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that the existing landfill post -closure settlement monitoring program be planned to provide <br />background data for future design of the vertical expansion. <br />4.2 VOID SETTLEMENT <br />The elastic differential settlement model discussed in Subsections 3.1 and 3.2 above is <br />applicable to the analysis of liner strains and potential ponding conditions due to voids <br />forming under the vertical expansion liner. This is because the liner actually has less stress for <br />the equivalent deformation due to compression by the overlying refuse weight"'. For this <br />assessment of the expansion liner geomembrane; the same assumptions have been made as for <br />the cover geomembrane: <br />■ Geomembrane is 60 mil HDPE <br />■ Maximum allowable strain in geomembrane is 1% <br />■ Minimum slope for the vertical expansion liner is 5% <br />Based on these ass mptions,the-minimum,,depth far,.a.lazge void .to ,create pondir g conditions <br />would be 10 feet, and the minimum depth to endanger the geomembrane would be 3.3 feet. It <br />is likely that surface effects of any voids existing at the time of construction will be filled during <br />the foundation grading for the cover system. It is anticipated that the final cover of the existing <br />landfill will have a total of four feet,of.soil mateiial,* this could be sufficient to,provide adequate <br />support for the geomembrane. = <br />A common method of evaluating vertical expansions is to assume that a void develops directly <br />beneath the liner leaving the liner unsupported. Based on the discussion above, this may be an <br />overly conservative approach. However, an analysis of this condition will be conducted here <br />as a means to illustrate liner system reinforcement. A typical method used for protecting the <br />liner system from excessive strain is to use a geogrid for tensile reinforcement under the liner <br />layers. The method of analysis is one proposed by Berg and Collin for design of landfill liners <br />over yielding foundations. For the purposes of demonstration a high strength biaxial HDPE, <br />geogrid material is assumed, and a maximum allowable strain of approximately 3% was <br />assumed for the geomembrane. Based on the analysis, a single high strength geogrid can limit <br />the strain of the liner to 3% for voids directly under the liner of approximately 5 feet in <br />diameter, with a factor of safety greater than 4 (see attached Calculation No. 4). <br />The issue of liner integrity should be reviewed and analyzed at the time of liner system design <br />based on the proposed geosynthetic materials to be used. <br />4.3 LANDFILL IMPROVEMENT METHODS <br />There are methods that can be used to decrease the settlement of landfills. Generally, three <br />techniques are used: preloading, dynamic compaction, and grouting. Preloading involves <br />placing a deep layer of soil over the landfill to promote consolidation. Dynamic compaction <br />involves dropping a large weight from a crane to compact the soil. Grouting involves injecting <br />- the waste with amortar-type mixture. All of these methods could be excessively expensive if <br />WW-1811-CAl-AAl3110 Austin Road Landfill Expansion August 2,1995 <br />MLI033.DOC Landfill Settlement Page 6 <br />