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• Slope/W utilizes modified Bishop analysis methods for circular-shaped failure surfaces. A;,parametric analysis of,two' waste- pile slope configurations, ~ waste strengthnay~d water conditions was performed. The following sections discuss the development of the models, selection of strength and density parameters, the water conditions modeled, and the results of the analysis. Model Development The models analyzed were based upon our understanding of the existing geometry along Section A-A through the waste pile, perpendicular to the face. The location of the section is shown on Fig. 2. The topographic map shown on Fig. 2 is based on a flight performed on March 23, 1995. Basin Resources, Inc. indicated that additional coal waste was placed along the face of the pile and that the current configuration of the pile is sloped between 2.0:1 and 2.5:1 for the entire height of the pile. We first analyzed the existing .waste pile with a top elevatiiin of 7164~and a • 2,0:1. (horizontal:.vertical) slope (Fig. 3), We also.analyzed the waste pile with a 2.5:1 slope. The location of the waste/soil/bedrock interface at the bottom of the waste pile. was based upon the results of our boring.and a topographical survey provided by Basin Resources, Inc. dated November:1986. For each of these models a three layer soil configuration was used, with the layers consisting of the coal waste, a 6-foot thick soil (or weathered bedrock} layer, and then bedrock. The soil layer was included in the model to evaluate the effect of a disturbed zone of soil/refuse at the base of the pile. Material Properties We estimated material properties based upon our review of previous studies and the results of the current investigation. These were discussed in detail in the preceding section COAL PROCESSING WASTE PILE CONDff10NS. • BASIN RESOURCES, INC. crur za,w 6