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The Nature of the Chlorinated Aliphatic Hydrocarbons (CAHs) (1.1.1)
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Biological Reductive Dechlorination of CAHs (1.1.2)
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Using Organic Substrates to Promote Biological Reductive Dechlorination of CAHs (1.1.3)
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Competition for Hydrogen Between Reductive Dechlorinators and Other Microorganisms (1.1.4)
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Test Tube Microcosm Studies (2.4.1)
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Reductive Dechlorination Reactor (RDR) Studies (2.4.2)
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Aquifer Simulation Vessel (ASV) Studies (2.4.3)
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Simple Field Pilot Test Designs (2.4.4)
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Can I Use HRC in a High Sulfate Environment? (2.7.2)
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The Formation of Vinyl Chloride (2.7.4)
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Chromium Remediation in Groundwater (2.7.5)
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Using HRC to Treat Residual Sorbed DNAPL Contamination (2.7.6)
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Longevity of HRC in the Aquifer (2.8.1)
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Distribution of HRC in the Aquifer (2.8.2)
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Fractured Bedrock Application (2.8.3)
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How does Hydrogen in HRC finally get to the Chlorinated Hydrocarbon? (2.8.4)
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HRC and Active Mechanical Operations (4.1.1)
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HRC and Iron Wall Technology (4.1.2)
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HRC and Application of Organic Substrates (4.1.3)
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HRC Applications and Chemical Oxidation (4.1.4)
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Plume Treatment Example (2.5.1)
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Plume Cut-off Treatment Example (2.5.2)
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