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LANDTEC GEMTM 500 portable gas analyzer. The GEMTM 500 was operated until a steady-state gas <br /> composition indicated that the well was purged. After purging, gas samples were collected in stainless steel <br /> Summa canisters and sent to Atmospheric Analysis& Consulting, Inc. for analysis by EPA method TO-15 <br /> (Appendix I). <br /> VOCs were detected in nine of ten soil gas samples (Table 6). The highest concentration of any VOC was <br /> found in SG-1 which is approximately 100 feet from the edge of refuse. Freon 12 was most often reported <br /> with the highest concentration in a sample. The most VOCs (eleven) were reported in SG-03 and SG-11. <br /> The source of the VOCs in the vadose zone is likely the old unlined portion of the landfill. <br /> Methane was detected in one interior soil gas well this semester below the regulatory limit.;Data from the <br /> perimeter migration monitoring wells indicates that the facility is compliant with Title 27 regulations for off- <br /> site migration. <br /> VOCs have been consistently detected in soil gas since monitoring began in October 2003; however, with the <br /> exception of VOCs in MW-3,possibly due to the restriction of LFG escape by the plastic liner material over <br /> refuse, VOCs in groundwater is not indicated. The presence of VOCs in the soil at these concentrations is <br /> apparently not, in itself, a significant condition at this landfill. <br /> GROUNDWATER DIRECTION AND FLOW RATE <br /> Groundwater elevations were measured in monitoring wells during the first and second quarters. <br /> Groundwater was determined to flow towards the east-southeast(Figures 3 and 4). The calculated average <br /> linear groundwater flow velocity in the first quarter was 74.81 feet per year based on a hydraulic gradient of <br /> 0.0022 foot per foot. The calculated average linear groundwater flow velocity in the second quarter was <br /> 70.87 feet per year based on a hydraulic gradient of 0.0021 foot per foot(Appendix G). <br /> STANDARD OBSERVATIONS <br /> Regular site inspections were performed during the first semester of 2012. Monthly standard observations <br /> have been summarized(Appendix H). The electronic signatures on the forms certify that all observations <br /> were performed and are accurate. <br /> RUN-OFF/RUN-ON FACILITIES <br /> The Foothill Sanitary Landfill utilizes several methods to control run-on and run-off. The natural <br /> topography of the area controls any run-on into the site. Also,the working area is a significant distance from <br /> the property boundary and at a higer elevation, so run-on from surrounding properties into refuse is not <br /> possible. <br /> To control run-off, a perimeter ditch along the north, west and east ends of the unit directs all storm water <br /> run-off into a sedimentation basin on the east side of the site. The rest of the run-off from the unit gathers <br /> into a sedimentation basin at the southeast corner of Module 1. There were no breeches to any of the run- <br /> on/run-off facilities during this monitoring period. <br /> OTHER ANALYSIS <br /> Groundwater samples were collected from landfill supply well LW-1 and analyzed for all monitoring and <br /> field parameters. The well is not a point of compliance, as stated in the WDRs. <br /> Foothill Sanitary Landfill 12 Department of Public Works/Solid Waste <br /> 1s`Semester 2012 Groundwater Monitoring County of San Joaquin—July 17,2012 <br />