501 environmental sciences 01 natural sciences Article Indoor air quality chemistry Cabin pressurization Vapor intrusion Vadose zone Environmental science Volatile organic compound Extraction (military) 020701 environmental engineering 0105 earth and related environmental sciences Water Science and Technology Civil and Structural Engineering |
Zdroj: | Ground Water Monit Remediat |
ISSN: | 1745-6592 1069-3629 |
Popis: | Soil vapor extraction (SVE) is effective for removing volatile organic compound (VOC) mass from the vadose zone and reducing the potential for vapor intrusion (VI) into overlying and surrounding buildings. However, the relationship between residual mass in the subsurface and VI is complex. Through a series of alternating extraction (SVE on) and rebound (SVE off) periods, this field study explored the relationship and aspects of SVE applicable to VI mitigation in a commercial/light-industrial setting. The primary objective was to determine if SVE could provide VI mitigation over a wide area encompassing multiple buildings, city streets, and subsurface utilities and eliminate the need for individual subslab depressurization systems. We determined that SVE effectively mitigates offsite VI by intercepting or diluting contaminant vapors that would otherwise enter buildings through foundation slabs. Data indicate a measurable (5 Pa) influence of SVE on subslab/indoor pressure differential may occur but is not essential for effective VI mitigation. Indoor air quality improvements were evident in buildings 100 to 200 feet away from SVE including those without a measurable reversal of differential pressure across the slab or substantial reductions in subslab VOC concentration. These cases also demonstrated mitigation effects across a four-lane avenue with subsurface utilities. These findings suggest that SVE affects distant VI entry points with little observable impact on differential pressures and without relying on subslab VOC concentration reductions. |
Databáze: | OpenAIRE |
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