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File:Freedman Article 1 Equation 1.PNG (210 × 38 (962 bytes)) - 15:04, 19 January 2017File:Crimi 1 Fig1a.png Fig 1. Change in Maximum Parent Compound Concentration by Technology Variant for(525 × 392 (63 KB)) - 13:51, 14 April 2016File:Crimi 1 Fig1b.png Fig 1. Change in Maximum Parent Compound Concentration by Technology Variant for(524 × 392 (63 KB)) - 13:54, 14 April 2016File:1,1,1-trichloroethane.png (120 × 124 (3 KB)) - 18:23, 16 October 2015File:1,1,2,2-Tetrachloroethane.png (343 × 263 (5 KB)) - 15:03, 18 October 2015File:1,1,2-Trichloroethane.png (425 × 315 (8 KB)) - 18:25, 16 October 2015File:1,1-Dichloroethane.png (100 × 74 (1 KB)) - 18:26, 16 October 2015File:1,1-Dichloroethene.png (2,000 × 1,684 (48 KB)) - 18:26, 16 October 2015File:1,2-dichloroethane.png (100 × 71 (1 KB)) - 18:28, 16 October 2015File:Cis-1,2-dichloroethene.png (100 × 76 (6 KB)) - 18:32, 16 October 2015File:ISCR Figure 1 Tratnyek.jpg (1,650 × 1,781 (861 KB)) - 20:25, 10 December 2015File:1,1,1,2-Tetrachloroethane 2.png (401 × 263 (5 KB)) - 19:56, 16 October 2015File:1,1,1,2-Tetrachloroethane.png (401 × 263 (5 KB)) - 15:15, 18 October 2015File:1,1,2-Trichloroethane.svg.png (500 × 371 (10 KB)) - 15:26, 18 October 2015File:1,1-Dichloroethane 2.svg.png (500 × 348 (16 KB)) - 15:31, 18 October 2015File:Trans-1,2-dichloroethene.png (708 × 543 (7 KB)) - 16:00, 18 October 2015File:1,1-Dichloroethene.svg.png (500 × 421 (9 KB)) - 16:04, 18 October 2015File:NJDEP-SRP-2012-MNA Technical Guidance v 1 0.pdf (0 × 0 (2.8 MB)) - 21:13, 24 February 2016File:Results of Analyses for 1,4-Dioxane in Groundwater Samples.pdf Results of Analyses for 1,4-dioxane in groundwater samples(0 × 0 (4.74 MB)) - 17:01, 5 May 2016File:2013 EPA Technical Fact Sheet 1,4-Dioxane.pdf Technical Fact Sheet for 1,4-Dioxane(0 × 0 (88 KB)) - 17:40, 5 May 2016File:Wilson 1 Fig1a.JPG (939 × 625 (135 KB)) - 16:08, 10 May 2016File:Wilson 1 Fig1b.JPG (939 × 594 (130 KB)) - 16:12, 10 May 2016File:Wilson 1 Fig1c.JPG (935 × 626 (146 KB)) - 16:13, 10 May 2016File:USACE-2002-Soil Vapor Extraction and Bioventing-EM 1110-1-4001.pdf ...002. Engineering and Design: Soil Vapor Extraction and Bioventing. EM 1110-1-4001, U.S. Army Corps of Engineers, Washington, D.C(0 × 0 (3.6 MB)) - 17:50, 11 May 2016File:Wilson 2 Figure 1. BTEX.PNG Figure 1. Distribution of BTEX plume lengths from 604 hydrocarbon sites (Newell and(870 × 501 (343 KB)) - 18:47, 13 May 2016File:FAQ-ChlorinatedSolvents-ER-200530-1-.pdf (0 × 0 (2.46 MB)) - 19:46, 24 May 2016File:Walsh-Article 1-Figure 1.PNG Figure 1. Range ordnance disposal operation. Blow-in-place (BIP) operations often re(940 × 623 (1.13 MB)) - 20:04, 11 November 2016File:Walsh-Article 1-Figure 2.PNG (1,270 × 438 (678 KB)) - 20:06, 11 November 2016File:Walsh-Article 1-Figure 3.PNG (1,317 × 467 (1.08 MB)) - 20:06, 11 November 2016File:Walsh-Article 1-Figure 4.PNG (549 × 516 (570 KB)) - 20:08, 11 November 2016File:Walsh-Article 1-Figure 5.PNG (1,170 × 530 (1.25 MB)) - 20:09, 11 November 2016File:Walsh-Article 1-Table 3.PNG (1,150 × 445 (59 KB)) - 20:10, 11 November 2016File:Walsh-Article 1-Table 5.PNG (834 × 531 (28 KB)) - 20:12, 11 November 2016File:Truex 1 Fig1.png Figure 1. Xanthan gum concentration influence on fluid viscosity and rheology for se(910 × 631 (32 KB)) - 20:42, 30 June 2016File:Truex 1 Fig2.png (663 × 543 (253 KB)) - 20:46, 30 June 2016File:Haley-2009-Aquatic toxicity of 3-Nitro-1,2,4-triazol-5-one..pdf ...M.V., R.G. Kuperman, and R.T. Checkai. 2009. Aquatic toxicity of 3-nitro-1,2,4-triazol-5-one (NTO). ECBC-TR-726. Edgewood Chemical Biological Center ((0 × 0 (2.53 MB)) - 14:35, 12 July 2016File:USEPA-2007-MNA of Inorganic Contaminants in GW, Vol 1 Technical Basis for Assessment.pdf ...ored Natural Attenuation of Inorganic Contaminants in Groundwater, Volume 1 Technical Basis for Assessment, Edited by R.G. Ford, R.T. Wilkin, and R.W.(0 × 0 (2.16 MB)) - 20:17, 4 August 2016File:McCall-Article 1-Figure 1.PNG Figure 1: A track mounted DP machine set up for collection of soil and groundwater s(407 × 358 (342 KB)) - 20:19, 11 August 2016File:McCall-Article 1-Figure 2.PNG (395 × 299 (315 KB)) - 20:21, 11 August 2016File:McCall-Article 1-Figure 3.PNG (252 × 433 (32 KB)) - 20:26, 11 August 2016File:McCall-Article 1-Figure 4.PNG (219 × 272 (13 KB)) - 20:30, 11 August 2016File:McCall-Article 1-Figure 5.PNG (177 × 379 (24 KB)) - 20:32, 11 August 2016File:Krug-Article 1. Fig1 perchlorate.jpg Figure 1: Perchlorate Releases and Drinking Water Detections(1,592 × 1,021 (1.88 MB)) - 20:00, 30 August 2016File:Krug-article 1. Fig2 Biodegradation Pathways.PNG (993 × 478 (232 KB)) - 20:03, 30 August 2016File:Krug-Article 1. Table1 perchlorate.PNG Table 1. Perchlorate Physical and Chemical Properties(1,150 × 278 (31 KB)) - 20:04, 30 August 2016File:Newell-Article 1-Fig1.JPG Figure 1. Hydraulic gradient (typically described in units of m/m or ft/ft) is the d(650 × 708 (139 KB)) - 01:07, 9 May 2018File:Newell-Article 1-Fig2.jpg (1,765 × 1,748 (469 KB)) - 18:37, 2 September 2016File:Newell-Article 1-Fig3..JPG (1,086 × 494 (51 KB)) - 18:39, 2 September 2016File:Newell-Article 1-Fig4.JPG (908 × 622 (89 KB)) - 18:41, 2 September 2016File:Newell-Article 1-Table1r.jpg Table 1. Representative Values of Total Porosity (n), Effective Porosity (ne), and(1,041 × 511 (138 KB)) - 20:38, 6 September 2016File:Newell-Article 1-Table2r.jpg (699 × 552 (103 KB)) - 20:43, 6 September 2016File:Newell-Article 1-Equation 1.jpg (973 × 272 (58 KB)) - 18:50, 2 September 2016File:Newell-Article 1-Equation 2.jpg (943 × 216 (36 KB)) - 18:52, 2 September 2016File:Newell-Article 1-Equation 1r.jpg Chuck Newell - Article 1 - Equation 1(551 × 56 (12 KB)) - 14:09, 7 September 2016File:Newell-Article 1-Equation 2r.jpg (475 × 60 (11 KB)) - 14:13, 7 September 2016File:Newell-Article 1-Equation 1rr.jpg Newell-Article 1-Equation 1(543 × 49 (11 KB)) - 14:42, 7 September 2016File:Richardson-Article 1-Table 1.JPG Table 1. Chemical structures and selected properties of the 16 USEPA priority pollu(588 × 814 (105 KB)) - 19:57, 12 September 2016File:Deeb-Article 1-Table 2 L1-Drinking water health advisories.pdf Deeb-Article 1.Drinking water health advisories(0 × 0 (511 KB)) - 21:01, 21 September 2016File:Deeb-Article 1-Table 2-L2-Drinking water screening values.pdf Deeb-Article 1-Table 2-L2-Drinking water screening values(0 × 0 (841 KB)) - 13:11, 22 September 2016File:Deeb-Article 1-Table 2-L6-Dev of MCL recommendations for PFOA and PFOS.pdf Deeb-Article 1-Table 2-L6-Dev of MCL recommendations for PFOA and PFOS(0 × 0 (404 KB)) - 13:16, 22 September 2016File:Deeb-Article 1-Table 2-L7-Health-Based Maximum Contaminant Level MCL.pdf Deeb-Article 1-Table 2-L7-Health-Based Maximum Contaminant Level_MCL(0 × 0 (2.3 MB)) - 13:17, 22 September 2016File:Deeb-Article 1-Table 2-L10-Provisional Groundwater Remediaton Objectives Class I Groundwater.pdf Deeb-Article 1-Table 2-L10-Provisional Groundwater Remediaton Objectives_Class I Groundwat(0 × 0 (6.03 MB)) - 13:21, 22 September 2016File:Deeb-Article 1-Table 2-L11-Provisional Groundwater Remediaton Objectives Class II Groundwater .pdf Deeb-Article 1-Table 2-L11-Provisional Groundwater Remediaton Objectives_Class II Groundwa(0 × 0 (6.03 MB)) - 13:26, 22 September 2016File:Deeb-Article 1-Table 2-L13-Interim specific groundwatr quality criterion fact sheet.pdf Deeb-Article 1-Table 2-L13-Interim specific groundwatr quality criterion_fact_sheet(0 × 0 (573 KB)) - 13:30, 22 September 2016File:Deeb-Article 1-Table 2-L15-Groundwater residential generic cleanup criteria and screening levels .pdf Deeb-Article 1-Table 2-L15-Groundwater residential generic cleanup criteria and screening(0 × 0 (3.03 MB)) - 13:36, 22 September 2016File:Deeb-Article 1-Table 2-L16-Groundwater nonresidential generic cleanup criteria and screening levels.pdf Deeb-Article 1-Table 2-L16-Groundwater nonresidential generic cleanup criteria and screeni(0 × 0 (3.03 MB)) - 13:44, 22 September 2016File:Deeb-Article 1-Table 2-L18-Residential soil screening levels.pdf Deeb-Article 1-Table 2-L18-Residential soil screening levels(0 × 0 (517 KB)) - 14:37, 22 September 2016File:Deeb-Article 1-Table 2-L19-Industrial soil reference value.xlsx (438 KB) - 14:50, 22 September 2016File:Deeb-Article 1-Table 2-L20-Residential soil reference value.xlsx (438 KB) - 15:21, 22 September 2016File:Deeb-Article 1-Table 2-L21-Recreational soil reference value.xlsx (438 KB) - 15:22, 22 September 2016File:Deeb-Article 1-Table 2-L22-ME-Remedial Action guidelines.pdf Deeb-Article 1-Table 2-L22-ME-Remedial Action guidelines(0 × 0 (599 KB)) - 15:54, 22 September 2016File:Edwards Article 1-figure 1.PNG Figure 1. Components of hydrocarbon biodegradation. Understanding and facilitating b(464 × 453 (58 KB)) - 16:12, 25 January 2017File:Edwards Article 1-figure 2.PNG (910 × 573 (241 KB)) - 16:15, 25 January 2017File:Edwards Article 1-figure 3.PNG ...ion of benzene and alkylbenzenes. Acetate and H2 are consumed in reactions 1, 2, and 3, keeping the fermentation reaction energetically favorable. When(925 × 380 (74 KB)) - 16:17, 25 January 2017File:Lollar-Article 1-Equation 2R.PNG (299 × 49 (2 KB)) - 16:05, 13 January 2017File:Palaia-Article 1-Figure 1.PNG Figure 1. Conceptualization of Vapor Transport-related NSZD Processes at a Petroleum(796 × 683 (250 KB)) - 18:28, 25 October 2016File:Palaia-Article 1-Figure 2.PNG (817 × 555 (117 KB)) - 18:29, 25 October 2016File:Palaia-Article 1-Figure 3.PNG (809 × 439 (753 KB)) - 18:32, 25 October 2016File:Palaia-Article 1-Figure 4.PNG (808 × 466 (732 KB)) - 18:33, 25 October 2016File:Palaia-Article 1-Figure 5.PNG (844 × 606 (863 KB)) - 18:37, 25 October 2016File:Palaia-Article 1-Table 1.PNG Table 1. Terminal Electron Accepting Processes Associated with the Aqueous Expressi(830 × 189 (95 KB)) - 18:39, 25 October 2016File:Heron-Article 1. Figure 2.PNG (594 × 554 (108 KB)) - 18:03, 26 October 2016File:Heron-Article 1. Figure 3.PNG (724 × 494 (66 KB)) - 18:04, 26 October 2016File:Heron-Article 1. Table 1.PNG Table 1. Characteristics of the three main thermal technologies.(719 × 292 (29 KB)) - 18:09, 26 October 2016File:Deeb-Article 1-Figure 1.JPG Figure 1. a) Structure of a perfluoroalkyl substance, PFOS, compared with b) the str(757 × 418 (29 KB)) - 15:17, 5 October 2016File:Deeb-Article 1-Table 1.JPG Table 1. Physical and chemical properties of PFOS and PFOA(1,068 × 589 (142 KB)) - 15:20, 5 October 2016File:Krug-Article 1. Table1 perchlorate rev.PNG Table 1. Perchlorate Physical and Chemical Properties(772 × 150 (15 KB)) - 14:35, 13 October 2016File:Taylor-Article 1-T1.PNG (970 × 570 (69 KB)) - 19:37, 21 October 2016File:Palaia-Article 1-Fraction 1.1.PNG (45 × 33 (696 bytes)) - 20:02, 26 October 2016File:Palaia-Article 1-Fraction 1.2.PNG (28 × 43 (567 bytes)) - 20:03, 26 October 2016File:Palaia-Article 1-Equation 1.PNG (808 × 41 (2 KB)) - 19:43, 25 October 2016File:Palaia-Article 1-Equation 2.PNG (600 × 34 (2 KB)) - 19:44, 25 October 2016File:Heron-Article 1. Figure 1.PNG Figure 1. Candidate Site for ISTR Application with Significant NAPL Source Material(614 × 357 (65 KB)) - 18:02, 26 October 2016File:Denham-Article 1-Figure 1. PNG.PNG Figure 1: Uranium’s complicated aqueous speciation (diagram produced with The Geoc(814 × 684 (82 KB)) - 19:16, 1 November 2016File:Dortch-2009-Methods for Tier 1 modeling training range ERCDC-EL-TR0911.pdf Dortch, M.S., J.A. Gerald, and B.E. Johnson. 2009. Methods for Tier 1 modeling with the Training Range Environmental Evaluation and Characterizat(0 × 0 (1.71 MB)) - 20:21, 4 November 2016File:Dortch-2012-Extension of cap for the Tier 1 and 2 approaches Training range ERDC-EL-TR-12-11.pdf ...E. Johnson, and J.A. Gerald. 2012. Extension of capabilities for the Tier 1 and Tier 2 Approaches within the Training Range Environmental Evaluation an(0 × 0 (510 KB)) - 20:45, 4 November 2016File:BJohnson-Article 1-Figure 1.PNG Figure 1. TREECS main screen as it appears for an application involving GIS data.(955 × 641 (434 KB)) - 19:57, 7 November 2016File:BJohnson-Article 1-Figure 2.PNG (762 × 329 (98 KB)) - 19:58, 7 November 2016File:BJohnson-Article 1-Figure 3.PNG (770 × 576 (95 KB)) - 19:59, 7 November 2016File:BJohnson-Article 1-Figure 4.PNG (803 × 543 (89 KB)) - 20:00, 7 November 2016
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- <div id="mp-tfa" style="padding:0.0em 1.0em;">[[File:ThierryFig1.png|450px|left|link=Restoration of Ecological Func ...opane|Summary of anticipated, primary reaction pathways for degradation of 1,2,3-Trichloropropane (TCP). TCP is a man-made chemical that was used in the15 KB (2,019 words) - 19:25, 30 December 2023
- [[File:Denham-Article 2-Equation 1.PNG|150px|center]] ...ate the calculated aqueous speciation of uranium on an Eh-pH diagram (Fig. 1). The dominant species is different at different pH and Eh values (species24 KB (3,645 words) - 21:43, 26 April 2022
File:Crimi 1 Fig1a.png Fig 1. Change in Maximum Parent Compound Concentration by Technology Variant for(525 × 392 (63 KB)) - 13:51, 14 April 2016File:Crimi 1 Fig1b.png Fig 1. Change in Maximum Parent Compound Concentration by Technology Variant for(524 × 392 (63 KB)) - 13:54, 14 April 2016- 1. Introductory page i. 1,4-dioxane (Shaily Mahendra)2 KB (231 words) - 14:03, 21 August 2015
File:ITRC-2007-Vapor Intrusion Pathway, A Practical Guide.pdf ITRC, 2007. Vapor Intrusion Pathway: A Practical Guide. VI-1. Washington, D.C.: Interstate Regulatory Council, Vapor Intrusion Team(0 × 0 (3.42 MB)) - 19:25, 19 April 2018File:ITRC-2014-PVI Fundamentals of Screening and Investigation and Mgmt.pdf ...r Intrusion: Fundamentals of Screening, Investigation, and Management. PVI-1. Washington, D.C.: Interstate Technology & Regulatory Council, Petroleum Va(0 × 0 (24.24 MB)) - 19:12, 19 April 2018- ...pgs. 29-37. [http://dx.doi.org/10.1007/978-1-4419-1401-9_2 doi:10.1007/978-1-4419-1401-9_2]</ref> ...; carbon tetrachloride and tetrachloroethylene. Environmental Forensics, 1(2), 69-81. [http://dx.doi.org/10.1006/enfo.2000.0010 doi:10.1006/enfo.2000.19 KB (2,341 words) - 02:54, 28 April 2022
- Enviro Wiki PRIVACY POLICY VERSION 1 Adopted December 17, 20152 KB (402 words) - 16:55, 3 November 2017
- | style="text-align:center;"| Level 1 Heading reserved for Page Name6 KB (827 words) - 20:57, 4 May 2018
- ...nd water. He has experience with the behavior of chlorinated solvents and 1,4-dioxane, petroleum hydrocarbons, and fuel additives in groundwater. He h2 KB (242 words) - 17:20, 17 January 2020
- ...n several DoD-sponsored research projects on cometabolic biodegradation of 1,4-Dioxane, innovative approaches for treatment of chlorinated solvents in l2 KB (220 words) - 16:39, 4 February 2022
- ...[http://dx.doi.org/10.1007/978-1-4614-4115-1 doi: 10.1007/978-1-4614-4115-1]</ref>. In anaerobic groundwater, chlorinated alkenes can undergo a sequent ...ediation evaluation model for chlorinated solvents user’s manual Version 1.0. Cent. for subsurface model. support, US Environ. Prot. Agency, Ada, Okla27 KB (3,804 words) - 15:14, 1 April 2024
- ...tterns that will have cascading impacts on wildlife and habitat<ref name=":1">Inkley, D. B., Anderson, M. G., Blaustein, A. R., Burkett, V. R., Felzer, ...ldlife in North America. Wildlife Society Technical Review 04-2<ref name=":1" />14 KB (1,969 words) - 14:07, 25 April 2022
- ...ge Meters for Quantifying Flow between Groundwater and Surface Water: Part 1 – Freshwater Settings. Earth-Science Reviews, 204(103167). [https://doi.o ...Leading Edge, 41 (8), pp. 540–547. [https://doi.org/10.1190/tle41080540.1 doi: 10.1190/tle41080540].</ref>]]51 KB (7,290 words) - 19:40, 1 February 2024
- ...of the US getting drier, others getting wetter<ref name=":0" /><ref name=":1"> ...ther events becoming more common</onlyinclude><ref name=":0" /><ref name=":1" /><onlyinclude>.</onlyinclude>29 KB (4,108 words) - 13:53, 3 May 2022
- ...ure-sectors “Critical Infrastructure Sectors”.]</ref>, listed in Table 1, and detailed a plan to strengthen and maintain, secure, functioning, and r |+Table 1. DHS Critical Infrastructure Sectors<ref name="CISAcis" />26 KB (3,805 words) - 22:15, 26 April 2022
- ...ed by proteomics in genome annotation. Briefings in Functional Genomics, 7(1), pp. 50-62. [https://doi.org/10.1093/bfgp/eln010 doi: 10.1093/bfgp/eln010] ...ingerprinting to Omics. Journal of Environmental Engineering, 142(10), pp. 1-13. [https://doi.org/10.1061/(ASCE)EE.1943-7870.0001141 doi: 10.1061/(ASCE)27 KB (3,796 words) - 18:54, 7 January 2022
- ...ium, B.C. Alleman and A. Leeson (eds.), Vol 2. New Orleans, April 28–May 1, 1997. Battelle Press, Columbus OH. pp 309–314.11 KB (1,475 words) - 17:09, 31 January 2017
- * 1,4-Dioxane * 1,4-Dioxane MNA (or MNA of 1,4-Dioxane)11 KB (1,258 words) - 20:57, 4 May 2018
File:Crimi 2 Table1.JPG Table 1(985 × 452 (97 KB)) - 14:36, 15 April 2016- ...in fractured sandstone, and determining the anaerobic biodegradability of 1,4-dioxane.1 KB (147 words) - 15:25, 12 February 2019
File:atsdr toxprofile stp57.pdf ...c Substances and Disease Registry (ATSDR), 1992. Toxicological Profile for 1,2,3-Trichloropropane(0 × 0 (1.52 MB)) - 19:20, 16 December 2016File:ITRC-2010-A Decision Framework.pdf ...tate Technology and Regulatory Council, Technical/Regulatory Guidance AMPR-1.(0 × 0 (4.21 MB)) - 19:25, 29 January 2016File:ITRC-2013-Groundwater Stat Mon.pdf ...Monitoring Compliance, Statistical Tools for the Project Life Cycle. GSMC-1. Washington, D.C.: Interstate Technology & Regulatory Council, Groundwater(0 × 0 (4.47 MB)) - 20:57, 4 February 2016File:Fig1 qPCR Olges.JPG Fig 1: Results for qPCR monitoring of Dehalococcoides and vinyl chloride reductas(1,061 × 524 (61 KB)) - 16:57, 19 February 2016- [[File:Tabl1 Ogles qPCR.PNG |thumbnail|600px|right|Table 1. Potential qPCR assays for common and emerging contaminants.]] .... Microbiological Reviews, 59(1), 143-169. [http://mmbr.asm.org/content/59/1/143.short Journal Article]</ref>; plate count results are therefore biased22 KB (2,889 words) - 22:07, 26 April 2022
File:Fig1 SIP Olges.jpg Fig 1: SIP in Use: Loading, deployment and recovery of Bio-Trap passive sampler w(1,383 × 393 (98 KB)) - 18:48, 23 February 2016File:Table1 SIP Ogles.JPG Table 1. Examples of Appropriate Contaminants for SIP Studies(1,034 × 258 (61 KB)) - 19:03, 23 February 2016- ....indexOf('.js') === -1 && mw.config.get('wgPageName').indexOf('.css') === -1 ) ) * 1. get the template list, make the dropdown list and set up the template dial30 KB (3,518 words) - 15:17, 25 February 2016
- 'cite-error-samecontent-msg' : 'Multiple refs contain the same content: $1', 'cite-error-repeated-msg' : 'Multiple refs are given the name: \'$1\'',6 KB (581 words) - 15:17, 25 February 2016
- * month - The numberic month (1-12) if ($.inArray(reflist[i].content, refs2) != -1) {9 KB (1,005 words) - 15:18, 25 February 2016
- * or Reftoolbar 1.0) depending on the user preferences (the // Enhanced editing toolbar is off. Loading RefToolbar 1.0. (legacy)2 KB (247 words) - 15:19, 25 February 2016
- * or Reftoolbar 1.0) depending on the user preferences (the // Enhanced editing toolbar is off. Loading RefToolbar 1.0. (legacy)2 KB (247 words) - 15:20, 25 February 2016
- field = fieldobj.field.replace('<N>', '1'); 'val':1,11 KB (1,413 words) - 15:21, 25 February 2016
File:Falta-2005-The potential for Ground Water Contamination.pdf ...Water Contamination by the Gasoline Lead Scavengers Ethylene Dibromide and 1, 2‐Dichloroethane. Environmental Science and Technology Magazine Online.(0 × 0 (238 KB)) - 20:18, 3 March 2016- ...Molecular Biology Reviews, 59(1), 143-169. [http://mmbr.asm.org/content/59/1/143.short Journal Article]</ref> *'''Cultivation independent''': Less than 1% of bacteria can be cultivated (grown) in the laboratory<<ref name="Amann1914 KB (1,902 words) - 22:04, 26 April 2022
File:Denham pH buffering Fig1.jpg Fig 1. Graphic showing the dissolved carbonate system.(2,938 × 2,083 (2.03 MB)) - 19:10, 27 April 2016- ...Geochemistry. Prentice-Hall, Inc. Upper Saddle River, NJ. ISBN 0-02-367412-1</ref><ref>Drever, J.I., 1997. The Geochemistry of Natural Waters: Surface a [[File:Denham Equation page 1.PNG|575 px|center]]17 KB (2,465 words) - 00:06, 17 February 2017
File:2006 EPA 542-R-06-009.pdf Treatment Technologies for 1,4-Dioxane(0 × 0 (1.25 MB)) - 16:29, 5 May 2016File:2008 AFCEE A Primer for AF RPMs AFD-081010-028.pdf Primer for Air Force Remedial Program Managers and assessors for 1,4-Dioxane(0 × 0 (379 KB)) - 16:48, 5 May 2016File:Results of Analyses for 1,4-Dioxane in Groundwater Samples.pdf Results of Analyses for 1,4-dioxane in groundwater samples(0 × 0 (4.74 MB)) - 17:01, 5 May 2016File:2013 EPA Technical Fact Sheet 1,4-Dioxane.pdf Technical Fact Sheet for 1,4-Dioxane(0 × 0 (88 KB)) - 17:40, 5 May 2016File:Kamath-2010-Passive Soil Vapor Extraction-SRNL-STI-2009-00571.pdf ....B. Looney. 2010. Passive Soil Vapor Extraction. SRNL-STI-2009-00571, Rev. 1, Savannah River National Laboratory, Aiken, South Carolina(0 × 0 (3.57 MB)) - 13:59, 11 May 2016File:USACE-2002-Soil Vapor Extraction and Bioventing-EM 1110-1-4001.pdf ...002. Engineering and Design: Soil Vapor Extraction and Bioventing. EM 1110-1-4001, U.S. Army Corps of Engineers, Washington, D.C(0 × 0 (3.6 MB)) - 17:50, 11 May 2016File:Wilson-2008-Natural attenuation of the lead scavengers.pdf ...n of the lead scavengers 1, 2-dibromoethane (EDB) and 1, 2-dichloroethane (1, 2-DCA) at motor fuel release sites and implications for risk management. U(0 × 0 (2.2 MB)) - 20:58, 12 May 2016File:Wilson 2 Figure 1. BTEX.PNG Figure 1. Distribution of BTEX plume lengths from 604 hydrocarbon sites (Newell and(870 × 501 (343 KB)) - 18:47, 13 May 2016File:Wilson 3 Fig1.png Figure 1. Degradation of chlorinated alkenes(566 × 368 (12 KB)) - 14:48, 16 May 2016- |[[Biodegradation - 1,4-Dioxane]] |[[1,2,3-Trichloropropane]]||[[Dr. Alexandra Salter-Blanc |Salter-Blanc, Alexand13 KB (1,800 words) - 20:01, 29 April 2022
File:Slater-Article 2-Figure 1.PNG Figure 1. Resistivity imaging at the 300 Area of the Hanford Facility, Richland, WA.(890 × 427 (630 KB)) - 19:15, 31 January 2017- ...IM components, namely 2,4-dinitroanisole (DNAN), nitrotriazelone (3-nitro-1,2,4-triazol-5-one, NTO), and nitroguanidine (NQ). ...A6W-08, Protocol No. 0A6W-38-08-02-01, Subchronic oral toxicity of 3-nitro-1,2,4-triazol-5-one (NTO) in rats. U.S. Army Public Health Command, Toxicolog22 KB (3,264 words) - 20:57, 4 May 2018
File:Fig1 LTM1 Overview.jpg Figure 1. Example of long term monitoring data from 52 source zone monitoring wells(3,179 × 921 (2.09 MB)) - 12:53, 17 June 2016File:Adamson-Article 2-Table 1.PNG Table 1. Monitoring Data Required to Determine Long-Term Attenuation Rate(887 × 286 (24 KB)) - 14:57, 20 June 2016- ...viro.wiki/images/b/b6/2006_EPA_542-R-06-009.pdf Treatment Technologies for 1,4-Dioxane: Fundamentals and Field Applications]3 KB (340 words) - 01:46, 28 April 2022
File:Walsh-Article 1-Figure 1.PNG Figure 1. Range ordnance disposal operation. Blow-in-place (BIP) operations often re(940 × 623 (1.13 MB)) - 20:04, 11 November 2016- *[[1,2,3-Trichloropropane]] *[[1,4-Dioxane]]2 KB (249 words) - 02:44, 28 April 2022
- *[[Biodegradation - 1,4-Dioxane]]1 KB (153 words) - 21:22, 26 April 2022
File:Fig1 LTM DataVariability.jpg Figure 1. Effect of Short-term Variability on Evaluation of Long-Term Contaminant At(2,809 × 1,419 (1.53 MB)) - 17:43, 24 June 2016File:Fig1 PassiveSampling.jpg Figure 1. The Snap Sampler<sup>TM</sup> is an example of a passive grab sampler. Th(1,625 × 1,148 (1.53 MB)) - 19:55, 24 June 2016File:Truex 1 Fig1.png Figure 1. Xanthan gum concentration influence on fluid viscosity and rheology for se(910 × 631 (32 KB)) - 20:42, 30 June 2016File:Truex 3 Fig1.png Figure 1. Conceptual Diagram of Basic SVE System for Vadose Zone Remediation(800 × 619 (73 KB)) - 17:35, 1 July 2016- ...ncy Response, Washington, D.C. EPA/540/F-96/008. [//www.enviro.wiki/images/1/1b/EPA-1996-User%E2%80%99s_Guide_to_the_VOCs_in_Soils_Presumptive_Remedy.pd ...iver National Laboratory, Aiken, South Carolina. SRNL-STI-2009-00571, Rev. 1. [//www.enviro.wiki/images/0/06/Kamath-2010-Passive_Soil_Vapor_Extraction-S16 KB (2,250 words) - 20:57, 21 February 2022
File:Haley-2009-Aquatic toxicity of 3-Nitro-1,2,4-triazol-5-one..pdf ...M.V., R.G. Kuperman, and R.T. Checkai. 2009. Aquatic toxicity of 3-nitro-1,2,4-triazol-5-one (NTO). ECBC-TR-726. Edgewood Chemical Biological Center ((0 × 0 (2.53 MB)) - 14:35, 12 July 2016- *[[1,2,3-Trichloropropane]]1 KB (140 words) - 18:48, 3 February 2021
File:Reiffsteck-2010-A New Hydraulic Profiling Tool including CPT Measurements.pdf ...Cone Penetration Testing. Volume 2: Equipment and Procedures, Paper No. 1-11, 8 pages(0 × 0 (280 KB)) - 14:54, 27 July 2016File:USEPA-2007-MNA of Inorganic Contaminants in GW, Vol 1 Technical Basis for Assessment.pdf ...ored Natural Attenuation of Inorganic Contaminants in Groundwater, Volume 1 Technical Basis for Assessment, Edited by R.G. Ford, R.T. Wilkin, and R.W.(0 × 0 (2.16 MB)) - 20:17, 4 August 2016File:USEPA-1999-Understanding variation in partition coefficient, Kd values-Vol 1.pdf ...1999. Understanding variation in partition coefficient, Kd, values, Volume 1 – The Kd model, methods of measurement, and application of chemical react(0 × 0 (3.61 MB)) - 20:45, 4 August 2016File:McCall-Article 1-Figure 1.PNG Figure 1: A track mounted DP machine set up for collection of soil and groundwater s(407 × 358 (342 KB)) - 20:19, 11 August 2016- ...and logging tools using a percussion hammer and vehicle weight (e.g. Figs 1, 2). Sampling and logging tools are advanced by rearrangement and compressi [[File:McCall-Article 1-Figure 1.PNG|275px|thumb|right|Figure 1. A track mounted DP machine set up for collection of soil and groundwater s14 KB (1,927 words) - 21:53, 26 April 2022
File:McCall Article 2. Figure 1.PNG Figure 1: Sampling sequence with an open-barrel, single-tube soil sampling system. T(402 × 378 (39 KB)) - 19:34, 19 August 2016- ...& Regulatory Council, 2007. Vapor intrusion pathway: A practical guide. VI-1. ITRC Vapor Intrusion Team, Washington, D.C. [//www.enviro.wiki/images/0/06 [[File:McCall Article 2. Figure 1.PNG|left|thumb|250px|Figure 1. Sampling sequence with an open-barrel, single-tube soil sampling system. T26 KB (3,624 words) - 21:55, 26 April 2022
File:McCall Article 3 Figure 1.PNG Figure 1: General components of a DP logging system.(415 × 448 (58 KB)) - 21:10, 26 August 2016- [[File:McCall Article 3 Figure 1.PNG|thumbnail|left|300 px|Figure 1. General components of a DP logging system.]] ...probe. Most of these logging systems have several features in common (Fig. 1). The probe provides an interface between the measurement device and the fo32 KB (4,559 words) - 21:54, 26 April 2022
File:Krug-Article 1. Fig1 perchlorate.jpg Figure 1: Perchlorate Releases and Drinking Water Detections(1,592 × 1,021 (1.88 MB)) - 20:00, 30 August 2016File:Krug-Article 1. Table1 perchlorate.PNG Table 1. Perchlorate Physical and Chemical Properties(1,150 × 278 (31 KB)) - 20:04, 30 August 2016File:Newell-Article 1-Fig1.JPG Figure 1. Hydraulic gradient (typically described in units of m/m or ft/ft) is the d(650 × 708 (139 KB)) - 01:07, 9 May 2018File:Newell-Article 1-Table1r.jpg Table 1. Representative Values of Total Porosity (n), Effective Porosity (ne), and(1,041 × 511 (138 KB)) - 20:38, 6 September 2016File:Newell-Article 1-Equation 1r.jpg Chuck Newell - Article 1 - Equation 1(551 × 56 (12 KB)) - 14:09, 7 September 2016File:Newell-Article 1-Equation 1rr.jpg Newell-Article 1-Equation 1(543 × 49 (11 KB)) - 14:42, 7 September 2016- [[File: Schwartz1w2Fig1.PNG | thumb | 500px | Figure 1. Conceptual model of mercury speciation in the environment<ref>European Co ...onment. MeHg production occurs in anoxic environments and is affected by: (1) the bioavailability of Hg(II) complexes to Hg-[[Wikipedia: Methylation | m17 KB (2,394 words) - 21:33, 11 January 2022
- ...| perfluoroalkyl and polyfluoroalkyl substances (PFAS)]], [[1,4-Dioxane | 1,4-dioxane]], and many more. [[File: Nagar1w2Fig1.png | thumb | 400px | Figure 1. Water phase diagram showing the supercritical water region (not to scale)17 KB (2,487 words) - 20:27, 4 May 2022
- ...ber 4322. Water Research Foundation, Denver, Colorado. 123 pages. ISBN 978-1-60573-234-3</ref> ...itrcweb.org/ Website] [//www.enviro.wiki/images/2/2e/ITRC_PFAS-1.pdf Report.pdf]</ref>38 KB (5,183 words) - 00:48, 28 April 2022
File:Richardson-Article 1-Table 1.JPG Table 1. Chemical structures and selected properties of the 16 USEPA priority pollu(588 × 814 (105 KB)) - 19:57, 12 September 2016- ...chemical properties of the 16 USEPA-regulated PAHs are presented in Table 1. [[File:Richardson-Article 1-Table 1.JPG|thumbnail|600px|center|Table 1. Chemical structures and selected properties of the 16 USEPA priority pollu18 KB (2,440 words) - 03:04, 28 April 2022
File:Gerhard Fig1.jpg Figure 1. Smoldering charcoal example of a flameless, self-sustaining combustion rea(2,042 × 1,733 (5.26 MB)) - 18:56, 15 September 2016File:Fig1 dispanddiff.JPG ...of diffusion of dissolved chemicals recently place in a container at Time 1 (left panel) and then distributed throughout the container (right panel) at(732 × 494 (45 KB)) - 20:37, 16 September 2016File:Deeb-Article 1-Table 2-L2-Drinking water screening values.pdf Deeb-Article 1-Table 2-L2-Drinking water screening values(0 × 0 (841 KB)) - 13:11, 22 September 2016File:Deeb-Article 1-Table 2-L6-Dev of MCL recommendations for PFOA and PFOS.pdf Deeb-Article 1-Table 2-L6-Dev of MCL recommendations for PFOA and PFOS(0 × 0 (404 KB)) - 13:16, 22 September 2016File:Deeb-Article 1-Table 2-L7-Health-Based Maximum Contaminant Level MCL.pdf Deeb-Article 1-Table 2-L7-Health-Based Maximum Contaminant Level_MCL(0 × 0 (2.3 MB)) - 13:17, 22 September 2016File:Deeb-Article 1-Table 2-L10-Provisional Groundwater Remediaton Objectives Class I Groundwater.pdf Deeb-Article 1-Table 2-L10-Provisional Groundwater Remediaton Objectives_Class I Groundwat(0 × 0 (6.03 MB)) - 13:21, 22 September 2016File:Deeb-Article 1-Table 2-L11-Provisional Groundwater Remediaton Objectives Class II Groundwater .pdf Deeb-Article 1-Table 2-L11-Provisional Groundwater Remediaton Objectives_Class II Groundwa(0 × 0 (6.03 MB)) - 13:26, 22 September 2016File:Deeb-Article 1-Table 2-L13-Interim specific groundwatr quality criterion fact sheet.pdf Deeb-Article 1-Table 2-L13-Interim specific groundwatr quality criterion_fact_sheet(0 × 0 (573 KB)) - 13:30, 22 September 2016File:Deeb-Article 1-Table 2-L15-Groundwater residential generic cleanup criteria and screening levels .pdf Deeb-Article 1-Table 2-L15-Groundwater residential generic cleanup criteria and screening(0 × 0 (3.03 MB)) - 13:36, 22 September 2016File:Deeb-Article 1-Table 2-L16-Groundwater nonresidential generic cleanup criteria and screening levels.pdf Deeb-Article 1-Table 2-L16-Groundwater nonresidential generic cleanup criteria and screeni(0 × 0 (3.03 MB)) - 13:44, 22 September 2016File:Deeb-Article 1-Table 2-L18-Residential soil screening levels.pdf Deeb-Article 1-Table 2-L18-Residential soil screening levels(0 × 0 (517 KB)) - 14:37, 22 September 2016File:Deeb-Article 1-Table 2-L22-ME-Remedial Action guidelines.pdf Deeb-Article 1-Table 2-L22-ME-Remedial Action guidelines(0 × 0 (599 KB)) - 15:54, 22 September 2016File:IARC-2016-Monographs on the eval of carcinogenic risks to humans List of Classifications.pdf ...luation of Carcinogenic Risks to Humans. Lists of Classifications, Volumes 1 to 116.(0 × 0 (199 KB)) - 20:12, 28 September 2016- [[File:Beal1w2 Fig1.png|thumb|200 px|left|Figure 1: Downrange distance of visible propellant plume on snow from the firing of ...olition areas, high order detonations typically yield very small amounts (<1 to 10 mg/round) of residual high explosive compounds (e.g., [[Wikipedia: TN19 KB (2,727 words) - 18:58, 29 April 2020
File:Borden3w2 Fig1.PNG Figure 1. Photo-micrograph of EVO (0.7 µm median diameter). White scale bar 25 µm(578 × 457 (210 KB)) - 20:01, 13 November 2018- ...y Wastes: A Field Guidance Book for Federal On-scene Coordinators, Version 1.0, October 2003. Region 6 South Central Response and Prevention Branch. [[m ...utrients to enhance biodegradation by naturally occurring bacteria (Figure 1). Fertilizers such as urea and triple superphosphate (TSP) are used to prov15 KB (2,188 words) - 02:13, 28 April 2022