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R■ KLEINFELDER <br /> of approximately 25 feet bgs, (with groundwater flow direction estimated to the east) according <br /> to previous boring log datacollected by Advanced GeoEnvironmental, Inc. prepared for Preston <br /> Pipelines. <br /> After collection, the soil samples will be labeled, logged on a chain-of-custody, and immediately <br /> stored in an iced cooler. The soil samples will be submitted to Sequoia Analytical of Sacramento, <br /> California, (a State certified laboratory) and analyzed for the following analyses: <br /> • Total Petroleum Hydrocarbons-gasoline (TPH-g)by EPA Method 8015; <br /> • Benzene, Toluene, Ethylbenzene, Xylene (BTEX)by EPA Method 8020; <br /> • 1,2 DCA by EPA Method 8260; <br /> • EDB by EPA Method 8260; <br /> • TBA by EPA Method 8260; and <br /> • Oxygenates,MTBE,DIPE, ETBE, TAME by EPA Method 8260. <br /> The samples will be analyzed on a normal laboratory schedule requiring approximately two weeks <br /> (ten working days) for completion unless the optional rush analytical turnaround is requested by the <br /> client at an additional charge. <br /> One monitoring well (MW-1) will be installed on the west side of the warehouse building. This <br /> location has been chosen to represent an upgradient condition to the subject site. The upgradient <br /> well is proposed to be installed approximately 20 feet west of the warehouse. Two additional <br /> monitoring wells (MW-2 and MW-3) will be installed southeast and northeast of the warehouse <br /> area to monitor downgradient conditions of the subject site. The downgradient wells are <br /> proposed to be installed approximately 30 to 40 feet from the warehouse. � I 5 I <br /> The boring will be advanced approximately 10 to 15 feet into groundwater. A 2 - inch Schedule 40 <br /> PVC monitoring well will be constructed in the boring. The wells will be constructed with <br /> schedule 40 PVC, a 15 foot long, 0.020 inch screened section surrounded by and covered by <br /> clean sand filter pack (#2/12), 3 foot thick bentonite transition seal above the filter pack, and <br /> grouted to the surface. The wells will be finished with a locking pressure cap situated within a <br /> monument or flush style well vault (depending on surface conditions). See the Proposed <br /> Diagram of Well Construction (Plate 3). <br /> Once the monitoring wells have been installed, the top of each well will be surveyed so that <br /> depth to groundwater measurements in the wells can be converted to groundwater elevations <br /> used to assess groundwater gradients. The wells will be surveyed relative to a local benchmark. <br /> If a local benchmark is not available near the site, the wells will be surveyed relative to an onsite, <br /> assumed benchmark with an assigned elevation. The wells will be surveyed as described in <br /> Appendix�3.4. i o S10 <br /> MONITORING <br /> I' <br /> MONITORING WELL DEVELOPMENT <br /> A minimum of 48 hours after installation, the monitoring wells will be developed to remove fine <br /> silt from the well bore and to effectively increase the hydraulic radius of each monitoring well. <br /> Surging along the screened interval of the well will be performed to draw the sediment from the <br /> formation into the filter pack and the well and to set the sand pack. The monitoring wells will be <br /> 02001PROP.ENV/ST04P347/KS:ss Page 3 of 8 <br /> Copyright 2004,Kleinfelder,Inc. August 16,2004 <br />