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geogrid deflects into the depression as tensile stresses develop in- the geogrid. <br />The other method, stabilizing existing refuse areas, includes surcharging, deep dynam* <br />-- compaction, and lime/fly ash slurry injection, among others (2). Time and/or field constrain - <br />often render these methods impractical for the development of vertical expansions. <br />All the methods currently in use are based on the assumption that "void -induced <br />settlement will impair the liner. Since none of these methods require the calculation of th <br />settlement, it is unknown whether "void -induced' settlement is a real or perceived problem <br />And, whether other alternatives such as providing a thick buffer, or a strain -transition zon <br />:.offers as effective a solution as those.. methods currently in use. The calculation of "void <br />.induced" settlement, and the evaluation of an alternative design methodology are the subjects o <br />this paper.: n. <br />• e t �r a• a e_JLt DIA o Doom h <br />To date, the authors are not aware of a specific methodology used to quantify the <br />settlement resulting from the presence of a void within a landfill. However, similar situation, <br />are often encountered in mining and classical geotechnical fields. Several methods to analyze <br />"void -induced" settlement have been developed and are documented in mining and geotechniea <br />journals and conference proceedings. The following four methods of analysis are briefl} <br />discussed in this paper: <br />• Mining Subsidence Empirical Methods (3,4), which include influence and profile <br />functions; <br />• Numerical Methods (5,18), which include finite element (FE) and finite difference <br />(FD) methods; <br />• Displacement Method (11); <br />• Two-dimensional and Three-dimensional Elastic Solutions (15, 16). <br />Mining Subsidence Empirical Methods. A mechanism similar to the collapse of a large object <br />within an existing landfill and the resulting differential settlement at the surface of a liner <br />system exists in mining (3,4). Mining subsidence occurs in a bowl -shaped pattern. Empirical <br />methods have been developed to analyze the subsidence of "long -wall" mines, an underground <br />mining technique mainly used in rock formations. The method applied in a specific geographical <br />region is unique, based on the geological characteristics of the region. Because there is no <br />generic solution available for all geographical regions, this method is not suitable for the analysis <br />of differential settlements for a landfill vertical expansion configuration. <br />Numerical Methods., Finite element analyses of a void within a soil layer have been conducted <br />in several research fields other than landfill engineering. Wang, M. C., et. al. used a finite <br />element analysis and a physical model to analyze the bearing capacity of a shallow footing above <br />a void embedded in clay (18). The results of Wang's finite element analysis and the results of 0 <br />Geosynthetics'93 - Vancouver, Canada - 1499 <br />