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§eofogicaf7edmtes Inc Page 2 <br /> Groundwater Monitonng Report <br /> Project No 770 2 <br /> ' May 14,2002 <br /> 1.0 GROUNDWATER MONITORING <br /> ' 1.1 Hydrogeology of Site <br /> The site exhibits a pnmanly silty/clayey geology with minor sand layers/lenses, pebbles, <br /> ' black organics and iron staining occasionally present The groundwater elevation on March <br /> 11, 2002, averaged—34 40 feet mean sea level (MSL) or—59 feet below grade surface (bgs) <br /> ' This represents an increase of 1 74 feet since the December 2001 monitoring event <br /> A groundwater gradient was calculated for the March 2002 monitoring event and found to <br /> ' be flowing S45°E at 0 0004 ft/ft Groundwater elevation and gradient data are summarized <br /> in Table 1, Appendix A Gradient direction is shown on Figure 2 Gradient Map The <br /> historical gradients are illustrated in Figure 3 Groundwater Gradient Rose Diagram The <br /> ' site displays highly variable shifts in groundwater direction <br /> Vertical Groundwater Gradients <br /> Under vertical groundwater flow conditions, the water level in a monitonng well is a <br /> function of the length of the well screen and its depth or vertical position in the aquifer As <br /> with horizontal flow conditions, the diameter of the well or piezometer is immaterial <br /> The following procedure is used to calculate vertical groundwater gradient <br /> Determine vertical distance between the two measuring devices by the distance from the <br /> mid-point between the top and bottom seal of the deep well (MW-105) and the mid- <br /> point between the groundwater elevation and the bottom seal in the shallow well (MW- <br /> 5) <br /> ' . Measure the head in both wells used in the calculations <br /> • If the lateral distance between the well pair is greater than a few feet, then calculations <br /> ' must be made to correct the down-gradient piezometric head to account for the sloping <br /> water table between the wells The calculation considers the slope of the water table and <br /> the distance in a down-gradient direction between the two wells used in the calculations <br /> Figure 2 shows the location of the well cluster, MW-5 and MW-105, used for calculating <br /> vertical groundwater gradient in this report Table 1 shows Summary of Water Level and <br /> Gradients Slope and Bearing, and Table 3 shows the calculated vertical gradients The <br /> information used in the calculations is shown below <br /> Vertical gradient calculation formulas are as follows <br /> Vertical correction for gradient [(gw gradient slope) x (distance) = vertical correction] <br /> • Vertical head [(head of deep well) - (head of shallow+ correction) = vertical head] <br /> • Vertical gradient [(vertical head) /vertical distance) = vertical gradient] <br /> f <br /> tF <br /> b <br />