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21 March 2003 <br /> AGE-NC Project No. 95-0114 <br /> Page 4 of 10 <br /> hydrologic characteristics (i.e. hydraulic conductivity, transmissivity, etc.) over its vertical and <br /> horizontal extent. A `flow unit' may be defined as a hydrologic unit and is characterized by <br /> significantly greater hydraulic conductivity values than overlying and underlying units. A flow unit <br /> is capable of serving as a preferred migration route, and could potentially allow migration of large <br /> contaminant masses over great distances. <br /> The seven hydrologic units are as follows (depths are approximate and can vary by several feet <br /> across the site): <br /> Vadose Zone - Extending from surface grade to 25 feet bsg. The vadose zone is predominantly fine <br /> grained material from surface grade to 20 feet bsg, with a clay occurring between 20 feet and 40 to <br /> 50 feet bsg across portions of the site. <br /> Hydrological Units 1, 3 and 5 (HU1, HU3 and HU5) are clay layers characterized by low pore <br /> pressure. HU1 is located at the top of the current saturated zone (25 feet bsg) and extends to 40 to <br /> 50 feet bsg. HU3 and HUS are located at depths of approximately 60 and 80 feet bsg, respectively, <br /> and vary in thickness between i and 10 feet. <br /> Hydrological Units 2, 4 and 6 (HU2, HU4 and HU6) are composed dominantly of interbedded silts <br /> and clays,with minor layers of silty sand, sand and cemented sand. These intervals are characterized <br /> by pore pressure variations from low to high pressure,with no laterally consistent pressure patterns. <br /> In general, the lower dynamic pore pressures are associated with clay- and sand-rich intervals, <br /> whereas higher pressures are mainly associated with clayey silts and "stiff fine-grained" intervals <br /> below 100 feet bsg. Significant and continuos sand are present at approximately 70 feet, 110 feet bsg <br /> and 120 feet bsg, and below that depth on-site. <br /> 3.0. SCOPE OF WORK <br /> AGE proposes to advance four soil borings using hollow-stem auger techniques for installation of <br /> `multi-level' ground water monitoring wells to monitor the dissolved hyrcarbons.The scope of work <br /> will include the following tasks: <br /> • Permitting and pre-field work activities; <br /> • Advancement of pilot borings for multi-level monitoring wells, and soil sample collection <br /> and analysis; <br /> • `Multi-level' monitoring well installation, development, sampling and analysis; and <br /> • Report preparation. <br /> Advanced GeaEnvironmental,Inc. <br />