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• I! <br /> SIERRA <br /> SES STANDARD OPERATING PROCEDURE <br /> MONITORING WELL DESIGN AND CONSTRUCTION <br /> Where possible, information from published and unpublished reports is reviewed prior to <br /> installation of monitoring wells. Relevant. data includes highest and lowest anticipated ground <br /> water elevations, aquifer materials, aquifer yield and contaminants expected. This information <br /> is used to aid the field geologist rather than to predetermine how the wells will be constructed. <br /> Well construction is based on site specific conditions and is determined in the field after discussion <br /> with the senior geologist. <br /> The wells are screened to monitor the first water-bearing zone encountered. If high ground <br /> water conditions exist the top of the well screen may be set at static water level or below static <br /> water level. <br /> Fifteen feet of well screen will be used in the wells (five feet above static ground water and <br /> ten_feet below static water)' unless a five foot clay layer is encountered. If a clay layer is <br /> encountered. it will be confirmed by sampling. The sampling hole into the underlying confining <br /> layer will be sealed with bentonite pellets and the well screen will terminate 0 to 1 foot into the <br /> clay layer. When field observations indicate that low permeability materials are acting as an <br /> aquitard to prevent. movement of cont.aruinants less screen may be used. <br /> Monitoring wells are constructed with flush-threaded, 2-inch or 4-inch diameter, slotted <br /> PVC, stainless steel or teflon well screen and PVC, stainless steel or teflon blank casing. Number <br /> 3 or #212 sand is used in the annular space around the well screen. The sand is placed into the <br /> annular space around the well screen to approximately 2 ft above the top of the well screen. If <br /> high ground water conditions exist, the sand may be placed 0 to 1 ft above the top of the well <br /> screen.,Two feet of bentonite pellets are used to separate the sand from the sanitary surface seal <br /> (grout). if high ground water conditions exist 1/2 ft.of bentonite may be used to separate the sand <br /> from the sanitary surface seal. <br /> The grout (Portland cement with approximately 3-51%bentonite powder) is poured into the <br /> annular space above the bentoriite pellets. If the surface seal is greater than 5 feet thick, grout <br /> iconsisting of cenient mixed with 3-5% bentonite powder`will be treiniedJ or pumped into the <br />