Laserfiche WebLink
"� w -� �r _ ,,.� � a7 a-�.,, y;,y � x y. x "� -,y=3- � t s �a'S: � •� _ <br /> r <br /> t.� <br /> FIMW PROCEDURES FOR PREVIOUS WORK <br /> .2teSAbLPlau <br /> Field work performed by Applied GeoSystems at the site was conducted in accordance with <br /> Applied Geosystems' Site Safety Plan. This plan describes the safety requirements for <br /> drilling soil borings at the site. The Site Safety PIan is applicable to personnel and <br /> subcontractors of Applied GeoSysten::;. Applied GeoSystems'personnel and subcontractors <br /> scheduled to perforin work at the site were briefed on the contents of tae Site Safety Plan <br /> before work began. A copy of the Site Safety Plan was available for reference by <br /> appropriate parties during the work. The onsite Staff Geologist of Applied GeoSystems <br /> acted as LLhe Site Safety Officer. <br /> 0'1 Bo 'n s <br /> Before drilling,Applied GeoSystems notified Underground Service Avert of our intent to <br /> drill so that approximate locations of underground utility lines and structures could be <br /> a+ marked. We hand-augered each boring to a depth of approximately 5 feet below grade to <br /> attempt to locate underground structures. The borings were drilled with a CME 55 drill rig <br /> equipped with 7- and 8-inch-diameter, hollow-stern allgers. <br /> of amnling� Aoring_s <br /> Soil samples were collected at 5-foot intervals from the ground surface to the full depth of <br /> the borings. The soil samples were collected by advancing the boring to a point immediately <br /> above the sampling depth, and then driving a California-modified, split-spoon sampler <br /> containing equipped with clean brass sleeves through the hollow center of the auger into <br /> the undisturbed native soil. The sampler and brass sleeves were steam-cleaned or washed <br /> thoroughly with a laboratory-grade, non-phosphatic detergent and water before each use. <br /> The sampler was driven 1S inches with a standzrd 140-pound hammer repeatedly drooped <br /> 30 inches. The number of blows to drive the sampler each successive 6 inches were counted <br /> and recorded to evaluate the relative consistency of the soil. <br /> u+ During sampling, the geologist used a field photoionization detector (PID) to characterize <br /> therelative levels of hydrocarbons. Field instruments such as the PID are useful for <br /> indicating relative levels of hydrocarbon vapors, bi1t do not detect the concekttration of <br /> s hydrocarbons present with the same precision as laboratory analyses. One of the samples <br /> in braes sleeves not selected for laboratory analysis at each sampling interval was tested in <br /> M* the field using an PID. This testing was performed by placing the intake probe of the PID <br /> against the soil after opening the brass container. <br /> 1 <br /> Apel/led 49eoSysteJ7VV <br />