Download copies of technical background that explains important elements of In Situ
Chemical Reduction science. A growing library of evidence from worldwide academic,
industry, and regulatory bodies continues to substantiate the unique environmental
remediation benefits of ISCR science, and associated reductive dechlorination technologies.
17 Reasons to Use EHC® ISCR™ Technology vs. Emulsified Oils or Simple Carbon-Only Substrates
EHC is the ORIGINAL, patented combination of controlled-release, complex carbon plus zero valent iron (ZVI) that uniquely exhibits the recognized benefits of in situ chemical reduction (ISCR™).
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EHC vs Oils.pdf
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ISCR™ Technology for Chlorinated Organics in Groundwater
"What is ISCR" voice-over recording of 15-minute PowerPoint presentation |
ISCR for chlorinated organics in Groundwater.ppsx
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Maul, Foster & Alongi "Sustainability and Assessment Summary"
Review of 4 potential green remediation technologies (EHC®, Emulsified Oil, Electrical Resistive Heating, P&T)
for active cleanup site with TCE contaminated groundwater.
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MFA Sustainability Article.pdf
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ERM "Developments in ISCR Technology Presentation"
The technical evolution of In Situ Chemical Reduction bioremediation science outlined
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ERM ISCR presentation.pdf
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Competitive Review: EHC™ versus HRC® et al
Hydrogen Equivalents: Comparison of Simple Electron Donors to EHC™ IN SITU Chemical Reduction (ISCR) Reagent
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Adventus Estimation of H2 production.pdf
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In Situ Chemical Reduction Technologies: Significance of Low
Eh Reactions
Soil & Sediment Contamination Journal, January 2008
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ISCR Article Soil Sediment Journal DEC07.pdf
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ISCR vs ISCO
Chemical Reduction Compared to Chemical Oxidation
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ISCR vs ISCO.pdf
238 KB
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Comparative Analysis of Contaminant Removal Mechanisms under Reduced Environments
17th Annual AEHS Meeting and West Coast Conference on Soils, Sediments, and Water, San Diego, CA March 19-22, 2007
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aehs sdo ehc mechanisms 5.pdf
4.78 MB
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In Situ Chemical Reduction of Aquifer Sediments: Enhancement of Reactive Iron Phases and TCE Dechlorination
Environmental Science & Technology magazine (2004)
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est034756kCL20jes.pdf
149 KB
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Reductive Capacity of Natural Reductants
Environmental Science & Technology magazine (2003)
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LeeBatchelor2003.pdf
97 KB
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THE INFLUENCE OF REDOX POTENTIAL ON THE DEGRADATION OF HALOGENATED METHANES
Environmental Toxicology & Chemistry (2002)
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Titanium Citrate by Olivas.pdf
671 KB
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Electrolytic Reduction of Low Molecular Weight Chlorinated Aliphatic Compounds: Structural & Thermodynamic Effects on Process Kinetics
Environmental Science & Technology magazine (2000)
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EST804.pdf
128 KB
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Halocarbons in the environment: Estimates of thermodynamic properties for aqueous chloroethylene species and their stabilities in natural settings
Elsevier Science Ltd (1999)
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HassShock99.pdf
361 KB
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Anaerobic transformation of chlorinated hydrocarbons in a packed-bed reactor
Doctoral Thesis: Jappe Hinco de Best (1999)
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DeBest Eh thesis.pdf
600 KB
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Transformation of RDX and HMX under Controlled Eh/pH Conditions
U.S. Army Corps of Engineers; Waterways Experiment Station (1998)
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wes doc.eh rirrp98-2.pdf
1,160 KB
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