Laserfiche WebLink
<br />the receiving pond level will be checked such that the designed performance of the pond will not be <br />compromised. When pit dewatering is required, the anticipated dewatering rate will be in the range of one <br />to two cubic feet per second or less. Any dewatering discharges will be directed to a pond. The discharge <br />from the pit dewatering will be controlled, as necessary, with an adequate energy dissipator (i.e., rock <br />riprap, geotextiles, metal or concrete energy dissipator boxes, etc.) or discharged onto non-erodible <br />bedrock material. <br />This pit dewatering will have an insignificant impact on the sediment ponds. As noted above, pit <br />dewatering will be sporadic versus continuous (e.g., "as needed"). The flow rate of one to two cubic feet <br />per second or less compared to the design 10-year, 24-hour peak inflow rate is very insignificant. <br />All sedimentation ponds and impoundments will be maintained until the disturbed areas are reclaimed and <br />the vegetation success requirements of Tab 22, Revegetation Plan, are met, the untreated drainage from <br />the disturbed area ceases to contribute additional suspended solids above natural conditions, and the <br />drainage leaving the pond meets applicable State and Federal water quality requirements, if any, for the <br />receiving streams. All temporary ponds will be removed when the appropriate sections of the regulations <br />are satisfied. <br />When sedimentation ponds are removed, the affected land will be regraded and revegetated pursuant to <br />the CDMG's regulations, Section 4.05.17 and the approved Reclamation Plan. If a postmine landowner <br />requests that SCC leave a pond(s) as a permanent postmine feature to support postmine land use, <br />SCC will provide a demonstration in accordance with Rule 4.05.9(13) <br />Design Methodology. The hydrologic and design criteria for ponds 010 and 011 are presented in this <br />section. The hydrologic and design criteria for ponds 011A, 012, 012A, 013 and 014 are presented in <br />Attachment 13-12, Drainage and Sediment Control Plan. <br />The precipitation runoff into pond 010 and 011 (peak flow and volume); is estimated using the Soil <br />Conservation Service (SCS) triangular hydrograph techniques as described in Design of Small Dams (U.S. <br />Dept. of Interior, 1977). Initial PAP designs utilized the SEDIMOT II program. SEDIMOT II was <br />developed by Research Specialist Bruce N. Wilson, Professor Billy J. Barfield, and Assistant Professor Ian <br />D. Moore at the Department of Agricultural Engineering, University of Kentucky, Lexington, Kentucky. <br />SEDIMOT II was replaced by SEDCAD+, an enhanced PC version of the SEDIMOT II computer program. <br />SEDCAD4 is an updated version of SEDCAD+, and has been used for all designs since 1998. The <br />various design methodologies using SEDIMOT II and SEDCAD+/SEDCAD4 are presented in Attachments <br />13-1, General Hydrology Design Methods and 13-12, Drainage and Sediment Control Plan. These <br />programs were used to estimate runoff peak flow and volume necessary for the design of sediment ponds, <br /> <br />TR-37 6 Revised 02/08 <br />