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S E C 0 R - - --- -- <br /> 7-Eleven Store#20632 <br /> • Quarterly Groundwater Monitoring Report (4Q2003) <br /> February 20, 2004 <br /> Page 2 <br /> Current Quarter Analytical Data (See Figure 3 and Table 1) <br /> Maximum TPHg Concentrations MW-3,6,000 /L <br /> Maximum Benzene Concentrations MW-4R, 160 NgIL <br /> Maximum MtBE Concentrations MW-7,44,000 /L <br /> Maximum TBA Concentrations MW-7, 55,000 NgIL <br /> BACKGROUND <br /> Initial site assessment activities were executed in accordance with directives from SJCEHD (Fluor <br /> Daniel GTI 1997) The assessment concluded that soil impacted with gasoline appeared restricted <br /> to a limited area surrounding the underground storage tank (UST) pit and underlying the fuel <br /> dispensers The USTs were replaced as part of 1998 upgrading requirements Concurrent with <br /> limited overexcavation, several days of high-volume dewatering occurred as part of construction <br /> activities,which also served as a short-term remediation event <br /> Additional lateral and vertical assessment of dissolved methyl-cert-butyl ether (MtBE) and <br /> hydrocarbons has been conducted There are currently seven onsite monitoring wells In April <br /> 2002, three onsite monitoring wells (MW-4R, MW-6, and MW-7), two dual-nested sparge/vent wells <br /> (SPV-1 and SPV-2)and a vertical delineation sod boring (SB-1)were installed at the site <br /> • On April 22, 2002, a sod vapor extraction (SVE) test was performed at the site Vapor was extracted <br /> from MW-4R, MW-7, SPV-1, and SPV-2 Low influent vapor concentrations and poor vacuum <br /> response in observation wells were documented during the test An air sparge test in SPV-1 <br /> increased the dissolved oxygen concentration from 0 5 to 2 4 milligrams per liter (mg/L) in SPV-1 <br /> In April 2003, 7-Eleven, Inc upgraded the product lines at the site Benzene, total petroleum <br /> hydrocarbons as gasoline (TPHg), and MtBE were reported at maximum concentrations of 0 019 <br /> milligrams per kilogram (mglkg), 4 7 mg/kg, and 0 60 mg/kg, respectively, in soil samples collected <br /> beneath the product lines and fuel dispensers <br /> MONITORING AND SAMPLING PROCEDURES <br /> The depth to water was measured in monitoring wells MW-1, MW-2, MW-3, MW-4R, MW-5, MW-6, <br /> and MW-7, from top of casing {TOC) using a water level indicator to within 0 01 feet bgs Dissolved <br /> oxygen readings were also collected from each well using a YSI Model 550A dissolved oxygen meter <br /> equipped with a down hole sensor <br /> Well purging and sampling equipment is thoroughly cleaned prior to purging and sampling each well <br /> The sampling procedure for each well includes measuring the water level and checking for the <br /> presence of liquid-phase hydrocarbons (LPH), using either an electronic indicator and a clear <br /> Teflon® bailer or an oil-water interface probe Wells not containing LPH are purged of approximately <br /> three casing volumes of water (or to dryness) using a submersible pump or bailer The equipment <br /> and purging methods used for the current sampling event are noted on the field data sheets included <br /> in Attachment A During purging, temperature, pH, and electrical conductivity are monitored in order <br /> to document that these parameters are stable prior to collecting samples After purging, water levels <br /> are allowed to recover to 80% of the original levels prior to collection of the water sample <br /> Groundwater samples are collected using a disposable Teflon® bailer, placed into appropriate EPA- <br /> approved containers, labeled, logged onto chain-of-custody documents, and transported on ice to a <br /> California state-certified laboratory Copies of the field notes have been included in Attachment A <br /> 20632 03-40 Report SECOR International incorporated <br />