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Pond NHN-002 As-Built <br /> Pond Construction and Compliance Demonstrations <br /> The as-built drawing for Pond NHN-002 is provided on Map 2.05.3(4)-10 and includes a plan <br /> view, cross-sections, stage-storage curve, and spillway details. The principal spillway consists of <br /> an 18-inch diameter pipe with a pair of valved 6-inch diameter weepholes. The emergency <br /> spillway was constructed with native fill material and has a minimum bottom width of 8.1 feet. <br /> The principal and emergency spillway discharge pipes are buried approximately 350 feet north <br /> from Pond NHN-002 as shown on Map 2.05.3(4)-10. At the outlets, an erosion control structure <br /> with plastic liner and 2-12 inch rock was constructed. In accordance with Rule 4.05.18, the outlet <br /> structure for Pond NHN-002 was not constructed in the stream buffer zone for Meehan Draw. <br /> SEDCAD was used to analyze hydrology and sedimentology and the demonstration indicates <br /> Pond NHN-002 is adequate to store the 10-YR, 24-HR storm event,pit pumping, and three years <br /> of sediment. With the weepholes open 5.0 of a maximum 6.0 inches, the peak water level is 1.57 <br /> feet below the top of the principal spillway riser and 2.67 feet below the emergency spillway. <br /> The SEDCAD demonstration for the 25-YR, 24-HR storm event indicates that with weepholes <br /> closed, Pond NHN-002 will safely convey the peak discharge with 1.64 feet of freeboard from <br /> the peak water level to the top of the structure. As indicated on the Structure Summary, the peak <br /> discharge out of Pond NHN-002 is 15.12 cfs, which is the flow that must be discharged via the <br /> principal and emergency spillway discharge pipes both of which are 18-inch diameter. SEDCAD <br /> culvert calculations show that the combined maximum capacity for the principal and emergency <br /> discharge pipes is 26.29 cfs, which is adequate to convey the peak discharge of 15.12 cfs. <br /> Embankment Construction and Stability Analysis <br /> Foundation preparation for Pond NHN-002 embankment included removal of vegetation and <br /> scarification of the ground. The embankment fill material was free of sod, roots, vegetative <br /> matter and frozen soil. Lambert and Associates on-site compaction testing services were utilized <br /> on an as-needed basis and their testing methods were in accordance with ASTM Test Method, <br /> D2922 and D3017, for Nuclear Moisture Content and Dry Density for accepted material testing <br /> practices in the area. All of the field density tests indicated 90%or greater relative compaction. <br /> Additionally, Lambert and Associates performed a stability analysis of the embankment soil <br /> material using "XSTABL" software. Their slope stability analysis considered a cross-section 10 <br /> feet high with a 3:1 (horizontal to vertical) slope inclination. This embankment configuration <br /> applies only to the theoretical stability assessment, for actual side slopes measurements at <br /> specific locations,refer to Map 2.05.3(4)-10. The analysis indicated a theoretical factor of safety <br /> for stability of 2.4 for the pond embankment slope and 1.7 for rapid drawdown condition. <br /> Appendix 2.05.3(4)-10 Page 1 April 2016 (PR-01) <br />