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The Eastern - Mining District area sedimentary strata are not disturbed by any significant faults. The structural <br />and lithologic characteristics of the permit area are depicted on Geologic Cross Sections B -B' (east -west) and D- <br />D' (north - south), Figures 1B and 1A, respectively. These figures are considered confidential. <br />EMD (Panels 2 -Right through 6- Right, PR97 -04) -_The mine inflow predictions were generated using a <br />different methodology than was used for the EMD. The discussion and calculations are presented in Section <br />2.05 of this application. The methodology used a mirror -well technique, which should be adequate for <br />predicting inflows into the mine. <br />NORTH MINING DISTRICT (PR99 -05 and PR06 -07) <br />The mine inflow predictions were generated using a different methodology than was used for the EMD. The <br />discussion and calculations are presented in Section 2.05 of this application. The methodology used a mirror - <br />well technique, which should be adequate for predicting inflows into the mine. <br />NMD (Panels 17 -Ri2ht through 25- Ri2ht, PR03 -06 and PR06 -07) - The mine inflow predictions were <br />generated using a different methodology than was used for the EMD. The discussion and calculations are <br />presented in Section 2.05.6(3) of this application. The methodology used a mirror -well technique, which should <br />be adequate for predicting inflows into the mine. <br />WESTERN MINING DISTRICT (WMD, Panels 12 -Left through 20 -Left, PR06 -07, TR08 -64, PR09 -08, <br />PR12 -09, TR13 -82) <br />Because it falls within the Twentymile Park Basin, the geology of the WMD is similar to the previously <br />permitted areas. The Twentymile Park synclinal axis, oriented NE -SW, is the northern boundary of the WMD, <br />the area is bounded on the east by one of the primary faults (orient NNW to SSE), the western boundary is the <br />Tow Creek Anticline and Hayden Syncline, and the SMD lies along the southern limit of the area. General <br />surface geology and coal seam structure for all mine areas are shown on Maps 5, and 6 (Confidential), <br />respectively. In addition to the primary fault that extends through the eastern portion of the WMD, two minor <br />faults intersect the 12- through 14 -Left Panels. The structural and lithologic characteristics of the permit area <br />are depicted on Geologic Cross Sections B -B' and E -E' (both east -west, and Maps 8 and 9A, Confidential). <br />Under PR06 -06, only limited main and sub -main development will occur. Given the limited area that will be <br />developed, groundwater inflows are expected to be minimal. Prior to actual mining of this area, inflow <br />modeling will be completed and incorporated into the PAP. <br />(2) The use of approved modeling techniques may be included as part of the permit application but <br />the same surface and ground water information may be required for each site as when models are not used. <br />RESPONSE <br />Modeling of geologic conditions has been utilized to predict subsidence potential; the results of the modeling are <br />set forth in Exhibit 7, Subsidence Predictions. Overburden stratigraphy, uniaxial compressive strength and <br />tensile strength, angle of draw, caving, and flexure characteristics have been modeled using methods described <br />in the Subsidence Engineer's Handbook (NCB Mining Department, 1975). <br />Modeling of surface water conditions has been utilized as set forth in Exhibit 8, Sediment Control Plan. <br />Characteristics of surface runoff, peak flow, reservoir routing, sediment yield, and theoretical detention time <br />have been modeled using the techniques described in "Procedures for Determining Peak Flows in Colorado" <br />(USDA, SCS 1977) and "Applied Hydrology and Sedimentology For Disturbed Areas" (Barfield, Warner and <br />Haan 1981). These techniques have been incorporated into the DEPOSITS model, which has been utilized in the <br />design of treatment facilities for the underground mine. Finally, streamflow and water quality in streams draining <br />the general area has been modeled using the WATBAL model, for the purposes of the assessment of probable <br />hydrologic consequences of mining on surface water, required by Rule 2.05.6(3). Modeling of ground water <br />conditions has been utilized in this application, specifically under Rule 2.05.6(3) and in Exhibit 9, Aquifer Test <br />TR13 -82 2.04 -11 02/28/13 <br />