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Field Practices and Procedures <br /> Page 3 <br /> Generally two soil samples from each soil boring will be submitted for chemical analysis <br /> unless otherwise specified in the scope of work Soil samples selected for analysis <br /> typically represent the highest PID reading recorded for each soil boring and the sample <br /> dust above first-encountered groundwater <br /> Stockpiled Drill Cuttings and Soil Sampling <br /> Soil generated during drilling operations will be stockpiled on-site The stockpile will be <br /> set on and covered by plastic sheeting in a manner to prevent rain water from coming in <br /> contact with the soil Prior to collecting soil samples, Stratus personnel will calculate the <br /> approximate volume of soil in the stockpile The stockpile will then divided into sections, <br /> if warranted, containing the predetermined volume sampling interval Soil samples will <br /> be collected at 0 5 to 2 Feet below the surface of the stockpile Four soil samples will be <br /> collected from the stockpile and composited into one sample by the laboratory prior to <br /> analysis The soil samples will be collected in cleaned brass, two by six inch tubes using <br /> a hand driven sampling device To reduce the potential for cross-contan l enation between <br /> samples, the sampler will be cleaned between each sampling event Upon recovery, the <br /> sample container well be sealed at each end with Teflon sheeting and plastic caps to <br /> minimize the potential of volatilization and cross-contan 1 ination prior to chemical <br /> analysis The soil sample will be labeled, placed on ice, and delivered to a state-certified <br /> analytical laboratory, along with the appropriate cham-of-cu st ody documentation <br /> Direct Push Technology, Water Sampling <br /> A well known example of direct push technology for water sampling is the Hydropunch* <br /> For the purpose of this field method the term hydropunch will be used instead of direct <br /> push technology for water sampling <br /> The hydropunch is typically used with a drill rig A boring is drilled with hollow stem- <br /> augers to dust above the sampling zone In some soil conditions the drill rig can push <br /> directly from the surface to the sampling interval The hydropunch is conveyed to the <br /> bottom of the boring using drill rods Once on bottom the hydropunch is driven a <br /> maximum of five feet The tool is then opened by lifting up the drill rod no more than <br /> four feet Once the tool is opened, water enters and a sample can be collected with a <br /> bailer or tubing utilizing a peristaltic pump Soil particles larger than silt are prevented <br /> from entering the tool by a screen within the tool The water sample is collected, labeled, <br /> and handled according to the Quality Assurance Plan <br /> Monitoring Well Installation <br /> Monitoring wells will be completed by installing 2 to 6 inch-diameter Schedule 40 <br /> polyvinyl chloride (PVC) casing The borehole diameter for a monitoring well well be a <br /> minimum of four inches larger than the outside diameter of the casing The <br /> 2-inch-diameter flush-threaded casing is generally used for wells dedicated for <br /> groundwater monitoring purposes <br /> 11Strj1u,-dc1Ti aw ferTiefd Prlctu.,�qnd Proceduro wqh C P i rev ised 07-2004 doe <br />