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(newest | oldest) View (newer 50 | older 50) (20 | 50 | 100 | 250 | 500)- 01:24, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4811 of page Dispersion and Diffusion patrolled
- 01:24, 17 February 2017 Astenger (talk | contribs) deleted page Dispersion and Diffusion (content was: "Dispersion during groundwater flow results in spreading of a contaminant plume from highly concentrated areas to less concentrated areas. In many groundwater transport models, solute transport is described by the advection-dispersion-rea...")
- 01:23, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4810 of page Advection and Groundwater Flow patrolled
- 01:22, 17 February 2017 Astenger (talk | contribs) deleted page Advection and Groundwater Flow (content was: " Advection is the movement of groundwater through the subsurface due to pressure and gravitational energy. The combined processes of advection, dispersion,...")
- 01:20, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4809 of page Direct Push Logging patrolled
- 01:20, 17 February 2017 Astenger (talk | contribs) deleted page Direct Push Logging (content was: "Direct push (DP) technology can be used to advance a variety of logging tools into the subsurface to provide high-resolution information on vertical variations in soil and unconsolidated formation properties. Commonly used tools provide...")
- 01:19, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4808 of page Direct Push Sampling patrolled
- 01:18, 17 February 2017 Astenger (talk | contribs) deleted page Direct Push Sampling (content was: "Soil, groundwater, and soil gas samples can be collected by direct push (DP) technology. Both single tube and dual tube DP methods are used for sampling of soils, unconsolidated formations<ref name= "McCall2006">McCall, W., Nielsen, D.M....")
- 01:18, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4807 of page Direct Push (DP) Technology patrolled
- 01:17, 17 February 2017 Astenger (talk | contribs) deleted page Direct Push (DP) Technology (content was: "Direct push (DP) technology provides a subsurface sampling, logging, and investigation technique that is efficient for application in unconsolidated formations consisting primarily of sand, silt, and clay with some gravel. DP machines ad...")
- 01:17, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4806 of page In Situ Anaerobic Bioremediation Design Considerations patrolled
- 01:16, 17 February 2017 Astenger (talk | contribs) deleted page In Situ Anaerobic Bioremediation Design Considerations (content was: "Bioremediation is the process by which contaminants in soil and/or groundwater are treated biologically, primarily by microorganisms or biomolecules generated and released by the cells. This article overviews key design considerations wh...")
- 01:15, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4805 of page In Situ Anaerobic Bioremediation patrolled
- 01:15, 17 February 2017 Astenger (talk | contribs) deleted page In Situ Anaerobic Bioremediation (content was: "Bioremediation is the process by which contaminants in soil and/or groundwater are treated biologically, primarily by microorganisms or biomolecules generated by the cells. Bioremediation processes can take place under oxic (with oxygen)...")
- 01:13, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4804 of page Compound Specific Isotope Analysis (CSIA) For Environmental Investigation and Remediation patrolled
- 01:12, 17 February 2017 Astenger (talk | contribs) deleted page Compound Specific Isotope Analysis (CSIA) For Environmental Investigation and Remediation (content was: "Compound specific isotope analysis (CSIA) refers to measurement of the isotopic signatures (typically, the stable isotopes of carbon, hydrogen, oxygen, nitrogen or sulfur) of individual compounds from...")
- 01:12, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4803 of page Injection and Distribution of Liquid Amendments in Groundwater patrolled
- 01:11, 17 February 2017 Astenger (talk | contribs) deleted page Injection and Distribution of Liquid Amendments in Groundwater (content was: "Many different types of amendments can be used for remediation of contaminants in soil and groundwater. A critical requirement for successful remediation is getting amendments in contact with the contaminants to be treated. Whether the a...")
- 01:11, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4802 of page Perchlorate, Issues and Treatment Options patrolled
- 01:10, 17 February 2017 Astenger (talk | contribs) deleted page Perchlorate, Issues and Treatment Options (content was: " Perchlorate is a groundwater contaminant primarily associated with rocket manufacturing, testing, maintenance, and disposal. Perchlorate has a high solubility and low health-based concentration goals for drin...")
- 01:09, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4801 of page Toxicology of Insensitive Munitions patrolled
- 01:08, 17 February 2017 Astenger (talk | contribs) deleted page Toxicology of Insensitive Munitions (content was: "The US military is phasing out traditional explosives in favor of insensitive munitions (IM) to reduce risks of accidental detonation. This article overviews recent results on the toxicology of some common IM components, namely 2,4-dinit...")
- 01:07, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4800 of page Modeling with TREECS™ for Predicting Fate and Environmental Risk of Munitions Constituents patrolled
- 01:07, 17 February 2017 Astenger (talk | contribs) deleted page Modeling with TREECS™ for Predicting Fate and Environmental Risk of Munitions Constituents (content was: "The Training Range Environmental Evaluation and Characterization System (TREECS™) was developed for the Army to forecast the fate of, and risk from, munitions constituents (MC) such as Explosive and Propellant Dissolution | high exp...")
- 01:06, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4799 of page Combined Remedy with a Thermal Component patrolled
- 01:05, 17 February 2017 Astenger (talk | contribs) deleted page Combined Remedy with a Thermal Component (content was: "Complex sites often require a combination of technologies for remediation. At heavily contaminated sites, in situ thermal treatment is used to treat the source, while other technologies are used in the transition and plume zones. The thr...")
- 01:04, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4798 of page In Situ Thermal Desorption (ISTD) patrolled
- 01:03, 17 February 2017 Astenger (talk | contribs) deleted page In Situ Thermal Desorption (ISTD) (content was: "In situ thermal desorption (ISTD) is based on simple heating by thermal conduction in combination with fluid extraction. Elevated subsurface temperatures mobilize contaminants for extraction. ISTD is a...")
- 00:58, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4797 of page Electrical Resistance Heating (ERH) patrolled
- 00:58, 17 February 2017 Astenger (talk | contribs) deleted page Electrical Resistance Heating (ERH) (content was: "Electrical Resistance Heating (ERH) is based on heating by passing alternating current through the subsurface. ERH has gained wide acceptance over the last 20 years for treatment of source zones with volatile organic contaminants. The mo...")
- 00:56, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4796 of page Steam Enhanced Extraction (SEE) patrolled
- 00:56, 17 February 2017 Astenger (talk | contribs) deleted page Steam Enhanced Extraction (SEE) (content was: "Steam enhanced extraction (SEE) is an in situ thermal remediation technology used in relatively permeable settings to heat the ground and remove organic contaminants. SEE can be combined with other therma...")
- 00:25, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4795 of page In Situ Thermal Remediation patrolled
- 00:25, 17 February 2017 Astenger (talk | contribs) deleted page In Situ Thermal Remediation (content was: "In situ thermal remediation (ISTR) has gained wide acceptance over the last 20 years. It is now considered an accepted contaminant source reduction technology with a high degree of certainty for achieving remedial objectives. ISTR consis...")
- 00:24, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4794 of page Smoldering Remediation patrolled
- 00:23, 17 February 2017 Astenger (talk | contribs) deleted page Smoldering Remediation (content was: "Smoldering remediation is a thermal technology for treating non-aqueous phase liquids (NAPLs) where air is forced through the material to be treated to propagate a low-temperature, flameless form of comb...")
- 00:22, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4793 of page Subgrade Biogeochemical Reactor (SBGR) patrolled
- 00:22, 17 February 2017 Astenger (talk | contribs) deleted page Subgrade Biogeochemical Reactor (SBGR) (content was: "The subgrade biogeochemical reactor (SBGR) is a relatively low cost, sustainable bioreactor configuration that can be applied to remediate soil and groundwater source zones. SBGRs are most commonly constructed by excavating a soil source...")
- 00:21, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4792 of page Biological Reductive Processes patrolled
- 00:20, 17 February 2017 Astenger (talk | contribs) deleted page Biological Reductive Processes (content was: "Microbial removal of halogens from organic compounds by reductive processes forms the basis for many types of bioremediation technologies. The process was discovered within the la...")
- 00:19, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4791 of page Energetic Materials patrolled
- 00:18, 17 February 2017 Astenger (talk | contribs) deleted page Energetic Materials (content was: "Energetic Materials (EM) are chemicals used in formulations as propellants, pyrotechnics, and explosives in weapon systems, munitions, and blasting agents. This article introduces these materials, major physical and chemical properties,...")
- 00:17, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4790 of page Sustainable Remediation patrolled
- 00:17, 17 February 2017 Astenger (talk | contribs) deleted page Sustainable Remediation (content was: "Sustainable remediation involves evaluating remediation projects for their social, economic, and positive vs. negative environmental impacts. This key concept of incorporating sustainability into remediation projects is beneficial becaus...")
- 00:14, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4789 of page Plume Response Modeling patrolled
- 00:14, 17 February 2017 Astenger (talk | contribs) deleted page Plume Response Modeling (content was: "Plume response modeling simulates how groundwater contaminant plumes respond to contaminant source control. Understanding the plume response is important because plumes may grow, stabilize, or shrink depending on the source strength and...")
- 00:13, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4788 of page Source Zone Modeling patrolled
- 00:12, 17 February 2017 Astenger (talk | contribs) deleted page Source Zone Modeling (content was: "Source zone modeling involves mathematical simulations of contaminant behavior in areas that act as sources of groundwater contamination. Contaminant mass dischar..." (and the only contributor was "Jbarnes"))
- 00:11, 17 February 2017 Astenger (talk | contribs) automatically marked revision 4787 of page Hydrocarbon Biodegradation patrolled
- 00:10, 17 February 2017 Astenger (talk | contribs) deleted page Hydrocarbon Biodegradation (content was: " Hydrocarbons are major constituents of crude oil and petroleum. They can be biodegraded by naturally-occurring microorganisms in freshwater and marine environments under a variety of aerobic and anaerobic con...")