Laserfiche WebLink
2. Rinse the turbidity probe with deionized water then place in the standard solt bort. <br /> 3. Adjust the meter for appropriate turbidityscate then read the twbidity. <br /> 4. If required use the " c" 4ustruent on the meter to correct the ' umerit to read <br /> the coatct turbidity. <br /> The calibration,process wiUbe recorded on a turbidity 'on log. A Sample QJibration <br /> LOS i$ located in Appendix C. Copies of calibration logs dor each individual finumment are kept <br /> to a binder at the office. 7he logs am=viowed periodically int is <br /> becoming mom difficult to therefm needs adjustment by the , or if <br /> new probes.are required. <br /> Equipment Decontamirtation <br /> To reduce the ktential for introducing contaminants or ting samples, sampling <br /> equipme= that is used repeatedly at different weUs (wi4ine falo4 meters) will be v4zished in a <br /> phosphate solution and t apit a=d with ddonized water prior to-ate -welt.,. <br /> The Mcrnitoring wells am equipped with dedicatedsampling systernsr vddch-win not. >< <br /> d0cOntmumation. Sterile factory seated disposable baffers am used to collect the sampl,= Bzn,= <br /> cord is replaced between each well„ <br /> Monikndng Order <br /> GrOundM031cr monitoring be conducted suchthat depth to wat=measurcmtuts and S=phng <br /> Is Pedorrried is the least coresults). Measurement and <br /> sampling order will tbea move from lew=up s.+ This is <br /> done to reduce the potential "duit wells and samples can be am <br /> contaminated. Graundwaw <br /> 01*4toring order ' at -20 anod d=MW-12,whichThe next <br /> WtUs.1isted in order, to he sampled am MW-15, -ltd, -1 and-3. Mteso wells tw* contain. <br /> evidence a of Chemical Impact& Tho last weffs to be sampled,HSW in order.kctude MSV"-14,,-13 <br /> d -2.. ' Pmposed wttl 16 will be sampled in an ippropriate order depending on wbAt <br /> constitu=ts am detectedy, 16 Wtu be <br /> the last well pled! <br /> 0 73483 9- ]M IOg325 A-5 J*14,�o <br />