File list
This special page shows all uploaded files.
| Date | Name | Thumbnail | Size | User | Description | Versions |
|---|---|---|---|---|---|---|
| 13:54, 9 November 2018 | USEPA-2002. Exemption of Oil and Gas exploration and Production Wastes....pdf (file) |  |
1,010 KB | Debra Tabron | U.S. Environmental Protection Agency (USEPA), 2002. Exemption of Oil and Gas Exploration and Production Wastes from Federal Hazardous Waste Regulations. Office of Solid Waste, EPA530-K-01-004. | 1 |
| 13:57, 9 November 2018 | USEPA-2003-Landfarming-OSC-Aerobic Biodegradation of Oily Wastes.pdf (file) | |
883 KB | Debra Tabron | U.S. Environmental Protection Agency (USEPA), 2003. Aerobic Biodegradation of Oily Wastes: A Field Guidance Book for Federal On-scene Coordinators, Version 1.0, October 2003. Region 6 South Central Response and Prevention Branch | 1 |
| 13:58, 9 November 2018 | USEPA-2017. How to Evaluate Alternative Cleanup tech for UST Sites.pdf (file) | |
219 KB | Debra Tabron | U.S. Environmental Protection Agency (USEPA), 2017. How to Evaluate Alternative Cleanup Technologies for Underground Storage Tank Sites: A Guide for Corrective Action Plan Reviewers, Chapter V: Landfarming. , Land and Emergency Management 5401R, EPA 51... | 1 |
| 13:53, 12 November 2018 | 2008-Borden-Development of a design tool for injections.pdf (file) | |
900 KB | Debra Tabron | Borden, R.C., Clayton, M., Weispfenning, A.M., Simpkin, T. and Lieberman, M.T., 2008. Development of a Design Tool for Planning Aqueous Amendment Injection Systems. Environmental Security Technology Certification Program, Arlington, Virginia. ESTCP P... | 1 |
| 15:01, 13 November 2018 | Borden3w2 Fig1.PNG (file) |  |
210 KB | Debra Tabron | Figure 1. Photo-micrograph of EVO (0.7 µm median diameter). White scale bar 25 µm. | 1 |
| 15:09, 13 November 2018 | Borden3w2 Fig2.png (file) |  |
132 KB | Debra Tabron | Figure 2. animation illustrating oil droplet transport and retention in porous media. | 1 |
| 15:57, 13 November 2018 | Rules of thumb for negatively charged emulsions.PNG (file) |  |
15 KB | Debra Tabron | - rapid flocculation 0 mV < zeta potential < -5 mV - incipient instability -10 mV < zeta potential < -30 mV - moderate stability -30 mV < zeta potential < -40 mV - good stability -40 mV < zeta potential < -60 m... | 1 |
| 16:10, 13 November 2018 | Borden3w2 Fig3.png (file) |  |
329 KB | Debra Tabron | Figure 3. EVO mixed in field during early pilot test. | 1 |
| 16:18, 13 November 2018 | Borden3w2 Fig4.png (file) |  |
28 KB | Debra Tabron | Figure 4. Effect of volume scaling factor (SFV) and mass scaling factor (SFM) on volume contact efficiency for a moderately heterogeneous aquifer with well spacing approximately equal to row spacing (Borden et al., 2008). | 1 |
| 11:29, 15 November 2018 | EOS in the subsurface.gif (file) |  |
18.46 MB | Debra Tabron | 1 | |
| 10:24, 6 December 2018 | Emulsion Design Tool Readme.pdf (file) | |
17 KB | Admin | 1 | |
| 10:25, 6 December 2018 | ER-0626-Emulsion Users Guide.pdf (file) | |
1.05 MB | Admin | 1 | |
| 10:26, 6 December 2018 | Emulsion Design Tool Dec08.xls (file) |  |
1.32 MB | Admin | 1 | |
| 09:32, 11 December 2018 | Base Add Design Tool - August 2018.xlsx (file) | |
83 KB | Admin | 1 | |
| 17:25, 17 December 2018 | Base Add Design Tool - Dec 2018.xlsx (file) | |
105 KB | Admin | 1 | |
| 13:56, 4 January 2019 | WH Picture1.PNG (file) |  |
4.45 MB | Admin | 1 | |
| 13:56, 4 January 2019 | WH Picture2.PNG (file) |  |
4.05 MB | Admin | 1 | |
| 13:56, 4 January 2019 | WH Picture3.PNG (file) |  |
1.07 MB | Admin | 1 | |
| 13:56, 4 January 2019 | WH Picture4.PNG (file) |  |
1.1 MB | Admin | 1 | |
| 13:57, 4 January 2019 | WH Picture5.PNG (file) |  |
1.9 MB | Admin | 1 | |
| 13:57, 4 January 2019 | WH Picture6.PNG (file) |  |
649 KB | Admin | 1 | |
| 13:57, 4 January 2019 | WH Picture7.PNG (file) |  |
7.75 MB | Admin | 1 | |
| 13:57, 4 January 2019 | WH Picture8.PNG (file) |  |
5.54 MB | Admin | 1 | |
| 13:57, 4 January 2019 | WH Picture9.PNG (file) |  |
2.16 MB | Admin | 1 | |
| 13:57, 4 January 2019 | WH Picture10.PNG (file) |  |
692 KB | Admin | 1 | |
| 13:58, 4 January 2019 | WH Picture11.PNG (file) |  |
3.89 MB | Admin | 1 | |
| 13:58, 4 January 2019 | WH Picture12.PNG (file) |  |
5.43 MB | Admin | 1 | |
| 13:58, 4 January 2019 | WH Picture13.PNG (file) |  |
2.09 MB | Admin | 1 | |
| 13:58, 4 January 2019 | WH Picture14.PNG (file) |  |
654 KB | Admin | 1 | |
| 13:58, 4 January 2019 | WH Picture15.PNG (file) |  |
4.65 MB | Admin | 1 | |
| 16:11, 18 January 2019 | 2005-ITRC Permeable Reactive Barriers.pdf (file) | |
1.89 MB | Debra Tabron | Interstate Technology & Regulatory Council (ITRC), 2005. Permeable Reactive Barriers: Lessons Learned/New Directions. PRB-4. Washington, D.C.: Interstate Technology & Regulatory Council, Permeable Reactive Barriers Team. | 1 |
| 10:55, 21 January 2019 | 2002-Wilkin-Long-term Perf of Permeable Reactive Barriers Using Zero-valent.pdf (file) | |
2.27 MB | Debra Tabron | 3. Wilkin, R.T., Puls, R.W., Sewell, G.W., 2002. Environmental Research Brief: Long-term Performance of Permeable Reactive Barriers Using Zero-valent Iron: An Evaluation at Two Sites. US EPA, Office of Research and Development, National Risk Management... | 1 |
| 16:22, 21 January 2019 | 2018-ESTCP Analysis of Long-Term performance of Zero-valent Iron App.pdf (file) | |
65.03 MB | Debra Tabron | 25. ESTCP, 2018. Analysis of Long-Term Performance of Zero-valent Iron Applications. Project Report #ER-201589-PR. | 1 |
| 14:33, 23 January 2019 | Wilkin1w2 Fig1.png (file) |  |
48 KB | Debra Tabron | Conceptual Model of PRB. Adapted from Wilkin, et al., 2002 | 1 |
| 14:33, 23 January 2019 | Wilkin1w2 Fig2.png (file) |  |
410 KB | Debra Tabron | Figure 2. False-color scanning electron micrograph | 1 |
| 14:43, 28 January 2019 | 2011 - Johnson - Management of Munitions Constituents in Soil.pdf (file) | |
886 KB | Debra Tabron | Management of Munitions Constituents in Soil Using Alkaline Hydrolysis | 1 |
| 15:54, 29 January 2019 | 2001-Felt- Potential for biodegradatio of the alkaline hydrolysis.pdf (file) | |
3.97 MB | Debra Tabron | Potential for biodegradation of the alkaline hydrolysis end products of TNT and RDX. ERDC/EL TR-07-25. Vicksburg, MS: U.S. Army Engineer Research and Development Center | 1 |
| 16:04, 29 January 2019 | 2010-Gent-laboratory Demostration of abiotic tech for removal of RDX.pdf (file) | |
11.89 MB | Debra Tabron | Gent, D.B., Johnson, J.L., Felt, D.R., O'Connor, G., Holland, E., May, S. and Larson, S.L., 2010. Laboratory demonstration of abiotic technologies for removal of RDX from a process waste stream (No. ERDC/EL-TR-10-8). Engineer Research and Development... | 1 |
| 15:27, 30 January 2019 | 1998-Kim-Alkline Hydrolysis Biodegradation of Nitrocellulose Fines.pdf (file) | |
6.17 MB | Debra Tabron | Kim, B.J., Alleman, J.E. and Quivey, D.M., 1998. Alkaline hydrolysis/biodegradation of nitrocellulose fines (No. CERL-TR-98/65). Consstruction Engineering Researcg Lab (ARMY) Champaign, IL. | 1 |
| 15:35, 30 January 2019 | 2007-Larson-grenade Range Management Using Lime for Metals Immobilization.pdf (file) | |
2.2 MB | Debra Tabron | Larson, S.L., J.L. Davis, W.A. Martin, D.R. Felt, C.C. Nestler, D.L. Brandon, G. Fabian, and G. O’Connor. 2007. Grenade Range Management Using Lime for Metals Immobilization and Explosives Transformation: Treatability Study. ERDC/EL TR-07-5. Vicksbur... | 1 |
| 16:29, 30 January 2019 | 2007-Santiago-chemical remediation of an ordnance related compound.pdf (file) | |
852 KB | Debra Tabron | Santiago, L., Felt, D.R. and Davis, J.L., 2007. Chemical Remediation of an Ordnance-Related Compound: The Alkaline Hydrolysis of CL-20. Environmental Quality Technology Program (No. ERDC/EL-TR-07-18). Engineer Research and Development Center, Vicksbu... | 1 |
| 17:00, 30 January 2019 | Johnson1w2 Fig1.png (file) |  |
26 KB | Debra Tabron | Figure 1: RDX concentrations in leachate by rain event for meso-scale lysimeters containing hand grenade range soils as reported by Larson et al. (2007) | 1 |
| 17:01, 30 January 2019 | Johnson1w2 Fig2.png (file) |  |
32 KB | Debra Tabron | Figure 2: Mean pore water RDX concentrations by hand grenade bay and lysimeter with maximum and minimum concentration profiles (avg, n ranges from 7 to 10; modified from Larson et al., 2007). | 1 |
| 17:01, 30 January 2019 | Johnson1w2 Fig3.png (file) |  |
784 KB | Debra Tabron | Figure 3: Soil mixing during ex situ alkaline treatment of soils at an ammunition plant. | 1 |
| 17:02, 30 January 2019 | Johnson1w2 Fig4.png (file) |  |
44 KB | Debra Tabron | Figure 4: General heuristics for determining application of alkaline amendments for the management of munitions constituents in soil. | 1 |
| 15:08, 31 January 2019 | 1980- Somerton- Role of Clays in the enhanced reovery of petroleum.pdf (file) | |
1.08 MB | Debra Tabron | <ref>Somerton, W. H., and C. J. Radke. 1980. Roles of clays in the enhanced recovery of petroleum. Proceedings of the first joint SPE/DOE symposium on enhance oil recovery. Society of Petroleum Engineers.</ref> | 1 |
| 10:05, 1 February 2019 | 2011-ACOE-pwtb 200 1 95.pdf (file) | |
1.06 MB | Debra Tabron | • ACOE (2011) Soil Composting for Explosives Remediation: Case Studies and Lessons Learned, U.S. Army Corps of Engineers, Public Works Technical Bulletin 200-1-95. | 1 |
| 12:27, 1 February 2019 | 2018-UFGS for Bioremediation of Soils using Windrow Composting.pdf (file) | |
216 KB | Debra Tabron | Unified Facilities Guide Specifications for Bioremediation of Soils using Windrow Composting | 1 |
| 14:41, 1 February 2019 | 1982-Isbister-Engineering and development Support of general Decon Tech.pdf (file) | |
3.32 MB | Debra Tabron | Isbister, J.D., Doyle, R.C., and J.F. Kitchens (1982) Engineering and Development Support of General Decon Technology for the U.S. Army's Installation Restoration Program. Task 2 – Composting of Explosives, Atlantic Research Corporation | 1 |
| 16:02, 1 February 2019 | 1986-Doyle-Composting Explosives Organics Contaminated Soils.pdf (file) | |
6.92 MB | Debra Tabron | Doyle, R.C., Isbister, J.D., Anspach, G.L., and J.F. Kitchens (1986) Composting Explosives/Organics Contaminated Soils, Atlantic Research Corporation | 1 |
