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system operation: R604 UPDATE 21 9-1--1993 <br /> Currently a flow rate that fluctuates between 82 cubic feet per <br /> . minute and 89 cubic feet per minute is being maintained through <br /> the two blowers that are placed in series, prior to exhausting <br /> through 2 (in series) 110 gallon and one 85 gallon activated <br /> carbon vapor scrub units. These are serviced by Exceltran and <br /> Cameron Yakima for change-out and rejuvenation From June 18, to <br /> July 19, 1993 the system has operated 619 hours and recovered 140 <br /> pounds of gasoline range hydrocarbons or approximately 5 . 4 pounds <br /> per day, which is approximately half of the production during <br /> last update status report of 9 . 8 pounds per day <br /> METHODS AND QA/QC <br /> WELL SAMPLING AND ANALYTICAL TECHNIQUES <br /> Depth to ground water and vacuum measurements were obtained from <br /> all of the ground water monitoring wells on July 19, 1993 Depth <br /> to top of fluid and ground water measurements were obtained using <br /> a clean product water interface probe The probe, lowered into <br /> the well attached to a tape calibrated in 0 02 foot intervals, <br /> signals at the contact of floating product and at the top of <br /> ground water The measurement is obtained from the calibrated <br /> tape reading adjacent to a reference point on the casing The <br /> probe is cleaned with trisodium phosphate water followed by a <br /> distilled water rinse before measuring the next well <br /> Measurements are started at the historically cleanest wells and <br /> progress to the dirtiest wells All depth to ground water <br /> measurements were obtained before purging the wells for sampling <br /> • The depth to water is then subtracted from the elevation of the <br /> casing' s reference point for a corrected ground water elevation <br /> A computer generated gradient program was not utilized The more <br /> interpretive gradient map was developed by calculating the <br /> gradient from each well to all surrounding wells (difference in <br /> ground water elevations/distance between wells) , "a e '1 MW1 to <br /> MW2, MW to MW3 , MW1 to MW4 , and MW1 to MW6 Depth to ground <br /> water data from MWS as not used, this well was installed in a <br /> slant boring and produced an anomalous high when used. From <br /> these gradient lanes, data points representing the contact for <br /> the proposed contours are plotted along each individual lane . <br /> Once the data points have been plotted between all the wells, the <br /> data points representing a given gradient elevation ( -45 foot <br /> contour, for example) are connected with site specific factors, <br /> "a e. " incorporating conditions caused by local geology, <br /> hydrogeology, utility trenches, etc These are used to control <br /> the contour between data points This site is presently being <br /> influenced by vapor extraction at MW5, VSB3 , VSB5, VSB9 and <br /> VSB11 A vacuum at these wells and surrounding wells will <br /> influence the shape of the ground water surface and subsequent <br /> flow directions of the ground water. To obtain representative <br /> measurements that show the influence by the vacuum extraction at <br /> this site, a vacuum measurement is obtained at the well head <br /> before removing the cap and the subsequent depth to water <br /> measurement is corrected for the negative vacuum head <br /> (potentaometric head) <br /> page 4 <br />