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• <br />40 <br />Chevron Products Company 2 <br />Former Chevron 9-5775 301 West Kettleman Lane, Lodi, CA April 28, 2000 <br />treatment well Details of the oxygen diffuser are described in the attached patent <br />(Attachment A) <br />The system uses sealed low density polyethylene (LDPE) tubing charged with 60 <br />pounds per square inch (psi) of oxygen to diffuse oxygen into the treatment well at an <br />equilibrium concentration of approximately 30 milligrams per liter (mg/L or ppm) The <br />tubing is coiled around a cylinder that fits into a 2 or 4 -inch diameter well Oxygen <br />diffuses through the walls of the tubing into the water without bubbling or going into a <br />separate phase The oxygen is fed from an oxygen tank that fits inside a 4 -inch diameter <br />well The University of Waterloo design will be altered to include a downhole low -flow <br />pump that will increase the radius of influence of the dissolved oxygen to approximately <br />10 or 15 feet Water pumped from the bottom of the well, travels up the well past coils <br />of LDPE tubing up to the screened interval at the groundwater surface where it mounds <br />and increases water flow out of the well into the surrounding sediments The treatment <br />radius of influence is assumed to be 15 times the distance between the inlet and outlet <br />point Assuming that the pump is placed ten feet below the groundwater surface, the <br />treatment radius can be approximately 10 to 15 feet depending on the site lithology <br />An oxygen enrichment system was applied at a site with similar lithology and the <br />resultant radius of influence reported for dissolved oxygen was approximately 15 feet <br />The presence of elevated concentrations of TPH and BTEX has been shown in <br />benchscale studies to decrease the efficiency of oxygen dispersion and decrease the <br />efficiency of MtBE degradation It is anticipated that the pump and treat system in the <br />source area in addition to the vapor extraction system will increase both oxygenation <br />and hydrocarbon removal The result will be a lower oxygen demand in the treatment <br />area around the oxygen diffusion wells and a higher effective radius of influence for <br />treatment <br />OBJECTIVE <br />The objective of the treatment is to use in -well oxygen diffusion at the site to destroy <br />the remaining TPH, BTEX, and MtBE in-situ Treatment is focused on remediating <br />groundwater in near -source downgradient wells The treatment will use 8 wells as a full- <br />scale implementation <br />SCOPE OF SERVICES <br />The scope of treatment includes three mayor tasks (1) oxygen diffuser installation, (2) <br />maintenance and monitoring, and (3) data evaluation and reporting These tasks are <br />described in more detail below <br />077 41991 500 9-5775wpaddendum2 doc <br />