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associated relief culverts have been designed to address site - specific drainage for both the TCC and <br />County portions of the road. Drainage designs are provided in Exhibit 8AA, Haulroad A - Drainage Designs. <br />During construction and until the site has stabilized, appropriate temporary drainage control measures including, <br />but not limited to, placement of straw wattles and/or silt fence, were used to control surface runoff and sediment. <br />•Most of the road is constructed on the existing Haulroad A alignment and required only minor cut and fill work to <br />establish the design road profile. Where road embankment construction was required, the embankment footprint <br />was scarified to a depth of 8 inches following topsoil removal. Suitable fill materials were then placed in uniform. <br />6 -8 inch lifts and compacted to at least 95 percent of Standard Proctor Density with moisture levels within 3 percent <br />of optimum consistent with ASTM D -698 or AASHTO T -99. Actual road construction involved placement and <br />compaction of a 24 -inch pit -run sand and gravel sub -base, followed by a 6 -inch CDOT Class 5 aggregate base <br />course, topped by 6 inches of -3/4 -inch gravel material. All road construction materials were free of organic, <br />potential acid- or toxic - forming, and frozen materials. <br />A reinforced concrete scale foundation and wash -down water collection pit were constructed along the south edge <br />of Haulroad A, between stations 4 +00 and 7 +00. The base of the wash -down pit is approximately 8 feet below the <br />road surface and is accessed by a short graveled ramp on the south side of the truck scale, to facilitate inspection <br />and clean -out of accumulated sediment. Wash -down water for the truck -scale is supplied by a buried water line on <br />the west edge of Haulroad A, which comes from the Belt -Out -Back (BOB) area. Periodically, minor accumulations <br />of wash -down water are pumped from the water collection pit, through a buried pipeline to the first cell of existing <br />Sedimentation Pond B. Power for the truck -scale is supplied by a drop line from the adjacent powerline. <br />Once the road is no longer needed, the road and associated drainage features will be reclaimed by ripping, <br />scarifying, and grading road surfaces, fills, and ditches to blend with the surrounding terrain. Any road materials <br />that are incompatible with revegetation and postmining land use objectives will be removed and disposed of in the <br />portal backfill area. Minimal topsoil is available for reclamation, given that much of the new Haulroad A was <br />constructed in previously disturbed areas. TCC will utilize all available stockpiled topsoil, supplemented as <br />necessary by suitable substitute growth media. Potential growth media will be analyzed for nutrients and, if <br />indicated, soil supplements will be applied. Following soil substitute replacement, reclaimed road areas will be <br />• seeded with the standard revegetation seed mix. <br />2E. Haulroad C <br />Haulroad C, formerly a portion of the county road, is an access corridor previously used and maintained by CYCC <br />since the mid -70's. In order to accommodate hauling of stoker coal from Tipple 2 to the stoker coal stockpile, the <br />existing road was upgraded to a coal haul road. Haulroad C extends from the Tipple 2 road intersection due south <br />of Pond C to the current railroad crossing where it connects with Haulroad B -2. Because it was a previously <br />disturbed area, no new disturbance was required for the upgrade and no topsoil was available for salvage. The <br />overall grade of the road is not steeper than 10 percent, and there are no sections that exceed 15 percent. The <br />location of Haul Road C is shown on Map 24, Surface Facilities. The centerline profile for Haulroad C and typical <br />haulroad cross - sections are shown on Map 30, Road Profiles and Cross - Sections. <br />In conjunction with the road upgrade, a ditch was established parallel to the road to intercept upland drainage. The <br />ditch is triangular, in cross - section, and was stabilized through vegetative plantings on the bottom and sideslopes of <br />the ditch. Drainage from the clean -water diversion flows to a 12 -inch culvert, where it is passes under the road and <br />into Foidel Creek. The culvert inlet and outlet are protected by rock headwalls, or similar erosion protection. A <br />rock filter dam was constructed downstream from the outlet of the culvert. The location of the ditch and culvert are <br />shown on Map 24, Surface Facilities, and ditch and culvert design information is provided in Exhibit 8. <br />The original road was approximately 40 feet wide and ran along the toe of the slope. During road upgrade planning <br />and construction, it was determined that the existing road sub -base was adequate, therefore, the road upgrade <br />involved placement and compaction of two six -inch lifts of 6 -inch minus pit run rock over the existing sub -base. <br />Each lift was compacted with a vibrating compactor or similar equipment. Fills were placed, compacted, and <br />crowned to promote effective drainage from the road, and a two -inch layer of minus 1'h -inch crushed gravel was <br />• then placed and compacted as a surfacing layer. <br />TR06 -55 2.05 -70 10/06/06 <br />