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With the coal reserves defined and equipment chosen, it becomes the engineer's task to design a <br />facilities site plan, mining plan, ground control plan, haulage road system, surface water control plan, • <br />sediment control plan, power distribution system, postmine contour configuration, and a variety of <br />inter-related projects. The processing and support facilities are generally located at a site near the <br />center of the reserves in order to balance haulage distances. Factors such as topographic relief, <br />strength of foundation materials, adequacy of drainage and accessibility are normally considered in the <br />engineering design. The design of a mining plan is governed by several factors, including economic <br />considerations, drainage patterns, relief, slope, and geologic structures. Normal pit progression would <br />begin at a "cropline" (outcropping) or shallow area and progress toward the deeper coal. The <br />advantage of this technique is a lower production cost in early years. However, the cost of production <br />becomes progressively higher as the pits advance, At Seneca II-W, the, topography and geologic <br />structure dictate pit orientation and progression. In the main II-W area, more uniform overburden <br />depths favor pits oriented perpendicular to the cropline while rapidly increasing overburden depths in <br />the II-W South area favor pits oriented parallel to the cropline. The best techniques for orientation of <br />pits with respect to drainage patterns are to lay out a sequence of pits where the natural drainage is <br />away from or parallel to the pits. The techniques used at Seneca II-W to deal with the relatively high <br />relief, slopes, and geologic structure will discussed in the following section. A haulage road system is <br />designed with roads of appropriate width and grade to accommodate the intended traffic. In <br />mountainous terrain the construction of switchbacks is sometimes necessary to maintain the flattest <br />possible grade and minimize the area of disturbance. Safety berms will be utilized where required by <br />steep side slopes. Surface water control plans normally utilize ditches for overland diversion of surface • <br />water as well as pit sumps for collecting and handling surface and ground water that enter the pit. <br />Sediment ponds are designed for controlling runoff from disturbed areas. All diversions and sediment <br />ponds are designed in accordance with the regulations governing such structures and conform to <br />currently accepted engineering practice. Power distribution at area surface mines such as Seneca II-W, <br />which utilizes high voltage electrical equipment, must be well planned for optimum accessibility. Power <br />for stripping equipment is normally fed from the highwall or undisturbed side of the operation for ease <br />of access and to alleviate congestion in the pit and on the spoil side. Avery important task requiring <br />utilization of the best available engineering techniques is the design of a stable postmine land surface. <br />Determination of such factors as spoil swell, stream gradients, postmine land use, spoil character, and <br />foundation materials will affect the design of a land surface representing the approximate original <br />contour. The currently accepted technique is to design a surface with slopes that do not exceed the <br />average premining slope and with a general configuration that approximates the premining surface. <br />Area surface mining is the most efficient method of recovery of a coal resource, especially in areas <br />such as Seneca II-W where the coal is of such a quality that it can be burned "raw", that is, without <br />processing. The Wadge Coal seam will be mined to approximately 100 feet in depth (limitation of the - <br />stripping equipment) with a resource recovery rate approaching 95 percent. Table 12-2, Annual Coal <br />Productions illustrates the actual and anticipated acres mined and actual and proposed annual <br />production of coal from September 1, 1990 through the currently proposed life-of-operations. It is • <br />highly unlikely that the areas proposed to be mined would be redisturbed in the future to recover deeper <br />seams. <br />PR04 4 Revised 04/04 <br />