Laserfiche WebLink
The Kimber (K) Pit employs both a truck/loader fleet and draglines as methods of mining. Where the coal <br />structure allows, the truck/loader fleet will remove overburden material from the I, K, and L seams, and the <br />draglines or dozers will uncover the M, Q, and possibly R seams. The truck/loader fleet will generally <br />operate in a strikeline orientation, and the draglines will generally operate in either a strikeline or a dipline <br />orientation, depending on which area of the pit the machines are working. Where the geology precludes <br />effective dragline mining, the truck/loader fleet will uncover all mineable seams, up to and including the R <br />seam. As mining progresses eastward and into L & M pits (and out of K pit), Trapper Mine's traditional <br />stripping techniques (in a down dip orientation) will resume. <br />Initial spoils from the truck/loader fleet were hauled to the Horse Gulch fill or to Flintlock pit for final pit <br />backfill. As soon as conditions allow, the K Pit will be backfilled with K and L Pit spoils to meet the post - <br />mining topography depicted on Map M12, Sheet 3. Operations will generally progress down dip to <br />maximize the stability of the K Pit during mining operations. Backfilling will only occur above active mining <br />operations when it can be placed without endangering men or equipment. <br />The M12 series of maps depicts the planned Post Mining Topography. The K Pit area appears on Sheet 3. <br />The topography depicted meets the definition of approximate original contour, per Statute 34-33-103(3) and <br />Regulation 1.04(13). The proposed topography closely resembles the general surface configuration of the <br />land prior to mining, and blends into and complements the drainage pattern of the surrounding terrain. The <br />variance of post mining elevations and pre -mining elevations are consistent with Trapper's prior, and <br />successful, reclamation efforts. Examples of successful reclamation, as evidenced by Phase 3 bond <br />release, where such variance exists can be found in the northwest and north -central portions of D Pit, and <br />the northeast portion of the E Pit boxcut spoil. Phase 2 bond release examples can be found in the east - <br />central and northeast portions of D Pit. As such, the Horse Gulch fill qualifies as excess spoil, as defined <br />by Regulation 1.04(45a). This fill will be left as a permanent reclamation feature, consistent with the <br />planned post mining land use of Rangeland and Wildlife Habitat. <br />The fill was constructed with overburden, as defined by Regulation 1.04(83). Neither coal mine waste, as <br />defined by Regulation 1.04(22a), nor coal processing waste, as defined by Regulation 1.04(24), were used <br />in the construction of the fill. Topsoil was stripped and salvaged prior to construction, and no organic <br />material was used in its construction. <br />The Horse Gulch area was chosen for excess spoil placement because the area contained neither <br />ephemeral streams, as defined in Regulation 1.04(42), nor intermittent streams, as defined by Regulation <br />1.04(69). This location allowed construction of a head of hollow fill, as defined by Regulation 1.04(56), <br />which blends with the surrounding topography. Detailed cross sections can be found in Appendix T. <br />The hydrologic balance, as defined by Regulation 1.04(61), is protected with this mine plan. There is no <br />discernible change in the quality or quantity of water inflow to our outflow of the Yampa River Basin. <br />As mining of the K Pit progresses, prestripping in L Pit has begun. This will assist the dragline operation, <br />and provide for the continued backfill of K Pit. When K Pit is backfilled, spoil material removed via T/L will <br />be placed in the L pit spoils. <br />The final cut in any given pit may be open for as long as 18 months until all coal is removed. Final cuts are <br />a logical area to carry inventory. <br />Due to spoil side stripping techniques employed at Trapper, extra room is needed to effectively place the <br />spoils. Taking into consideration that the shortest cycle time in a down -dip dragline operation leaves the pit <br />active for up to 230 days and that the interburden will be cast as far as three previous cuts, it is not possible <br />to regrade the spoils within 180 days after coal removal. For Trapper Mine's contemporaneou"s regrade <br />criteria, grading will progress such that there will be no more than three un -regraded spoil rows, including <br />the active spoil row, at any one time in each pit. A pictorial view of the double pass stripping operation is <br />shown in Figure 3.5-1. This figure presents a simplification of the Trapper stripping operation and shows <br />graphically why three spoil rows are required. <br />3-39 <br />MAY 21 2013 <br />