VeruTEK teams with RME Environmental and Geologic Science and Technology For Successful Field Implementation

Description:   Persistent  recurrence  of  ephemeral  LNAPL  in  monitor  wells  was preventing  regulatory  closure.  Petroleum  NAPL  sequestered  within  interstitial  pore  space  at  the  lower vadose  zone  seasonally  resulted  in  measureable  LNAPL  presence  in  groundwater monitoring  wells.  

Results Summary:   Remove  petroleum  sequestered  in  soil  from  the  smear  zone;  NAPL  in particular.    An  in-­situ  chemical  oxidation  treatment  train  specifically  designed  for this  site  was  implemented  as  a  cost-­effective,  permanent  solution.

Click on the link below to download the TPH case study and third party presentation. This is a third party case study reprinted with permission of GST and RME companies.

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Third party case study reprinted with permission of GST and RME companies

Description: S-ESCO® Destruction of Diesel NAPL                                                                                                                            
Contaminant Treated:  Diesel Range Organics (DRO)

Geology/Contaminant Substrate: Sandy-silt/silty-sand saprolite derived from weathering of schist and gneiss bedrock with NAPL plume

Process:  S-ESCO®

Location: Holley, Georgia

Results Summary: As a result of S-ESCO™ implementations at the Site, not only was visual NAPL destroyed but concentrations of diesel-range organics (DRO) were reduced to levels below the state’s 1,000 ppm threshold, surpassing the treatment objectives.

Click on the links below to download the TPH case study and third party presentation

TPH Case Study

TPH Third Party Presentation

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