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alongthe GV7 fault located at a distance of 1.2 kilometers from the site and produces a <br /> PGA in rock of 0.56g at the site may result in permanent seismic displacement for the <br /> slope analyzed. <br /> The result of the yield acceleration analysis is presented in Calculation 3. <br /> 3.3.4 Assessment of the Potential for Permanent Deformation <br /> As the pseudo-static factor of safety for slopes analyzed was less than 1.5, permanent <br /> i ' seismic displacement is expected to occur(Bray et al., 1998). <br /> Using the yield accelerations from the current analyses, seismic displacement was <br /> calculated using the Makdisi-Seed method using the lower-bound curve for a Magnitude <br /> 6.9 earthquake and peak ground acceleration of 0.56g. The results of the deformation <br /> analysis are presented in Section 4.1. <br /> i <br /> 4. CONCLUSIONS AND RECOMMENDATIONS <br /> This section presents conclusions and recommendations based on the results of the static <br /> and seismic slope stability-analyses performed for the Corral Hollow Landfill cap <br /> extension <br /> 4.1 Slope Stability <br /> The static factor of safety for the slope analyzed is 1.5. The pseudo-static factor of safety <br /> for the section is 0.62, which is less than 1.5 and therefore required a rigorous method of <br /> analysis be used to estimate the magnitude of possible displacements. <br /> The calculated yield acceleration value is 0.154g. Using the yield acceleration of 0.154g, <br /> seismic displacement was calculated using the Makdisi-Seed method using an <br /> interpolation between the lower- and middle-bound curves for Magnitude 6.5 and 7.5 <br /> earthquakes, respectively, and a peak ground acceleration in rock of 0.56g. The <br /> maximum displacement is approximately 10.1 inches. A permanent displacement of 6 to <br /> 12 inches is considered as the maximum allowable limit, based on the RCRA Subtitle D <br /> (258) Seismic Design Guidance for Municipal Solid Waste Landfill Facilities (U.S. <br /> Environmental Protection Agency [EPA], 1995). Additionally, the design guidance <br /> document goes even further in specific reference to cover systems, and suggests that <br /> "...larger permanent deformations may be considered acceptable," due to the ease of <br /> accessibility for repair post-earthquake. <br /> Therefore, the results of this analysis indicate the landfill design results in stable slopes <br /> per California Code of Regulations Title 27 requirements. <br /> ' 4.2 Liner System Shear Strength and Testing Requirements <br /> Shaw will require that material-specific interface direct shear testing be performed prior <br /> to the start of construction. The cover liner system for the landfill cap extension should <br /> provide a minimum shear strength represented by a friction angle of 21.0 degrees (96 psf) <br /> for normal stresses of 250 psf. <br /> Slope Stability Analysis Corral Hollow Landfill—Rev 2 5/20/2012 <br /> 6 <br />