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JD-8 Mine—Drainage Design Plan 11 <br /> Excess flows from Retention Pond 2 will be conveyed across a roadway spillway or through a spillway and <br /> roadway culvert (see Figure 1) per the operating requirements of the mine. The culvert invert has been <br /> selected to avoid interference between culvert headwater and correct spillway operation. A culvert design <br /> profile is provided in Attachment lb. <br /> Spillway crest elevations will be identical to the 10-year 24-hour storage elevation for all retention ponds. <br /> The spillways will be constructed to the design specifications in Table 10 and will generally follow the <br /> schematic provided in Attachment 3. <br /> Table 10. Mine Site Planned Drainage Structure Parameters <br /> Optional <br /> Parameter Spillway Spillway Culvert <br /> Pond 1 Pond 2 Pond 2 <br /> Design Flow(cfs) 1.5 3.7 3.7 <br /> Bottom Width(ft) 2.0 5.0 <br /> Spillway Depth or Culvert Diameter(ft) 1.0 1.0 1.5 <br /> Headwater Depth(ft) 0.4 0.5 1.1 <br /> Flow depth(ft) 0.2* 0.25* 0.6 <br /> Velocity(ft/s) 2.3* 2.6* 5.2(exit) <br /> Slope(ft/ft) 0.06* 0.05* 0.03 <br /> Length(ft) 10 10 30(est.) <br /> Invert Entry(relative to 10-year storage elev)(ft) 0.0 0.0 -1.5** <br /> *Down gradient from spillway crest <br /> 41, **Culvert approach channel to be 1.75 ft deep <br /> In consideration of the exit flow conditions, a gravel mulch lining with a D50 of 2" (see Section 2)has been <br /> selected for both spillways and exit chutes based on Table 2.3 of HEC-15 (FWHA 2005). <br /> 4. OPERATIONAL AND POST-MINING DRAINAGE CONDITIONS <br /> When mining resumes, the existing waste rock pile will be built up to house additional mine facilities <br /> including a new maintenance shop and office. During the build-out period, drainage will be modified to <br /> prevent water from accumulating in the facilities area and to prevent excessive erosion and sedimentation <br /> during operations. For the post-mining reclamation period, drainage will be engineered and constructed to <br /> reduce erosion and protect reclaimed surfaces. <br /> 4.1 Runoff Areas and Routing <br /> Flow directions and runoff areas during mine operations will resemble the current condition and are shown <br /> in Figure 3 and Table 11. However, the waste rock pile will be expanded to encompass the area currently <br /> occupied by the existing constructed catchment (Pond 2) and planned expansion/construction of the <br /> western catchment (Pond 3) near the topsoil stockpile. When these storm water retention facilities are <br /> removed and replaced by waste rock,the pre-existing road will be realigned between the property boundary <br /> and the toe of the waste rock pile. Water will be routed westward across the site and southward off the face <br /> of the waste rock pile. Two interceptor ditches will be constructed to convey water to the proposed new <br /> storm water Retention Pond 3 located west of the planned final waste rock pile. The upper interceptor ditch <br /> (Figure 3) will divert upland runoff from Sub-Basin N-E to the natural drainage west of the waste rock pile <br /> and Pond 3,thus preventing non-contact flows from entering the retention structure. This upper interceptor <br /> ditch will be constructed on the upslope (south) side of an existing drill road. The lower interceptor ditch <br /> will route water from the waste rock pile and eastern sub-basin along the toe of the pile to Pond 3 and will <br /> 4111 be constructed on the upslope (south) side of the realigned road along the property boundary and toe of the <br /> waste rock pile. <br /> 4122A.120702 Whetstone Associates• <br />