Documents > Dense Non-Aqueous Phase Liquids (DNAPLs) > Dense Non-Aqueous Phase Liquids (DNAPLs)
Select a Topic:
-- Select a Topic --
Dense Non-Aqueous Phase Liquids (DNAPLs)...
Ecological Land Reuse
Enhanced Attenuation of Chlorinated Orga...
Environmental Molecular Diagnostics
Green and Sustainable Remediation
Groundwater Statistics and Monitoring Co...
In Situ Chemical Oxidation
Light Non-Aqueous Phase Liquids (LNAPLs)...
Mass Flux and Mass Discharge
MTBE and Other Fuel Oxygenates
Munitions Response (e.g., UXO)
Performance Based Environmental Manageme...
Permeable Reactive Barriers
Remediation Process Optimization
Remediation Risk Management
Site Characterization and Monitoring
Small Arms Firing Ranges
The Dense, Non-Aqueous Phase Liquids (DNAPLs) documents provide guidance on characterizing, remediating, and monitoring DNAPL source zones.
Click on a document title to view it online and print. Or, right-click on the link and save the document to your local drive.
If you would like a hard copy of any document (if available), please email
email@example.com. By opening, downloading and/or printing ITRC documents, you acknowledge that you will follow ITRC's Usage Policy and Terms of Service and associated disclaimers.
Presents approaches to performance monitoring of various in situ technologies for treating DNAPL source zones.
A primer discussing scientific approaches and strategies used to characterize sites known or suspected to be contaminated with DNAPLs.
A technical and regulatory guide for those involved in selecting and implementing surfactant/cosolvent flushing of DNAPLs as a remedial action.
Description of some aggressive in situ technologies that target DNAPL source zones for elimination or substantial reduction to achieve more rapid remediation and speedier site closure.
Review of three general types of emerging DNAPL characterization technologies—including geophysical, cone penetrometer, and in situ tracers— and two categories of emerging DNAPL remediation technologies—thermal enhanced extraction and in situ chemical oxidation.