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well by subtracting the depth-to-water measurement from the top-of-casing reference <br /> elevation. The current groundwater elevation data for the Forward Unit is summarized in <br /> Table 2-3. <br /> The groundwater elevation data obtained during the fourth quarter 2009 monitoring <br /> period were used to generate the groundwater elevation contour map shown on Figure <br /> 2-1, which indicates that groundwater generally flows to the north-northeast towards the <br /> Austin Unit, at an average hydraulic gradient of approximately 0.00 1 ft/ft. <br /> To calculate the approximate linear groundwater flow velocity for the site, conservative <br /> assumptions were used, including a hydraulic conductivity of 875 gallons per day per <br /> square foot(0.04 cm/sec) and an estimated effective porosity of 35 percent (CH2M Hill <br /> 2000). An estimated groundwater flow velocity was calculated using Darcy's Law: <br /> Ki CM 0.001 sec- ft <br /> V [(0.04 2835 0.324 ft/day <br /> ne sec 0.35 cm - day <br /> where: V=Groundwater flow velocity. <br /> K=Hydraulic conductivity of the water-bearing unit(0.04 cm/sec). <br /> i=Hydraulic gradient: i�0.001 for the site during the fourth quarter 2009. <br /> n,=Effective porosity(ne=0.35);an estimated value. <br /> The groundwater flow rate is calculated to be 0.324 feet/day(118 feet/year). <br /> 2.1.4 Detection Monitoring Program <br /> Field and laboratory results for the groundwater monitoring wells for the fourth quarter <br /> 2009 are summarized in Table 2-2. As shown on Table 2-2, 1,1-dichloroethane(1,1- <br /> DCA)was measured at an estimated trace concentrations(between the method detection <br /> limit [MDL] and the practical quantitation limit [PQL]), and dichlorodifluoromethane <br /> (DCDFM) and trichlorofluoromethane (TCFM)were measured above the PQL in the <br /> sample collected from well MW-10. <br /> On behalf of Forward Inc., GLA prepared a letter report dated February 14, 2001 <br /> (RWQCB Case No. 2209), to assess the source and potential impacts of low-level VOCs <br /> in groundwater adjacent to the Forward Landfill. The letter report concluded that the <br /> sporadic detection of low-level VOCs in groundwater(and lysimeter samples) at the <br /> Forward Unit are most likely due to landfill gas from unlined unit WMU-B. Forward has <br /> continued to minimize gas related impacts to groundwater by limiting interim fill areas <br /> that promote ponding of water. Furthermore, in accordance with CCR Title 27, Section <br /> 20937, Forward continues to install additional landfill gas extraction wells, as needed. <br /> New Historical Intrawell Maximum Values <br /> As shown in the table below, two new historical intrawell maximum values were <br /> measured in samples collected from groundwater monitoring wells at the Forward Unit <br /> DA2M_0017\FA_4QQ9.doc <br /> 5 GeoLogic Associates <br />