File list
This special page shows all uploaded files.
| Date | Name | Thumbnail | Size | Description | Versions |
|---|---|---|---|---|---|
| 19:43, 25 October 2016 | Palaia-Article 1-Equation 1.PNG (file) |  |
2 KB | 1 | |
| 18:39, 25 October 2016 | Palaia-Article 1-Table 1.PNG (file) |  |
95 KB | Table 1. Terminal Electron Accepting Processes Associated with the Aqueous Expression of NSZD (for decane, excerpt from Johnson et al., 2006) | 1 |
| 18:37, 25 October 2016 | Palaia-Article 1-Figure 5.PNG (file) |  |
863 KB | Figure 5. Example Site-wide NSZD Rate Contouring (with permission from an ongoing American Petroleum Institute NSZD guidance project, pending publication late-2016). | 1 |
| 18:33, 25 October 2016 | Palaia-Article 1-Figure 4.PNG (file) |  |
732 KB | Figure 4. LI-COR 8100A DCC Apparatus and Setup | 1 |
| 18:32, 25 October 2016 | Palaia-Article 1-Figure 3.PNG (file) |  |
753 KB | Figure 3. Schematic (left) and Photo (right) of a Passive CO2 Flux Trap (Used with permission from E-Flux, LLC | 1 |
| 18:29, 25 October 2016 | Palaia-Article 1-Figure 2.PNG (file) |  |
117 KB | Figure 2. Schematic of a Typical Gradient Method Monitoring Setup (excerpt from Johnson et al., 2006). | 1 |
| 18:28, 25 October 2016 | Palaia-Article 1-Figure 1.PNG (file) |  |
250 KB | Figure 1. Conceptualization of Vapor Transport-related NSZD Processes at a Petroleum Release Site (with permission from an ongoing American Petroleum Institute NSZD guidance project, pending publication late-2016). CO2: Carbon Dioxide. CH4: Methane. O... | 1 |
| 19:37, 21 October 2016 | Taylor-Article 1-T1.PNG (file) |  |
69 KB | Name and abbreviation for commonly used explosives and formulations | 1 |
| 19:13, 17 October 2016 | Taylor-A1-Figure 9.PNG (file) |  |
179 KB | Figure 9. Dissolved mass versus precipitation volume for averaged data from: (a) five IMX101; (b) five IMX104; and (c) two PAX21 chunks placed outside to weather and dissolve. The constituents are NTO (blue), NQ (red), DNAN (green), RDX (orange), and A... | 1 |
| 19:11, 17 October 2016 | Taylor-A1-Figure 8.PNG (file) |  |
340 KB | Figure 8. IM formulations break apart more easily than do traditional explosives. | 1 |
| 19:09, 17 October 2016 | Taylor-A1-Figure 7.PNG (file) |  |
307 KB | 1 | |
| 19:08, 17 October 2016 | Taylor-A1-Figure 6.PNG (file) |  |
73 KB | Figure 6. Plot of the normalized % NG dissolved from unfired propellants versus time (Taylor et al. 2012). | 1 |
| 19:06, 17 October 2016 | Taylor-A1-Figure 5.PNG (file) |  |
289 KB | Figure 5. (a) µCT images of an IMX101, IMX104 and PAX21 particle during dissolution. (b) the mass loss curves for these and three other sets of particles (Taylor et al. 2015a). | 1 |
| 19:05, 17 October 2016 | Taylor-A1-Figure 4.PNG (file) |  |
425 KB | Figure 4. Optical microscope images of pieces of TNT, Tritonal, Comp B and Octol before and after having water dripped on their surfaces. | 1 |
| 19:02, 17 October 2016 | Taylor-A1-Figure 3.PNG (file) |  |
438 KB | Figure 3. Laboratory drip tests (left) and outdoor dissolution tests (right) (Taylor et al., 2010). | 1 |
| 19:01, 17 October 2016 | Taylor-A1-Figure 2.PNG (file) |  |
653 KB | Figure 2. (a) M9 grain and residues; (b) single perforated M45 propellant grains and residues; (c) multi-perforated M1 propellant and residues from Taylor et al. (2012) | 1 |
| 18:59, 17 October 2016 | Taylor-A1-Figure 1.PNG (file) |  |
910 KB | Figure 1. Comp B pieces from a single partial detonation of a 155-mm round (Taylor et al., 2004a). | 1 |
| 20:43, 14 October 2016 | Freedman-1989-Biological reductive dechlorination.pdf (file) |  |
1.58 MB | Freedman, D. L.; Gossett, J. M., Biological reductive dechlorination of tetrachloroethylene and trichloroethylene to ethylene under methanogenic conditions. Appl. Environ. Microbiol. 1989, 55, (9), 2144-2151 | 1 |
| 19:41, 14 October 2016 | Maymo-Gatell-1999-Reductive dechlorination.pdf (file) | |
105 KB | Maymó-Gatell, X.; Anguish, T.; Zinder, S. H., Reductive dechlorination of chlorinated ethenes and 1,2-dichloroethane by "Dehalococcoides ethenogenes" 195. Appl. Environ. Microbiol. 1999, 65, 3108-3113. | 1 |
| 14:35, 13 October 2016 | Krug-Article 1. Table1 perchlorate rev.PNG (file) |  |
15 KB | Table 1. Perchlorate Physical and Chemical Properties | 1 |
| 19:30, 10 October 2016 | Ampleman-2011-Characterization and fate of gun and rocket propellant residues.pdf (file) | |
7.55 MB | Ampleman, G, Thiboutot, S., Marois, A., Gagnon, A., Walsh, M.R., Walsh, M.E., Ramsey, C.A., and Archambeault, P., 2011. Propellant residues emitted by triple base ammunition live firing using a British 155-mm howitzer bun at CFB Suffield, Canada. In... | 1 |
| 18:28, 10 October 2016 | Walsh-2005-Residues from Live Fire Detonations of 155-mm.pdf (file) | |
528 KB | Walsh, M.R., Taylor, S., Walsh, M.E., Bigl, S., Bjella, K., Douglas, T., Gelvin, A., Lambert, D., Perron, N. and Saari, S., 2005. Residues from live fire detonations of 155-mm howitzer rounds. ERDC/CRREL Technical Report TR-05-14. | 1 |
| 17:49, 10 October 2016 | Walsh-2007-Explosives Residues TR-07-02.pdf (file) | |
276 KB | Walsh, M.R., 2007. Explosives residues resulting from the detonation of common military munitions: 2002-2006. ERDC/CRREL-TR-07-2. Hanover NH Cold Regions Research and Engineering Lab. | 1 |
| 13:37, 10 October 2016 | Walsh-2005-An Examination of protocols for explosives residues.pdf (file) | walsh-2005-An_Examination_of_protocols_for_explosives_residues.pdf | 536 KB | Walsh, MR, ME Walsh, CA Ramsey, and TF Jenkins (2005) An examination of protocols for the collection of munitions-derived explosives residue on snow-covered ice. ERDC/CRREL Technical Report TR-05-8. US Army Cold Regions Research and Engineering Laborat... | 1 |
| 13:14, 10 October 2016 | Collins-1995-Winter tests of artillery firing into Eagle River Flats.pdf (file) | |
610 KB | Collins, CM, and DJ Calkins (1995) Winter tests of artillery firing into Eagle River Flats, Fort Richardson, Alaska. CRREL Special Report SR 95-2. US Army Cold Regions Research and Engineering Laboratory, Hanover, NH | 1 |
| 19:40, 7 October 2016 | Thiboutot-2013-Canadian programme on the environmental impacts of munitions.pdf (file) | |
4.17 MB | Thiboutot, S, Ampleman, G. Brochu, S., Diaz, E, Martel, R., Hawari, J., Sunahara, G., Walsh, MR, and Walsh, ME, 2013. Canadian programme on the environmental impacts of munitions. 1st European Conference on Defence and the Environment, Helsinki, Finland. | 1 |
| 15:59, 7 October 2016 | USEPA-2008a. Green Remediation-Incorporating Sustainable Envl Practices.pdf (file) | |
814 KB | U.S. Environmental Protection Agency (EPA). 2012. Methodology for Understanding and Reducing a Project’s Environmental Footprint. EPA 542-R-12-002. | 1 |
| 15:51, 7 October 2016 | USEPA-2012-Methodology for Understanding and Reducing a Projects Envl Footprint.pdf (file) | |
2.09 MB | U.S. Environmental Protection Agency (EPA). 2012. Methodology for Understanding and Reducing a Project’s Environmental Footprint. EPA 542-R-12-002 | 1 |
| 14:31, 7 October 2016 | ITRC-2011-Green and Sustainable Remediation.pdf (file) | |
1.8 MB | Interstate Technology and Regulatory Council (ITRC), 2011. Green and sustainable remediation: A practical framework. GSR-2, ITRC Green and Sustainable Remediation Team, Washington, D.C. | 1 |
| 15:20, 5 October 2016 | Deeb-Article 1-Table 1.JPG (file) |  |
142 KB | Table 1. Physical and chemical properties of PFOS and PFOA | 1 |
| 15:17, 5 October 2016 | Deeb-Article 1-Figure 1.JPG (file) |  |
29 KB | Figure 1. a) Structure of a perfluoroalkyl substance, PFOS, compared with b) the structure of a polyfluoroalkyl substance, 6:2 fluorotelomer sulfonate (6:2 FTSA). | 1 |
| 20:12, 28 September 2016 | IARC-2016-Monographs on the eval of carcinogenic risks to humans List of Classifications.pdf (file) | |
199 KB | IARC, 2016. International Agency for Research on Cancer (IARC) Monographs on the Evaluation of Carcinogenic Risks to Humans. Lists of Classifications, Volumes 1 to 116. | 1 |
| 19:28, 28 September 2016 | Guelfo-2013-Subsuface fate and transport of Poly-and perfluoroalkyl substances.pdf (file) | |
4.1 MB | 1 | |
| 20:31, 27 September 2016 | Conder-2008-GRACast Frequently asked questions on PFASs.pdf (file) | |
1,009 KB | Conder, J., Deeb, R.A., Field, J.A. and Higgins, C.P., 2016. GRACast: Frequently Asked Questions on Per- and Polyfluoroalkyl Substances (PFASs). Presented on July 6. | 1 |
| 20:05, 27 September 2016 | Concawe-2016-Environmental fate and effects of PFAS.pdf (file) | |
1.34 MB | Concawe, 2016. Environmental fate and effects of poly- and perfluoroalkyl substances (PFAS). Report no. 8/16. June 23. Available online at https://www.concawe.eu/publications/ 558/40/Environmental-fate-and-effects-of-poly-and-perfluoroalkyl-substances-... | 1 |
| 15:54, 22 September 2016 | Deeb-Article 1-Table 2-L22-ME-Remedial Action guidelines.pdf (file) | |
599 KB | Deeb-Article 1-Table 2-L22-ME-Remedial Action guidelines | 1 |
| 14:37, 22 September 2016 | Deeb-Article 1-Table 2-L18-Residential soil screening levels.pdf (file) | |
517 KB | Deeb-Article 1-Table 2-L18-Residential soil screening levels | 1 |
| 13:44, 22 September 2016 | Deeb-Article 1-Table 2-L16-Groundwater nonresidential generic cleanup criteria and screening levels.pdf (file) | |
3.03 MB | Deeb-Article 1-Table 2-L16-Groundwater nonresidential generic cleanup criteria and screening levels | 1 |
| 13:36, 22 September 2016 | Deeb-Article 1-Table 2-L15-Groundwater residential generic cleanup criteria and screening levels .pdf (file) | |
3.03 MB | Deeb-Article 1-Table 2-L15-Groundwater residential generic cleanup criteria and screening levels | 1 |
| 13:30, 22 September 2016 | Deeb-Article 1-Table 2-L13-Interim specific groundwatr quality criterion fact sheet.pdf (file) | |
573 KB | Deeb-Article 1-Table 2-L13-Interim specific groundwatr quality criterion_fact_sheet | 1 |
| 13:26, 22 September 2016 | Deeb-Article 1-Table 2-L11-Provisional Groundwater Remediaton Objectives Class II Groundwater .pdf (file) | |
6.03 MB | Deeb-Article 1-Table 2-L11-Provisional Groundwater Remediaton Objectives_Class II Groundwater | 1 |
| 13:21, 22 September 2016 | Deeb-Article 1-Table 2-L10-Provisional Groundwater Remediaton Objectives Class I Groundwater.pdf (file) | |
6.03 MB | Deeb-Article 1-Table 2-L10-Provisional Groundwater Remediaton Objectives_Class I Groundwater | 1 |
| 13:17, 22 September 2016 | Deeb-Article 1-Table 2-L7-Health-Based Maximum Contaminant Level MCL.pdf (file) | |
2.3 MB | Deeb-Article 1-Table 2-L7-Health-Based Maximum Contaminant Level_MCL | 1 |
| 13:16, 22 September 2016 | Deeb-Article 1-Table 2-L6-Dev of MCL recommendations for PFOA and PFOS.pdf (file) | |
404 KB | Deeb-Article 1-Table 2-L6-Dev of MCL recommendations for PFOA and PFOS | 1 |
| 13:11, 22 September 2016 | Deeb-Article 1-Table 2-L2-Drinking water screening values.pdf (file) | |
841 KB | Deeb-Article 1-Table 2-L2-Drinking water screening values | 1 |
| 21:01, 21 September 2016 | Deeb-Article 1-Table 2 L1-Drinking water health advisories.pdf (file) | |
511 KB | Deeb-Article 1.Drinking water health advisories | 1 |
| 20:48, 16 September 2016 | Fig4 dispanddiff.JPG (file) |  |
61 KB | Newell Figure 4. Comparison of tracer breakthrough (upper graph) and cleanup curves from advection-dispersion based (gray lines) and advection-diffusion based (black lines) solute transport | 1 |
| 20:45, 16 September 2016 | Fig3 dispanddiff.JPG (file) |  |
58 KB | Newell - Figure 3. Diffusion Mechanism Leading to Plume Attenuation and Persistence. This process is controlled by diffusion and the presence of geologic heterogeneity with sharp contrasts between transmissive and low permeability media | 1 |
| 20:43, 16 September 2016 | Fig2 dispanddiff.JPG (file) |  |
68 KB | Newell - Figure 2. Conceptual depiction of Mechanical Dispersion (adapted from ITRC, 2015). | 1 |
| 20:37, 16 September 2016 | Fig1 dispanddiff.JPG (file) |  |
45 KB | Figure 1. Conceptual depicture of diffusion of dissolved chemicals recently place in a container at Time 1 (left panel) and then distributed throughout the container (right panel) at Time 2. | 1 |
