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Equipment Cleaning <br /> Sample bottles, caps, and septa used in sampling for volatile and semivolatile organics were <br /> triple rinsed with lugh-punty deionized water After being rinsed, sample bottles were dried <br /> overrught at a temperature of 200°C Sample caps and septa were dried overnight at a <br /> temperature of 60°C Sample bottles, caps, and septa were protected from solvent contact <br /> between drying and actual use at the samphng site Sampling containers were used only once <br /> and discarded after analysis was complete <br /> Plastic bottles and caps used in sampling for metals were soaked overrught in a 1 percent nitric <br /> acid solution Next, the bottles and caps were triple rinsed with deionized water Finally, the <br /> bottles and caps were air dried before being used at the site Plastic bottles and caps were <br /> constructed of linear polyethylene or polypropylene Sampling containers were used only once <br /> and discarded after analysis was complete <br /> Before the sampling event was begun, equipment that was to be placed in the well or would <br /> come in contact with groundwater was disassembled and cleaned thoroughly with detergent <br /> water, and then steam cleaned with deionized water Any parts that could have absorbed <br /> contaminants, such as plastic pump valves, etc , were cleaned as described above, or replaced <br /> If a positive displacement (bladder) pump is used the inside surfaces of the pump tubing were <br /> cleaned by heating the tubing overnight at 120°C with a low-flow, inert air source <br /> Once the bladder pump was cleaned and reassembled, a pump blank was obtained by pumping <br /> organic-free water through the bladder pump assembly The pump effluent was sampled and <br /> analyzed by EPA Method 601 or EPA Method 602 The pump effluent analysis results had to <br /> have registered below the method reporting limit for each parameter before the pump was <br /> taken to the site for use <br /> During field sampling, equipment Surfaces that were placed in the well or contacted <br /> groundwater were steam cleaned with deionized water before the next well was purged or <br /> sampled <br /> Water Level, Floating Hydrocarbon, and Total Well Depth Measurements <br /> Before purging and sampling occurred, the depth to water,floating hydrocarbon thickness, and <br /> the total well depth were measured using an interface measuring system. The oil/water <br /> interface measuring system consisted of a probe that emitted a continuous audible tone when <br /> immersed in a nonconductive fluid, such as oil or gasoline, and an intermittent tone when <br /> immersed in a conductive fluid, such as water The floating hydrocarbon duckness and water <br /> . level were measured by lowering the probe into the well Liquid levels were recorded relative <br /> sALW\Pi2\2520%252aio00 IGS-94\pas i <br />