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CAMBRIA <br /> STANDARD FIELD PROCEDURES FOR MONITORING WELLS <br /> This document presents standard field methods for drilling and sampling soil borings and installing, <br /> developing and sampling ground water monitoring wells These procedures are designed to comply <br /> with Federal, State and local regulatory guidelines Specific field procedures are sununanzed below <br /> SOIL BORINGS <br /> Objectives <br /> Soil samples are collected to characterize subsurface lithology, assess whether the soils exhibit <br /> obvious hydrocarbon or other compound vapor or staining, and to collect samples for analysis at a <br /> State-certified laboratory All borings are logged using the Unified Soil Classification System by <br /> a trained geologist working under the supervision of a California Registered Geologist (RG) <br /> Soil Boring and Sampling <br /> Soil borings are typically drilled using hollow-stem augers or direct-push technologies such as the <br /> Geoprobe® Soil samples are collected at least every five ft to characterize the subsurface sediments <br /> and for possible chemical analysis Additional soil samples are collected near the water table and <br /> . at lithologic changes Samples are collected using lined split-barrel or equivalent samplers driven <br /> into undisturbed sediments at the bottom of the borehole <br /> Drilling and sampling equipment is steam-cleaned prior to drilling and between borings to prevent <br /> cross-contamination Sampling equipment is washed between samples with trisodium phosphate or <br /> an equivalent EPA-approved detergent <br /> Sample Analysis <br /> Sampling tubes chosen for analysis are trimmed of excess soil and capped with Teflon tape and <br /> plastic end caps Soil samples are labeled and stored at or below 4°C on either crushed or dry ice, <br /> depending upon local regulations Samples are transported under cham-of-custody to a State- <br /> certified analytic laboratory <br /> Field Screening <br /> One of the remaining tubes is partially emptied leaving about one-third of the soil in the tube The <br /> tube is capped with plastic end caps and set aside to allow hydrocarbons to volatilize from the soil <br /> After ten to fifteen minutes, a portable volatile vapor analyzer measures volatile hydrocarbon vapor <br /> concentrations in the tube headspace, extracting the vapor through a slit in the cap Volatile vapor <br /> analyzer measurements are used along with the field observations, odors, stratigraphy and ground <br /> water depth to select soil samples for analysis <br /> Page l of 9 <br />