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Mr Harlan Knoll, R E H S <br /> December 30, 2005 <br /> • Page 2 <br /> Figure 3a is a map showing the approximate potentiometnc surface for the six monitoring wells <br /> on October 30, 2005 and Figure 4a is that for December 05, 2005. The overall potentiometric <br /> surface configurations was domed centering in the vicinity of monitoring well MW-3 as has been <br /> the case for the quarterly monitoring events <br /> MW-3 is adjacent to the former remedial excavation boundary as shown on previous consultants' <br /> reports The monitoring wells were installed in 1990 and the former excavation occurred in 1996 <br /> MW-3 is at the center of the groundwater mound that has been persistent over the last several <br /> years and may be in hydraulic connection with the former excavation backfill This doming may <br /> be the result of higher permeability backfill used to backfill the excavation. <br /> MW-3 is also near the center of the triangle formed by monitoring wells MW-1, MW-2, and <br /> MW-4 The potentiometric surface for this well triangle for October 30, 2005 is shown in Figure <br /> 3b and for December 05,2005 in Figure 4b. Monitoring of the water levels and the <br /> potentiometric surface for the well triangle formed by monitoring wells MW-1, MW-2, and <br /> MW-4 independent of the domed center at MW-3 dampens the effect of the higher water level at <br /> MW-3 <br /> Monitoring well MW-4 is about 75 feet from Thornton Municipal Well No 2, MW-1 is at a <br /> • distance of about 113 feet and MW-2 is about 157 feet distant If there is a water level response <br /> in these wells from the pumping of Thornton Municipal Well No 2, monitoring well MW-4 <br /> should respond more than the more distant wells MW-1 and MW-2 Drawdown in these wells, <br /> particularly MW-4, should result in the potentiometric surface direction rotating toward the <br /> Municipal pumping well and the potentiometric surface gradient steepening toward the <br /> Municipal pumping well <br /> Submersible pressure transducer/data logger combinations were placed in monitoring wells MW- <br /> 1, MW-2, and MW-4 and a barometer was placed in the vicinity on Wednesday,November 30, <br /> 2005 These devices were set to record total pressure (overlying water plus the atmospheric <br /> pressure and their variations,regardless of the cause) every 20 minutes for a five day period <br /> extending through Monday, December 05, 2005 <br /> The pressure data recorded by the pressure transducer/data logger combinations are presented in <br /> Figure 5 The top graph is the response of the barometer and clearly shows the atmospheric <br /> response to the low front of the winter storm of December 1, 2005 and the diurnal pressure <br /> response on subsequent days <br /> The three lower graphs are the response recorded by the pressure transducer/data logger <br /> combinations set out in monitoring wells MW-1, MW-2, and MW-4 On each of these graphs, <br /> the black line (lower line to the left and higher line to the right)portrays the direct total pressure <br /> recorded, calibrated to the water surface elevation at the time of transducer removal <br /> • <br /> H20GEOL AGROUNDWATERCONSULTANCY <br />