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1 <br /> Geolagxj'Technics W Page 2 <br /> 3'Quarter 2002 Groundwater Monitoring Report <br /> Project No 507 2 <br /> January 17,2003 <br /> ' 1.0 GROUNDWATER MONITORING <br /> ' 1.1 Hydrogeology of Site <br /> ' The geology of the site is predominately clays and sandy clays with lesser amounts of silts <br /> and sands The average groundwater elevation was 11 74 feet below msl on September 16, <br /> 2002, which corresponds to approximately 17 feet below grade surface (bgs) This <br /> ' elevation represents a decrease of 1 63 feet since the June 2002 monitoring event A <br /> groundwater gradient was calculated for the event and found to be flowing N60°E at 0 003 <br /> ft/ft <br /> ' The gradient direction for the September monitoring event is shown in Figure 2, and the <br /> historical groundwater directions and gradients are shown in Figure 3, Groundwater <br /> Gradient Rose Diagram The groundwater elevation data are summarized in Table 1, <br /> Appendix A Table 5 provides a summary of monitoring well construction <br /> ' The groundwater gradient is relatively flat and the direction of groundwater has vaned <br /> during the course of the investigation As evident in Figure 3, groundwater exhibited a' <br /> strong bifurcated flow regime in 2000, trending predominantly to the southwest or north- <br /> northeast at approximately 180-degree direction reversal With the installation of wells <br /> MW-7 and MW-10 in May 2001, the direction had been to the east-northeast in six of seven <br /> ' events The site is quite close to the San Joaquin River and tidal fluctuations may contribute <br /> to some of the observed changes in groundwater direction <br /> ' Vertical Groundwater Gradients <br /> Under vertical groundwater flow conditions, the water level in a monitoring 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 /> ' O Determine the vertical distance between the two measuring devices by the distance from <br /> the mid-point between the top and bottom seal of the deep well (MW-109) and the mid- <br /> point between the groundwater elevation and the bottom seal in the shallow well (MW- <br /> 9) <br /> 9 Measure the head in both wells used in the calculations <br /> ' a 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 piezometnc 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 /> 1 <br />