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.x <br /> [EC0R <br /> 7-Eleven Store#17334 <br /> Quarterly Groundwater Monitoring Report(1Q2005) <br /> April 18, 2005 <br /> Page 3 <br /> approximately 200 cubic yards of soil were excavated from the new tank pit to <br /> accommodate the installation of two new double-wall steel 10,000-gallon USTs, and <br /> samples were collected at depths of up to 14 feet bgs below/adjacent to the USTs and <br /> pump islands, and the product lines (Fluor Daniel GTI, 1998) <br /> On December 17, 1998, a double-nested groundwater monitoring well (MW-5) was installed <br /> to a depth of 40 feet bgs (Figure 2) <br /> On April 3 and 4, 2002, soil boring SB-1 was advanced to a depth of 50 feet bgs, where a <br /> grab groundwater sample was collected with a Hydropunch sampler (IT Corporation, 2002) <br /> Two double-nested soil vapor extraction/air sparge SVE/AS wells (SPV-1 and SPV-2) were <br /> also installed to 30 feet bgs Dissolved benzene, TPHg, and MtBE were detected in <br /> groundwater samples from SB-1 @ 50' bgs, at concentrations of 28 ug/L, 7,100 ug/L, and <br /> 67 ug/L, respectively <br /> On April 4, 2003, two soil samples were collected under the fuel dispensers and two soil <br /> samples were collected under the fuel lines northeast of the current UST pit Soil sample <br /> L2-5 0' contained MtBE at a concentration of 0 012 mg/kg <br /> MONITORING AND SAMPLING PROCEDURES <br /> . The depth to water was measured to within 0 01 feet bgs in monitoring wells MW-2, MW-3, <br /> MW-4, MW-5A, and MW-513, from the top of casing (TOC) using a water level indicator <br /> Dissolved oxygen concentrations were also measured in each well using a YSI Model 550A <br /> dissolved oxygen meter equipped with a down hole sensor <br /> Well purging and sampling equipment was thoroughly cleaned prior to purging and <br /> sampling each well The sampling procedure for each well included measuring the water <br /> level and checking for the presence of liquid-phase hydrocarbons (LPH), using either an <br /> electronic indicator and a clear Teflon® bailer or an oil-water interface probe Wells not <br /> containing LPH were purged of approximately three casing volumes of water (or to dryness) <br /> using a submersible pump or bailer The equipment and purging methods used for the <br /> current sampling event are noted on the field data sheets in Attachment A During purging, <br /> temperature, pH, and electrical conductivity were monitored After purging, water levels <br /> were allowed to recover to 80% of the original levels prior to collection of the water sample <br /> Groundwater samples were collected using a disposable Teflon® bailer, placed into <br /> appropriate EPA-approved containers, labeled, logged onto chain-of-custody documents, <br /> and transported on ice to a California state-certified laboratory Copies of the field notes <br /> are presented in Attachment A <br /> GROUNDWATER SAMPLE ANALYSES AND RESULTS <br /> The groundwater samples collected from MW-2, MW-3, MW-4, MW-5A, and MW-51B were <br /> analyzed for TPHg, benzene, toluene, ethylbenzene, and total xylenes (BTEX), and fuel <br /> oxygenates MtBE, tert-butyl alcohol (TBA), dtisopropyl ether (DIPS), ethyl-tert-butyl ether <br /> (EtBE), and tert-amyl-methyl ether (TAME) by EPA Method 8260B The certified laboratory <br /> analytical report and chain-of-custody documentation are presented as Attachment B <br /> 17334 05-1Q Report doc SECOR International Incorporated <br />