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VAPOR INTRUSION: AN INTRODUCTION

VAPOR INTRUSION: AN INTRODUCTION. OHIO COMMUNITY DEVELOPMENT CONFERENCE. JENNIFER MILLER NOVEMBER 7, 2012. VAPOR INTRUSION.

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VAPOR INTRUSION: AN INTRODUCTION

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  1. VAPOR INTRUSION: AN INTRODUCTION OHIO COMMUNITY DEVELOPMENT CONFERENCE JENNIFER MILLER NOVEMBER 7, 2012

  2. VAPOR INTRUSION • Vapor intrusion is the movement of soil gases, or vapors, into the air inside a building from the soil formation, through cracks or openings in the building foundation or basement.

  3. VAPOR INTRUSION • How does vapor move? • Unsaturated soil is porous, allowing vapor to diffuse through it just as it would through room air • Some soils and bedrocks, like clay and limestone, have seams or cracks along which vapor can move • Man-made porous areas (utility lines, old canals, building foundations) can also be preferential pathways for movement • Where soil meets basements, building slabs and crawl spaces, openings such as cracks, joints, sumps and utility penetrations can allow the vapor to move from the soil into the structure

  4. VAPOR INTRUSION • Vapor intrusion is aided by the stack effect, which can cause an upward air flow as warm air escaping through openings in the upper reaches of the building pulls in cooler make-up air in the lower reaches of the building. This can create a slight vacuum that pulls in additional soil vapor.

  5. VAPOR INTRUSION • The soil vapor can contain chemicals that are harmful when they accumulate in the building’s airspace: • Volatile/semi-volatile organic compounds from spills • Radon from soil minerals • Methane or hydrogen sulfide from buried decomposing wastes • Effects can be near-term (e.g., explosion from accumulated methane) but are usually longer-term (e.g., cancer from exposure to a carcinogenic chemical)

  6. VAPOR INTRUSION • How to investigate: • ASTM E 2600-10 – Vapor Encroachment Screening • Review of government databases and historical records to look for potential vapor encroachment conditions within a set radius • Multiple cases in LJB’s experience show either poor application of the assumptions in this standard or field results that do not support the radius of effect set by the standard: proceed with caution

  7. VAPOR INTRUSION • How to investigate: • Information from Phase I ESA may also be used to identify potential sources • If a potential source of soil vapor is identified, soil vapor samples are collected, usually using hand-driven or hydraulically-driven rods and a vacuum pump

  8. VAPOR INTRUSION • Points to consider with respect to sampling: • The most important quality control check is to make sure no surface air has accidentally been pulled into the sample. • Ideally, analyze the sample for atmospheric gases. For example, at depths of 3 feet or greater, oxygen should be very low compared to its atmospheric concentration of approximately 21% • Holding times for samples collected in Tedlar bags are as little as 24 hours – always check that analysis occurred in time

  9. VAPOR INTRUSION • Interpreting results: • U.S. EPA publishes indoor air screening levels with its Regional Screening Tables developed by Oak Ridge National Laboratory • Risk of 1 in 1,000,000 • Multiple chemical analysis may be necessary • Tables are screening levels; site-specific levels should be developed if remediation is required

  10. VAPOR INTRUSION • Mitigation • Remediate source • Sub-slab vapor removal system • Passive • Active • Basement or crawl space venting • Air exchange ventilation system • Sealing of basement/foundation

  11. VAPOR INTRUSION • Confirm that mitigation is successful • Confirmation samples in soil/groundwater if source remediation is selected • Indoor air sampling if building modifications are selected • At least two samples: one during hot weather and one during cold weather • Also wise to plan for system maintenance and repair: O&M manual and tenant education is advisable

  12. Questions?

  13. FOR MORE INFORMATION • Jennifer Miller • JMiller@LJBinc.com • (937) 259-5048 • LJBinc.com • @LJBinc

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