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embankments. Based on this design infortnation, a design incorporating geo-fabric and geo-grid materials to <br />distribute loads over the soft soil base was developed. Tensar design and stability analysis are provided in Exhibit <br />48. SEDCAD+ modeling runs were completed for the 10-yeaz, 24-hour storm over the contributing drainage basin. <br />The model assumes that the peak flow from Pond A will be occurring concurrent with the 10-yeaz, 24-hour event <br />over the basin. A peak flow of 41.86 cfs was determined at the crossing and a minimum pipe diameter of 30 inches <br />was determined to be adequate to handle the peak flow. Data was reviewed for USGS stream gauging station <br />09243800 (station 800), located approximately 2,500 feet upstream of the crossing. An instantaneous peak flow of <br />65 cfs was recorded on May 5, 1996. The recording period for station 800 is 1976 to 1996. An additional culvert <br />run was performed with SEDCAD+ for the instantaneous peak flow of 65 cfs. Headwater depth for this run was <br />based on the design roadway elevation of 6.5 feet above the invert of the culvert. A 36-inch culvert will safely pass <br />the highest recorded instantaneous peak flow with the additional headwater depth provided by the roadway <br />embankment. In order to assure additional capacity for potential blockage, a 70-foot, 42-inch CMP, or up to a 48- <br />inch CMP, was installed at the crossing. Slope protection is provided on both the upstream and downstream sides <br />of the crossing using rock rip-rap. Drainage from the road surface flows along the ditch line provided by the safety <br />berm. Rock filters or other sediment control measures aze constructed at locations where road drainage flows into <br />the creek as necessary. Drainage from the Batch Weigh/Loadout azea is currently directed along the railroad tracks <br />to Foidel Creek. <br />The road on the west side of Foidel Creek is located in a previously disturbed old roadbed, therefore topsoil was not <br />available for salvage. The road on the east side of Foidel Creek is constructed along the toe of Pond C, which is <br />also in a previously disturbed azea. On the east side of Foidel Creek, limited quantities of topsoil aze available for <br />use in fmal reclamation. The topsoil was windrowed to the side or placed in a stockpile adjacent to the road. <br />Minor, grading was done in the road corridor to provide a satisfactory base for subsequent road construction. A <br />structural geo-grid material was placed above geo-fabric to distribute loads over the soft soils more uniformly and <br />reduce the required thickness of fill material required which, in turn, reduces the overall footprint of the roadway. <br />Openings in the geo-grid structure aze approximately 1 inch by 1 inch. The fill material locks into these openings <br />and increase the structural stability of the sub-grade. Safety berms were constructed on either side of the roadway. <br />The berms aze constructed of spoils materials from the mine site. This spoils material has been used extensively on <br />the mine site in the past as fill material and is not acid-producing. <br />During construction, temporary erosion control measures were implemented as necessary. Long-term erosion <br />protection is provided by seeding the outslopes with an appropriate seed mix and use of selectively placed rock <br />check dams. Mulching, fiber mats, topsoil, or other appropriate medium for the establishment of plant growth may <br />be applied, as necessary, to assure adequate vegetative establishment. Affected wetlands azeas will be revegetated <br />with vegetation native to the area as determined. in project wetlands delineations. The total area of wetlands <br />disturbed by this project is approximately 0.01 acres.-Upon reclamation of this roadway, TCC will seed a wetlands <br />azea of at least 0.10 acres to satisfy the U.S. Fish and Wildlife's request fora 2:1 mitigation of wetlands azea <br />disturbed by the crossing. <br />III. Access Roads <br />Fish Creek Borehole Dewaterina Site <br />Providing access to the Fish Creek Borehole Site will involve upgrading 6500 feet of an existing road and <br />construction of an additional 2500 feet of road. The location of the azea and access road is shown on Map 26, Fish <br />Creek Borehole Area and Access Road. The existing road was designed so that construction, maintenance, and <br />postmining condition of the road will control erosion, siltation, and pollution of water and prevent damage to public <br />and private property. The overall grade does not exceed 10 percent nor do pitch grades exceed 15 percent for any <br />consecutive 1,000 feet. <br />To accommodate a low volume of lazger delivery trucks, TCC made minor alignment changes to the access road. <br />These minor changes improve the alignment of the road through several short curved sections and aze located <br />within the 200-foot road comdor, as indicated along the fina12,500 feet of the road. Additional gravel was also <br />TR 05-46 2.05-71 Revised - Apri14, 2005 <br />