Difference between revisions of "Remediation Technologies"
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Remediation technologies include both traditional remediation approaches and emerging technologies. Common technologies employ a range of abiotic chemical treatments, biologically based remediation, and thermal approaches. Also included in this category are technologies for extracting contaminants from the subsurface and delivering treatment amendments. | Remediation technologies include both traditional remediation approaches and emerging technologies. Common technologies employ a range of abiotic chemical treatments, biologically based remediation, and thermal approaches. Also included in this category are technologies for extracting contaminants from the subsurface and delivering treatment amendments. | ||
==Related Articles== | ==Related Articles== | ||
| − | {| style="width:100%; vertical-align:top; " | + | {| style="width:100%; vertical-align:top;" |
| | | | ||
| − | *[[Bioremediation - Anaerobic]] | + | *[[Amendment Distribution in Low Conductivity Materials]] |
| + | *[[Bioremediation - Anaerobic | Anaerobic Bioremediation]] | ||
**[[Bioremediation - Anaerobic Design Considerations | Design Considerations]] | **[[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]] | **[[Low pH Inhibition of Reductive Dechlorination]] | ||
**[[Bioremediation - Anaerobic Secondary Water Quality Impacts | Secondary Water Quality Impacts]] | **[[Bioremediation - Anaerobic Secondary Water Quality Impacts | Secondary Water Quality Impacts]] | ||
| − | |||
*[[Chemical Oxidation (In Situ - ISCO)|In Situ Chemical Oxidation (ISCO)]] | *[[Chemical Oxidation (In Situ - ISCO)|In Situ Chemical Oxidation (ISCO)]] | ||
**[[Chemical Oxidation Design Considerations(In Situ - ISCO)]] | **[[Chemical Oxidation Design Considerations(In Situ - ISCO)]] | ||
| Line 13: | Line 15: | ||
*[[Chemical Reduction (In Situ - ISCR)|In Situ Chemical Reduction (ISCR)]] | *[[Chemical Reduction (In Situ - ISCR)|In Situ Chemical Reduction (ISCR)]] | ||
**[[Zerovalent Iron (ZVI) (Chemical Reduction - ISCR)]] | **[[Zerovalent Iron (ZVI) (Chemical Reduction - ISCR)]] | ||
| − | + | **[[Zerovalent Iron Permeable Reactive Barriers]] | |
| + | *[[In Situ Groundwater Treatment with Activated Carbon]] | ||
*[[Injection Techniques for Liquid Amendments]] | *[[Injection Techniques for Liquid Amendments]] | ||
| + | | style="width:50%; vertical-align:top;" |<br /> | ||
| + | |||
*[[Injection Techniques - Viscosity Modification]] | *[[Injection Techniques - Viscosity Modification]] | ||
| + | *[[Landfarming]] | ||
| + | *[[LNAPL Remediation Technologies]] | ||
*[[Metal and Metalloids - Remediation]] | *[[Metal and Metalloids - Remediation]] | ||
| + | *[[Remediation Performance Assessment at Chlorinated Solvent Sites]] | ||
*[[Soil Vapor Extraction (SVE)]] | *[[Soil Vapor Extraction (SVE)]] | ||
| + | *[[Stream Restoration]] | ||
*[[Subgrade Biogeochemical Reactor (SBGR)]] | *[[Subgrade Biogeochemical Reactor (SBGR)]] | ||
| + | *[[Supercritical Water Oxidation (SCWO)]] | ||
*[[Thermal Remediation]] | *[[Thermal Remediation]] | ||
**[[Thermal Remediation - Combined Remedies | Combined Remedies]] | **[[Thermal Remediation - Combined Remedies | Combined Remedies]] | ||
| − | |||
**[[Thermal Remediation - Electrical Resistance Heating | Electrical Resistance Heating]] | **[[Thermal Remediation - Electrical Resistance Heating | Electrical Resistance Heating]] | ||
**[[Thermal Remediation - Smoldering | Smoldering]] | **[[Thermal Remediation - Smoldering | Smoldering]] | ||
| − | **[[Thermal Remediation - Steam | Steam]] | + | **[[Thermal Remediation - Steam | Steam Enhanced Extraction]] |
| + | **[[Thermal Conduction Heating (TCH)|Thermal Conduction Heating]] | ||
|} | |} | ||
==Additional Documents== | ==Additional Documents== | ||
| − | *[ | + | |
| − | *[ | + | *[//www.enviro.wiki/images/8/86/AFCEE_Biov_1996.pdf Bioventing Performance and Cost Results from Multiple Air Force Test Sites] |
| − | *[ | + | *[//www.enviro.wiki/images/b/ba/EPA_Bioventing_Principles_and_Practice.pdf Bioventing Principles and Practice EPA] |
| − | *[ | + | *[//www.enviro.wiki/images/0/00/AFCEE_BioSlurper_Initiative_1997.pdf Engineering Evaluation and Cost Analysis for Bioslurper Initiative] |
| − | *[ | + | *[//www.enviro.wiki/images/a/a7/Epa-nanotechnology-white-paper-final-february-2007.pdf EPA Nanotechnology White Paper] |
| − | *[ | + | *[//www.enviro.wiki/images/d/dc/Vacuum_Mediated_LNAPL_Recovery_bioremediation.pdf Technology Profile: Vacuum-Mediated LNAPL Free Product Recovery/Bioremediation (Bioslurper)] |
| + | *[//www.enviro.wiki/images/b/b6/2006_EPA_542-R-06-009.pdf Treatment Technologies for 1,4-Dioxane: Fundamentals and Field Applications] | ||
Latest revision as of 01:46, 28 April 2022
Remediation technologies include both traditional remediation approaches and emerging technologies. Common technologies employ a range of abiotic chemical treatments, biologically based remediation, and thermal approaches. Also included in this category are technologies for extracting contaminants from the subsurface and delivering treatment amendments.
Related Articles
Additional Documents
- Bioventing Performance and Cost Results from Multiple Air Force Test Sites
- Bioventing Principles and Practice EPA
- Engineering Evaluation and Cost Analysis for Bioslurper Initiative
- EPA Nanotechnology White Paper
- Technology Profile: Vacuum-Mediated LNAPL Free Product Recovery/Bioremediation (Bioslurper)
- Treatment Technologies for 1,4-Dioxane: Fundamentals and Field Applications
