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CA ARNG Field Quality Assurance Project Plan <br /> 4.0 DRILLING METHODS <br /> 4.1 Permitting <br /> All necessary permits will be obtained from appropriate CA ARNG personnel and/or other local agencies <br /> personnel prior to commencement of any drilling operations,including construction,repair,or <br /> destruction of wells. <br /> 4.2 Cone Penetrometer Testing <br /> 4.2.1 The CPT direct push technique is a rapid method for characterizing subsurface conditions to <br /> depths of 100 feet or greater.In addition to characterizing subsurface geology,CPT has been modified to <br /> allow for collection of soil vapor,soil,and groundwater samples.The CPT assembly consists of a small <br /> diameter, instrumerited probe(the penetrometer)with an attached string of sounding rods,electronic <br /> cables,a hydraulic ram,and a computerized acquisition and display system.The assembly and support <br /> equipment is typically mounted on a CPT truck(e.g.,a 20-ton rig), which is mobilized to the designated <br /> sampling location.The test involves hydraulically pushing the probe into the ground while the computer <br /> system analyzes the soil response to penetration.Soil resistance,acting on the tip and along the sides of <br /> the penetrometer,is measured during penetration.The hydraulic ram is used to push the rod string and <br /> penetrometer into the ground using a specially designed truck that can deliver up to 20 tons of force to <br /> the rod.Electronic signals-from the penetrometer sensors are transmitted by-a cable,strung through the <br /> hollow sounding rods,to the data acquisition/display computer system at the surface.The total depth <br /> sounded at each location will be determined jointly by the field geologist and the CPT analyst based on <br /> the geologic profile encountered in the hole. <br /> } 4.2.2 Measurements are made in S centimeter depth increments and real-time data as well as graphs <br /> (i.e.,depth vs. tip resistance and depth vs. sleeve resistance)are available immediately after soundings. <br /> The field geologist will collect the real-time data,complete a CPT log data sheet(Figure 4-1 at the end of <br /> the section),and keep a daily log of events and observations in a field notebook. <br /> 4.2.3 Before initiation of the testing,the field geologist and the selected subcontractor will conduct CPT <br /> adjacent to existing monitoring wells or borings to compare and calibrate the penetrometer sensor <br /> response to the known site-specific lithology.This calibration will consist of a comparison between the <br /> logs generated by CPT and other drilling methods. It will also allow for enhanced geologic interpretation <br /> ,through cross-section generation using both types of logs.This comparison provides control for the CPT <br /> data so an accurate evaluation of the subsurface can be made. <br /> 4.3 Hollow-Stem Auger Drilling <br /> 4.3.1 The hollow-stem auger(HSA)drilling technique is used for collection of soil samples in the <br /> vadose zone for HydroPunchO groundwater sampling. It is also used when groundwater monitoring wells <br /> are to be completed in the saturated zone.The HSA technique is commonly used for both vertical and <br /> slant soil boring investigations.No drilling fluids or lubricants are used,minimizing the potential for <br /> cross contamination or infiltration of materials into the formation. <br /> 4.3.2 The HSA technique involves constructing a borehole by simultaneously rotating and axially <br /> advancing the auger column into unconsolidated or poorly consolidated formations.As the augers are <br /> rotated and advanced into the ground,they act as casing to stabilize the borehole.The pilot bit and teeth <br /> on the auger head drill into the soil and direct the cuttings to the auger flights.As the augers are rotated <br /> the cuttings are brought to the surface by moving along the continuous flights on the outside of the <br /> field QAPP.DOC 4-1 May 2000 <br />