Laserfiche WebLink
' eofo icaf?ecfanus Ziu Page 3 <br /> � � g <br /> Groundwater Monitoring Report <br /> Project No 507 2 <br /> Juice 19, 2001 <br />' Figure 2 shows the location of the well cluster used for calculating the vertical groundwater <br /> gradient in this report, MW-9 and MW-109 Table 1 shows Summary of Water Level and <br /> Gradients Slope and Bearing, and Table 2 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 /> 0 Vertical head [(head of deep well) - (head of shallow + correction) = vertical head] <br /> • Vertical gradient [(vertical head) / vertical distance) = vertical gradient] <br /> For the May 1, 2001, monitoring event, a vertical gradient was calculated for the MW- <br /> 9/MW-109 pair The vertical gradient was negative (a downward direction) and twice the <br /> magnitude of the horizontal gradient of the water table <br /> 1.2 Groundwater Sampling Pi ocedure <br /> ' On June 1, 2001, Don Light of Del-Tech mobilized to the site to conduct groundwater <br /> monitoring of the eight existing monitoring wells <br /> Before sampling was attempted the wells were sounded for depth to water and then a clear <br /> disposable bailer was used to determine if floating product was present The wells were <br /> purged of at least three well volumes of stagnant water using a dedicated Waterra check-ball <br /> assembly and % inch tubing .purging continued until the temperature, conductivity, and pH <br /> of the groundwater stabilized (<10% variation between three readings), indicating that <br /> formation water representative of aquifer conditions was entering the wells These water <br /> quality parameters were measured at intervals of each well volume purged <br /> ' Once purging was complete, a water sample was collected from the Waterra tube Care was <br /> taken to minimize sample agitation Once the sample container was filled and capped, the <br /> bottle was inverted, tapped, and checked for headspace bubbles The sample container was <br /> ' identified and labeled with a unique designation, inserted into a foam holder and placed in <br /> an ice chest cooled to 4°C for transport to the laboratory <br /> All non-disposable sampling equipment was decontaminated using a hot water washer and <br /> detergent before and between uses Disposable gloves were used by the technician to <br /> collect all samples and were changed with each sample collection <br /> A chain of custody document, listing all samples collected, accompanied the samples from <br /> live <br /> field to laboratory, thereby providing a means to track their movement and insure their <br /> integrity <br /> 1 <br />