From: | Lenny Siegel <lsiegel@cpeo.org> |
Date: | 19 Oct 2006 23:49:00 -0000 |
Reply: | cpeo-brownfields |
Subject: | [CPEO-BIF] New York's new TCE standard/matrix |
Buried in Appendix A of the final New York State Department of Health
(DOH) Vapor Intrusion Guidance is a memo effectively tightening the
state's indoor air standard for TCE. In the appendix there is an October
12, 2006 memo, from Nancy Kim, Director of the DOH Division of
Environmental Health Assessment. To download the appendix, go to
http://www.health.state.ny.us/nysdoh/gas/svi_guidance/ and click on
"Appendix A - Revisions Summary." New York still uses a matrix, rather than a single number, to guide vapor intrusion mitigation decisions. That makes a lot of sense, because the matrix allows the mitigation of POTENTIAL vapor intrusion (at sites where there are high soil gas concentrations of volatile organic compounds but low measured indoor air concentrations thus far) and discourages vapor-intrusion mitigation at sites where sources OTHER than subsurface contamination are the likely cause of indoor air pollution. Unfortunately, the matrix is difficult to understand and even harder to explain. But I'll try. The right-hand column for the TCE matrix still uses 5.0 micrograms per cubic meter to require mitigation, except that mitigation is an option where the subslab soil gas concentrations is under 5.0 micrograms per cubic meter. That is, 5.0 applies, with some wiggle room, to all levels of soil gas concentrations. Remember, because of diffusion and other forms of vertical attenuation, in most cases indoor air concentrations are much lower than measured subslab concentrations. This is what the Johnson-Ettinger model calculates. It predicts indoor air concentrations as a small fraction (usually one one-hundredth or less) of soil gas sampling results. FORMERLY, the second column from the right, in the DOH TCE matrix, used 2.5 micrograms per cubic meter as the action threshold. At locations where subslab measurements of TCE were above 50 micrograms per cubic meter AND indoor air measured more than 2.5, mitigation was required. In most cases, subslab levels below 50 do not cause indoor air readings of 2.5, or even 1.0 microgram per cubic meter, if vapor intrusion is truly occurring. (Exceptions will be where the subslab readings are unrepresentative or where the indoor air contamination comes from other sources.) THE BIG NEWS is that DOH is lowering the number in the second column to 1.0 microgram per cubic meter. This means that the state will require mitigation at most sites where indoor air readings of TCE, resulting from vapor intrusion, are above 1.0. Moreover, Kim also recommends that box 10 of the matrix include "Mitigate" as an option, in addition to the current requirement, "Monitor." This means that mitigation MAY be required at sites where the indoor air concentration of TCE is between .25 and 1.0 micrograms per cubic meter (and subslab levels still exceed 50). That is, mitigation may be required for TCE vapor intrusion wherever indoor air levels exceed a typical background (outdoor air) concentration. Finally, Kim re-states a general protective principle: "Reasonable and practical action should be taken to reduce TCE exposure when indoor air levels are above background, even when they are below the guideline of 5 [micrograms per cubic meter]." Lenny Siegel --
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