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GETTLER-RYAN INC. <br /> FIELD METHODS AND PROCEDURES <br /> Site Safety�Plan <br /> Field work performed by Gettler-Ryan Inc. (GR) is conducted in accordance with GR's Health and Safety Plan and <br /> the Site Safety Plan. GR personnel and subcontractors who perform'work at the site are briefed on the of these plans <br /> contents prior to initiating site work. The GR geologist or engineer at the site when the work is performed acts as the <br /> Site Safety Officer. GR utilizes a photoionization detector (PID) to monitor ambient conditions as part of the Health <br /> and Safety Plan. <br /> Collection of Soil Samples <br /> 4 <br /> Exploratory; soil borings are drilled by a California-licensed well driller. A GR geologist is present to observe the <br /> drilling, collect soil samples for description, physical testing, and chemical analysis, and prepare a log of the <br /> exploratory:soil boring. Soil samples are collected from the exploratory soil boring with a split-barrel sampler or <br /> other appropriate sampling device fitted with clean brass or stainless steel liners. The sampling device is driven <br /> approximately 18 inches with a 140-pound hammer falling 30 inches. The number of blows required to advance the <br /> sampler each successive 6 inches is recorded on theboring log. The encountered soil is described using the Unified <br /> Soil Classification System(ASTM 2488-84)and the Munsell Soil Color Chart. <br /> After removal from the sampling device, soil samples for chemical analysis are covered on both ends with teflon <br /> sheeting or aluminum foil, capped, labeled, and placed in a cooler with blue ice for preservation. A chain-of-custody <br /> form is initiated in the field and accompanies the selected soil samples to the analytical laboratory. Samples are <br /> selected for chemical analysis based on: <br /> a. depth relative to underground storage tanks and existing ground surface <br /> b. " depth relative to known or suspected groundwater <br /> C. presence or absence of contaminant migration pathways <br /> d. presence or absence of discoloration or staining <br /> e. presence or absence of obvious gasoline hydrocarbon odors <br /> f. presence or absence of organic vapors detected by headspace analysis <br /> i <br /> Field Screening of Soil Samples <br /> A PID is used to perform head-space analysis in the field for the presence of organic vapors from the soil sample. <br /> This test procedure involves removing some soil from one of the sample tubes not retained for chemical analysis and <br /> immediately covering the end of the tube with a plastic cap. The PID probe is inserted into the headspace inside the <br /> tube through a hole in the plastic cap. Head-space screening results are recorded on the boring log. Head-space <br /> screening procedures are performed and results recorded as reconnaissance data. , GR does .not consider field <br /> screening techniques to be verification of the presence or absence of hydrocarbons. <br /> Stockpile Sampline, <br /> i <br /> Stockpile samples consist of four individual sample liners collected from each 100 cubic yards (yd') of stockpiled soil <br /> material. Four arbitrary points on the stockpiled material are chosen, and discrete soil sample is collected at each of <br /> these points Each discrete stockpile sample is collected by removing the upper 3 to 6 inches of soil, and then driving <br /> the stainless steel or brass tube into the stockpiled material with a wooden mallet or hand driven soil sampling device. <br /> The sample'tubes are then covered on both ends with teflon sheeting or aluminum foil, capped, labeled, placed in the <br /> i <br /> i <br />