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App. II-B-2 <br />interstate highways in Colorado have been contructed in the same fashion, as it <br />~- offered the most economical means for roadbuilding through steep terrain. In <br />addition, the steep terrain which the roads traversed presented safety hazards <br />which in themselves dictated the means of construction. <br />Roads were cut as steeply as possible, as flatter slopes increase the excavation <br />yardage and the final height of the cut. The cut slopes were then modified <br />according to the geologic conditions encountered. In bedrock formations, the cut <br />was excavated in slopes of 1 /4 (H) : 1 (~, or steeper. In colluvial soils as well, <br />however; excavation was steep, frequently steeper than 45 degrees. <br />Material from the cut was deposited as fill, although generally not compacted. <br />Thickness of the fill depends on the topography of the ground on which it rests. On <br />steep ground, the fill tends to roll down the hill for a considerable distance below the <br />road. On flatter ground, the fill is thicker and in some cases the fill surface may be <br />used as part of the roadway. <br />a. Construction -Use of Previously <br />Disturbed Areas. <br /> <br />The Colorado Fuel & Iron Company developed a mining operation at the Coal Basin <br />which operated at the turn of the century. The operation had a limited duration <br />(1900 to 1909). <br />Mid-Continent built the access road which connects the central complex yard with <br />State Highway 133 along part of the railroad grade which had been constructed for <br />the earlier operation. <br />Later, the original mine, known as the Coal Basin mine, was reopened by <br />Mid-Continent as our No. 5 mine, and the original rock tunnel developed by C.F.& I. <br />is the main entry used in Mid-Continent's operation. <br />In addition, the access road to the Sutey Refuse Pile, which has been in use since <br />1985, follows part of the old turn-of-the-century railroad grade. <br />3. Operations -Underground. <br /> <br />Geologic factors present a formidable array of operating problems at Coal Basin. <br />The coal beds dip steeply down, while the overlieing ground rises steeply. As a <br />result, the mines are very deep. Depth, and rock mechanics, create stress in the <br />areas being mined. Bumps, bounces and outbursts result, often unexpectedly, with <br />serious consequences for safety and productivity. Dikes and faults interrupt the <br />coal beds. The coal is gassy. The conditions encountered underground require <br />adaptation and innovation. Mine planning is subject to change in response to the <br />often unexpected factors of stress, gas and geology. Only because of development <br /> <br />