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| style="width:55%;" |<center><span style="font-size:175%; line-height: 0.2em; vertical-align:top;"><big><span style="color:#008566">Welcome to '''ENVIRO'''</span> <span style="color:#762a87">'''Wiki'''</span></big></span><br /><br /><br /><span style="font-size:150%; color:#008566; line-height: 0.2em; vertical-align:top;"> Peer Reviewed.  Accessible.  Written By Experts</span></center>
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| style="width:40%;" |<center><span style="font-size:110%; vertical-align:top;"> ''Developed and brought to you by '' <br>[[File:MainLogo-serdp-estcp.png|link=https://www.serdp-estcp.org |frameless|center|350px]]</span>''<span style="font-size:140%; vertical-align:top;">Your Environmental Information Gateway</span>''
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<div style="font-size:162%; border:none; margin:0; padding:.1em; color:#000;">Welcome to Environmental Restoration Wiki</div>
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|<span style="width:55%; line-height: 0.3em;"> The goal of ENVIRO Wiki is to make scientific and engineering research results more accessible to environmental professionals, facilitating the permitting, design and implementation of environmental projects.  Articles are written and edited by invited experts (see [[Contributors]]) to summarize current knowledge for the target audience on an array of topics, with cross-linked references to reports and technical literature. </span>
<div style="top:+0.2em; font-size:95%;">The source for current science in the field of environmental remediation.</div>
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|<center><span style="font-size:130%"><br />[[#Table of Contents|See Table of Contents]]</span>
<div id="articlecount" style="font-size:85%;">[[Special:Statistics|{{NUMBEROFARTICLES}}]] articles in [[English language|English]]</div>
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* [[:Category:Common Groundwater Contaminants|Groundwater Contaminants]]
 
* [[:Category:Fluid Transport|Fluid Transport]]
 
* [[Characterization]]
 
* [[Degradation Process]]
 
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* [[In Situ Remediation Technologies|In Situ Technologies]]
 
* [[Performance Evaluation]]
 
* [[Health and Environmental Impacts]]
 
* [[Regulatory Issues and Site Management]]
 
 
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<h2 id="mp-tfa-h2" style="margin:0.5em; background:#cef2e0; font-family:inherit; font-size:120%; font-weight:bold; border:1px solid #a3bfb1; color:#000; padding:0.2em 0.4em;"> Featured article: Transition of Aqueous Film Forming Foam (AFFF) Fire Suppression Infrastructure Impacted by Per and Polyfluoroalkyl Substances (PFAS)</h2>
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<div id="mp-tfa" style="padding:0.0em 1.0em;">[[File:LangFig1.png|300px|left|link=Transition of Aqueous Film Forming Foam (AFFF) Fire Suppression Infrastructure Impacted by Per and Polyfluoroalkyl Substances (PFAS)]]<dailyfeaturedpage></dailyfeaturedpage>
  
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&nbsp;&nbsp;
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[[Transition of Aqueous Film Forming Foam (AFFF) Fire Suppression Infrastructure Impacted by Per and Polyfluoroalkyl Substances (PFAS)|(Full article...)]] </div>
  
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<big>Chlorinated Solvents</big>
 
ARTICLE SUMMARY Lorem ipsum dolor sit amet, consectetur adipiscing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut enim ad minim veniam, quis nostrud exercitation ullamco laboris nisi ut aliquip ex ea commodo consequat. Duis aute irure dolor in reprehenderit in voluptate velit esse cillum dolore eu fugiat nulla pariatur. Excepteur sint occaecat cupidatat non proident, sunt in culpa qui officia deserunt mollit anim id est laborum</div>
 
  
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Related updates can be found at [https://www.serdp-estcp.org ESTCP / SERDP Website]
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<slideshow sequence="random" transition="fade" refresh="7500">
  
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[[File:WH Picture1.JPG|thumb|center|x350px|link=Matrix Diffusion|Molecular diffusion slowly transports solutes into clay-rich, lower permeability zones]]
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[[File:WH Picture2.JPG|thumb|center|x350px|link=Subgrade Biogeochemical Reactor (SBGR)|Typical subgrade biogeochemical reactor (SBGR) layout. The SBGR is an in situ remediation technology for treatment of contaminated source areas and groundwater plume hot spots<br/>]]
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[[File:WH Picture3.JPG|thumb|center|x350px|link=Direct Push Logging|An Hydraulic Profiling Tool (HPT) log with electrical conductivity (EC) on left, injection pressure in middle, and flow rate on the right]]
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[[File:WH Picture4.JPG|thumb|center|x350px|link=PH Buffering in Aquifers|Diagram of mineral surface exchanging hydrogen ions with varying pH. The surface of most aquifer minerals carries an electrical charge that varies with pH]]
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[[File:WH Picture5.JPG|thumb|center|x350px|link=Biodegradation - Hydrocarbons|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]]
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[[File:WH Picture6.JPG|thumb|center|x350px|link=Direct Push Logging|Schematic of an Hydraulic Profiling Tool (HPT) probe. HPT were developed to better understand formation permeability and the distribution of permeable and low permeability zones in unconsolidated formations]]
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[[File:WH Picture7.JPG|thumb|center|x350px|link=Chemical Oxidation Design Considerations(In Situ - ISCO)|In situ chemical oxidation using (a) direct-push injection probes or (b) well-to-well flushing to delivery oxidants (shown in blue) into a target treatment zone of groundwater contaminated by dense nonaqueous phase liquid compounds (shown in red)]]
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[[File:WH Picture8.JPG|thumb|center|x350px|link=Geophysical Methods - Case_Studies|High-resolution 3D cross-borehole electrical imaging of contaminated fractured rock at the former Naval Air Warfare Center in New Jersey. Cross-borehole resistivity tomography imaging is a geophysical technique that can be used for site characterization and monitoring by observing variations in the electrical properties of subsurface materials]]
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[[File:WH Picture9.JPG|thumb|center|x350px|link=Stable_Isotope_Probing_(SIP)|Stable isotope probing (SIP) in use: Loading, deployment and recovery of Bio-Trap® passive sampler with 13C-labeled benzene. Stable isotope probing (SIP) is used to conclusively determine whether in situ biodegradation of a contaminant is occurring]]
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[[File:WH Picture10.JPG|thumb|center|x350px|link=1,2,3-Trichloropropane|Summary of anticipated, primary reaction pathways for degradation of 1,2,3-Trichloropropane (TCP). TCP is a man-made chemical that was used in the past primarily as a solvent and extractive agent, a paint and varnish remover, and as a cleaning and degreasing agent]]
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[[File:WH Picture11.JPG|thumb|center|x350px|link=Monitored Natural Attenuation (MNA) of Fuels|Distribution of BTEX plume lengths from 604 hydrocarbon sites. Monitored Natural Attenuation (MNA) is one of the most commonly used remediation approaches for groundwater contaminated with petroleum hydrocarbons (PHCs) and certain fuel additives such as fuel oxygenates or lead scavengers]]
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[[File:WH Picture12.JPG|thumb|center|x350px|link=Groundwater Sampling - No-Purge/Passive|No-purge and passive sampling methods eliminate the pre-purging step for groundwater sample collection and represent alternatives to conventional sampling methods that rely on low-flow purging of a well prior to collection. The Snap SamplerTM is an example of a passive grab sampler]]
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[[File:WH Picture13.JPG|thumb|center|x350px|link=Natural Source Zone Depletion (NSZD)|Conceptualization of Vapor Transport-related Natural Source Zone Depletion (NSZD) processes at a Petroleum Release Site]]
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[[File:WH Picture14.JPG|thumb|center|x350px|link=Soil Vapor Extraction (SVE)|Conceptual diagram of basic Soil Vapor Extraction (SVE) system for vadose zone remediation. (SVE) is a common and typically effective physical treatment process for remediation of volatile contaminants in vadose zone (unsaturated) soils]]
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[[File:WH Picture15.JPG|thumb|center|x350px|link=Emulsified Vegetable Oil (EVO) for Anaerobic Bioremediation|Emulsified Vegetable Oil (EVO) mixed in field during early pilot test. EVO is commonly added as a slowly fermentable substrate to stimulate the in situ anaerobic bioremediation of chlorinated solvents, explosives, perchlorate, chromate, and other contaminants]]
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[[File:WH Picture16.JPG|thumb|center|x350px|link=Vapor_Intrusion_(VI)|Key elements of vapor intrusion pathways]]
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[[File:WH Picture17.JPG|thumb|center|x350px|link=Sorption_of_Organic_Contaminants|Batch reactor experiments to generate points on a sorption isotherm]]
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[[File:WH Picture18.JPG|thumb|center|x350px|link=Metagenomics|Results for metagenomic analysis of a groundwater sample obtained from a site impacted with petroleum hydrocarbons]]
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[[File:WH Picture19.JPG|thumb|center|x350px|link=Perchlorate|Perchlorate releases and drinking water detections]]
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[[File:WH Picture20.JPG|thumb|center|x350px|link=Mass_Flux_and_Mass_Discharge|Data input screen for ESTCP Mass Flux Toolkit]]
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[[File:WH Picture21.JPG|thumb|center|x350px|link=Bioremediation_-_Anaerobic_Design_Considerations|Amendment addition for biobarrier]]
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[[File:WH Picture22.JPG|thumb|center|x350px|link=Thermal Conduction Heating (TCH)|Thermal Remediation - Desorption schematic]]
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[[File:WH_Picture23.jpg|thumb|center|x350px|link=Contaminated_Sediments_-_Introduction |Key exposure pathways for human health risk from contaminated sediments]]
 +
[[File:WH_Picture24.jpg|thumb|center|x350px|link=Perfluoroalkyl_and_Polyfluoroalkyl_Substances_(PFAS)| The PFAS family of compounds]]
  
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</slideshow>
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<!--        IN THE NEWS; ON THIS DAY        -->
 
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{| id="mp-right" style="width:100%; vertical-align:top; background:#f5faff;"
 
| style="padding:2px;" | <h2 id="mp-itn-h2" style="margin:3px; background:#cedff2; font-family:inherit; font-size:120%; font-weight:bold; border:1px solid #a3b0bf; text-align:left; color:#000; padding:0.2em 0.4em;">Recent Additions</h2>
 
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#Article 1
 
#Article 2
 
#Article 3
 
</div>
 
|-
 
| style="padding:2px;" | <h2 id="mp-otd-h2" style="margin:3px; background:#cedff2; font-family:inherit; font-size:120%; font-weight:bold; border:1px solid #a3b0bf; text-align:left; color:#000; padding:0.2em 0.4em;">Editors, Authors and Contributors...</h2>
 
|-
 
| style="color:#000; padding:2px 5px 5px;" | <div id="mp-otd">ESTCPedia articles are written by academic / industry experts.  Many of these experts have already written similar articles for SERDP-ESTCP as part of the existing monograph series or for other publications.  The editorial team includes Dr. Robert  C. Borden, P.E. (Solutions-IES, Inc., Raleigh, NC),  Dr. Charles J. Newell, P.E. BCEE (GSI Environmental, Inc., Houston, TX) and Dr. Rula Deeb, BCEEM, PHP (Geosyntec, Oakland, CA). Primary and contributing authors for each article in ESTCPedia are identified with each entry. Authors are also listed on the [[:Category:Contributors|Contributors Page]] 
 
  
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{| style="width:100%; vertical-align:top;"
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| style="vertical-align:top;" |
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<u>'''[[Transport & Attenuation Processes | Attenuation & Transport Processes]]'''</u>
 +
 +
*[[Biodegradation - 1,4-Dioxane]]
 +
*[[Biodegradation - Cometabolic]]
 +
*[[Biodegradation - Hydrocarbons]]
 +
*[[Biodegradation - Reductive Processes]]
 +
*[[Groundwater Flow and Solute Transport]]
 +
*[[Matrix Diffusion]]
 +
*[[Metals and Metalloids - Mobility in Groundwater | Mobility of Metals and Metalloids]]
 +
*[[pH Buffering in Aquifers]]
 +
*[[Sorption of Organic Contaminants]]
 +
*[[Vapor Intrusion (VI)]]
 +
**[[Vapor Intrusion - Separation Distances from Petroleum Sources]]
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**[[Vapor Intrusion – Sewers and Utility Tunnels as Preferential Pathways|Vapor Intrusion - Sewers and Utility Tunnels as Preferential Pathways]]
 +
**[[Assessing Vapor Intrusion (VI) Impacts in Neighborhoods with Groundwater Contaminated by Chlorinated Volatile Organic Chemicals (CVOCs)|Vapor Intrusion - Assessing VI Impacts in Neighborhoods with Groundwater Contaminated CVOCs]]
 +
 +
<u>'''[[Characterization, Assessment & Monitoring]]'''</u>
 +
 +
*[[Characterization Methods – Hydraulic Conductivity]]
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*[[Compound Specific Isotope Analysis (CSIA)|Compound Specific Isotope Analysis (CSIA)]]
 +
*[[Direct Push (DP) Technology]]
 +
**[[Direct Push Logging | Direct Push Logging]]
 +
**[[Direct Push Sampling | Direct Push Sampling]]
 +
*[[Geophysical Methods | Geophysical Methods]]
 +
**[[Geophysical Methods - Case Studies | Case Studies]]
 +
*[[Groundwater Sampling - No-Purge/Passive]]
 +
*[[Long-Term Monitoring (LTM)|Long-Term Monitoring (LTM)]]
 +
**[[Long-Term Monitoring (LTM) - Data Analysis | LTM Data Analysis]]
 +
**[[Long-Term Monitoring (LTM) - Data Variability | LTM Data Variability]]
 +
*[[Molecular Biological Tools - MBTs | Molecular Biological Tools (MBTs)]]
 +
**[[Metagenomics]]
 +
**[[Proteomics and Proteogenomics]]
 +
**[[Quantitative Polymerase Chain Reaction (qPCR)]]
 +
**[[Stable Isotope Probing (SIP)]]
 +
*[[Natural Attenuation in Source Zone and Groundwater Plume - Bemidji Crude Oil Spill | Natural Attenuation in Source Zone and Groundwater Plume&nbsp;-<br /> Bemidji Crude Oil Spill]]
 +
*[[OPTically-based In-situ Characterization System (OPTICS)]]
 +
 +
<u>'''[[Climate Change Primer | Climate Change]]'''</u>
 +
 +
*[[Climate Change Effects on Wildlife]]
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*[[Downscaled High Resolution Datasets for Climate Change Projections]]
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*[[Infrastructure Resilience]]
 +
*[[Predicting Species Responses to Climate Change with Population Models]]
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*[[Restoration of Ecological Function in Terrestrial Systems Impacted by Invasive Species]]
  
<div class="toccolours mw-collapsible mw-collapsed" style="width:96%">
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<u>'''[[Coastal and Estuarine Ecology]]'''</u>
Dr. Robert C. Borden, P.E., Solutions-IES, Inc.<div class="mw-collapsible-content">
 
<hr>
 
  
Dr. Bob Borden is an internationally recognized remediation expert.  He serves as Principal Engineer at SIES and Professor Emeritus at North Carolina State University (NCSU).  He specializes in natural and enhanced bioremediation of hazardous materials in the subsurface, contaminant fate and transport, and non-biological remediation technologies.  Dr. Borden is the author of over 100 publications and has been the principal investigator on over 30 different projects.  He was honored with a Lifetime Achievement Award at the 2010 Battelle Conference as a pioneer in bioremediation, bridging the gap between academics and real world solutions.
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*[[Phytoplankton (Algae) Blooms]]
  
Dr. Borden’s work has led to cost-effective environmental solutions worldwide. His principal work has focused on studies of contaminant biodegradation under aerobic and anaerobic conditions, development of innovative field methods to measure degradation rates under in situ conditions, and mathematical modeling of natural and enhanced bioremediation.  He has led laboratory and field studies examining: (1) aerobic biodegradation of fuel oxygenates (MTBE and TBA) and related ethers (THF and 1,4-dioxane); (2) reductive dechlorination of chlorinated solvents using a variety of soluble and insoluble substrates; and (3) biodegradation of aromatic hydrocarbons under aerobic, denitrifying, iron and sulfate reducing conditions.  His technology transfer activities have included: a) development of computer programs, design tools, and technical protocols; b) over 30 in-person short-courses for USEPA, AFCEE, ASCE, NSPE, NC Erosion and Sedimentation Program, Battelle, Taiwan EPA, SERDP-ESTCP, and NARPM; and c) multiple online webinars.
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| style="width:33%; vertical-align:top; " |
</div>
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<u>'''[[Contaminated Sediments - Introduction | Contaminated Sediments]]'''</u>
</div>
 
  
<div class="toccolours mw-collapsible mw-collapsed" style="width:96%">
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*[[Contaminated Sediment Risk Assessment]]
Dr. Charles J. Newell, P.E. BCEE, GSI Environmental Inc.
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*[[In Situ Treatment of Contaminated Sediments with Activated Carbon]]
<div class="mw-collapsible-content">
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*[[Mercury in Sediments]]
<hr>
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*[[Passive Sampling of Sediments]]
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*[[Sediment Capping]]
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*[[Sediment Porewater Dialysis Passive Samplers for Inorganics (Peepers)]]
  
Dr. Chuck Newell is a Vice President of GSI Environmental Inc. (GSI) and has 31 years of experience managing environmental engineering projects.  He is a member of the American Academy of Environmental Engineers, a NGWA Certified Ground Water Professional, and an Adjunct Professor at Rice University.  He has co-authored three EPA publications, five environmental decision support software systems, numerous technical articles, and two books:  Natural Attenuation of Fuels and Chlorinated Solvents and Ground Water Contamination: Transport and Remediation.
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<u>'''[[Light Non-Aqueous Phase Liquids (LNAPLs)]]'''</u>
  
His professional expertise includes site characterization, groundwater modeling, non-aqueous phase liquids, source zones, remediation performance, risk assessment, natural attenuation, bioremediation, non-point source studies, software development, and long-term monitoring projects.  He has also served as a technical facilitator for groups trying to reach consensus regarding complex environmental issues.  Since 1990 he has acted as Principal Investigator or Co-PI for 45 research/development/tech transfer projects for Department of Energy, Department of Defense, U.S. EPA, and other agencies.
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*[[LNAPL Conceptual Site Models]]
.</div>
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*[[LNAPL Remediation Technologies]]
</div>
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*[[NAPL Mobility]]
  
<div class="toccolours mw-collapsible mw-collapsed" style="width:96%">
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<u>'''[[Munitions Constituents]]'''</u>
Dr. Rula Deeb, BCEEM, Geosyntec Consultants, Inc.
 
<div class="mw-collapsible-content">
 
<hr>
 
  
Dr. Rula Deeb is a Principal Civil and Environmental Engineer at Geosyntec, Inc. with more than 25 years of experience in private practice and academia addressing the cross-media fate and transport of contaminants and the remediation of complex soil and groundwater sites impacted by non-aqueous phase liquids. In both academic and industrial settings, Dr. Deeb has led and collaborated on many research and demonstration efforts promoting awareness and improved the understanding of the sources, occurrence, fate and transport, and behavior of several of the most challenging environmental contaminants to date, including perfluorinated compounds, 1,4-dioxane, methyl tert-butyl ether (MTBE) and other fuel oxygenates, perchlorate, n-nitrosodimethylamine (NDMA), endocrine disrupting chemicals (EDCs), and pharmaceuticals and personal care products (PPCPs). Dr. Deeb was selected as a National Science Foundation Engineering Education Scholar for Excellence in Engineering Education and has been Principal Investigator for several ESTCP-funded environmental restoration projects. (PPCPs).</div>
+
*[[Munitions Constituents - Abiotic Reduction| Abiotic Reduction]]
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*[[Munitions Constituents - Alkaline Degradation| Alkaline Degradation]]
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*[[Munitions Constituents - Composting| Composting]]
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*[[Munitions Constituents - Deposition | Deposition]]
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*[[Munitions Constituents - Dissolution | Dissolution]]
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*[[Metal(loid)s - Small Arms Ranges]]
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*[[Passive Sampling of Munitions Constituents| Passive Sampling]]
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*[[Munitions Constituents – Photolysis | Photolysis]]
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*[[Munitions Constituents – Sample Extraction and Analytical Techniques|Sample Extraction and Analytical Techniques]]
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*[[Munitions Constituents - Soil Sampling | Soil Sampling]]
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*[[Munitions Constituents - Sorption | Sorption]]
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*[[Munitions Constituents - IM Toxicology | Toxicology]]
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*[[Munitions Constituents- TREECS™ Fate and Risk Modeling|TREECS™]]
  
</div>
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<u>'''[[Monitored Natural Attenuation (MNA)]]'''</u>
  
 +
*[[Monitored Natural Attenuation (MNA) of Chlorinated Solvents| MNA of Chlorinated Solvents]]
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*[[Monitored Natural Attenuation (MNA) of Fuels| MNA of Fuels]]
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*[[Monitored Natural Attenuation (MNA) of Metal and Metalloids| MNA of Metals and Metalloids]]
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*[[Natural Source Zone Depletion (NSZD)]]
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*[[Monitored Natural Attenuation - Transitioning from Active Remedies| Transitioning from Active Remedies]]
  
<!-- Here begins blue section 4 -->
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<u>'''[[Perfluoroalkyl and Polyfluoroalkyl Substances (PFAS)]]'''</u>
|-
 
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|-
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*[[PFAS Ex Situ Water Treatment]]
| style="color:#000; padding:2px 5px;" | <div id="mp-itn">
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**[[PFAS Treatment by Anion Exchange]]
*[mailto:info@environmentalrestoration.wiki BY EMAIL]
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*[[PFAS Soil Remediation Technologies]]
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*[[PFAS Sources]]
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*[[PFAS Transport and Fate]]
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*[[PFAS Treatment by Electrical Discharge Plasma]]
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*[[Photoactivated Reductive Defluorination - PFAS Destruction | Photoactivated Reductive Defluorination]]
 +
*[[Transition of Aqueous Film Forming Foam (AFFF) Fire Suppression Infrastructure Impacted by Per and Polyfluoroalkyl Substances (PFAS)]]
  
*[[special:contact | ONLINE CONTACT FORM]]
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<u>'''[[Regulatory Issues and Site Management]]'''</u>
</div>
 
  
 +
*[[Alternative Endpoints]]
 +
*[[Mass Flux and Mass Discharge]]
 +
*[[Plume Response Modeling]]
 +
*[[REMChlor - MD | REMChlor-MD]]
 +
*[[Source Zone Modeling]]
 +
*[[Sustainable Remediation]]
  
 +
| style="width:33%; vertical-align:top; " |<u>'''[[Remediation Technologies]]'''</u>
 +
*[[Amendment Distribution in Low Conductivity Materials]]
 +
*[[Bioremediation - Anaerobic|Anaerobic Bioremediation]]
 +
**[[Bioremediation - Anaerobic Design Considerations | Design Considerations]]
 +
**[[Design Tool - Base Addition for ERD]]
 +
**[[Emulsified Vegetable Oil (EVO) for Anaerobic Bioremediation]]
 +
**[[Low pH Inhibition of Reductive Dechlorination]]
 +
**[[Bioremediation - Anaerobic Secondary Water Quality Impacts | Secondary Water Quality Impacts]]
 +
*[[Chemical Oxidation (In Situ - ISCO) | In Situ Chemical Oxidation (ISCO)]]
 +
**[[Chemical Oxidation Design Considerations(In Situ - ISCO) | Design Considerations]]
 +
**[[Chemical Oxidation Oxidant Selection (In Situ - ISCO) | Oxidant Selection]]
 +
*[[Chemical Reduction (In Situ - ISCR) | In Situ Chemical Reduction (ISCR)]]
 +
**[[Zerovalent Iron (ZVI) (Chemical Reduction - ISCR) | Zero-Valent Iron (ZVI)]]
 +
**[[Zerovalent Iron Permeable Reactive Barriers]]
 +
*[[In Situ Groundwater Treatment with Activated Carbon]]
 +
*[[Injection Techniques for Liquid Amendments]]
 +
*[[Injection Techniques - Viscosity Modification]]
 +
*[[Landfarming]]
 +
*[[Metal and Metalloids - Remediation | Remediation of Metals and Metalloids]]
 +
*[[Remediation Performance Assessment at Chlorinated Solvent Sites]]
 +
*[[Soil Vapor Extraction (SVE)]]
 +
*[[Stream Restoration]]
 +
*[[Subgrade Biogeochemical Reactor (SBGR)]]
 +
*[[Supercritical Water Oxidation (SCWO)]]
 +
*[[Thermal Remediation]]
 +
**[[Thermal Remediation - Combined Remedies | Combined Remedies]]
 +
**[[Thermal Remediation - Electrical Resistance Heating | Electrical Resistance Heating (ERH)]]
 +
**[[Thermal Remediation - Smoldering | Smoldering]]
 +
**[[Thermal Remediation - Steam | Steam Enhanced Extraction (SEE)]]
 +
**[[Thermal Conduction Heating (TCH)]]
  
</div>
+
<u>'''[[Soil & Groundwater Contaminants]]'''</u>
  
 +
*[[1,2,3-Trichloropropane]]
 +
*[[1,4-Dioxane]]
 +
*[[Chlorinated Solvents]]
 +
*[[Metal and Metalloid Contaminants|Metals and Metalloids]]
 +
*[[N-nitrosodimethylamine (NDMA)]]
 +
*[[Perchlorate|Perchlorate]]
 +
*[[Petroleum Hydrocarbons (PHCs)]]
 +
*[[Polycyclic Aromatic Hydrocarbons (PAHs)]]
 +
|}
 
|}
 
|}
 
 
|}
 
|}
 
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Latest revision as of 15:31, 30 October 2024

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The goal of ENVIRO Wiki is to make scientific and engineering research results more accessible to environmental professionals, facilitating the permitting, design and implementation of environmental projects. Articles are written and edited by invited experts (see Contributors) to summarize current knowledge for the target audience on an array of topics, with cross-linked references to reports and technical literature.

See Table of Contents

Table of Contents

Attenuation & Transport Processes

Characterization, Assessment & Monitoring

Climate Change

Coastal and Estuarine Ecology

Contaminated Sediments

Light Non-Aqueous Phase Liquids (LNAPLs)

Munitions Constituents

Monitored Natural Attenuation (MNA)

Perfluoroalkyl and Polyfluoroalkyl Substances (PFAS)

Regulatory Issues and Site Management

Remediation Technologies

Soil & Groundwater Contaminants