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particles from the overlying LCRS granular drainage material and to protect the underlying <br /> geomembrane. The minimum hydraulic conductivity of the coarse gravel will be 1.0 cm/sec. The <br /> coarse gravel will be washed, rounded, and have a maximum particle size of I inch with less than <br /> 15 percent of particles smaller than 1/2 inch, 5 percent finer than the No.4 sieve, and 2 percent finer <br /> than the No.200 sieve. The leachate collection pipe will be perforated at third-points, with 1/2-inch- <br /> diameter holes, spaced 6 inches on center. <br /> The granular drainage material of the base LCRS will be overlain by a sheet of nonwoven geotextile <br /> filter fabric. The geotextile functions as a filter to separate and prevent intrusion of fine materials <br /> from the overlying protective operations layer into the granular drainage material. This will allow the <br /> granular drainage material to retain its specified hydraulic conductivity by preventing clogging from <br /> piping of fines. <br /> Leachate in WMU FU-17 will drain to temporary sumps at the eastern WMU FU-17 edge. As WMUs <br /> to the east of WMU FU-17 are constructed, the LCRS pipes and trenches will be extended and will <br /> ultimately flow to permanent sumps on the eastern boundary of the site. The temporary sumps are <br /> composite lined and consist of a 4-ft deep pit with 3:1 side slopes. Within each sump will be a 5-foot <br /> diameter,perforated HDPE tank surrounded by coarse gravel. Within each tank will be a submersible <br /> pump for pumping out leachate. All leachate will be directed to WMU F-West, the Class II leachate <br /> impoundment, from where it will be evaporated. Leachate will be pumped from the tanks and <br /> transported to the leachate pond by truck. <br /> Specifications for the granular drainage material, coarse gravel, HDPE pipe, filter and cushion <br /> geotextile, and geocomposite drainage layers are included in Appendix C. Quality assurance testing <br /> of the LCRS materials is outlined in the CQA Manual (Appendix D). The testing includes particle <br /> size and hydraulic conductivity for the granular drainage material and coarse gravel and <br /> manufacturer's certification of material properties for the geotextile and GDN. Details of the <br /> composite liner and LCRS components are shown on the Construction Drawings in Appendix A. <br /> 5.3 Protective Operations Layer <br /> A protective operations layer will be placed above the LCRS to protect the LCRS, pipes, and <br /> composite liner from construction and operations traffic. The protective operations layer will consist <br /> of a minimum 12-inch-thick layer of generally sandy material excavated from onsite stockpiles. The <br /> maximum particle size of the sandy material will be limited to 1 inch to protect the underlying <br /> geotextile or GDN from puncture. <br /> Specifications for the protective operations layer are included under general earthwork(Appendix C). <br /> WMU FU-17 DESIGN REPORT 5-4 <br />