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a) Each applicant shall contain a detailed description with appropriate mans, which are <br />prepared to the standards of 2.10, and cross - section drawings of the measures to be taken during and after the <br />proposed surface or underground mining activities. in accordance with Rule 4 to ensure the protection of <br />(i) The quality of surface and ground water, within both the proposed permit area and <br />adjacent areas, from adverse effects of the proposed surface or underground mining activities; <br />PROTECTION OF WATER QUALITY <br />TCC will utilize a combination of control methods, reflecting the best practical technology currently available, in <br />order to minimize changes to water quality and the prevailing hydrologic balance in both the permit area and <br />adjacent areas. These water quality control measures will be implemented in order to minimize long -term adverse <br />changes in the hydrologic balance, which could result from mining. <br />Discussions relative to the quality and quantity of surface and ground water of the Fish Creek Tipple operation are <br />found within Volume VII of the Fish Creek Tipple/Loadout Appendix, pages 2.05 -77 through 2.05 -90. <br />Surface Water Oualitv Protection <br />The primary methods for erosion, sediment and drainage control are based on minimizing the impact of present and <br />the small amount of future surface disturbance, by promoting prompt revegetation, by trapping sediment and by <br />detaining runoff as close to the disturbed areas as possible. In certain instances, runoff from undisturbed areas will <br />be diverted away from disturbed areas. <br />Diversion structures are shown on Map 24, Surface Facilities. They serve to divert water from undisturbed areas <br />away from disturbed areas and from disturbed areas into sediment control facilities. Not only does this diversion <br />system reduce the amount of water flowing across disturbed areas and thus reduce water velocity and sediment <br />yield, but it also reduces the size and number of sedimentation ponds required. Temporary diversion structures are <br />designed and will be constructed and maintained to handle the amount of runoff from the 10 -year, 24 -hour <br />precipitation event with the exception of Ditch D -3 which is designed, constructed and maintained to handle the <br />amount of runoff from a 100 -year, 24 -hour event. All diversions are constructed using proper roughness <br />characteristics, maintenance of appropriate gradients, revegetation, channel lining or detention basins, or a <br />combination of one or more of these measures. Therefore, they adequate for their intended purpose, but also, to the <br />extent possible, prevent additional contributions of suspended solids to stream flow and to runoff outside the <br />proposed permit area. <br />Discharge of effluent from the Foidel Creek Mine is controlled through a network of underground sumps and <br />discharged through a borehole in the rock slope at Entry No. 3 (Site 109) and through a borehole completed into the <br />west end of the 6 Left entry (Fish Creek Borehole). Site 109 historically discharged to Ditch D -2 at the surface <br />which delivers the effluent to Pond D. As an alternative to maintain operational flexibility, the water from the 109 <br />discharge may be piped over to Site 114. Water collected in the mine portal wedge area is routed to a sump in the <br />northwest corner of the wedge and pumped to Pond E via Ditch E -1. Likewise, this water may be piped over to <br />Site 114. Water discharged from the Fish Creek borehole is treated, when required, in a series of cells and then <br />discharged to Fish Creek at Site 115. The configuration of this system is shown in Map 32. Presently, June 1999, <br />TCC uses sodium hydroxide to treat the effluent from Site 115. This treatment lowers the total recoverable iron <br />concentration of the effluent so that it is in compliance with discharge permit CO- 0042161. The operation of the <br />treatment pond is discussed in Section 2.05.3(4). <br />The locations of sedimentation ponds are shown on Map 24, Surface Facilities. Generally, ponds and spillways <br />were sized and located according to such hydrologic factors as required sediment storage volume, rate of flow and <br />- volume of flow for the appropriate storm event. All ponds have been designed to treat effluent as documented in <br />Exhibit 8, Sediment Control Plan and Exhibit 30, CDPS/NPDES Permits (CO- 0027154, CO- 0036684, CO- <br />0042161, COG - 850051, COG - 850054, COR- 03F087, and COR- 040126). <br />RN 12 -06 2.05 -128 04/01/13 <br />