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Clayton <br /> • It ♦1+1 <br /> Soil samples selected for laboratory analysis are lett in the brass liners, sealed with alumin4m <br /> foil and plastic caps, taped for air tightness, labeled, and immediately placed into a pre-cooled <br /> icc chest chilled to less than 4°C Labels contain the following information site name, date <br /> and time sampled, borehole number and depth, and the sampler's initials The samples are <br /> transported under chain-of-custody to a state-certified laboratory. The laboratory analyzes <br /> soil samples within the prescribed holding time, storing thein at temperatures below 4°C at all <br /> times <br /> Pending results of laboratory analysis, excess drilling and sampling cuttings are placed into <br /> Department of Transportation (DOT)-approved drums, labeled with the name of the site, <br /> address, and well number, and left at the -zite Uncontaminated soil may be disposed of by <br /> the client Soil found to conta,n levels of contaminants above local or state action levels will <br /> require that the client dispose of it in accordance with hazardous waste regulations At the <br /> c,ient's request, we will assist with the disposal of contaminated soil <br /> Boreholes are converted to monitoring wells by placing 2-inch or 4-inch diameter well casing <br /> with flush-threaded points and slotted screen into the borehole Construction materials <br /> include polyvinyl chloride (PVC), stainless steel, or low carbon steel The most suitable <br /> material for a particular installation will depend on the parameters to be monitored All <br /> screens and casings used are in a contaminant-free condition when placed in the ground. No <br /> thread lubrication is used, other than teflon tape, for connecting the casing segments <br /> Wells extend at least 10 feet into the upper saturated zone, but do not extend through any <br /> clay layers greater than 5 feet that are below the shallow water table. Factory-slotted casing <br /> is used throughout and extends at least 2 feet above the permeable water-bearing zone. The <br /> top of the well is solid casing. The annular space of the borehole is backfilled with washed, <br /> Kiln-dried sand to a point at least 1 foot above the slotted screen A seal above the filter <br /> pack is formed by placing a 1- to 2-foot layer of bentomte pellets on top of the sand. The <br /> bentonite pellets are moistened by pouring clean tap water down the hole so that they can <br /> expand and seal the annulus. A neat cement groiat is placed above the bentonite seal and <br /> brought to the ground surface, <br /> Well casings are protested from surface contamination, accidental damage, and unauthonzed <br /> entry or tampering with water-tight locking caps on the well casings The caps are usually <br /> surrounded by a concrete vault Wells are clearly identified with a metal tag or other device <br /> where the followhig information is recorded well number, depth to water, depth of well, <br /> casing data including location of screened interval <br /> The well seal in newly developed wells must set up for 48 to 72 hours prior to development <br /> Since development of the well can volatilize contaminants present, the well must also settle <br /> for at least 48 to 72 hours between development and the first purging/sampling incident <br /> All monitoring wells are initially developed to clean the well and stabilize sand, gravel, and <br /> disturbed aquifer materials around the screened internal perforations Wells are developed <br />