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'C6 <br /> well caps. Well constructiolz diagraiiis are included with the boring; <br /> logs in .Appendix G. <br /> AN A'f'FlT I,F :I.NIii.A�1 F01'.NS <br /> �I <br /> Following well completill. Noebunch of <br /> ark waslavailable,casing so thevveil <br /> to determine its elevatilo , dock surface at Valley Welding Supply <br /> were referenced to the ln�;dingy <br /> which was depth to groundwater was mation ss ed inerelation tot e top <br /> level. The del <br /> of each casing. Water levels were then measured just prior t� well <br /> development using; file wetted tape method. Groundwater elev,itias <br /> referenced to the arbitrary datuill are shown in Table 2-2. <br /> Table 2-2 <br /> January Gr•ounclivalerlevations <br /> Casino Llr <br /> -(xW El ave ti no <br /> Well # -37.14 ft <br /> SFW-1 +23.8 -37.65 ft <br /> SFW-2 +20'7 -37.51 ft <br /> SFW-3 +18.1 <br /> nrtnlylTOR1N_ ' 1�L DT,A I..n-p17I:N'I' <br /> the wells following their <br /> Teflon bailer3 were used to develop prior to developing <br /> completion. The bailers were decontaminated p developed by bailing <br /> each well ry washing Nvith an Alconn`ng velll dowas and pnpie-rinsing <br /> with deionized water. Each montH�and temperature measurements <br /> r until consecutive conductivity, p <br /> stabilized. Table 2-3 summarizes sampling num <br /> g andotheestableup13> <br /> removed from each ' rwell 1 <br /> temperature and conductivity measurements. Table 2-3 <br /> Kron i tori ng Well DeveloPment Data <br /> l Tempel atui:-e Conductivity <br /> Well# Volumes Bailed 17.5°C 18AIS <br /> 5 6.78 1930;►5 <br /> SFW-1 SFW-3. 6,74 17.50C 2000uS <br /> SFW-2 6 6,71 17.5°C <br /> 2-7 <br />