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•Y <br /> al r <br /> h! I♦ <br /> The electric sounder is a transistorized instrument that uses a reel-mounted, two-conductor, <br /> coaxial cable that connects the control panel to the sensor Cable markings are stamped at 1-foot <br /> intervals The water level was measured by lowering the sensor into the monitoring well A low- <br /> current circuit was completed when the sensor contacted the water, which served as an <br /> electrolyte. The current was amplified and fed into an indicator light and audible buzzer, signaling <br /> when water had been contacted A sensitivity control compensated for highly saline or conductive <br /> water The electric sounder was decontaminated by being rinsed with deionized water after each <br /> use The bailer was lowered to a point dust below the liquid level, retrieved, and observed for <br /> floating hydrocarbon <br /> Liquid measurements were recorded to the nearest 0 01 foot on the depth to water/floating <br /> product survey form The groundwater elevation at each monitoring well was calculated by <br /> subtracting the measured depth to water from the surveyed elevation of the top of the well casing <br /> (Every attempt was made to measure depth to water for all wells on the same day ) Total well <br /> depth was then measured by lowering the sensor to the bottom of the well Total well depth, used <br /> to calculate purge volumes and to determine whether the well screen was partially obstructed by <br /> silt, was recorded to the nearest 0 1 foot on the depth to water/floating product survey form <br /> Well Purging <br /> Before sampling occurred, a polyvinyl chloride (PVC) bailer, centrifugal piunp, low-flow <br /> submersible pump. or Teflon bailer was used to purge standing water in the casing and gravel <br /> pack from the monitoring well Monitoring wells were purged according to the protocol <br /> presented in Figure B-1 In most monitoring wells, the amount of water purged before sampling <br /> was greater than or equal to three casing volumes Some monitoring wells were expected to be <br /> evacuated to dryness after removing fewer than three casing volumes These low-yield monitoring <br /> wells were allowed to recharge for up to 24 hours Samples were obtained as soon as the <br /> monitoring wells recharged to a level sufficient for sample collection If insufficient water <br /> recharged after 24 hours, the monitoring well was recorded as dry for the sampling event. <br /> Groundwater purged from the monitoring wells was transported in a 500-gallon water trailer, <br /> 55-gallon drum, or a 325-gallon truck-mounted tank, to EMCON's San Jose or Sacramento <br /> office location for temporary storage EMCON arranged for transport and disposal of the purged <br /> groundwater through Integrated Waste Stream Management, Inc <br /> Field measurements of pH, specific conductance, and temperature were recorded in a waterproof <br /> field logbook Figure B-2 shows an example of the water sample field data sheet on which field <br /> data are recorded Field data sheets were reviewed for completeness by the sampling coordinator <br /> after the sampling event was completed <br /> The pH, specific conductance, and temperature meter were calibrated each day before field <br /> activities were begun The calibration was checked once each day to verify meter performance <br /> Field meter calibrations were recorded on the water sample field data sheet. <br /> SAON\PJft80M805145(17DS-9"b 2 A-4 Rev 0 10/25(96 <br />