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(newest | oldest) View (newer 50 | older 50) (20 | 50 | 100 | 250 | 500)- 20:31, 19 April 2018 Debra Tabron (talk | contribs) uploaded File:Lutes-Article1w2.Fig 1.PNG (Figure 1. Key elements of vapor intrusion pathways)
- 19:32, 19 April 2018 Debra Tabron (talk | contribs) uploaded a new version of File:USEPA-2015-Tech Guide for Addressing Pet Vapor Intrusion at Leaking UST Sites.pdf (U.S. Environmental Protection Agency (USEPA), 2015. Technical guide for addressing petroleum vapor intrusion at leaking underground storage tank sites. Office of Underground Storage Tanks, Washington, D.C. EPA 510-R-15-001.)
- 19:25, 19 April 2018 Debra Tabron (talk | contribs) uploaded a new version of File:ITRC-2007-Vapor Intrusion Pathway, A Practical Guide.pdf (Interstate Technology & Regulatory Council (ITRC), 2007. Vapor intrusion pathway: A practical guide. VI-1. ITRC Vapor Intrusion Team, Washington, D.C.)
- 19:12, 19 April 2018 Debra Tabron (talk | contribs) uploaded a new version of File:ITRC-2014-PVI Fundamentals of Screening and Investigation and Mgmt.pdf (Interstate Technology and Regulatory Council (ITRC), 2014. Petroleum vapor intrusion: Fundamentals of screening, investigation, and management. PVI-1. Washington, D.C. Petroleum Vapor Intrusion Team.)
- 18:48, 19 April 2018 Debra Tabron (talk | contribs) uploaded File:USEPA-2015a-Oswer-vapor-intrusion-technical-guide-final.pdf (U.S. Environmental Protection Agency (USEPA), 2015. OSWER Technical guide for assessing and mitigating the vapor intrusion pathway from subsurface vapor source to indoor air. 9200.2-154. Office of Solid Waste and Emergency Response, Washington, D.C. pp...)
- 20:28, 17 April 2018 Debra Tabron (talk | contribs) uploaded File:USEPA-2009. Vertical Distribution of VOCs in Soils from Groundwater to the Surface Subslab.pdf (U.S. Environmental Protection Agency (USEPA), 2009. Vertical Distribution of VOCs in Soils from Groundwater to the Surface/Subslab U.S. Environmental Protection Agency, 326 pp.)
- 20:20, 17 April 2018 Debra Tabron (talk | contribs) uploaded File:USEPA-2015d. Simple, Efficient and Rapid Methods.....PDF (United States Environmental Protection Agency (USEPA), 2015d. Simple, Efficient, and Rapid Methods to Determine the Potential for Vapor Intrusion into the Home: Temporal Trends, Vapor Intrusion Forecasting, Sampling Strategies, and Contaminant Migratio...)
- 20:17, 17 April 2018 Debra Tabron (talk | contribs) uploaded File:USEPA-2014. Passive Samplers for INvestigations of Air Quality.pdf (U.S. Environmental Protection Agency (USEPA). 2014. Passive Samplers for Investigations of Air Quality: Method Description, Implementation, and Comparison to Alternative Sampling Methods. EPA/600/R-14/434.)
- 20:14, 17 April 2018 Debra Tabron (talk | contribs) uploaded File:USEPA-2012d. Fluctuation of indoor Radon and VOC Concentrations....PDF (U.S. Environmental Protection Agency (USEPA). 2012d. Fluctuation of Indoor Radon and VOC Concentrations Due to Seasonal Variations. Office of Research and Development. EPA/600/R/12/673.)
- 20:09, 17 April 2018 Debra Tabron (talk | contribs) uploaded File:USEPA-2012c. Petroleum Hydrocarbons and Chlorinated Solvents....pdf (U.S. Environmental Protection Agency (USEPA). 2012c. Petroleum Hydrocarbons and Chlorinated Solvents Differ in Their Potential for Vapor Intrusion. Office of Underground Storage Tanks.)
- 20:06, 17 April 2018 Debra Tabron (talk | contribs) uploaded File:USEPA-2012b. Conceptual Model Scenarios for Vapor Intrusion Pathway.pdf (U.S. Environmental Protection Agency (USEPA), 2012. Conceptual Model Scenarios for the Vapor Intrusion Pathway. USEPA, Washington, DC. EPA-530-R-10-03.)
- 20:04, 17 April 2018 Debra Tabron (talk | contribs) uploaded File:USEPA-2012a. Vapor Intrusion Dtabase Evaluation and Characterizaton of Attenuation Factors....pdf (United States Environmental Protection Agency (USEPA), 2012. EPA's Vapor Intrusion Database: Evaluation and Characterization of Attenuation Factors for Chlorinated Volatile Organic Compounds and Residential Buildings. US Environmental Protection Agenc...)
- 19:58, 17 April 2018 Debra Tabron (talk | contribs) uploaded File:USEPA-2008. Indoor Air Vapor Intrusion Mitigation Approaches.pdf (U.S. Environmental Protection Agency (USEPA). 2008. Engineering Issue: Indoor Air Vapor Intrusion Mitigation Approaches. EPA/600/R-08-115.)
- 19:53, 17 April 2018 Debra Tabron (talk | contribs) uploaded File:USDOD-2009. Vapor Intrusion Handbook.pdf (U.S. Department of Defense (DoD). 2009. DoD Vapor Intrusion Handbook. Prepared by the Tri-Services Environmental Risk Assessment Working Group.)
- 19:42, 17 April 2018 Debra Tabron (talk | contribs) uploaded File:USEPA-2015. Temporal Trends, Attenuation Factors, anc Contaminant Migration Routes....PDF (United States Environmental Protection Agency, 2015. Assessment of Mitigation Systems on Vapor Intrusion: Temporal Trends, Attenuation Factors, and Contaminant Migration Routes under Mitigated and Non-mitigated Conditions. U.S. Environmental Protection...)
- 19:25, 17 April 2018 Debra Tabron (talk | contribs) uploaded File:McHugh - 2007. Eval of spatial and temporal variability in VOC....pdf (McHugh, T.E., Nickles, T.N. and Brock, S., 2007. Evaluation of spatial and temporal variability in VOC concentrations at vapor intrusion investigation sites. Proceedings of Vapor Intrusion: Learning from the Challenges, Providence, RI, pp.129-142.)
- 19:21, 17 April 2018 Debra Tabron (talk | contribs) uploaded File:Folkes - 2002. Efficacy of sub-slab depressurization for mitigation of VI.pdf (Folkes, D.J. and Kurz, D.W., 2002. Efficacy of sub-slab depressurization for mitigation of vapor intrusion of chlorinated organic compounds. Proceedings of Indoor Air.)
- 19:18, 17 April 2018 Debra Tabron (talk | contribs) uploaded File:USEPA-2010. Temporal Variaiton of VOCs in Soils from GW.PDF (United States Environmental Protection Agency (USEPA), 2010. Temporal Variation of VOCs in Soils From Groundwater to the Surface/Subslab. U.S. Environmental Protection Agency, Washington, DC, EPA/600/R-10/118, 143 pp.)
- 14:59, 17 April 2018 Debra Tabron (talk | contribs) uploaded File:DON - 2015. A Quantitative Decision...Tech Rpt TR-NAVFAC-EXWC-EV-1603.pdf (Department of the Navy (DON), 2015. A Quantitative Decision Framework for Assessing Navy Vapor Intrusion Sites. Technical Report TR-NAVFAC-EXWC-EV-1603.)
- 14:37, 17 April 2018 Debra Tabron (talk | contribs) uploaded File:DiGiulio - 2006. Assessment of Vapor Intrusion in Homes...EPA-600-R-05-147.pdf (DiGiulio, D., Paul, C., Cody, R., Willey, R., Clifford, S., Kahn, P., Mosley, R., Lee, A. and Christensen, K., 2006. Assessment of vapor intrusion in homes near the Raymark Superfund site using basement and sub-slab air samples. EPA/600/R-05/147.)
- 21:55, 1 February 2017 Debra Tabron (talk | contribs) uploaded File:Gamlin SBGR Figure 2.PNG (Figure 2. SBGR performance observations for two chlorinated solvent sites in California)
- 21:54, 1 February 2017 Debra Tabron (talk | contribs) uploaded File:Gamlin SBGR Table 1.PNG (Table 1. SBGR Construction and Cost Details)
- 21:53, 1 February 2017 Debra Tabron (talk | contribs) uploaded File:Gamlin SBGR Figure 1.PNG (Figure 1. Typical subgrade biogeochemical reactor (SBGR) layout.)
- 19:17, 31 January 2017 Debra Tabron (talk | contribs) uploaded File:Slater CaseStudies Fig3.jpg (Figure 3. Example 3D time-lapse ERT images showing bioamendment emplacement and movement, seen as increased bulk electrical conductivity (first column), followed by later increase in bulk conductivity arising from FeS precipitation resulting from micro...)
- 19:16, 31 January 2017 Debra Tabron (talk | contribs) uploaded File:Slater-Article 2-Figure 2.PNG (Figure 2. High-resolution 3D cross-borehole electrical imaging of contaminated fractured rock at the former Naval Air Warfare Center in New Jersey. Two panels of the 3D volume of earth imaged are shown for comparison. Acoustic televiewer images recorde...)
- 19:15, 31 January 2017 Debra Tabron (talk | contribs) uploaded File:Slater-Article 2-Figure 1.PNG (Figure 1. Resistivity imaging at the 300 Area of the Hanford Facility, Richland, WA. (a) location of 2D resistivity survey lines. (b) selected 2D resistivity profiles (locations in part a) showing imaging of variations in depth to the Hanford-Ringold c...)
- 15:32, 31 January 2017 Debra Tabron (talk | contribs) uploaded File:Slater Intro Table3.jpg (Table 3. Details of four single-hole and crosshole geophysical imaging methods with potential application to contaminated sites. The lateral extent and depth of the surveyed region, and resolution of the measurement, are all typical values for environm...)
- 15:30, 31 January 2017 Debra Tabron (talk | contribs) uploaded File:Slater Intro Table2.jpg (Table 2. Surface-based geophysical methods commonly used at remediation sites. The extent and depth of the survey region and the resolution are all approximate ranges. The measured parameters can be derived directly from the acquired data. The recovere...)
- 15:29, 31 January 2017 Debra Tabron (talk | contribs) uploaded File:Slater Intro Table1.jpg (Table 1. Details of borehole geophysical logging methods commonly used at remediation sites. The lateral depth of penetration into the formation and resolution of the measurement are approximate ranges for site investigation. The measured parameters ca...)
- 15:27, 31 January 2017 Debra Tabron (talk | contribs) uploaded File:Slater Intro Fig4.PNG (Figure 4. Schematic explanation of the concepts of (a) forward modeling and (b) inverse modeling.)
- 15:23, 31 January 2017 Debra Tabron (talk | contribs) uploaded File:Slater Intro Fig3.jpg (Figure 3. Example cross-borehole method. (a) Schematic crosshole radar tomography, in which a transmitting antenna is moved vertically in one well, and a receiver antenna is moved vertically in another well. High-frequency electromagnetic waves are tra...)
- 14:52, 31 January 2017 Debra Tabron (talk | contribs) uploaded File:Slater Intro Fig2.jpg (Figure 2. Example of a surface-based geophysical method. (a) Schematic diagram of an electromagnetic induction tool in operation, which comprises a transmitter (Tx) and receiver (Rx) to respectively produce a primary electromagnetic field and measure a...)
- 14:50, 31 January 2017 Debra Tabron (talk | contribs) uploaded File:Slater Intro Fig1.jpg (Figure 1. Example borehole logging equipment and log panel from the U. Connecticut Landfill in which major fractures appear in multiple logs for well MW105R at ~110 ft, 90 ft, and 75 ft depths (after Johnson et al., 2002.(a) Borehole tool outside of the)
- 19:49, 30 January 2017 Debra Tabron (talk | contribs) uploaded File:Krug-Article 2-Figure 3.PNG (Figure 3. Example of electron donor distribution during (left panel) and after (right panel) injection.)
- 19:48, 30 January 2017 Debra Tabron (talk | contribs) uploaded File:Krug-Article 2-Figure 2.PNG (Figure 2. Electron donor distribution during the active semi-passive amendment injection phase (left panel) and the passive phase (right panel).)
- 19:47, 30 January 2017 Debra Tabron (talk | contribs) uploaded File:Krug-Article 2-Figure 1.PNG (Figure 1. Example electron donor distribution during active amendment injection.)
- 14:14, 30 January 2017 Debra Tabron (talk | contribs) uploaded File:Denham-Article 4-Figure 1.PNG (Figure 1. Example of an Attenuation Conceptual Model for metals contamination)
- 16:17, 25 January 2017 Debra Tabron (talk | contribs) uploaded File:Edwards Article 1-figure 3.PNG (Figure 3. Conceptual model for syntrophic anaerobic degradation of benzene and alkylbenzenes. Acetate and H2 are consumed in reactions 1, 2, and 3, keeping the fermentation reaction energetically favorable. When external electron acceptors (e.g., nitra...)
- 16:15, 25 January 2017 Debra Tabron (talk | contribs) uploaded File:Edwards Article 1-figure 2.PNG (Figure 2. Comparison of the longitudinal redox zonation concept (A) and the plume fringe concept (B). Both concepts describe the spatial distribution of electron acceptors and respiration processes in a hydrocarbon contaminant plume. (B) Iron(III) redu...)
- 16:12, 25 January 2017 Debra Tabron (talk | contribs) uploaded File:Edwards Article 1-figure 1.PNG (Figure 1. Components of hydrocarbon biodegradation. Understanding and facilitating biodegradation at a contaminated site requires knowledge of the environmental conditions, compound properties, and microorganisms present (Adapted after Sutherson, 1999))
- 21:27, 24 January 2017 Debra Tabron (talk | contribs) uploaded File:USEPA-1994-How to evalutate alternative cleanup tech for UST Sites.pdf (United States Environmental Protection Agency, 1994. How to evaluate alternative cleanup technologies for underground storage tank sites)
- 17:14, 24 January 2017 Debra Tabron (talk | contribs) uploaded File:ATSDR-1999-Tox profile for TPH.pdf (Agency for Toxic Substances and Disease Registry, 1999. Toxicological profile for total petroleum hydrocarbons (TPH). Accessed December 1, 2016 from)
- 17:22, 23 January 2017 Debra Tabron (talk | contribs) uploaded File:Denham-Article 3-Table 2.PNG (Table 2. Six Scenarios for Evaluating Inorganic Monitored Natural Attenuation)
- 17:20, 23 January 2017 Debra Tabron (talk | contribs) uploaded File:Denham-Article 3-Table 1.PNG (Table 1. Tiered four-phase approach to demonstrating MNA for inorganic compounds)
- 17:19, 23 January 2017 Debra Tabron (talk | contribs) uploaded File:Denham-Article 3-Figure 2.PNG (Figure 2. Summary of inorganic contaminant mobility for 4 < pH < 9 for six scenarios)
- 17:18, 23 January 2017 Debra Tabron (talk | contribs) uploaded File:Denham-Article 3-Figure 1.PNG (Figure 1. Typical contaminant plume evolution in an aquifer showing leading and trailing gradients.)
- 17:16, 19 January 2017 Debra Tabron (talk | contribs) uploaded File:Freedman A 1 Fig 4.PNG
- 16:36, 19 January 2017 Debra Tabron (talk | contribs) uploaded File:Freedman A 1 Fig 3.PNG
- 16:34, 19 January 2017 Debra Tabron (talk | contribs) deleted page File:Freedman Article 1 Figure 3.PNG
- 16:32, 19 January 2017 Debra Tabron (talk | contribs) uploaded a new version of File:Freedman Article 1 Figure 3.PNG (Figure 3. Generic dihaloelimination; X- = halide.)