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w <br /> r <br /> AEGIS ENVIRONMENTAL, INC. <br /> STANDARD OPERATING PROCEDURE <br /> RE: HOLLOW-STEM AUGER MONITORING WELL INSTALLATION AND <br /> DEVELOPMENT <br /> SOP-6 <br /> Boreholes for monitoring wells are drilled using a truck-mounted, hollow-stem auger drill <br /> rig. The borehole diameter will be a minimum of 4 inches larger than the outside diameter <br /> of the casing when installing well screen. 'The hollow-stem auger provides minimal <br /> interruption of drilling while permitting soil sampling at desired intervals. Soil samples are <br /> collected by either hammering or hydraulically pus ing a conventional split-barrel sampler <br /> containing pre-cleaned 2-inch-diameter brass tubes. A geologist or engineer from Aegis <br /> Environmental, Inc., continuously logs each boreho a during drilling and constantly checks <br /> drill cuttings for indications of both the first recogni able occurrence of groundwater and <br /> volatile hydrocarbons using 'either a portable pho oionization detector, flame ionization <br /> detector, or an explosimeter. The sampler is rinsE d between samples and either steam <br /> cleaned or washed with all other drilling equipment between borings to minimize the <br /> potential for cross-contamination. <br /> Monitoring wells are cased with threaded, factory-p rforated and blank Schedule 40 PVC. <br /> The perforated interval consists of slotted casing, generally with 0.020-inch wide by <br /> 1.5-inch long slots, with 42 slots per foot. A PVC cap may be secured to the bottom of <br /> the casing with stainless steel screws; no solve is or cements are used. Centering <br /> devices may be fastened to the casing to ensure even distribution of filter material and <br /> grout within the borehole annulus. The well casing is thoroughly washed and/or steam <br /> cleaned, or may be purchased as pre-cleaned, pr or to installation. <br /> After setting the casing inside the hollow-stem auger, sand or gravel filter material is <br /> poured into the annular space to fill from boring ottom to generally 1 foot above the <br /> perforated interval. A 1- to 2-foot thick bentonite lug is set above this filter material to <br /> prevent grout from infiltrating into the filter pack. Either neat cement, containing about <br /> 5 percent bentonite, or sand-cement grout is then remmied into the annular space from <br /> the top of the bentonite plug to near surface. A traffic-rated vault is installed around each <br /> wellhead for wells located in parking lots or drivewa s, while steel "stovepipes" are usually <br /> set over wellheads in landscaped areas. <br /> After installation, the wells are thoroughly develop d to remove residual drilling materials j <br /> from the wellbore, and to improve well performance by removing fine material from the . <br /> filter pack that may pass into the well. Well development techniques used may include <br /> pumping, surging, bailing, swabbing, jetting, flushing, and air-lifting. All development <br /> water is collected either in drums or tanks for temporary storage, and properly disposed <br /> of depending on laboratory.analytical results. To minimize the potential for cross- <br /> contamination between wells, all development equipment are either steam cleaned or <br /> properly washed prior to use. <br /> ATTACHMENT/50P-6/557EMBER 1942 <br /> i <br />