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� i �e�a..f, _-,.R.a P �,. � i` � �.x<3'.z Y' _ ,.�•'�-s��' �.. ..-,:— -3_ ��-'".m� "A"'_ �. — ..iy iz i... <br /> e <br /> APPENDIX A <br /> BROWN AND CALDWELL <br /> STANDAPI) FIELD OPERATION PITC}CEDURES <br /> SOIL SAMPLINGS DURLNG DRILLING <br /> Soil samples are collected during the drilling operations for three reasons: (1) for field <br /> identification of the borehc, lithology, (2) for qualitative field screening for the presence of <br /> contaminants, and (3) for chemical analysis. <br /> For purposes of collecting soil samples for lithologic identification and for field screening, <br /> each borehole is continuously cored. The soil cores are examined in the field and classified <br /> according the Unified Soil Classification system. In addition to evaluating the borehole lithology, <br /> the soil cores art; screened in the field with a photoionization detector (PID) or similar <br /> instrument,and the relative permeability of the soil is qualitatively estimated. The lithology,PID <br /> reading, and estimated permeability of each sample are recorded on the borehole log next to the <br /> depth interval from which the sample was obtaired. <br /> Soil samples for laboratory chemical analysis are collected at pre-determined intervals to <br /> the groundwater table. The samples are obtained using a 2-inch-diameter by 18-inch-long split- <br /> spoon sampler lined with three 6-inch-long thin-walled brass tubes. The sampler is driven its <br /> entire length into undisturbed soil, either hydraulically or by a 140-pound drop hammer. <br /> When the sampler is extracted from the borehole, the brass tubes are removed-and the ends <br /> of the tubes are immediately screened for the presence of hydrocarbons with a FID or equivalent <br /> instrumenL One sample per 5-foot sampling interval is typically selected for possible chemical <br /> analysis on the basis of the highest PID reading. The ends of the selected brass tube are (I) <br /> covered with aluminum foil and plastic caps, which are then taped with plastic tape to provide <br /> an air-tight seal; (2)labeled and placed into zip-lock plastic. bags; and(3) stored in a cooled ice <br /> chest far delivery to the analytical laboratory. These procedures minimize the potential,for cross <br /> contamination and volatilization of volatile organic compounds prior to chemical analysis. <br /> To prevent cross contamination.during sampling, all equipment is washed with laboratory- <br /> grade detergent, rinsed with tap water, and rinsed with deionized water before and between <br /> collecting each sample. <br />