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STANDARD OPERATING PROCEDURE <br /> SOIL BOREHOLE DRILLING, REMEDIATION WELL INSTALLATION,AND SOIL SAMPLING <br /> I Drilling and Soil Sampling <br /> Permits, Site Safety Plan Utilrty Clearance <br /> ATC Associates Inc (ATC) obtains all the required permits, unless otherwise contractually directed ATC <br /> prepares a site specific Site Safety Plan detailing site hazards, site safety and control, decontamination <br /> procedures, and emergency response procedures to be employed throughout the defined phase of work At <br /> least 48 hours prior to drilling Underground Service Alert (USA) or an equivalent agency is notified of the <br /> planned work ATC attempts to locate all underground and aboveground utilities by site inspection (in <br /> conjunction with its' subcontractors and knowledgeable site managers, if available), and review of site as- <br /> built drawings ATC may employ a private,professional utility locator to refine the site utility inspection <br /> Drilling Equipment <br /> All soil borings are drilled using a truck-mounted hollow-stem auger drill rig, unless site conditions warrant <br /> a different drilling method Subsurface conditions permitting, the first five feet of each boring is advanced <br /> using a hand-auger or post-hole digger All drilling equipment is inspected daily and maintained in safe <br /> working condition by the operator All down-hole drilling equipment is steam cleaned prior to arriving on <br /> site Working components of the drill rig near the borehole, as well as augers and drill rods are thoroughly <br /> steam cleaned between each boring location All ATC drilling and sampling methods are consistent with <br /> ASTM Method D-1452-80 and local, stale and federal regulations <br /> Soil Sampling and Lithologic Description <br /> Whenever possible and approved by the appropriate regulatory agency, the first ATC boring to be drilled at <br /> a site is continuously cored to obtain a complete lrthologic description Otherwise, soil samples are typically <br /> collected every 5 feet to the total depth explored, using brass tubes fitted in a California-modified split- <br /> spoon sampler If copper or zinc contamination is the subject of the investigation, stainless steel liners are <br /> used instead of brass Additional soil samples may be collected based upon significant changes in lithology <br /> or in areas of obvious soil contamination During soil sample collection, the split spoon sampler is driven 18 <br /> to 24 inches past the lead auger by a 140-pound harnmer falling a minimum of 30 inches The number of <br /> blows necessary to drive the sampler and the amount of soil recovered is recorded on the Field Exploratory <br /> Soil Boring Log The soil sampler and liners are cleaned with an Alconox® solution and rinsed with tap <br /> water prior to each sampling event New liners are used whenever a soil sample may be retained for <br /> laboratory analysis <br /> Soil samples selected for laboratory analysis are sealed on both ends with Teflon®tape and plastic end caps <br /> The samples are labeled, documented on a chain-of-custody form and placed in a cooler for transport to a <br /> state-certified analytical laboratory Soil contained in remaining liners is removed for lrthologic descriptions <br /> (according to the Unified Soil Classification System) Additional soil is screened for organic vapors by <br /> placing approximately 30 grams of soil in a sealed plastic bag or a glass jar sealed with aluminum foil The <br /> bag or far is left undisturbed for approximately 15 minutes, in the sun if possible The headspace in the bag <br /> is accessed in a manner to minimize entry of outside air, and is tested for total organic vapor using a <br /> calibrated photo ionization detector (PID) The results of the field screening are noted with the lithologic <br /> descriptions on the Field Exploratory Soil Boring Log <br /> On encountering an impermeable (clayey) layer three feet or more in thickness below a saturated permeable <br /> layer, where the impermeable layer is considered to be a possible confining layer for an underlying aquifer, <br /> drilling is halted until a decision to proceed is obtained from the project manager This process minimizes <br /> the chance of introducing contamination to an underlying, clean aquifer <br />