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(9) Return of Coal Mine Waste to Abandoned Workings <br />(a) Each plan shall describe the design, operation and maintenance of any proposed coal <br />processing mine waste disposal facility, including flow diagrams and any other necessary drawings and maps, which <br />must meet the standards of 2. 10, for the approval of both the Division and the Mine Safety and Health Administration <br />in accordance with 4.11.3. <br />(b) Each plan shall describe the source and quality of waste to be stored, area to be backfilled, <br />percent of the mine void to be filled, method of constructing n�derwymW retaining walls, influence of the backfilling <br />operation on active underground mine operations, surface area to be supported by the backfill, and the anticipated <br />occurrence of surface effects following backfilling, <br />(c) The applicant shall describe the source of hydraulic transport medium, method of dewatering <br />the placed backfill, retainment of water underground, treatment of water if released to surface streams, and the effect on <br />the hydrologic regime. <br />(d) The plan shall describe each permanent monitoring well to be located in the backfilled <br />area, the stratum underlying the mined coal, and gradient from the backfilled area. <br />(e) The requirements of 2.05.3 shall also apply to pneumatic backfilling_operations, except <br />where the operations are exempted by the Division from requirements specifying hydrologic monitorin <br />TCC returns the thickener underflow generated at both Washplants I and II to the abandoned and sealed <br />underground mine workings. When Washplant I initially began operations, the thickener underflow was partially <br />dewatered using a filter- press, and this material was then combined with the coarse refuse and hauled to the Refuse <br />Pile for placement. Due to handling and placement problems, TCC modified the fine refuse handling; method, and <br />began pumping the thickener underflow into the abandoned mine workings in the Eastern Mining District (EMD), <br />C", as opposed to mixing it with the coarse refuse for placement on the Refuse Pile. <br />With both Washplants I and II operating, the thickener underflow is typically a 15 to 25 percent solids, 300 to 550 <br />gpm slurry mixture of rock and coal fines (28 mesh x 0). Exhibit 9C, Underflow Chemical Characterization, <br />provides data on selected chemical constituents found in the thickener underflow. The water quality of the slurry is <br />consistent with that of typical spoils water generated at the adjacent CYCC surface mine. The slurry mixture is <br />piped to the sealed mine workings in the EMD, where the fines settle -out, and the decant water flows to a sump and <br />is recycled back to the washplants. At the full coal fines refuse discharge rate, approximately 1.6MM ft of coal <br />fines storage is required on an annual basis. The EMD has approximately 110MM ft of coal fines storage capacity <br />remaining (approximately 70 -years capacity). In anticipation of possible future mining of the underlying Wolf <br />Creek Coal Seam, TCC is shifting underground coal fines slurry placement to sealed mine workings in the Southern <br />Mining District (SMD), which provide approximately 61MM ft of coal fines storage capacity (approximately 30- <br />years capacity). Map 23 shows the EMD and SMD areas that have been or will be filled with fine refuse material. <br />With the shift to the SMD, the water /solids mixture is piped from the washplants through two 6 -inch HDPE <br />pipelines for approximately 1,800 feet to an 8 -inch cased mine borehole, located near the former CYCC Mine <br />Office Building ( "Brown Palace ", see Map 24 for location of pipeline and borehole). The two Thickener <br />Underflow Pipelines replace the previously used 6 -inch PVC line from Washplant I, which was cut -off, capped, and <br />abandoned in- place. The pipelines are buried at a depth of approximately 5 feet and traverse both previously <br />disturbed and un- disturbed areas. Installation of the two Thickener Underflow Pipelines involved: <br />• Placement of temporary BMP's for drainage and sediment control from pipeline and construction areas <br />• Removal and windrowing of soils materials from any new disturbance areas <br />• Excavation of the pipeline trench, with temporary placement of excavated material adjacent to the trench <br />• Excavation of boring/jacking pits on the edge of Haulroad B -2 and an existing drainage ditch on the north <br />side of the existing railroad spur (as shown on Figure 49K -F1) and boring/jacking of 24 -inch secondary <br />containment culvert under existing Foidel Creek road crossing culverts and railroad spur <br />• Boring and casing of the Thickener Underflow Borehole <br />TR09 -67 2.05 -97.6 11/10/09 <br />