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By Ben Bentkowski, P.G. Scientific Support Section, R4 Superfund Presented at the March 29, 2016 Air & Waste Management Association Regulatory Update Conference.

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Presentation on theme: "By Ben Bentkowski, P.G. Scientific Support Section, R4 Superfund Presented at the March 29, 2016 Air & Waste Management Association Regulatory Update Conference."— Presentation transcript:

1 by Ben Bentkowski, P.G. Scientific Support Section, R4 Superfund Presented at the March 29, 2016 Air & Waste Management Association Regulatory Update Conference March 20161 EPA’s Final Vapor Intrusion Guidance

2 March 20162 Overview of EPA’s vapor intrusion guidance OSWER VI Guide – Development, purpose, and scope –Summary of selected content and key recommendations, including: Definitions of ‘background’ and ‘pre-emptive mitigation’ Role of conceptual site models and relationship to ‘multiple lines of evidence’ Risk management and response actions Presentation Organization & Scope

3 I.Overview of EPA VI Guidance EPA’s vapor intrusion guidance is comprised of two guides, published in June 2015, which supersede and replace EPA’s 2002 draft guidance. Guide for petroleum releases from underground storage tanks sites. Guide for all other sites within EPA’s jurisdiction (e.g., Superfund, RCRA corrective action facilities) March 20163

4 Technical Guide For Addressing Petroleum Vapor Intrusion At Leaking Underground Storage Tank Sites EPA 510‐R‐15‐001 June 2015 http://www.epa.gov/ust/tech nical‐guide‐addressingpetrole um‐vapor‐intrusionleaking‐un derground‐storagetank‐sites http://www.epa.gov/ust/tech nical‐guide‐addressingpetrole um‐vapor‐intrusionleaking‐un derground‐storagetank‐sites This document is intended for use at any site subject to petroleum contamination from underground storage tanks where vapor intrusion may be of potential concern (“OUST PVI Guide”). It is applicable to both residential and non- residential settings (e.g. commercial and industrial). 4

5 OSWER Technical Guide For Assessing And Mitigating The Vapor Intrusion Pathway From Subsurface Vapor Sources To Indoor Air OSWER Publication 9200.2 ‐ 154 (June 2015) https://www.epa.gov/vaporintru sion/technical ‐ guide ‐ assessing and ‐ mitigating ‐ vapor ‐ intrusionp athway ‐ subsurface ‐ vapor https://www.epa.gov/vaporintru sion/technical ‐ guide ‐ assessing and ‐ mitigating ‐ vapor ‐ intrusionp athway ‐ subsurface ‐ vapor This document is intended for use at any site being evaluated pursuant to CERCLA or the corrective action provisions of RCRA, where vapor intrusion may be of potential concern (“OSWER VI Guide”). It is also intended for use by EPA’s brownfield grantees, where vapor intrusion may be of potential concern. It is applicable to both residential and non- residential settings (e.g., commercial and industrial). March 20165

6 II(A). Highlights of Development Process for OSWER VI Guide Consensus-oriented, cross-EPA process to prepare and vet the Guide (2012 to 2014) Public review draft (mid-2013) Inter-agency review per Executive Order 12866 (September 2014 to June 2015) Also considered numerous comments in docket (2002-2013), research publications, and guides from other entities March 20166

7 II(B). Purpose of OSWER VI Guide Promote enhanced approaches and national consistency for addressing vapor intrusion at contaminated sites within EPA’s jurisdiction {§1.3} March 20167

8 II(C). Scope of OSWER VI Guide {§1.3} Considers full range of “vapor-forming chemicals” at pertinent sites –Chlorinated solvents (e.g., PCE, TCE) –Petroleum hydrocarbons such as benzene, trimethylbenzenes –Hydrophobic compounds that also meet the volatility and toxicity criteria (e.g., some PCBs, some pesticides) March 20168

9 Scope of OSWER VI Guide {§1.3} (continued) Not intended to alter existing requirements among OSWER’s land cleanup programs; for example, about –Development (e.g., evaluation of alternatives, cleanup levels), selection, and documentation of cleanup plans, or –Periodic post-construction review to ensure protection of human health and the environment. March 20169

10 Scope of OSWER VI Guide {§1.3} (continued) EPA recommends that tribal agencies and delegated state agencies consider this Technical Guide when implementing their respective programs for vapor intrusion assessment and mitigation. March 201610

11 II(D). Organization & Scope of OSWER VI Guide Executive summary identifies key recommendations Glossary identifies key terms Major sections devoted to –Preliminary analysis (initial site assessment) –Site investigation –Community involvement and risk communication –Response actions (remediation, mitigation, ICs) March 201611

12 III(A). How is ‘Background’ Defined? Refers to a vapor-forming chemical(s) or location(s) that is(are) not influenced by the releases from a site to the environment Concentrations in ambient air are not considered background when influenced by site-related releases 12March 2016

13 III(A). What Are Some Implications of ‘Background’? (continued) Identify and remove indoor sources to extent possible during an interior investigation Generally limit chemical analyses of subslab soil gas and indoor and outdoor air to those vapor- forming chemicals known or reasonably expected to be present in the subsurface environment {§6.4 and 6.3.5} 13March 2016

14 III(A). How is ‘Background’ Considered? (continued) Recommended methods are described to account for ‘background’ contributions to indoor air concentrations {§6.3.5} If background vapor sources are found to be primarily responsible for indoor air concentrations, then response actions for vapor intrusion would generally not be warranted for current conditions {§7.4.2} 14March 2016

15 III(B). Non-residential Buildings {§1.2} The sources of EPA authority and requirements for addressing subsurface vapor intrusion are the relevant statutes and regulations, which include –CERCLA as amended –RCRA, as amended EPA’s authority and responsibilities are distinct and different from those of OSHA. 15March 2016

16 III(B). Non-residential Buildings {§ 7.4.3} (continued) EPA does not recommend using OSHA’s PELs (or TLVs) for purposes of: –assessing human health risk posed to workers by the vapor intrusion pathway; or –supporting final “no-further-action” determinations for vapor intrusion arising in nonresidential buildings. 16March 2016

17 III(B). Non-residential Buildings {§1.2} (continued) When making decisions pertaining to VI, consider –Characteristics of potentially exposed populations –Vapor contributions from background sources –Existing or planned engineering controls that address workplace inhalation exposures and their scope 17March 2016

18 III(C). Risk Management: Key Recommendations EPA recommends that OSWER programs make the risk management determination to take response action(s) consistent with their statutes and regulations and considering existing program guidance {§7.4.1}. Consider reasonably expected future conditions, in addition to current conditions {§3.2 and 7.4.1} March 201618

19 III(C). Risk Management for the VI Pathway {§3.3, 7.7, and 8} (continued) Typically entails –combination of response actions and –notification and risk communication to building occupants and owners, in addition to ICs March 201619

20 III(C). Response Actions: Key Recommendations {§8.1} (continued) When vapor intrusion has been determined to pose unacceptable human health risks, aim to achieve a permanent remedy by eliminating or substantially reducing the level(s) of vapor-forming chemical(s) in the subsurface source medium Engineered exposure controls are considered only interim action, although they can provide effective human health protection and may become part of a final cleanup plan March 201620

21 III(C). Response Actions: Key Recommendations {§8.7} (continued) EPA generally recommends developing and documenting termination criteria –Numeric cleanup levels for subsurface media –Criteria for demonstrating attainment Termination of remediation, mitigation, and monitoring activities will be contingent upon demonstrating that subsurface cleanup levels have been attained, which is sustainable. March 201621

22 III(D). What is ‘Pre-emptive Mitigation’? {§3.3 and 7.8} For an existing building(s), –Implement mitigation of the vapor intrusion pathway as an early action, even though all pertinent lines of evidence have not yet been completely developed March 201622

23 III(D). What is ‘Pre-emptive Mitigation’? {§3.3 and 7.8} (continued) For a building(s) to be constructed in areas of vapor-forming subsurface contamination, –Install, operate, and monitor mitigation systems rather than allow vapor intrusion (if any) to occur Note: A wider array of approaches and technical options is typically available to mitigate or avoid vapor intrusion for new buildings, compared to existing buildings. March 201623

24 III(E1). Vapor Intrusion Investigations: Overview of Recommended Approaches Flexible framework for planning and conducting investigations to evaluate sites and buildings, rather than a prescriptive universal process March 201624

25 III(E2). Vapor Intrusion Assessments: Multiple Lines of Evidence Generally assess the vapor intrusion pathway by collecting, weighing, and evaluating multiple lines of evidence, particularly when no-further-action decisions are to be supported March 201625

26 III(E2). Lines of Evidence: Definition (continued) Facts or other information, useful for forming a conclusion or judgment May be categorized into –scientific realms (e.g., geology, biology, physics) or –investigatory objectives (e.g., characterize vapor migration routes) March 201626

27 III(E2). Multiple Lines of Evidence (continued) EPA recommends the appropriate use and evaluation (“weighing”) of multiple lines of evidence for determining, for example –whether the vapor intrusion pathway is complete or not, –whether any elevated levels of contaminants in indoor air are likely caused by subsurface vapor intrusion versus an indoor source or an ambient March 201627

28 March 201628

29 Weighing Multiple Lines of Evidence (continued) Additional examples cited in the OSWER VI Guide {e.g.,§7.2 and 7.3} –underscore the importance of developing an adequate Conceptual Site Model (CSM); and –illustrate why EPA generally recommends that the vapor intrusion pathway not be deemed incomplete based upon any single line of evidence. March 201629

30 Conceptual Model of Soil Vapor Intrusion Pathway SOURCE: Illangasekare et al. [2014], SERDP Project ER-1687 Report Figure 1-1 March 201630

31 III(E3). Conceptual Site Models: Key Recommendations (continued) Consider the presence of ‘preferential migration routes’ and ‘significant openings’ that could facilitate vapor migration to greater distances and at higher concentrations than otherwise expected –Naturally occurring (e.g., fractures and macropores) –Anthropogenic (e.g., sewers, utility vaults, drains) –Recognize that site-related vapors can enter a building from ‘conduit gas intrusion’, if and when present in sewer or drain lines or utility tunnels, as well as ‘soil gas intrusion’ March 201631

32 Example Scenarios for Contamination of Sewers SOURCE: McHugh & Beckley [2015] March 201632

33 III(E3). Conceptual Site Models: Key Recommendations (continued) Recognize that site-related vapors can enter a building from ambient air infiltration, as well as ‘soil gas intrusion’ Recognize that vapor intrusion is not the sole human exposure pathway that may warrant consideration March 201633

34 III(F). What’s “Missing”? Prescriptive sampling plans, considering variability Number, types, and duration of samples Timing of sampling Recommended attenuation factors for screening large commercial and industrial buildings March 201634

35 III(G). What “Else”? As resources allow, EPA intends –Additional public training and outreach about the OSWER VI Guide in 2016 –Periodic updates to the VISL Calculator to incorporate new, chemical-specific info –Continued monitoring of pertinent research, publications, and developments (e.g., SERDP/ESTCP) March 201635

36 III(G). What “Else”? (continued) Proposed addition of subsurface intrusion to the Hazard Ranking System Notice in Federal Register Vol. 81, No. 39 (Monday, February 29, 2016) Public comments solicited through April 29, 2016 (Docket ID No. EPA–HQ–SFUND–2010–1086) http://www.epa.gov/superfund/hrs- subsurfaceintrusion for additional info (e.g., FAQs)http://www.epa.gov/superfund/hrs- subsurfaceintrusion March 201636

37 IV. Contact Information for VI Guides OSWER VI Guide → Rich Kapuscinski– Kapuscinski.Rich@epa.gov (703) 305-7411 Kapuscinski.Rich@epa.gov OUST PVI Guide → Hal White White.Hal@epa.govWhite.Hal@epa.gov (703) 603-7177 Region 4 VI Coordinator → Ben Bentkowski Bentkowski.Ben@epa.govBentkowski.Ben@epa.gov (404) 562-8507 March 201637

38 Risk Management Decisions Regional Screening Levels - RSLs are values used by the EPA to determine whether a chemical should be considered for further monitoring or investigation. They are conservative (protective) risk-based values calculated at a 10-6 risk level for carcinogens (1 excess cancer per 1,000,000 people) or a Hazard Quotient of 1 for non-carcinogens. Generally, if chemical concentrations are above an RSL, the EPA considers further investigation to determine the full nature and extent of any contamination. March 201638

39 Removal Management Levels RMLs are values used by the EPA to identify areas, contaminants, and conditions where an action may be necessary to protect human health and/or the environment. The RMLs are risk-based values calculated at a 10-4 risk level for carcinogens (1 excess cancer per 10,000 people) or a Hazard Quotient of 3 for non-carcinogens. 6/11/2016U.S. Environmental Protection Agency39

40 Removal Management Levels Generally, if chemical concentrations are above an RML, the EPA considers appropriate exposure or treatment actions. Exceedance of an RML by itself does not imply that adverse health effects will occur. March 2016U.S. Environmental Protection Agency40

41 For Example, Screening and Removal Management Levels for Volatile Organic Compounds March 2016U.S. Environmental Protection Agency41 Contaminant Residential RSL Residential RML Commercial RSL Commercial RML PCE11 ug/m 3 126 ug/m 3 47 ug/m 3 540 ug/m 3 TCE0.48 ug/m 3 6.3 ug/m 3 3 ug/m 3 26 ug/m 3 TCE (sensitive sub- population) 0.48 ug/m 3 2.1 ug/m 3 3 ug/m 3 8.8 ug/m 3

42 The Guidance for Evaluating Completion of Groundwater Restoration Remedial Actions OSWER 9355.0-129 The Groundwater Restoration Completion Guidance recommends evaluating contaminant of concern (COC) concentration levels on an individual well-by-well basis to assess whether aquifer restoration is complete. Remediation Phase Attainment Monitoring Phase March 2016U.S. Environmental Protection Agency42

43 The Remediation Phase The remediation phase at a monitoring well typically is completed when the data collected and evaluated demonstrate that the groundwater has reached the cleanup levels for all COCs set forth in the record of decision. The attainment monitoring phase typically occurs after a Region determines that the remediation monitoring phase is complete. March 2016U.S. Environmental Protection Agency43

44 Data Requirements Remediation Monitoring – minimum 4 data points Attenuation monitoring – minimum of 8 data points Demonstrates that the 95 th percentile Upper Confidence Limit (UCL) of the 8 data points is reliably below the cleanup standard March 2016U.S. Environmental Protection Agency44

45 For Example March 2016U.S. Environmental Protection Agency45

46 THANK YOU March 2016U.S. Environmental Protection Agency46

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