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® One half-foot thick gravel blanket drainage layer with a minimum hydraulic conductivity of <br /> 0.1 cm/sec; <br /> • Nonwoven geotextile filter fabric; <br /> • One half-foot thick general earthfill; <br /> Connection, transition, termination, and anchorage details have been designed (see Construction <br /> Drawings, Appendix A)to maintain continuity among all components and to provide connection access <br /> for future systems. <br /> 5.1 Lining System <br /> As shown on the Construction Drawings (Appendix A), the WMU FU-08 base lining system in the <br /> southern portion of the cell will consist of a 2-foot-thick compacted,clay liner overlain by a 60-mil thick, <br /> double-sided textured HDPE geomembrane. The side slope liner will consist of a GCL overlain by a <br /> 60-mil thick, single-sided textured HDPE geomembrane. The base lining system meets the current <br /> prescriptive Title 27 regulations and complies with Forward's WDRs. The side slope liner is an <br /> engineered alternative that complies with Forward's WDRs and has been previously approved at the <br /> Forward Landfill for WMUs D-99, D-00,D-01,D-02,FU-03,FU-04,FU-05, and FU-06. The interface <br /> liner is also an engineered alternative that complies with Forward's WDRs and has been previously <br /> approved at the Forward Landfill for WMUs D-94, D-97, D-98, D-99, FU-03, FU-04, FU-05, and FU- <br /> 06. <br /> 5.1.1 Clay Liner <br /> The clay liner will be constructed to meet the Specifications included in Appendix C.It will consist of <br /> fine-grained soils with significant clay content and without organic matter. The material will have at <br /> least 30 percent of particles passing a No.200 U.S. Standard sieve and be classified as SC (clayey <br /> sand), CL (lean clay, sandy or silty lean clay), or CH(fat clay, sandy or silty fat clay)by the Unified <br /> Soil Classification System(USCS). The clay liner will have a maximum field hydraulic conductivity <br /> of 1 x 10-7 cm/sec when compacted to a minimum relative compaction of 90 percent at a water <br /> content at least 2 percent greater than the optimum water content as determined by the modified <br /> Proctor compaction test(ASTM D1557). <br /> A field permeability test (sealed double ring infiltrometer [SDRI]) was conducted on onsite soils in <br /> 2001 to assess their suitability as clay liner material. The field permeability test indicated that the <br /> onsite soils could achieve a field hydraulic conductivity of 1 x 10-7 cm/sec. The clay liner will be <br /> constructed using techniques and materials similar to those used in constructing the test pad for the <br /> field permeability test. <br /> Laboratory hydraulic conductivity, particle size analyses, compaction, Atterberg limits, and field <br /> density and water content testing will be performed on the clay liner during construction as part of the <br /> construction quality assurance(CQA)program.The CQA Manual is included in Appendix D. <br /> After constructing the clay liner, the surface of the clay will be protected from desiccation cracks by <br /> keeping the surface moist. Immediately prior to geomembrane deployment, the surface of the clay <br /> will be prepared by rolling with a smooth drum roller. The entire base of the southern portion of <br /> WMU FU-08 will be covered by a 60-mil, double-sided, textured HDPE geomembrane liner. <br /> Terminations and future connection edges of the geomembrane will be placed under temporary berms <br /> WMU FU-08 REPORT 5-3 <br />