Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
Home
My WebLink
About
BC_DraftClosureOptionDetails_20180607
ATTACHMENT 1 NARRATIVE DESCRIPTION OF OPTIONS CONSIDERED (DRAFT - 02/12/2016) DRAFT — AECOM Table 1 — Closure Options Summary Ash Basin Closure Options Evaluation Belews Creek Steam Station Duke Energy Description • Remove free water. Install temporary wastewater treatment system, as needed. • Grade the ash surface to promote positive drainage. Limited ash excavation and stacking anticipated. • Start partial removal of dam. • Construct closure cap over ash basin area using soils from dam excavation. • Complete partial dam removal and tie-in with closure cap. • Groundwater remediation and/or monitoring, if/as needed. • Remove free water. Install temporary wastewater treatment system, as needed. • Excavate the ash area that was mainly under water at the start of the project. Stack the excavated ash on top of the existing ash delta, away from the excavation slope initially. • Construct new perimeter berm for the hybrid closure area. Construct a stabilized slope wedge or Deep Mixing Method (DMM) wall as needed. • Grade closure area and construct closure cap using soils from dam excavation. • Complete dam removal and restore excavated areas to stable and non -erodible condition. • Groundwater remediation and/or monitoring, if/as needed. • Remove free water. Install temporary wastewater treatment system, as needed. • Excavate the ash area that was mainly under water at the start of the project. Stack the excavated ash on top of the existing ash delta, away from the excavation slope. • Construct new temporary perimeter berm for the ash delta area. Construct a temporary stabilized slope wedge or Deep Mixing Method (DMM) wall as needed. • Construct a lined landfill in the excavated ash basin footprint. Excavate the stacked and ash delta ash and place in landfill and cap using the excavated soil from the dam (in addition to geosynthetics). • Complete dam removal and restore excavated areas to stable and non -erodible condition. • Groundwater remediation and/or monitoring, if/as needed. • Remove free water. Install temporary wastewater treatment system, as needed. • Construct a lined landfill outside the ash basin footprint within the site property. • Excavate the ash from the basin, place in the landfill, cap using the INTERNAL WORKING DRAFT PROVIDED TO NCDEQ ON 06/07/201b FOR DISCUSSION PURPOSES ONLY DRAFT — AECOM Option Description soil from the dam (in addition to geosynthetics). • Complete dam removal and restore excavated areas to stable and non -erodible condition. • Groundwater remediation and/or monitoring, if/as needed. • Remove free water. Install temporary wastewater treatment system, as needed. • Excavate the ash from the basin, moisture condition to be ready for hauling, and send for offsite disposal at a location (e.g. landfill or structural fill) identified by Duke. 1,000,000 cubic years per year assumed. Transport method yet to be determined. • Complete dam removal and restore excavated areas to stable and non -erodible condition. • Groundwater remediation and/or monitoring, if/as needed. INTERNAL WORKING DRAFT 2 PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY DRAFT - AECOM Table 2 — Quantity Summary Ash Basin Closure Options Evaluation Belews Creek Steam Station Duke Energy Item Volume (CY) Area (AC) 2D Surface 3D Surface Existing Ash Ash Basin Area (regulatory boundary) NA 270 NA In Place Ash 9,669,743 270 NA Ash Basin Dam 1,269,605 15 NA 1-Foot Overexcavation 441,235 270 273 Free water volume (below El. 750') 1,014,853,821 GAL 140 NA Option 1: Closure in Place Closed contained ash 9,669,743 270 275 Approximate cut/fill volume (will be more for ash delta) 1,239,885 NA NA Dam soil cut volume 924,605 NA NA 2 ft soil cover 887,333 270 275 Option 2: Hybrid Option Closed contained ash and cover 9,645,989 167 167 Ash excavation volume 2,255,272 NA NA Soil stabilization area volume 629,630 NA NA Perimeter stability berm volume 103,704 NA NA 2 ft soil cover 539,176 NA 167 Dam soil cut volume 1,269,605 NA NA Option 3: Onsite Landfill Inside the Excavated Ash Basin Closed contained ash and cover 9,833,234 74 78 Ash excavation volume (initial phase) 2,255,272 NA NA Soil stabilization area volume 629,630 NA NA Ash excavation volume (final phase) 9,669,743 NA NA Landfill baseliner system (2-ft soil + synthetics) 251,402 NA 78 Landfill cover system (2-ft soil + synthetics) 251,402 NA 78 Dam soil cut volume 1,269,605 NA NA Option 4: Onsite Landfill Outside the Excavated Ash Basin Closed contained ash and cover 9,670,250 83 88 Ash excavation volume 9,669,743 NA NA Landfill baseliner system (2-ft soil + synthetics) 282,981 NA 88 Landfill cover system (2-ft soil + synthetics) 282,981 NA 88 Dam soil cut volume 1,269,605 NA NA Option 5: Offsite Disposal Closed contained ash 9,669,743 NA NA Ash excavation volume 9,669,743 NA NA Dam soil cut volume 1,269,605 NA NA INTERNAL WORKING DRAFT PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY DRAFT — AECOM Subject Table 3.1 — Option 1 Overview: Closure in Place Ash Basin Closure Options Evaluation Belews Creek Steam Station Duke Energy Description — Option 1 1. Remove free water. Install temporary wastewater treatment system, as needed. 2. Grade the ash surface to promote positive drainage. Limited ash excavation and stacking anticipated. 3. Start partial removal of dam. 4. Construct closure cap over ash basin area using soils from dam excavation. 5. Complete partial dam removal and tie-in with closure cap. 6. Groundwater remediation and/or monitoring, if/as needed. 1. Lower free water level by removing stop logs to the maximum extent possible. It is believed that this lowering can be done under the existing NPDES permit. 2. Remove remaining free water by using floating pumps, screened intakes, and pumping through the existing spillway riser. Install temporary wastewater treatment systems, as needed to meet NPDES requirements based on future discussion with the regulators. Estimated volume of free water below the existing water level at El. 750 is over one billion gallons. Assuming that process water flows into the ash basin will be stopped at this time, additional storm water will still need to be pumped (and treated). 3. Grade the ash surface to promote positive drainage. Limited ash excavation and stacking within the ash basin are anticipated. Cut and fill volumes are expected to be balanced. Estimated total cut and fill volume is about 1.2 million cubic yards in the water covered area, with potential additional re -grading in the ash delta. Limited dewatering of ash entrained water may be needed at certain locations to support access and future placement of the cover system. 4. Start partial removal of dam. Final volume of soil to be removed from the dam is estimated to be about 0.9 million cubic yards. 5. Construct closure cap over ash basin area primarily using soils from dam excavation. Total soil cover soil volume is estimated to be about 0.45 million cubic yards based on a 2-ft thick soil cover system. The total soil cover 3-D surface area is 275 acres. Total 2-D footprint of the closure area is 270 acres. Total in place ash volume is 11,603,692 tons (9,669,743 cubic yards). 6. Complete partial dam removal and tie-in with closure cap. 1. Existing ash/surface water impoundments will not be eliminated (i.e., will remain in place), resulting in some level of risk of breach/failure. 2. Current groundwater conditions do not involve significant exceedances. Predictive modelling and corrective action plan by HDR (December INTERNAL WORKING DRAFT PROVIDED TO NCDEQ ON 06/07/201b FOR DISCUSSION PURPOSES ONLY DRAFT - AECOM Subject Description - Option 1 2015) indicates improvements. 3. Residual groundwater -related risk is not eliminated by Closure in Place. Largest unlined closure area. 4. Proximity to River Bank or Shoreline — Generally same as Options 2, 3, and 4. 5. Proximity to Public Drinking Water Intakes — Generally same as Options 2, 3, and 4 (but Option 4 lined). 6. Proximity to Downgradient Potable Wall - Generally same as Options 2, 3, and 4 (but Option 4 lined). 7. Restoration of habitat, streams or wetlands — Minimal impact (borrow area development will endeavor to avoid impacts). 8. Air emissions off -site (based on miles driven) — NA 9. Air emissions on -site (based on gallons of fuel consumed) from closure implementation — this will be best option as construction work is limited. 10. Avoidance of greenfield disturbance — On -site borrow area only. 11. Stormwater run-on will enter the construction areas and need to be managed. Stormwater and existing waters within ash basins will be treated prior to discharge. For final condition, stormwater run-on will be routed along the closure cover system. 1. Capital costs = $58 MM 2. Long-term operations maintenance and monitoring = $7.5M over 30 years 3. Avoided costs — Off -site hauling ash, costs managed through minimizing material handling. 4. Significant additional groundwater remediation costs (capital and O&M) may be applicable because of Closure in Place in an unlined state. 1. High likelihood of meeting regulatory deadlines 2. Design and permitting = 12 months 3. Initiation time (to begin closure construction) = 30 months (includes design/permits and dewatering) 4. Construction = 76 months 5. Post -closure = 30 years 1. In place closure being unlined. 2. NPDES permit modifications. 3. Plan or potential for beneficial reuse of site — none. 4. Imported soil needs — Reuse partial dam removal soil. 5. CCR beneficial reuse - None 6. Transportation impact (based on miles driven) — No offsite miles. Onsite limited within ash basin footprint — minimal construction compared to other options. 7. Noise impact due to on -site activity (based on proximity of neighbors) — very less. 8. Visual impact (based on final height of storage facility, land uses within the viewshed) — better than current conditions (i.e. almost none). INTERNAL WORKING DRAFT PROVIDED TO NCDEQ ON 06/07/201b FOR DISCUSSION PURPOSES ONLY 5 DRAFT — AECOM Subject Description — Option 1 1. Relative to other options, this one has easier construction. 2. Stormwater management within basin. 3. No high excavations within the ash. 4. Dewatering mostly limited to free water removal. 5. Relatively limited construction compared to other options. 6. Most economical option. 7. Can be safely executed using typical ash pond closure construction methods. 8. Less chance for schedule delays. 1. Larger footprint of unlined area. 2. Cover slopes are generally on the flatter side, resulting in more maintenance needs. 3. Partial dam removal and likely need for remaining in the dams program until entrained water levels decrease further. o`v INTERNAL WORKING DRAFT 6 PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY DRAFT — AECOM Table 3.2 — Option 2 Overview: Hybrid Closure Option (Removal for areas under water and Closure in Place for the ash delta) - Reduced Closure Footprint Within the Ash Basin Ash Basin Closure Options Evaluation Belews Creek Steam Station Subject Duke Energy Description — Option 2 1. Remove free water. Install temporary wastewater treatment system, as needed. 2. Excavate the ash area that was mainly under water at the start of the project. Stack the excavated ash on top of the existing ash delta, away from the excavation slope initially. 3. Construct new perimeter berm for the hybrid closure area. Construct a stabilized slope wedge or Deep Mixing Method (DMM) wall as needed. 4. Grade closure area and construct closure cap using soils from dam excavation. 5. Complete dam removal and restore excavated areas to stable and non - erodible condition. 6. Groundwater remediation and/or monitoring, if/as needed. 1. Lower free water level by removing stop logs to the maximum extent possible. It is believed that this lowering can be done under the existing NPDES permit. 2. Remove remaining free water by using floating pumps, screened intakes, and pumping through the existing spillway riser. Install temporary wastewater treatment systems, as needed to meet NPDES requirements based on future discussion with the regulators. Estimated volume of free water below the existing water level at El. 750 is over one billion gallons. Assuming that process water flows into the ash basin will be stopped at this time, additional storm water will still need to '\ be pumped (and treated). 3. Stabilize the target excavation cut slope area of the ash basin by implementing deep soil mixing or alternative approaches. Ash entrained water dewatering in target areas may also be needed. 4. Excavate the ash area that was mainly under water at the start of the project. Stack the excavated ash on top of the existing ash delta, away from the excavation slope initially. Excavation volume estimated to be 2.2 million cubic yards. 5. Construct new perimeter berm for the hybrid closure area. Construct a stabilized slope wedge or Deep Mixing Method (DMM) wall as needed. 6. Start dam removal. Final volume of soil to be removed from the dam is estimated to be 1.2 million cubic yards. 7. Grade closure area and construct closure cap using soils from dam excavation. Total fill volume is estimated to be about 2.2 million cubic yards. Total soil cover soil volume is estimated to be 0.5 million cubic INTERNAL WORKING DRAFT PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY DRAFT - AECOM Subject Description - Option 2 yards based on a 2-ft thick soil cover system. The total soil cover 3-D surface area is 167 acres. Total 2-D footprint of the closure area is 167 acres. Total in place ash volume is 11,603,692 tons (9,669,743 cubic yards). 8. Complete dam removal and restore excavated areas to stable and non - erodible condition. 9. Groundwater remediation and/or monitoring, if/as needed. 1. Existing ash/surface water impoundments will not be eliminated (i.e., will remain in place), resulting in some level of risk of breach/failure. 2. Current groundwater conditions do not involve significant exceedances. Predictive modelling and corrective action plan by HDR (December 2015) indicates improvements. 3. Residual groundwater -related risk is not fully eliminated by Hybrid Closure, however unlined footprint area is reduced. Second largest unlined closure area along with Option 3. 4. Proximity to River Bank or Shoreline — Generally same as Options 2, 3, and 4. 5. Proximity to Public Drinking Water Intakes— Generally same as Options 2, 3, and 4 (but Option 4 lined). 6. Proximity to Downgradient Potable Wall - Generally same as Options 2, 3, and 4 (but Option 4 lined). 7. Restoration of habitat, streams or wetlands — Minimal impact (borrow area development will endeavor to avoid impacts). 8. Air emissions off -site (based on miles driven) — NA 9. Air emissions on -site (based on gallons of fuel consumed) from closure implementation — this will be second best option based on construction work, along with Option 3. 10. Avoidance of greenfield disturbance — On -site borrow area only. 11. Stormwater run-on will enter the construction areas and need to be managed. Stormwater and existing waters within ash basins will be treated prior to discharge. For final condition, stormwater run-on will be partially routed along the closure cover system. 1. Capital costs = $105 M M 2. Long-term operations maintenance and monitoring = $100K annual. 3. Avoided costs — Off -site hauling ash, costs managed through minimizing material handling. 4. Significant additional groundwater remediation costs (capital and O&M) may be applicable because of Closure in Place in an unlined state. 1. High likelihood of meeting regulatory deadlines 2. Design and permitting = 18 months 3. Initiation time (to begin closure construction) = 36 months (includes design/permits and dewatering) 4. Construction = 88 months 5. Post -closure = 30 years INTERNAL WORKING DRAFT PROVIDED TO NCDEQ ON 06/07/201b FOR DISCUSSION PURPOSES ONLY DRAFT — AECOM Subject Description — Option 2 place closure portion being unlined. IDES permit modifications. an or potential for beneficial reuse of site — Partially restore to nature id use for hybrid closure footprint. (ported soil needs — Reuse dam removal soil. : R beneficial reuse - None ansportation impact (based on miles driven) — No offsite miles. isite limited within ash basin footprint. )ise impact due to on -site activity (based on proximity of neighbors) - 3s. 3ual impact (based on final height of storage facility, land uses within the �wshed) — minimal. ie of the most difficult construction options. ormwater management within basin. gh excavations within the ash and overfilling ash delta. Need abilization. watering mostly limited to free water removal. Additional dewatering thin the area under water as part of ash removal. )otprint reduction. reaper than the landfill or offsite disposal options. )mplete dam removal. )otprint with unlined area remains partially. fficult high excavation of ponded ash in the middle of the ash pond )ses several construction and safety challenges. )ng term stability concerns due to the ponded ash slopes. A high ability dike may need to be constructed. INTERNAL WORKING DRAFT 9 PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY DRAFT — AECOM Table 3.3 — Option 3 Overview: Removal - Onsite Landfill Inside the Excavated Ash Basin Ash Basin Closure Options Evaluation Belews Creek Steam Station Duke Energy Subject DetailAN I! 0 11 K 3. 11 Description — Option 3 Remove free water. Install temporary wastewater treatment system, as needed. Excavate the ash area that was mainly under water at the start of the project. Stack the excavated ash on top of the existing ash delta, away from the excavation slope. Construct new temporary perimeter berm for the ash delta area. Construct a temporary stabilized slope wedge or Deep Mixing Method (DMM) wall as needed. Construct a lined landfill in the excavated ash basin footprint. Excavate the stacked and ash delta ash and place in landfill and cap using the excavated soil from the dam (in addition to geosynthetics). Complete dam removal and restore excavated areas to stable and non - erodible condition. Groundwater remediation and/or monitoring, if/as needed. Lower free water level by removing stop logs to the maximum extent possible. It is believed that this lowering can be done under the existing NPDES permit. Remove remaining free water by using floating pumps, screened intakes, and pumping through the existing spillway riser. Install temporary wastewater treatment systems, as needed to meet NPDES requirements based on future discussion with the regulators. Estimated volume of free water below the existing water level at El. 750 is over one billion gallons. Assuming that process water flows into the ash basin will be stopped at this time, additional storm water will still need to be pumped (and treated). Stabilize the target excavation cut slope area of the ash basin by implementing deep soil mixing or alternative approaches. Ash entrained water dewatering in target areas may also be needed. Excavate the ash area that was mainly under water at the start of the project. Stack the excavated ash on top of the existing ash delta, away from the excavation slope initially. Excavation volume estimated to be 2.2 million cubic yards in the initial phase to stack over the ash delta and 9.6 million cubic yards subsequently to place in the landfill. 5. Construct new temporary perimeter berm for the ash delta area. Construct a temporary stabilized slope wedge or Deep Mixing Method (DMM) wall as needed. 6. Start partial dam removal. 7. Construct a lined landfill in the excavated ash basin footprint. Liner 2D INTERNAL WORKING DRAFT 10 PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY DRAFT - AECOM Subject Description - Option 3 area is estimated to be 74 acres. Excavate the stacked and ash delta ash and place in landfill and cap using the excavated soil from the dam (in addition to geosynthetics). Total capacity of the landfill is 9.8 million cubic yards. Total soil cover soil volume is estimated to be 0.25 million cubic yards based on a 2-ft thick soil cover system (in addition to geosynthetics). The total soil cover 3-D surface area is 78 acres. Complete dam removal and restore excavated areas to stable and non - erodible condition. Final volume of soil to be removed from the dam is estimated to be 1.2 million cubic yards. 9. Groundwater remediation and/or monitoring, if/as needed. 1. Existing ash/surface water impoundments will be eliminated (i.e., lined compacted disposal), resulting in elimination of risk of breach/failure. 2. Current groundwater conditions do not involve significant exceedances. Predictive modelling and corrective action plan by HDR (December 2015) indicates significant improvements. However, lined disposal offers higher level of groundwater protection. 3. Residual groundwater -related risk is eliminated by Removal and Lined Disposal. 4. Proximity to River Ban or Shoreline — Generally same as Options 2 and 4. 5. Proximity to Public Drinking Water Intakes— Generally same as Options 2 and 4 (but Option 4 lined). 6. Proximity to Downgradient Potable Wall - Generally same as Options 2 and 4 (but Option 4 lined). 7. Restoration of habitat, streams or wetlands — Minimal impact (borrow area development will endeavor to avoid impacts). 8. Air emissions off -site (based on miles driven) — NA 9. Air emissions on -site (based on gallons of fuel consumed) from closure implementation — this will be third best option based on construction work. 10. Avoidance of greenfield disturbance — On -site borrow area only. 11. Stormwater run-on will enter the construction areas and need to be managed. Stormwater and existing waters within ash basins will be treated prior to discharge. 1. Capital costs = $286 M M 2. Long-term operations maintenance and monitoring = $200K annual. 3. Avoided costs — Off -site hauling ash, costs managed through minimizing material handling. 4. Additional groundwater remediation costs (capital and O&M) may be less because of closure in a lined state (i.e. removal and landfill). INTERNAL WORKING DRAFT PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY DRAFT - AECOM Subject Description - Option 3 1. Ash removal rates at 100,000 tons per year may prove challenging to meet regulatory deadlines. 2. Design and permitting = 18 months 3. Initiation time (to begin closure construction) = 54 months (includes design/permits and dewatering) 4. Construction = 150 months 5. Post -closure = 30 years 1. Siting/permitting of new landfill. 2. NPDES permit modifications. 3. Constructing a landfill within the excavated ash basin should result in less interest. 4. Plan or potential for beneficial reuse of site — Partially restore to nature and use for landfill footprint. 5. Imported soil needs — Reuse dam removal soil. Potential additional soil needs to meet hydraulic conductivity requirements. 6. CCR beneficial reuse - None 7. Transportation impact (based on miles driven) — No offsite miles. Onsite limited within ash basin footprint. 8. Noise impact due to on -site activity (based on proximity of neighbors) - less. 9. Visual impact (based on final height of storage facility, land uses within the viewshed) — Need to consider Landfill Viewshed. 1. One of the most difficult construction options. 2. Stormwater management within basin. 3. High excavations within the ash and overfilling ash delta. Need stabilization. 4. Landfill to be constructed in front of this high ash cut. 1. Dewatering will include free water removal and pore water removal as part of ash excavation. 2. Closure by removal 3. Landfill does not take up any greenfield space. 4. Complete dam removal. 1. Difficult high excavation of ponded ash in the middle of the ash pond poses several construction and safety challenges. 2. Additional structural fill (than estimated now) may needed to provide groundwater separation for the baseliner. INTERNAL WORKING DRAFT 12 PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY DRAFT — AECOM Table 3.4 — Option 4 Overview: Removal - Onsite Landfill Outside the Ash Basin Ash Basin Closure Options Evaluation Belews Creek Steam Station Duke Energy Subject Description — Option 4 1. Remove free water. Install temporary wastewater treatment system, as needed. 2. Construct a lined landfill outside the ash basin footprint within the site property. 3. Excavate the ash from the basin, place in the landfill, cap using the soil from the dam (in addition to geosynthetics). 4. Complete dam removal and restore excavated areas to stable and non - erodible condition. 5. Groundwater remediation and/or monitoring, if/as needed. Lower free water level by removing stop logs to the maximum extent possible. It is believed that this lowering can be done under the existing NPDES permit. 2. Remove remaining free water by using floating pumps, screened intakes, and pumping through the existing spillway riser. Install temporary wastewater treatment systems, as needed to meet NPDES requirements based on future discussion with the regulators. Estimated volume of free water below the existing water level at El. 750 is over one billion gallons. Assuming that process water flows into the ash basin will be stopped at this time, additional storm water will still need to be pumped (and treated). 3. Construct a lined landfill outside the ash basin footprint within the site property. Landfill 2D area is 83 acres. 4. Excavate the ash from the ash basin nd haul to the landfill. Excavation volume estimated to be 9.6 million cubic yards. 5. Start partial dam removal. 6. Place ash in the landfill and cap. Total ash contained in landfill is 9.6 million cubic yards. Total soil cover soil volume is estimated to be 0.28 million cubic yards based on a 2-ft thick soil cover system (in addition to geosynthetics). The total soil cover 3-D surface area is 88 acres. 7. Complete dam removal and restore excavated areas to stable and non - erodible condition. Final volume of soil to be removed from the dam is estimated to be 1.2 million cubic yards. Groundwater remediation and/or monitoring, if/as needed. 1. Existing ash/surface water impoundments will be eliminated (i.e., lined compacted disposal), resulting in elimination of risk of breach/failure. 2. Current groundwater conditions do not involve significant exceedances. Predictive modelling and corrective action plan by HDR (December 2015) indicates significant improvements. However, lined disposal INTERNAL WORKING DRAFT 13 PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY DRAFT - AECOM Subject Description - Option 4 offers higher level of groundwater protection. 3. Residual groundwater -related risk is eliminated by Removal and Lined Disposal. 4. Proximity to River Bank or Shoreline — Closer to Belews Lake than other options. 5. Proximity to Public Drinking Water Intakes — Closer to some of the wells, but this is a lined option. 6. Proximity to Downgradient Potable Wall - Closer to some of the wells, but this is a lined option. 7. Restoration of habitat, streams or wetlands — Greenfield industrial area with some impact to two small streams that discharge to Belews Lake. 8. Air emissions off -site (based on miles driven) — NA 9. Air emissions on -site (based on gallons of fuel consumed) from closure implementation — this will have the most impact due to hauling needs among the onsite options. 10. Avoidance of greenfield disturbance —This impacts onsite industrial greenfield area. 11. Stormwater run-on will enter the construction areas and need to be managed. Stormwater and existing waters within ash basins will be treated prior to discharge. 1. Capital costs = $268 MM 2. Long-term operations maintenance and monitoring = $200K annual. 3. Avoided costs — Off -site hauling ash, costs managed through minimizing material handling. 4. Additional groundwater remediation costs (capital and O&M) may be less because of closure in a lined state (i.e. removal and landfill). 1. Ash removal rates at 1,000,000 cubic yards per year may prove challenging to meet regulatory deadlines. 2. Design and permitting = 24 months 3. Initiation time (to begin closure construction) = 54 months (includes design/permits and dewatering) 4. Construction = 138 months 5. Post -closure = 30 years 1. Siting/permitting of new landfill 2. NPDES permit modifications 3. Constructing landfill in greenfield (industrial) area near to the Belews lake and some water supply wells. 4. Plan or potential for beneficial reuse of site — Restore to nature 5. Imported soil needs — Reuse dam removal soil. Potential additional soil needs to meet hydraulic conductivity requirements. 6. CCR beneficial reuse - None 7. Transportation impact (based on miles driven) — No offsite miles. Onsite hauling across Pine Hall Road (or conveyor needed). 8. Noise impact due to on -site activity (based on proximity of neighbors). INTERNAL WORKING DRAFT 14 PROVIDED TO NCDEQ ON 06/07/201b FOR DISCUSSION PURPOSES ONLY DRAFT — AECOM Subject Description — Option 4 9. Visual impact (based on final height of storage facility, land uses within the viewshed) — Need to consider Landfill Viewshed. 1. Relatively manageable construction option. 2. Stormwater management within basin and outside as well (landfill, hauling). 3. Excavation can be in layers and safer than Options 2 and 4. 1. Dewatering will include free water removal and pore water removal as part of ash excavation. 2. Closure by removal 3. Complete dam removal. 1. Landfill takes up greenfield space. Ir O INTERNAL WORKING DRAFT 15 PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY DRAFT — AECOM Table 3.5 — Option 5 Overview: Removal — Offsite Disposal Ash Basin Closure Options Evaluation Belews Creek Steam Station Duke Energy Subject Description — Option 5 1. Remove free water. Install temporary wastewater treatment system, as needed. 2. Excavate the ash from the basin, moisture condition to be ready for hauling, and send for offsite disposal at a location (e.g. landfill or structural fill) identified by Duke. 1,000,000 cubic yards per year assumed. Transport method yet to be determined. 3. Complete dam removal and restore excavated areas to stable and non - erodible condition. 4. Groundwater remediation and/or monitoring, if/as needed. Lower free water level by removing stop logs to the maximum extent possible. It is believed that this lowering can be done under the existing NPDES permit. 2. Remove remaining free water by using floating pumps, screened intakes, and pumping through the existing spillway riser. Install temporary wastewater treatment systems, as needed to meet NPDES requirements based on future discussion with the regulators. Estimated volume of free water below the existing water level at El. 750 is over one billion gallons. Assuming that process water flows into the ash basin will be stopped at this time, additional storm water will still need to be pumped (and treated). 3. Excavate the ash from the ash basin and moisture condition as needed to prepare for offsite transport. Excavation volume estimated to be 9.6 million cubic yards. 4. Transfer ash to offsite location identified by Duke (landfill or structural fill). 5. Complete dam removal and restore excavated areas to stable and non - erodible condition. Final volume of soil to be removed from the dam is estimated to be 1.2 million cubic yards. 6. Groundwater remediation and/or monitoring, if/as needed. 1. Existing ash/surface water impoundments will be eliminated (i.e., offsite lined and compacted disposal), resulting in elimination of risk of breach/failure. 2. Current groundwater conditions do not involve significant exceedances. Predictive modelling and corrective action plan by HDR (December 2015) indicates significant improvements. However, lined disposal offsite offers higher level of groundwater protection onsite. 3. Residual groundwater -related risk is eliminated by Removal and Lined Disposal offsite. INTERNAL WORKING DRAFT 16 PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY DRAFT - AECOM Subject Description - Option 5 4. Proximity to River Bank or Shoreline — offsite disposal, location unknown at this time and assumed to meet minimum regulatory setbacks. 5. Proximity to Public Drinking Water Intakes — offsite disposal, location unknown at this time and assumed to meet minimum regulatory setbacks. 6. Proximity to Downgradient Potable Wall - offsite disposal, location unknown at this time and assumed to meet minimum regulatory setbacks. 7. Restoration of habitat, streams or wetlands — offsite disposal, location unknown at this time and assumed to meet minimum regulatory setbacks. 8. Air emissions off -site (based on miles driven) — Significant. 9. Air emissions on -site (based on gallons of fuel consumed) from closure implementation — this will have some impacts due to hauling. 10. Avoidance of greenfield disturbance— No impact onsite. Impacts may be offsite and not known at this time. 11. Stormwater run-on will enter the construction areas and need to be managed. Stormwater and existing waters within ash basins will be treated prior to discharge. 1. Capital costs = $1 Billion 2. Long-term operations maintenance and monitoring = $100,000 annual. 3. Avoided costs — onsite monitoring and O&M. Groundwater monitoring still needed for the removal area. 4. Additional groundwater remediation costs (capital and O&M) may be less because of source removal (i.e. removal and offsite disposal). 1. Ash removal rates at 1,000,000 cubic yards per year may prove challenging to meet regulatory deadlines. 2. Design and permitting = 12 months (assuming offsite permitted capacity is readily available) 3. Initiation time (to begin closure construction) = 36 months (includes design/permits and dewatering) 4. Construction = 129 months 5. Post -closure = 30 years 1. Final location for the ash. 2. NPDES permit modifications. 3. Plan or potential for beneficial reuse of site — restore to nature. 4. Imported soil needs — None. 5. CCR beneficial reuse — Offsite use could be a beneficial reuse structural fill (e.g. mine reclamation). 6. Transportation impact (based on miles driven) — Significant offsite miles. 7. Noise impact due to on -site activity (based on proximity of neighbors) — More due to offsite transport. INTERNAL WORKING DRAFT PROVIDED TO NCDEQ ON 06/07/201b FOR DISCUSSION PURPOSES ONLY 17 DRAFT — AECOM Subject Description — Option 5 8. Visual impact (based on final height of storage facility, land uses within the viewshed) — None onsite. 1. Relatively manageable construction option. 2. Stormwater management within basin and outside as well (hauling). 3. Excavation can be in layers and safer than Options 2 and 4. 1. Dewatering will include free water removal and pore water removal as part of ash excavation. 1. Closure by removal 2. Complete dam removal. 1. Offsite transport. 2. Depending on the arrangement, Duke may lose oversight over the long term protection of the ash, while some responsibility may still remain with Duke (e.g. offsite owner becoming bankrupt). INTERNAL WORKING DRAFT 18 PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY ATTACHMENT 2 CONCEPTUAL DRAWINGS OF OPTIONS CONSIDERED (DRAFT - 02/12/2016) INTERNAL WORKING DRAFT PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY AECOM Closure Options Conceptual Drawings INTERNAL WORKING DRAFT PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY In -Place CCR Volume A_OOM O Off' 2 3 4 5 6 7 8 REV. O NP?h P r) K i n P; r) A Ajr B B C c m O D 0 1 2 g 2 TENTHS 10 20 30 3 4 5 6 7 8 FOR DISCUSSION PURPOSES 0� '�_ —� 1l l r 800 J J I \ \ ` — —� — �•, I N 930000 L1 N 927000 N 926000 N 925000 N 924000 N 923000 \•� + _ ,, L _ t . _ _ `` ;,Y\i . ;� \ 11,11 A I II mp/ H IMPACT BASF, E II STRUCTURE (OUT >� 4j, '- \ �' \`� il(�1�_ �\\� �_` -��� ////� 11/l l \� � � \( ' _ ;1��l/jii� /jit •''� N, SPILLWAY SPILLWAY OUTLET CONDUIT EASEMENT �\ \ I �(((/(fl(//-"�'� _\\\\\�\\\� ��,��� / /// / �- `� _ _— 1\ \ I \v l � -1 / \r tr < < \` / )///1N), i /jIx Vk ll 11)1 i I' i%l /Jl(I�JJJI �l\ /L✓ ACTIVE SPILLWAY RISER — ',lttr ;_�1 m- f/��� /�,./%�/i,!� �� /i�\\ �!�/ \ /l l (� ( IIII \\' -.� \ '\�� JJ\�\ \ \I f INTAKE STRUCTURE W 1) I)I 1,.. �n�\._.-<d\ ,/� �\� /i i i � I l f/ 1 -. \ JI ' � I ( l \ \ � °,• ///�I; �\\ /1/ Ill /�: \ \��\\ \ \ / c' o rrt,i�\ Jet o _—�//IDWAY L�r CD �� 1 // / /, ��- \\✓I // i A J\\vNKMENT Dq►)"`l\I co pp co co W /1y//if'lcA�y /r�,A+q// Q J III,+\h ��/l\\ �1 \ •�\ = j • �'% . - /. / f/ - ///// /��f� ��l 11\\\ � � \ / \1 Ill/ '�I) �J1\v i �--, —I ( \\\ ) I / (! ii + BELEWS LAKE �. �, �� `--.'---� `'•\ \l�/ 11 ��/J J� ))/r •� \ 1\ _ _ ��� /i � �,(/ � 1 �� ` ! �n• <� •i Ill `'�. I �' �+��. 1 \ , . ® //i/`Y�!��--� hJ) l—��l J�( /�i�II ;%% l/ %��✓/'�-�.;,�j ��1, / <-// ,//1 �� r / \ �: ..c� i/:' ((Iljll /,•��'� I �/ ;� I( �%\If � f�� I)llll .\\1 (/. lfr�>>/ /r= .I� i c.//,✓� 1., �,`..__ ,� _" _ `�,:.. �, r �. \ �,��IIf1i�'��\�1�.,'s<s�� C Pi1A Ill / �\ \\ l ij/ L-- ��/11 ��,n ✓— III\ / -\ �a ( -� Z I4IE HALL ROAD,-00 ASH LANE� .. / �`` / , 1 (\ / \ \ /� i ��/f CLOSED O STRUCTURAL I/ 1i1 Ir % • / %/I Jr // / y� j� f {� ('/ll � __ oP� / i�i//^`l11"Njl( F - "�//d 1�,� p= N N1\�11r �i'a 1 /l f l• / /�//rllt7 J \ �/ ��I (,i/J ,yll1II�1 -/'- .//i 1--/\ i�� i l - A/ I 1 \ / / �)► \ / // - :,..��' �/ J � ��<�� 11 // / / �_ � ( III \\ r� //// , �• `_ -- �7 !i�� /_II\� � .. III \ )� \III r(II/I ((( _� , I I /<�� � � : \ / I• ��\\ /1J1III J -,�� � � I/� > -,�z � ; .l,I��\�\�1/�����i1/ ////w►(/ //I ��J /(�� JJ IIII ���1 \ \�� rI l� } �`�/ _ '"� `��/�l/l A/ \ / / \ / J n o 0 0 'I \ o 0 0 r'► '/ /,% �l\ \ \ \ \� `ll \ �_ sue -. __ Lo t0 BELEWS O \ \ \ �� — -60 co co co LAKE W W �_'" W W W t N 931000 "w" pw 44— • , � v • t .., , - - •t Y r' ..I.Ak . T _ I , , u+tr • : ,- ,. _h .�'. '..i!� ..:-. '. '::.i ' '. -, ._ ,• .. \ _ i;`a. y .mil. L...V-�• •n v ,a A 1s •' M � s + I x i' k •� / ¢ } r - dt y '§r�i♦1"r. .. �{� .��Fp��.„,s2 T�• er'-P e iC '. t+}-�" 3r' it ��� .0 RS - '�. \ -, `1;1. it tip 't j.. :-�., �� ����' y �;.;--� r •�,�-� ,� rpY.,.v , x IMPACT BASIN OUTLET >: STRUCTURE (OUTFALL 003) Pe k.- .t r �; r- _ w. i y -v n .Y f. r' •�' wr-- R 'J li / M4� *l1.. v" } .f I :F •. 'i �tS . it -..d 'T." ,y: -:: y ^, utf.•a, .} >�%,. ....,. x ,• .. . a n_ r :•1`. ' ' f' ,y d l� t1'�- .1-. W y .c - 'I .� 1LLWAY OUTLET CONDI,�- T.-: '.... ... �s. ';t+,r �. e.•, r t-•..,.. .i. ,., ,, ., a. ,y- S:. q�, d•f� - -1 �c'Si +w�trc . �f Jti: d'... - 5 S�;' . ,. .. J- ,. �•' Y -' '3' f' r%N4'' a. ,.J- r'i vfi y - - ...,-. - .ter. ':. ,•:-.,.... ,. .,�J _ ._.. S .. ,�, ., •� k .1. � , f. , � lk EASEMENT Y ... �. ,�.. .Y� ''..• �. I,�r �.;�-. y *, ,. T T i� ,_� 1. i� ..v.+- z - 1 :^�-ilc. e,_„1 ..• , v _A, ( ,,] • =Sr �tr -A' JY�I, .J r � ' - -t . y f ... .. ..§!. - f ..- .. .4 ;V <.-} �`.:' ^n _ ,.., ..,.•v t e 4� "F` 'i. i'f !- ! YS. .. .=, _ .: . , , ... �. . - .:a- _• ..-_. -, .: i�i.;f„f. 4 .s�. ._. �17.k'.. ,i�a �• 'r/ 7 R'A ! J .l r<.,d - �r ':,E' • �•' ,�-.� ri ;� v ,�� � ACTIVE SPILLWAY RISER �•�• r� L�'�� r INTAKE STRUCTURE , t j' .:.L-'- „ t' '} ?k •' tl� f i Wi f' ) .p'.• \ f k. -Y. ♦ IIuM Il, .�} er •ITY '� i.• r ,, � f +�-�r '�;�� ROADWAY _'Y,.Y; J• _..� y - �•� .�>€ - 'I - - o � EMB ET DAM -. r= ASH DIKE ' 'i. .:�.f. f� +0 t,F x- Z,-'+ -' _ .'y •'� a. .BSc - ` � .I • iiT �`sr`�� ,�, ,�i �� . � yd,• p� ' ��. y.� I .Y v � O :- ` ., I ,'�, ' Y S '�,r"�i.,'4 t :.>1'acr:,s, ,,.;,. ''..<�: �7i'��t✓",. 1•t + .e ��v?, ,, � .'1 �K,}�}+�+-rrr F � ,: %7 _ - - ' 7LS•. _ r- "'.•'�\R SY I / Jr,ytltg�y j�.< , c� t'. ' - \\ ////������ ,17 ; jK ,ram T r �•'f_ r N 928000 .S ----- \�, _ / / / I � � o � � �� `\ � h x.���,"� _ ^,•pts .r,, . , ' r ko- �:= •J t I`F;�.: Yv. r 1�Ji.' C' $�• - �'\' 1 ,Q ���r� .•u r'l�e,�, i'. � '�' �' ,� ?•�� fp tt ♦iX +.". `f x '�.� '"^t Or, :�„'•?t - �` �co u '.# .i .ac� `' ° " z''1i'4.. � ��'- ,r � 1 ��� Q b �. .`•`"fat � � �� � k,t y RL N 927000a _ ¢ F,R . - ' V BELEWS LAKE N 926000 opow111040, NSF 0 i E, <-t Y- is Y • 111 �- •f4F {r�� uu ,,�4, � � � d"' •iR i r •4 xx r� St .. ..; t, I .t i>• v p.w p S„ i. J K r • 4 Ir i ,¢, , -r' �, � � �'� ice. # �� �i ," n f 1` gs S T�� R S •• •• •• •• •• 0 1 2 3 ? TENTHS 10 20 30 3 4 . 3. r �I ♦ REF ti *. 2. BELEWS LAKE♦. za' y ,.Y• .{ ti +R I d' s' ti +� r� x: w w - ,�'' SEAL n e' .04 -i; -.. F . , . w ��. sue; , , •� - ",�w a ` •,�1 f :, n(y� 5 6 7 JUM CA ICE ■ 1 r-1 ., /ram • -,' - �'- .1•r �\ •. � III \�_\\ \I \—\ \\ \\ \\\\ \=_� —% / / // / / / -�� -� �••;- \ \ \- �\\ \III I`'/___ _—���_ _=�==� ���.:� �- r / /, // / / f l / l l � � < / I -,� � - � \� 111 / �/ _ N 9-306 Q-,or 1.•;-t _�_ . ? � .. _ \c\� � �-• „� ��� -___� �))) //// �% • 1 � \\�\\ � \\ � I I I �\\ \\ \___-- \\\\ � \ � / /� // /_\ ram` .�.: •,; j\\\\ (,- 41 ♦ 4.0 �� ,:''� .,��r.,rr�'"- �\\\\ II/ / /�^�. I\ �\\\ ,11\\\ I I II I 1 \�i//�_ --� � \\\\ \\\\ \\ \ %/ l / '• iii�'/'///// / / // / ��---------—_ �— _ _� )/ I 1 ;� j. � ems• , \ \ \ ti I I \/ \ \ \\\ \ \ 1/ / (. / /. / / / / / / _ . - _ — — — _ _ — / / ... � ,, ;, \ \\\\IIII // ..`•-'\\\\ \JI \111 III \ //// // . \ \ \ \ / I / /, /// ®i / -- ---_—_ _—_ / / I I 1 _ �1 "�-�•: � \\ I I \ I Ill II I / / /— \ 1 \ ) I / .- -_ � � .r,,.,� \ \\-' 1 1\ I J _1 /JI I / / � /) 1 IIII 1)/ / / ., /II I I ► I / / / / / /// /' // \ ` ' — _—------- \ t / I I 1 I I I •�'�`:: tiP "?'�� -\ \ \ 11� /1 I \ //j � /-- I / 1 I I ) / /� l I I I I / � �-- J � —_' /-- _ \ \\ \ \ I I \\ \ // I / // r // /x�< • \\\�; / )� \ // / / / I// / /�/ —II ., .- ;- .� '•.tiM./ ` , - _- \ \\ � / 1 y..11 \ \ , / / / / f / l/ / 1 r-�r/�l/ . �,r•4�,} rc;a.�,. `�o' .. _ �:' \ / / �/i-J'-\\ \\\ v/ / / � I /// /���//1/(��%/� ram.• r-t/"/l /l/ / f/ l l (I \\ \ ///i-- �' /J 11 // / / / / / // // // / 1 �\� 11 I 1'<///�//� / f /,///1 / I I (I \ \ � \ /, �/ // I \ (1 XC owl ,_ . � I I /�\/ / �-. \\ II IIII IIII / I / 1 I \ \ \ / //— •` < 1 I / :;. - = �., •�',, ,r�, _\ // / / /' ®\`�\ — S ' -6e S• w•{� ' 'R; ,.• / I I \ III I / /) / / 111 II \\\l ` \ I I III I \ _///\\ J ` / / /// /// / / //_-- / / // �' •mot. L / / l: - / �/ / / / / / I 1 \\ 1 \ \ / / / / — \ I / / _ / N 929000 /// / ASH DIbF Lo '�`.�- • �.• .� //,/ // /// \ \ \ \ \ / I ( (/�1 1 (/ � �`_—_ // S//i/ // j j/i'/i� 41 OWL ASH BASIN BOUNDARY • - - / / •� o _ - -ter rl •1 .? 928000 / m oQ \ \ ) N, 927000 / / // w ----- ----- O CIO co Jr, / \\ J — / 1 T_ H BASIN ,,6 O / / W / • � w�Y.a 4y air' -; Y I p I INTERNAL WORKING DRAFT PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY AECOM Closure Options O REV. 0 IIIIIIIIINA t•��k �� } � try '� T . . s,: _ fib -y r,.F"1�-'{''�-��x� 1`°k. t',�` }� s�vt •�. � Y JC' t '�. 111t' C l� .% 060" — �j yid 7 `, '..,.. . �• r t + ,mil y}:. £r •,�`' � �� _ k lot < r �. r, r ` �. S , - d 1 4 Ar r e � V.. Q Q O W OC :o to to 0 1 2 3 2 TENTHS 10 1 r 4a7w, t <. � .Y / / � / / / / / / / / r " ,' rim,.:,, 'F ,-: p' L }a .. ' Sy _ :. . _'. — .: - • � :• �.. ' LEGEND: �M PROPERTY BOUNDARY '�' <' •y APPROXIMATE LANDFILL BOUNDARY � ` �a� � � - ►• ,;y, y - 1. NT" i` ASH BASIN BOUNDARY 4.�'p� IN -PLACE CLOSURE OPTION W.HYBRID CLOSURE OPTION . ,•ir ,' '-r !� S-d" ONSITE LANDFILL OPTION- r. INSIDE EXCAVATED ASH BASIN x* •� • 5]•L ° ° - ONSITE LANDFILL OPTION- ' < - _•. � , nr@. ^t} A �. • OUTSIDE THE ASH BASIN F, REFERENCE: \' , r t • y. 1• AERIAL PHOTOGRAPH WAS OBTAINED FROM NCONEMAP, DATED 2014• -. .._ -.._-• .. - .. .' :..."- -,+�C — ,F cps � J a - _ _ ,•,,.s _ .� A • .._ -, � 2. PROPERTY AND ASH BASIN BOUNDARIES PRESENTED IN THIS DRAWING ARE TAKEN FROM COMPREHENSIVE SITE • ' • '? ' uj r - yr `�'�►, ,; ~` ,;R'r�i ,`� ASSESSMENT REPORT - BELEWS CREEK STEAM STATION ASH BASIN" PREPARED BY HDR FOR DUKE ENERGY AND • r SUBMITTED TO NCDENR NPDES PERMIT NO. NC0024406 ON SEPTEMBER 9 2015. 0 400 800 1200 'off, i�r. *- ;'t i''*e.: • `A � � , . ol ` �`_ • GRAPHIC SCALE (IN FEET) Old TITLE CLOSURE OPTIONS .J t Q / / aof/ =com / rt DU G DUKE ENERGY / i00 r a- C / / I ,e i/ / / / v / ♦ i � � '" +�,, ` ' °.. �. �:e.. f•�� _ - ,�_ _� < , < . •,.•, - BELEWS CREEK ASH BASIN CLOSURE f. . O .�`9:. BELEWS CREEK, NORTH CAROLINA t: Z O FOR r*, '�` BELEWS CREEK STEAM STATION SEAL SCALE: 1' = 400' DES: CLD DUKE DWG TYPE: DFTR: CLD r / .r .,'°�:=• � JOB N0: 60432132 CHKD: DM ENERGY® DATE: 09/30/2015 ENGR : KK S": — FILENAME: FIGURE B2 APPD: KK ' DWG SIZE DRAWING NO. REVISION ANSI D 22.0"x34.0" B2-1 O 20 so 3 4 5 6 7 8 111111111!2111111 1 • F__c- F71 INTERNAL WORKING DRAFT PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY AECOM Option 1 In -Place Closure Option ILLil AY.GvTLET CONDUiT� , �)/////{� \ •�\ 1 -_ �\ / '/ s >� t / _ ) )/ 1)/1�= :�: ^"-; ``a� .^� �• r _ •fix �; III /� rJ\,\�\ � 1 ✓ // — \\\ \ ,, \ f �� / —; .---—Bar �',,,,��,-: r�: x',�. ,- ; ".,;fi;��'�• .,•,� .� �\\\`111( : 111 %IIII / / 'i/—\1 11 III I�- IIII // //// / � \ —�.� �— �_ �— . _((\\ 1 I 1 I / I I /-'\� �' � • 1\ \\1\\ � _//\ _� 1- <' ` -�,•.t•: °�'?: _ ,,, .�:..;�. fir} � •.-"�:\\\ \\1/ r�l�✓/ �/� //�— / //���) � )11 /l/l/ / �'-- z„— �--i i�/� _ �\ I I { ! \ \. • ��, ._' / /1)^\�\,_� I ti, � : r:a.�.,. r�i ., r,`�`, „-'' \\\--•,l .;•)\ 1111\// /� ll //1 J 3- 1/ l l ` �/ / �i�/%/ / / _—�I I \ / l I \ \ \ I l/� \\i�\ /'--—/i .� .. 4 r. ,... , \ — ✓ / / / 1 Ill kI r l 1 \ ;• �� �,.� .• • . '' _ -• -� .\ � /\\\ /// III /// /� � 11/Ill I ,��,.,:� .• ,� -> :�_ ,�, Y � .,,. �; y,;� � ` �; ..; ':`�� �. � .��a- ��-=� \ � / � \ � � \\1 1111(< -I I r � � �., \ / ! �I R D JrIV T E III II .. ,; k _ = / ► / / 1 I / I �/�-�\ .� `` '►�, DAM WILL BE ARTIALL1 _,�.�` '�, `�.�•_ REMOVED AND AREA WILL - .RETURNED TO NATURAL GRADE N 929000 • . .�• ,,�•;= s�;�' x� .. �' �<,•' / / /AI /� � - -'�\ \ ' 'i _� / \ \ , �/ �� /� // \✓/ //^ I 1/f ` /� I 1 1 I I I \ \ \- " r�\\\\\\�\ IIII ,.` ,_ •if • � -,Y•`f fit -•���, ,�� ° ;-' �': ;. ram:': ;:� \ \ i / / ". � / \ 11\ / \ / \ / 1 , — / 1 � \�, r / / I .\ \ \ � \\ 'i� / K { k .y.,y •t.., [-'t{'..•a,y},h. ��,J r .. \\ � // // I( `''�. \ / / ( -- — h / ^ \ l \ \ .. III I I\\� I / // IIII I I \ --- 1\\ \\ . _ -�' fs�e 'r■4.'• rr. . "�fi• -0"",` • .t � • - `•'r' :�".:{'�' - 1 �- I I 1 \ \ i I \ / � -.-✓ \ - \ I I \\\JI / I .i �- ( \\\\ I 1 X.e• • y . R x ., ;f�_; fly ' rr ,` A `e +)S•:,y ,i J.'' 2.`rp„ �' l/ // / , _ _ _—. — — 111////////i�//I(— , J�\�\\�\ J// �\— — JI \\\\\ / J \\\ N 928000 ti.,. -0 .. • ' , , •' , ' ,. `" ' , , . )/ I \\\\ \ I�AC6AIJ1kM�NT DAM �'.�' `M � `�• ` [S'±�'1;4 {�y,4 rRT .;.' •�jC>{1'�(Ly' -•tY Y..ri� •+_ y�� � \ ) %/ / I ` ' ,�` f y / /// // ��'w� •) I / // . \ � \ \\ \``Nu1` \ � —\ . /�ti_ / � " \ -/) - % R"`-, _ , i.._ .v c L , . •'s .'�:�F/'ScjP'•' .�1 117A h.i ` - / ) / j / r ' �� // / � J l l r � � � /!/ I r � \ \\ `� �' � � ` /!-- • /ors N 927000�i /� IJII ,'!X \ \ / / / / / / a,} �,, r� 1, ,+,:/ ✓ / f/ / // ll ll \ \ 1 ti 101 .,�� _:.� l / /:. /s�/JW \\ `� ,•/ ,Jf N 926000 _ 1 / ( ASH DELTA AREA WILL B \ \ /� - - / // /\\ \ \� // \\ \ //> / / l/� •ii� BELEWS GRADED USING A ROLLIN �j1\\�% LAKE HILL PATTERN / \� — .r•h, II �\ / / / / \\I /i ) ✓/ l // � \�� / � 1 \ � / �� t � ��/ l l . �- � � \ n � � I \I - • ° )/�• I� I i/ .��!/ I 111 '� // \ (/ ��\\ ,/11, \\( �,\\ h 11j/ ill / '-� \I� I� %/%/ � \ -_'"- -`�,_ �. ` �f. I I I l . . I 1-9 •�-.. //j/ / / /iii'_--___\\\\ a .-�� �I1� �:_.. \l /,� / ��l I) 1 �.\� �l 1111 \ I �< /// \ ' �\� /�.-l�/•� \�\\�., %. N 92401i �,� i II 1 Cii�.� �/ .e.. l '. l 11 /l / ✓ / /// /.. , ,,, // \\ \\\�a \\\\ — \ U ' `` jam \ =-J \T YI\ /)/ ,,• \.�Q 11 �r / / 1 11�\ 11111��i/il� L,\\II \ �� 1 / \ 1 II /. ► ./ / \ \\ � � � \�\ • .11 � 1) J ,-� c � ' ._ - �. // �\ ,111 � \�� = � w ` . � - / _ —1 0� 11\\\\ \.�// � \� -,,,.-l//�. / ' v/ l ll/ l' \POD /4 //iii/�/J/ l / PINE'H RO D _ ' ASH 1 / LANDFILL)/�. / CLOSED � \\ � � / I { � ��-•-��"/� .;; STRUCTURAL o- e p FILL w; •-:?�.rr:..�•:,' v \ � I /, . � � /O p� / / � / / // r/„1 �• ,� I 1 /i, /� I � / �I u� I If / �/ %� / l � �-: r � l J � ;A ' r . _ O�� /i^(,,/ `\ //I \\,\� // StAm N%\ N Q- c\N 1 )ll( - �� t/ / � J I �\ } �\ �\\�: � •=//�/i// (\ --/ ( I ( I ll\> >)�`� JJ//)f`�� 1/.L•�� —;_� •��t�\; ==%.� (1 \ J/)II ////' J`� 'F .- :� •I 9 e//� .oi / \gyp \ (1/ \ ) \ /t0 \\\ \ > / 00 r = / � \ I / � \ 1 \ / 1 I �`\ (c�` �//j // / � � > >ii / �• 1 ) \ \\ � \\ \\\ f- III \\ / _ \\ I \ / //I_� ///, �/ �, V III' , I III 1,r�, �./ / ( i 1 i 1, ��_�—� /11 ; 11 —/ \• /l/ \ lI( (_ ( J1✓�%■:L\:,� .\_ / ♦-r\ �-. Il 1\ ///✓n) �//l \ \ 1 I %• \ ) \ ,\\ \\\ \ill�� � ! _//.1\ {1 ... � INTERNAL WORKING DRAFT PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY AECOM Option 2 `V Hybrid Closure Option V ` •- a_yr..-'f �n. -''t+f�vkz%''�— -�� J I I op \ Sf ILi.W 4Y L1 LET rr .'Vf1I11' _//��/� : * ✓.°f a rz`. E��.S�hIEI: /�y��, % �i �l 11 ( \ r - 1 ' '� o'�'?`.'�s .,l;i s �"ji.�,�%�i,�+,-..��-„� r4 - "�_ ' - 4a..`[t-' t -•. �� / �\ / l \./�\ or? �� \�� III _ \ �� J// �� A l i i�.(f(� I�� (II�(zo ti'• c ACTIVE SPILLWAY RISER \ f L: It'///�� l% II ��j �. N 929000 =•j _ i xr. J' INTAKESTRUCTUREI � ,L \\\�_�// Ilam r %�11, ,�������//��?�)�)I� ,R��\\��.\�itui l�� ll���i,�, ��%�/,/, ///% ��� I Im� — '(N /I���I��i�l��i) I l 1 _��✓�_ ��L•- .•a --: ,f`.iv°.. - S ti .Y' .�+: ,, 7 ,3, `' .>•� Y{�4t •••:`:- Y ^i'S (/(/ (/ /�/ / �/, •� % \ �/ /� I I l \ 1 , l 1 I \ •. �; l' rrpr e < \ �II�\ \ A ,•� f�a,ly . e 4 � � f •r,.tlr• .� .\����,� o � \ � 1J I 1 �/✓ '' II I/ \ b. 'f- ..ram 'KCF• ..':r'z'�{:-..,=:'',., ,�5 •.f'' vr,2 •, i"- ,r'1"'„' �"y,•':� i- / I l ,.�.. ! I� ��.�J I \\\ ti,� r �` a� `�'r.Yl}/.�' .°E,• �, y1r �u ^t{�t�ao,� I":. �%I k / y ��� �— BJ� \ if \\\ \� �`�� ,/ II III 11 ✓ v/�II I r \ a ny..''�•Iv ;4r:{�,.. : ••3 f. rr, , f�9+1�i 1 :ems �y� �,�, � .,�,,�.�� :� �.�• .'� 'Y;.': �%4P"'� ,-Z•i..ti�1 x+ 7 �.'°*7,�1,=�t - • f'n •'c' +i:. ;, � f✓/ .� Velf ,,��� `•+. ° -�` Qii` � .ti �r y:�,�� Ir.�' tr ,-7rR r{�'' 'I l/,' p �.,,,- ��- � � —°�J/ \�� � \ . N 928000 /fill �\ Z' !0/ +1I .�+, 1 .•y s . r.: a - • ;{'� l .jr�i • `�.j� ,a ,Rr ; = �T �� / r`ji. I / �� - / , \ 10 r��T.t M1S�e. �' {. 'M .y` �, � �A�� � /. ��r - � — — - \ �.,.. � � ) \ !• -y'�. � / �11111 l�\ \\�\ `I � \ \\ \ \\`�� I a _ •y '�._ c-Y y'"3Ti.i C YJ �'( / _ - ,� �' -—l��_ / I�Q �� / ��l /mil \ �\ Ilr >J����� \ \ \ \ �_ _�" U I\\ j Ilk (rr ,��� \ 11✓/ /�// \\ �\X\ ��\ r -� �� �� i J �r� ��N)w f re 01 /)'' � • l\�—� ��BELEWS LAKE fly WO r1l'S, 00 J . /��1� WK,�� �. //% .N 924000 /a/� 7 I j) �r���/�/� /�'�\`' Q_'9 Nk X1 hl /spa MV��_ ��r I ` iN5"', ASH LANDFILL E�KHALL �LOSEfD �\�2 0- r, ,�TRU CCU_maRyA,L � ALL 0 'N 9°, I` �` \ rS � � r %% //` , ( I I (1 � r�fr i,/�� \��Jrr _1 ,,:� 1 �� `-� te l: � % I ) / �l ((� / \� ((��`k�, l , 1 ,% ` p\\ : s (r J/1 r s } M - �1\ ���,,�����t�\%I g >7//� \\aw if ��II 11• � � �`�� -'J I II� \\N`�l �� t... 1 �- co co co • J I INTERNAL WORKING DRAFT PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY Option 3 Onsite Landrill Inside th AECOM &4� VO �xcavated Ash Basin Closure Option N 929000. N 928000 lO N 927000 N 926000 N 925000 N 924000 N 92300 O 0co W _==_=-- �I\\ I \ (_ ' \\I�lllII`(. -.\\\ , ��,, I f \\\ ��\ ///ir %% /// ��, — = _—>/ice I I ` I I I �_ ' ,/-/�~ ��� �. , • \\�\ 1 i �- .� 1111 � ' I I 1 1 1 1(I � ►l�� I llll / / / .. —,� , _— • � ` \ � � '• �\ _ / \ � l I \\� \\\1 j fa f 11 // / //I s ��I IJII ///// � �— -,_ ;•�/�%�_;\\ \ ( I I I ! \�.� ) )I \� \��I1(tiP��/ / LET C\(71�1 1 - f EA$E�AtOT :11 '' � r:: - �• x " �• �/�/. (Il� �� //�i_i.Jj )I�� I1, \\\, ,.\ �� �� � 1�i ��iJ l�lr �/// �/`\ � i I � %� I III � 111 .,\, /.l \ / 11 II' ACTIVE SPILLWAY RISER /�; \ ( (( /ii� / / — - — �/ \ // l lI l f . INTAKE STRUCTURE I- Al� WA q�CN✓K E1f)DAI� ` s /�Q ly V\ ' � 11 � \ . \\ - -,. 'z • - - > �/ � .r'.:l x. /-' l / � / \ \� I►�� \ ~�---- / �\ /ram \,-• ,/ Jr 7-1 y \\ • I / / B �( LAKES I/ Y � / ' ' - ' \` "'l` ••rf \�� - %ice / i- .l - - - -. -qa. If 1 I 1 I \ � \ n\\ / /� ��/ // / /// //l _ _��\ � � , ,� � ,\(�'lI l � � JI / •„, /i / �• , CK Ap IIll � �\ (���\ � ,� . • S ( (. J L �! s\ \ . � /cJ , / -•- / / �/ ��\; �i •fit Irl ° I \ 1 r� ��✓,-,� (/ ���. �./ �__ nil /�/_ L�ci` „� \-Jr f hli) \`\ \\' CO PILE Or `— \ / / I ✓ J`"/'% — // I l\I`` +, \ - ;,. v ))1 \I f►ll/l/'///i /i__ \ \ �.� j � 11>>,� %-�1./`---�' _—�I h�1\1\\\ \U/jl'�, �,� r �,' j,'//// ,: 7*,�t ;- / �// / //ii/l' l l 11 / \ \ - \\ \ \�\• \ -' .,ice — . = c_ — — / c / = ,�,�`\ � '` A \✓ /��//ii/ // l / CLOSED\ 1 I / // " //j/� /�/ ✓/ l / PINE HALL RD. \ \ \� \\ \° \ :� Jf ��i/ \ \\ .. \ \�\\•/ ..� '. ; ASH LANDFILL odd IAI ,!/l\✓III \��%/ %, ��(� 111,; . �ii/ STRUCTURAL 11 : �.:r'-r�',,, -- l / � j) /�� I \\\,\ �1 _ %:_% �,,.�,' " �/ � 1 / I / I /� ( \ / /.vI I/(J\ �4 I 1• \�� 'yam r`�\�,;�ri,� �irJ,. _// �,) / Y ^ / / I \c \ /� -- ). I • \\ // r \ t\ % — — \ /// / ti . �ELEW . l 1(( rr 1 / - alot-,. \J \(/ � kn( �1 ra 1 / %) ) ) J 1 III \ \ \ 1 °� \ ��, /// /// / I Q' v (, = —�� I.I\_�I I \I \_ -b �� i \ v / ,\ � \ _ ! i \ \\ /l / I d � // lr'I (' (;� " / l ` i Ic� :�.� � �� =—�-=' // I � \\ � \ / \ O � • - �Q �� O O '� 1\ \ / \ \ �� //�/ \l II `( �) 1 1 \ 1 �,� ��4�/� J�1) J\\I\\\I \� lj \ \ I I� \ coco °o W W INTERNAL WORKING DRAFT PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY AECOM K!�� Option 4 O Onsite Landfill Outside the Excavated Closure Option Ash Basin ;� ''llilll\ /, /, \\t \\� _ ////�/�// / // ///„�l \/ C t Ill / ; \\\\ )k\\\ \1\ . s'�": �' .���� �:,� ' ~� a • � ;. ~��:•` �- • ��• �� /// /� �:. _ — — --- _ ��lllll ill/l/l/1` IF). jp jil N 928000 Nt, IV14N,ll UAM O •T H, L co c \ { '.Y • • ' �- �.�}•- �, M�'r i is Ni � \ \ --� � -- / � �� a _ _ I / f N 927000 Ys ..,.-� :� .� . � ,_ • / �) (— ,� �`' vow �r� ,`ll. / _— � I 1 l.:i� — � �/,///V [�/ _1 /• � / ./v, � \ ! /////� 11 �� \ �//-- i ,`�/ r , °• // \ /� / / ... � ; _ - _ • ,: , ;:, �•.... I ., � / / / � / //! / / / / \\)) III \ � \ \ tl' / •1 _ _ l ' / ;I /eta / \ 1 / /mm I N.:_�� r BELEWS • ' _ , .\ \ \l\> // �/ / 11 / - // ��i \\\'%� J _.mil �� / / LAKE Al N q I .. `�_' -; r+ ti' . . - �.L �.l( J'., ,- � �- //_,f.�'j \ / 1 / I / . / / / \� /// I � //+ '�'4 !i i p_ \• -- ., '. -1.� i)/ //////-,/� �/r"r � h�I i' �"\\JlI �II ///�II --- '. I / ��/i-�'' \�• _�. / I / I �� f \ l rI �/� • �/ l / I // / \\Ill �, . \ 1 / / / // \\\ \�\ \ „\ \ \ .\ / f 3 I Ji/ \\ \ ) = =\ \\ I i, ( ,, 1\11 (i \I I \ \ 11\ ._ •} 1-/ S � �" 9�, �- -\ \ / y � \ �� �.,�; :. - l /% /�/ // /// / �_ _ �ti � _ .-. � �>i/ � � I\\\ I//I /( ,,�\Il 11 I // \��� ' , \\\\ \�'. i1 1 \ `' • i I � f \ \. C<� .. � . � \ \ N 9000rl IL�I/lil • / l�/l'l //✓�///%'� %//�:�������- \ —_ `�( // � � l' �\:a� _\lllr.:`Ilr-� -.\J `, %� \ i \ irk/ l /^: \� •/ \ \ � v./ � \\\\ �\ 111 ///i . �\�+.\I1\ /// �1111 N �, ,; a o � C \ \ 11 •. ,� / II l 11 /��,�//�i.�i/// iii/ t: ��� ���\\ �\ \�\ < J�� � > / vllll \\ii 11( (C �/ _,-- ---,.. :3 •. 1r 1 \ �. 10/6 ,.� ;� ,•:, - � / � \ `\III 11 / lI � /�� //, / — — \ \ \ �� �` ` \\\'� 1 ✓ I / .., — i / /i/' � I � �_ = . ?/ \ �' _ . ;- -- ` _ _ I Ih\\ 1 � \\ ` -- -•' i —'� \� Nip' �� t / -.)i-Y� l � � I�\\���\ z / r.;,. i t �oIII� I/iA �/ ,. N•�, /) .I\// /;� ///// // / / IL ROAD / PINE HA \ =: > Jj�/l ASH LANd ILL � ham' •n� �-� •:P1f 922000 rl U r:<•, r \\ / / / / // / z / , / I \\ 1 •\ — —_ �I //// CLOSED / y / 1 / // /' ' '. w w ti f _}S` STRUCTURAL h. «> ' WO �/ /// /, FILL Jr, 1 \1 ,„/y ••.s•i/ ta-H�"1�1 // � / r,�%r�� 1 /./ III ( ,/// 3��11 I.1 �� ///.��--/ \ � � `ti A/ Bg.2 �. j��= /%� / /II ��///f'�/ r Sfi!°►M 1LTI C\ c•. �` ••11 \\\\1\ 1'`',\\I\�\ I �. ;b _ a,ram . c\ I — •11ll/Jlf\\��._ — ✓// 111 : Au 1 � w' �s - �[I sNOW � � 0 ° �`lam\ \ /f' ..�•.�"`� • , , � ..,.�.,,�,` CD BELEWS CD CD CDLAKE O W B W W W F, W W W (D 86.2 Co Co Co Co Co Co T11 T11 T11 T11 T11 T11 T11 W W W W W W W ATTACHMENT 3 OPTIONS ANALYSIS SCORING SUMMARY (DRAFT - 03/06/2017) Draft Scoring for Evaluation of Closure Options Closure Options Evaluation Worksheet Ash Basin Closure - Master Programmatic Document Duke Energy Site Name: Belews Creek Steam Station Date: 3/6/2017 Threshold Criteria: All closure options must comply with the following threshold criteria based on Duke Energy Guiding Principals for Ash Basin Closure 1. Provide continued geotechnical stability meeting appropriate safety factors under applicable loading conditions 2. Provide flow capacity and erosion resistance during design storm and flooding conditions 3. Effectively mitigate groundwater impacts (in conjunction with GW remediation where present) 4. Comply with applicable state and federal regulations (e.g. North Carolina Coal Ash Management Act) = Option -Specific User Input 1 = Calculated Value Placeholder values have been entered in "User Input" cells to prevent division by zero error text in calculated score cells. Revision G Option Description 1 Option 1 - Closure in Place 2 Option 2 - Hybrid Closure Option (Removal for areas under water and Closure in Place for the ash delta): Reduced Closure Footprint Within the Ash Bas 3 Option 3 - Removal: Onsite Landfill Inside the Excavated Ash Basin 4 Option 4 - Removal: Onsite Landfill Outside the Ash Basin 5 Option 5 - Removal: Offsite Disposal A B Note: Options that did not meet threshold criteria should be listed in the Options Summary table above for completeness Environmental Protection and Impacts Weight: 30% • Refer to This Area Not Used For Interpretation of Environmental Modeling Results Modeled surface water impact EM Sub -Scoring Sheet • • • 21% 6.3% Refer to This Area Not Used For Interpretation of Environmental Modeling Results Modeled off -site impact EM Sub -Scoring Sheet • • • 43% 12.9% Refer to This Area Not Used For Interpretation of Environmental Modeling Results Groundwater impact beyond the waste boundary EM Sub -Scoring Sheet 21% 6.3% Interpolation. Min value scores 10. Max value scores 0.Truck Air emissions off -site (based on miles driven) miles driven Miles 0 100 10 10 10 10 0 5% 1.5% Air emissions on -site (based on gallons of fuel Interpolation. Min value scores Gallons of fuel consumed) from closure implementation 10. Max value scores 0. consumed Gallons • :: • .. • • .. • 1239885 11925015 10 9 0 2 2 5% 1.5% Interpolation. Min value scores Disturbed acres of Avoidance of greenfield disturbance 10. Max value scores 0. greenfield Acres • • 30 130 8 10 9 0 0 5% 1.5% . 2.1 2.2 2.5 2.4 2.2 Cost Weight: 35% • Closure Cost Interpolation. Min value scores Closure Cost USD III • • • • • • • off :. M off • : • • • • • • • • • • • $ 58,000,000.00 $ 929,000,000.00 10.0 9.5 7.4 7.6 0.0 80% 28.0% 10. Max value scores 0. Operation, Maintenance and Monitoring Cost OM&M Cost USD • • • • • • • III • • • • • • • III III • • • $ 7,000,000.00 $ 8,200,000.00 5.8 5.8 0.0 0.0 10.0 20% 7.0% 3.2 3.1 2.1 2.1 0.7 =Schedu le :: Weight: 15% • Time to move first Initiation Time Interpolation. Min value scores ash Months • 30 54 10 8 0 0 8 30% 4.5% 10. Max value scores 0. Construction Duration Estimated durations Months :: • 76 150 1 10 8 0 2 3 1 70% 1 10.5% . - 1.5 1.2 0.0 0.2 0.7 DRAFT - 03/06/2017 1of2 INTERNAL WORKING DRAFT PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY Site Name: Belews Creek Steam Station Date: 3/6/2017 Draft Scoring for Evaluation of Closure Options Closure Options Evaluation Worksheet Ash Basin Closure - Master Programmatic Document Duke Energy = Option -Specific User Input 1 = Calculated Value Placeholder values have been entered in "User Input" cells to prevent division by zero error text in calculated score cells. Revision G Regional Factors Weight: 15% • Plan or potential for beneficial reuse of site Subjective Not Used For Subjective Scoring B % 0.8% Interpolation. Min value scores Imported soil needs 10. Max value scores 0. Soil Imported CY BBBBBB Bills Bills B 0 2000000 0 7 8 7 10 % 0.8% Interpolation. Max value Beneficial reuse of CCR scores 10. Zero value scores 0. Fraction Used Non B B B B 0.1 0 10 10 0 0 0 15% 2.3% Interpolation. Min value scores Transportation impact (based on miles driven) 10. Max value scores 0. Miles Driven Imiles B B B B B 0 100 10 10 10 9 0 65% 9.8% Subjective 0 to 10: 10 is the Noise impact due to on -site activity (based on least noise; proximity of neighbors to on -site work areas) 0 is the most noise. B B 5% 0.8% Not Used For Subjective Scoring Subjective 0 to 10; 10 is the View impact (based on final height of storage facility least visual; and land uses within viewshed) 0 is the most visual. • 1 • 5% 0.7% • 111 111 111 111 1.4 1.4 1.1 1.0 0.2 Constructability Weight: 5% • Subjective 0 to 10: 10 is the Consider stormwater management, geotechnical, least commplicated; Not Used For Subjective Scoring and dewatering 0 is the most complicated B B 100% 5.0% • 0.5 0.2 0.0 0.3 0.3 . • . • W.11 8.8 7.9 5.6 5.9 4.0 DRAFT - 03/06/2017 2 of 2 INTERNAL WORKING DRAFT PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY Revision G Criteria for Evaluation of Closure Options Closure Options Evaluation Worksheet Ash Basin Closure - Master Programmatic Document Duke Energy Threshold Criteria: All closure options must comply with the following threshold criteria based on Duke Energy Guiding Principals for Ash Basin Closure 1. Provide continued geotechnical stability under applicable loading conditions and safety factors 2. Provide flow capacity and erosion resistance during design storm and flooding conditions 3. Effectively mitigate groundwater impacts 4. Comply with applicable state and federal regulations (e.g. North Carolina Coal Ash Management Act) Category Criterion Guidance Modeled surface water impact Refer to scoring system on Environmental Modeling (EM) Sub -Scoring worksheet. Modeled off -site impact Refer to scoring system on Environmental Modeling (EM) Sub -Scoring worksheet. Groundwater impact beyond the waste boundary Refer to scoring system on Environmental Modeling (EM) Sub -Scoring worksheet. Air emissions off -site Based on truck miles driven for hauling CCR and soil. Air emissions on -site from closure implementation Based on total cubic yards of cut and fill on site as a surrogate for gallons of fuel consumed. Avoidance of greenfield disturbance Refer to Scoring System and Required Input columns on scoring sheet. • Capital Cost From rough order -of -magnitude cost estimate or detailed cost estimate. Operation, Maintenance and Monitoring Cost Initiation Time From preliminary schedule for designing, permitting, bidding and constructing the option. Construction Duration Plan or potential for beneficial reuse of site Refer to Scoring System and Required Input columns on scoring sheet. Imported soil needs Refer to Scoring System and Required Input columns on scoring sheet. Beneficial reuse of CCR Refer to Scoring System and Required Input columns on scoring sheet. Transportation impact Based on truck miles driven for hauling CCR and soil. Noise impact due to on -site activity Based on proximity of neighbors to specific on -site work areas. View impact Based on final height of storage facility and land uses within viewshed. Consider stormwater management, geotechnical, and dewatering Subjective and relative comparison to other options DRAFT - 03/06/2017 INTERNAL WORKING DRAFT PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY Station/Plant Name: Belews Creek Evaluation Criteria: Assuming model runs of 100 years for each criteria Criteria 1. Modeled Surface Water Impact (25%) Score Modeled plume' does not reach surface waters 10 .. .. Modeled plume' reaches surface waters but does not result in exceedances in surface water 8 ' Modeled plume' reaches surface waters, resulting in exceedances in surface water of constituents of secondary 4 (A) (B) (C) concern Modeled plume' reaches surface waters, resulting in exceedances in surface water of constituents of primary concern 0 No Action Score Cap -in -Place Score Excavation Score Criteria 1 Score 8 9 10 Weighted (21%) Score 1.7 1.9 2.1 Criteria 2. Modeled Off -site Impact (50%1 Score Modeled plume does not go off -site (excepting surface waters) 10 .. .. Modeled plume goes off -site to property(ies) without water supply well(s) 8 ' Modeled plume goes off -site to property(ies) with water supply well(s), but no exceedances are predicted 4 (A) (B) (C) Modeled plumeZ goes off -site to property(ies) with water supply well(s), and exceedances are predicted 0 No Action Score Cap -in -Place Score Excavation Score Criteria 2 Score 7 8 10 Weighted (43%) Score 3.0 3.4 4.3 Criteria 3. Modeled Timeframe for Achievina Standards (25%1 AVScore Applicable standards for B, SO4r As, and Se* achieved within modeled runtime 10 3 of 4 above -referenced constituents achieved 8 rem LIFA 2 of 4 above -referenced constituents achieved 5 1 of 4 above -referenced constituents achieved 2 (A) (B) (C) 0 of 4 above -referenced constituents achieved 0 No Action Score Cap -in -Place Score Excavation Score Criteria 3 Score 0 2 4 Weighted (21%) Score 1 0.0 0.4 0.8 Air Emissions off -site 10 10 0 Weighted (5%) Score 0.5 0.5 0 Air Emissions on -site 10 10 2 Weighted (5%) Score 0.5 0.5 0.1 Avoidance of greenfield disturbance 10 8 0 Weighted (5%) Score 1 0.5 1 0.4 1 0 Final Composite Score I F 1 1 7.2 Final Weighted (30%) Composite Score 1 1.4 2.1 12.2 INTERNAL WORKING DRAFT PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY ***DRAFT DOCUMENT - FOR DISCUSSION PURPOSES ONLY*** Justification Notes (A) No Action Score (B) Cap -in -Place Score (C) Excavation Score Criteria 1. Moaeiea auaace warer impact (21%) 8 9 10 REFERENCE: Belews CAP Part 2 (0310412016), Appendix B (Groundwater REFERENCE: Belews CAP Part 2 (0310412016), Appendix B (Groundwater REFERENCE: Belews CAP Part 2 (0310412016), Appendix B (Groundwater Flow and Transport Model) and Appendix D (Surface Water Mixing Flow and Transport Model) and Appendix D (Surface Water Mixing Flow and Transport Model) and Appendix D (Surface Water Mixing Model Approach) . According to no action model figures for 100 years Model Approach) . According to cap -in -place model figures for 100 Model Approach) . See justification for cap -in -place scenario. Since the into the future, a plume of chloride above background but below IMAC years into the future, chloride is present near the Dan River however chloride concentrations 100 years following excavation would generally is predicted to interact with the Dan River. The GW-SW model does not not above estimated background concentrations. Since chloride be expected to be lower than 100 years following capping, this is scored predict current surface water exceedances due to chloride, but the appears above background close to the Dan River (but below IMAC) a higher. This score (10) assumes chloride does not approach the Dan possibility exists in the future since concentrations of chloride are still score of 9 was given. River above background (and lower that modeled in Cap in Place). present in 100 years. It is assumed there would not likely be an exceedance for the Chloride surface water standard since there is no exceedance toady, none present in the model (only above standard), and flow volume of the Dan River. Chloride is above background conditions, not above standard. With information to date Model indicates no impact to Dan River therefore a score of 8 was determined. Criteria 2. Modeled Off -site Impact (43%) 7 8 10 REFERENCE: Belews CAP Part 2 (0310412016), Appendix B (Groundwater REFERENCE: Belews CAP Part 2 (0310412016), Appendix B (Groundwater REFERENCE: Belews CAP Part 2 (0310412016), Appendix B (Groundwater Flow and Transport Model) . According to no action model figures for Flow and Transport Model) . According to cap -in -place model figures Flow and Transport Model) . See justification for cap -in -place scenario. 100 years into the future, a plume of chloride (above standard but for 100 years into the future, there are no plumes attributable to the Since there are no off -site plumes predicted for cap -in -place, it is below IMAC) is predicted to go off -site west/northwest of the basin to basins which manifest 2L/IMAC exceedances off -site. However, TDS presumed there would be no off -site plumes predicted for an vacant property. Other areas that show chloride offsite are believed to was not modeled therefore a score of 8 was given acknowledging that excavation scenario. be upgradient. Additionally, no modeling was completed for TDS but exceedances were seen in wells downstream of the basin (where there TDS is curre tly present and will take time to migrate if from the basin. are no water supply wells). A score of 7 was given to take into account the known TDS exceedances. Criteria 3. Groundwater Impact Beyond the Waste 0 2 4 Boundary (21%) REFERENCE: Belews CAP Part 2 (0310412016), Appendix B (Groundwater REFERENCE: Belews CAP Part 2 (0310412016), Appendix B (Groundwater REFERENCE: Belews CAP Part 2 (0310412016), Appendix B (Groundwater Flow and Transport Model) . Belews was evaluated for boron, arsenic, Flow and Transport Model) . Belews was evaluated for boron, arsenic, Flow and Transport Model) . See justification for cap -in -place scenario. chloride, chromium, cobalt and TDS (although not modeled so assumed chloride, chromium, cobalt and TDS (although not modeled so assumed Since the concentrations 100 years following excavation would to exceed in all cases). According to no action model figures for 100 to exceed in all cases). According to the Cap in Place model figures for generally be expected to be lower than 100 years following capping, years into the future, a plume of all constituents listed above its IMAC 100 years into the future, a plume of all constituents listed except this is scored higher. This score (4) assumes two constituents may or or 2L standard are predicted to migrate beyond the waste boundary. chromium are shown above its IMAC or 2L standard are predicted to may not extend beyond the waste boundary 100 years after excavation. Achieving standards at the waste boundary for 0 of the 6 listed migrate beyond the waste boundary. Achieving standards at the parameters would score a 0. waste boundary for 1 of the 6 listed parameters would score a 2. INTERNAL WORKING DRAFT PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY ***DRAFT DOCUMENT -FOR DISCUSSION PURPOSES ONLY*** The no action scenario models the scenario that the basins remain as they are today without any dewatering or closure methods implemented during the next 100 years. The cap -in -place scenario models the scenario that the footprint of ash remain as -is today with appropriate grading of CCR and/or soil material with an engineered cap system that helps prevent virtually 100% of infiltration. The model predicts concentrations 100 years following capping. There was no model scenario run for excavation at Belews. However, the modeled predictions would be assumed to be generally similar to the cap -in -place results, although perhaps slightly more improved compared to cap -in -place. The constituents to be evaluated for each site begins with Boron, Sulfate, Arsenic, and Selenium. An evaluation of site -specific data and model results then helps inform whether additional constituents are appropriate for evaluation. For Belews, chloride is a constituent of concern that was modeled in the CAP Part 2, Appendix B which may have an attributable plume. Additionally, TDS exceedances were seen in the field downstream of the basin. No modeling of TDS was present in CAP Part 2 at the time of this document. The TDS exceedance was taken into account in criteria 2 and 3. INTERNAL WORKING DRAFT PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY ATTACHMENT 4 CLOSURE PLAN DRAWINGS (DRAFT - 07/07/2016) BC-XXX-001 INTERNAL WORKING DRAFT REV. A 0 c 0 DUKE ENERGY BELEVVS CREEK STEAM STATION oyDRAFT CLOSURE 100PLAN ASH BASIN CLOSURE STOKES COUNTY, NORTH CAROLINA ASH BASIN DAM STATE ID: STOKE -116, NPDES PERMIT #: NCO024406 '4. -'1•'r.. x . �# „�,i YmK :. °�� bier, . 1 t:�. `��! �b � ' J k XJ .+� j.,�hy !� � �.: .'$��� Y� V Y •.; try '�. - �� {, � � ( :.�4 k• '� j - r - ( }� JULY 77 2016 DWG NO. DRAWING DESCRIPTION i �fik3r rxAx R [ v ,t� f BC-XXX-001 COVER SHEET BC-XXX-002 GENERAL NOTES BC-XXX-003 OVERALL EXISTING CONDITIONS PLAN WITH AERIAL PHOTOGRAPH SITE OVERVIEW MAP 0 1000 2000 3000 GRAPHIC SCALE (IN FEET) N BC-XXX-004 BC-XXX-005 BC-XXX-006 BC-XXX-007 BC-XXX-008 BC-XXX-009 BC-XXX-010 BC-XXX-011 BC-XXX-012 BC-XXX-013 BC-XXX-014 BC-XXX-015 BC-XXX-016 BC-XXX-017 BC-XXX-018 BC-XXX-019 BC-XXX-020 BC-XXX-021 BC-XXX-022 BC-XXX-023 BC-XXX-024 BC-XXX-025 BC-XXX-026 BC-XXX-027 BC-XXX-028 BC-XXX-029 EXISTING CONDITIONS PLAN WITH TOPOGRAPHIC MAP BORING LOCATION PLAN DEMOLITION PLAN FINAL ASH GRADING PLAN FINAL COVER GRADING PLAN STORMWATER MANAGEMENT SYSTEM PLAN SOIL BORROW AREA DOWNCHUTE PLAN AND PROFILE AND SECTIONS ENVIRONMENTAL MONITORING PLAN EROSION AND SEDIMENT CONTROL (E&SC) PLAN OVERALL PROFILE AND CROSS SECTION PLAN LAYOUT CROSS SECTIONS 1 CROSS SECTIONS 2 CROSS SECTIONS 3 CROSS SECTIONS 4 CROSS SECTIONS 5 CROSS SECTIONS 6 CROSS SECTIONS 7 ASH BASIN MAIN DAM OVERALL VIEW ASH BASIN MAIN DAM CROSS SECTIONS 1 ASH BASIN MAIN DAM CROSS SECTIONS 2 ASH BASIN MAIN DAM CROSS SECTIONS 3 FINAL COVER AND CAP TIE-IN DETAILS STORMWATER MANAGEMENT - DITCH DETAIL E&SC DETAILS 1 E&SC DETAILS 2 I REV I DATE I JOB NO. I PROJECT TYPE I DES I DFTR I CHKD I ENG I APPD I DESCRIPTION PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY PREPARED FOR: ou DUKE ENERGY CAROLINAS, LLC x 400 SOUTH TRYON STREET x CHARLOTTE, NC 28202 0 PREPARED BY: AECOM RAMACHANDRAN KULASINGAM, P.E. 6000 FAIRVIEW ROAD, SUITE 200 D CHARLOTTE, NC 28210 PHONE: (704) 522-0330 DRAFT NOT FOR CONSTRUCTION TITLE COVER SHEET P"=com BELEWS CREEK STEAM STATION 100% DRAFT CLOSURE PLAN STOKES COUNTY, NORTH CAROLINA N.C. ENGINEERING LICENSE NO. FOR F-0342 ISSUED FOR REVIEW SEAL SCALE: AS SHOWN DES: CN DUKE DWG TYPE :.DWG DFTR : CLD fr, JOB NO: 60432132 CHKD: DM ENERGY® DATE: 7-7-16 ENGR : CN FILENAME: COVER SHEET.DWG APPD: KK DWG SIZE DRAWING NO. I REVISION 0 1 2 3 2 TENTHS 10 20 30 3 p 5 ANSI D 22.0"x34.0" BC-XXX-001 A 0 0 : C 0 f 0 �••--_- / - I ' 1 dip •op I♦ ;O000p•' 1 / 1 ♦// 1� �Q0",A IOlop 0 fop dop O,p 1 ��lop to �/ J �� /07003 / `ES ♦ 1 ` FACE � ♦.00e pP0 I ♦♦ �� 1 v I ♦1 ACCESS ROAD ` %`♦♦ 1 BUILT FOR 1 I WEIGHTED FILTER 1 1 I `PROJECT 1 / OACTIVE ASH ` wo BASIN MAIN DAM =' j 1 (STOKE-116) / PINE HALL ROAD EMBANKMENT DAM (STOKE-116) 1 v ASH BASIN ,t�A� (APPROjWVV ERELEVATION = 750 FT.) Coco Q ' 1 `S Co �� << 1 I __ / Q <C/ V •� l� ej C _lAw • do BELEWS LAKE �% ..� t /% � (APPROX. WATER ELEVATION = 725 FT.) l `0/ 4 •/ % ' CHEMICAL POND DAM je �� � r � (STOKE - 115) ' S , NPDES OUTFALL 002 o op �) CLOSED yr PINE HALL ROAD CHEMICAL POND COAL PILE O / ASH LANDFILL-ft , t PERMIT # 8503 ; �•♦fir ♦1� `, ti* • =y W�0�OP�� CLOSED o I NP / STRUCTURAL BELEWS CREEK 0 1 P FILL Illy g 1 i� •••� STEAM STATION J •// 4,Akx : NPDES OUTFACE 001 I _ � QP i dwo • wo ".w LAKE - wt 000�--�__ Y - ACTIVE 1'. FGD LANDFILL 1, PERMIT # 8505 L J ; 3 1 n ASH LANDFILL PERMIT # 8504 w 5 wo 11 do 1 1 fir sT. ' 4 �. , 0-10' a 7 SEAL ac-xxx-ooa REv. p INTERNAL WORKING, URAFT .OVIDED TO NCDEQ ON 06/07/2018 )R DISCUSSION PURPOSEd ONLY L=com N.C. ENGINEERING LICENSE NO. F-0342 LEGEND — ASH BASIN WASTE BOUNDARY (APPROXIMATE) _-------_ EXISTING SITE FEATURE (APPROXIMATE) DUKE ENERGY PROPERTY BOUNDARY NDPES OUTFALL LOCATION REFERENCE 1. AERIAL PHOTOGRAPH WAS OBTAINED FROM NC ONE MAP DATED 2014. 2. PROPERTY BOUNDARY, ASH BASIN WASTE BOUNDARY, AND NDPES OUTFALL LOCATION PRESENTED IN THIS DRAWING ARE TAKEN FROM COMPREHENSIVE SITE ASSESSMENT REPORT - BELEWS CREEK STEAM STATION ASH BASIN " PREPARED BY HDR FOR DUKE ENERGY AND SUBMITTED TO NCDEQ (NPDES PERMIT NO. NC0024406) ON SEPTEMBER 9, 2015. 0 800 1600 2400 GRAPHIC SCALE (IN FEET) DRAFT NOT FOR CONSTRUCTION TITLE OVERALL EXISTING CONDITIONS PLAN WITH AERIAL PHOTOGRAPH BELEWS CREEK STEAM STATION 100% DRAFT CLOSURE PLAN STOKES COUNTY, NORTH CAROLINA FOR ISSUED FOR REVIEW DUKE SCALE: 1" = 800' DES: CN DWG TYPE :.DWG DFTR : CLD 32 : 7-7 CHKD: DM ENERGY® DATE: 16 ENGR: CN FILENAME: AERIAL.DWG APPD: KK DWG SIZE DRAWING NO. REVISION ANSI D 22.0"x34.0" BC-XXX-003 A ou n X X 6 CD W mm 0 C 0 OP I 1 1 I 1 1 I 1 1 I 1 1 I 1 1 I - o t `.` • 1 \ \ \` Ilk 1 �♦ 'Irk 1 IN,lop lop � \, / \ IIII j11\1\� / � \ 1\\1Ir11Illr //1 \ ` � ` � =-,,\\\\\\\ `♦ it\\\�1�p1\�-�\-- / t It `/IMPACT BASIN OUTLET STRUCTURE r/'♦�. „r5�,/ (OUTFACE 003) , 'k- !'�%%iii//,i/ //// / __-____--�_ I \\\\II� \\\\\\ / -�y j 1 I %, \\\�,II,p \" 11, /,- . \NVA1\1\\\\''��1\1�/�i�♦/1 i %- /jl/�I 1 1 ; `/� \ COo �`�!1 1/ll lllr)M I W-200S/X/' . / _-;; -_ > c!f \ 1 1 1 I \ B 1S/D/SB ' \\ \ \ I I I I j r I � r \\\ \\- ,� ❑ \_\\��:�Illlr 1 l 1 ♦4 /�/�' , I/ / 11 SPILLWAY OUTLET \ '1 rp�i;/I! ; n illJil�\\ !%/�,�/i /! ♦ ;.�/ �/ _ / r r//I i\� _ �� IV CONDUIT' ��11 , ,♦r/l r1 �• ,/ / I (// r I l / ��\�\\\\\I 1 \ ` / �\- • / .��// \� __�--/, I - `\� /' / '1/I /'•'' / ///ll IIII, ' 1Oj �`�$_\i \ ._� \ ,\\\ I'll( ;I, / / O /'/ ) / //'' ♦i' -- ___\\\\ 11 1'ram=$0- \1111\\\ > \III III/♦ /♦ O=�11 If ' ' GWA/11(S/\\\ o _— 77 _ /_✓ \_..+ 1 I 1 I 1 1 3S/ ,'� , 5 j, j'' _ �''�W9- DI 111 `'— =:675 WEIGHTTER ED FILNit \\ ►r I i i r 1 \ 700=�.' /"'�"' /,/,/t/I /\ '1 \ l 1 S) \ \ MW-20 Jr,6111�•� (SEE NOTE 4) /,. I It �'r! `� \ 1 ACTIVE SPILLWAY RISER INTAKE O ' :_- -=.-\ \ \ / \_� \ 1 0 , . 1 STRUCTURE U ACTIVE ASH BASIN _�%'� 725�� ;'1 N. I=- - �\�'s r = 725' -' 750 /i%� I 1 1 IGWA-10S/D 1 1 I 1 1 I 1 1 I 1 GWA-17S/D� t�Go�—__— MW-204S/D---,. GWA-16S/D MW-203S/D MW-1 D Ntl I r ll MAIN DAM (STOKE-116) \�' �,//"� !ra/;--: �-� � ,� \ , t\ �, � `\ \ _ /- j n "/ 1"_—/i�''10pi', I h�j/// / �i / 775 / /' r/1 / i�\�=�. -'// /%'�� ' /Jr/////,,12GJ / /� / `� -� \ \ �- 1`\\`\ Off• �j _�� , /�• r�/ ,/ 8� - \\ //////%/' 1 1 O `i 745//il I 1 1 , (__� j �/\ �Ili ASH BASIN-----' `\ \\ `\ ///,4 ♦ f- //i/ii CIA= (APPROX. WATER ELEVATION = 750 FT.) , `_---\------ `. / /♦ //�///r/r/�l/// ' \ 11,��^,/ `l I \ / \ `i o II � r^ / O O \- ® AB-4S/SL/D/BR / I,/jam /rl III\\\ \ /'� `/ i lilt \•_ \'I`\ ol It \\ 1\ 00e' do do 00e, I� .� �'de de _-- / I I I`lllf _' \ \ NN NN S i / i�1 it \li 11 tl \\ \\ s\ / / f /ll \\ \ \ \ \ r I 1 I\i lit —0 Oaf/! ` \ 1 \- �i /,f//^� ^\ if\\,�`n \\ 725 �� l/ ��, _: g�/Qd�RS7�R�\I\ \\ 1\I: %' BELEWS LAKE \ - (APPROX. WATER ELEVATION = 725 FT.) y +—� 20 30 3 4 5 6 PI F ac-xxx-ooa REV. p NINTERNAL WORKING DRAFT SIDED TO NCDEQ ON 06/07/2018 DISCUSSION PURPOSES ONLY 1 r' /-% r IN 1 r1 ASH BASIN WASTE BOUNDARY (APPROXIMATE) _______ EXISTING SITE FEATURE (APPROXIMATE) DUKE ENERGY PROPERTY BOUNDARY • ASH BASIN COMPLIANCE BOUNDARY EXISTING MINOR CONTOUR (5 FT) EXISTING MAJOR CONTOUR (25 FT) « « « « « « « WETLANDS (HDR, 2015) • STREAM SUITABLE HABITAT - NORTHERN LONG-EARED BAT, SMALL WHORLED POGONIA (HDR, 2015) NPDES OUTFALL LOCATION O ASH BASIN COMPLIANCE BOUNDARY GROUNDWATER MONITORING WELL (HDR, 2015) ® GROUNDWATER MONITORING WELL OBSERVATION WELL AREAS UNDER WATER DURING THE 2014 BATHYMETRY NO BATHYMETRY AVAILABLE A 1!'\T r' 1. BASIS OF BEARINGS: NC GRID NAD83/2011. ELEVATIONS ARE BASED ON NAVD88. 2. NO UNDERGROUND UTILITIES HAVE BEEN LOCATED OR MAPPED FOR THIS PROJECT. THE LOCATION OF ANY AND ALL UTILITIES SHOWN HEREON WHETHER PUBLIC OR PRIVATE IS BASED ON PHOTOGRAMMETRIC MAPPING AND IS ONLY APPROXIMATE. IT IS THE CONTRACTOR'S RESPONSIBILITY TO VERIFY LOCATION PROIR TO COMMENCEMENT OF ANY CONSTRUCTION. 3. WEIGHTED FILTER GRADE ARE BASED ON THE IFC DRAWINGS PREPARED BY AECOM AND SUBMITTED TO DUKE ON APRIL 6, 2015. THE WEIGHTED FILTER IS BEING CONSTRUCTED AT THIS TIME AND IS EXPECTED TO BE COMPLETED IN JULY 2016. THE CURRENT GRADES WILL BE REPLACED WITH THE AS -BUILT GRADES AT THAT TIME. REFERENCE 1. THE DUKE ENERGY PROPERTY BOUNDARY, ASH BASIN BOUNDARY, AND ASH BASIN COMPLIANCE BOUNDARY PRESENTED IN THIS DRAWING ARE TAKEN FROM "COMPREHENSIVE SITE ASSESSMENT REPORT - BELEWS CREEK STATION ASH BASIN" PREPARED BY HDR FOR DUKE ENERGY AND SUBMITTED TO NCDEQ (NPDES PERMIT NO. NC0024406) SEPTEMBER 9, 2015. 2. TOPOGRAPHIC SURVEY WAS PERFORMED BY WSP IN APRIL 2014 AND SUBMITTED TO DUKE ENERGY IN JULY 2015. THE PLANIMETRIC LOCATION ON THIS MAP IS BASED ON PHOTOGRAMMETRIC MAPPING OF IMAGERY COLLECTED ON APRIL 17, 2014. THE IMAGERY CAPTURED IS SUITABLE TO CREATE 1" = 100' SCALE MAPPING AND CONTOURS AT AN INTERVAL OF 2% AND MEETS THE NATIONAL MAP ACCURACY STANDARDS FOR 1" = 100' SCALE MAPPING. DATA PROVIDED WHERE CLEAR AND VISIBLE ON THE IMAGERY IS WITHIN 2' OF ITS TRUE POSITION. 3. CONTOURS SHOWN UNDERWATER ARE FROM BATHMETRIC SURVEY CONDUCTED BY HDR IN JUNE 2014. 0 500 1000 1500 GRAPHIC SCALE (IN FEET) DRAFT NOT FOR CONSTRUCTION TITLE EXISTING CONDITIONS PLAN WITH TOPOGRAPHIC MAP P"=com BELEWS CREEK STEAM STATION 100% DRAFT CLOSURE PLAN STOKES COUNTY, NORTH CAROLINA N.C. ENGINEERING LICENSE NO. F-0342 FOR ISSUED FOR REVIEW SEAL DUKE SCALE: 1" = 500' DES: CN DWG TYPE :.DWG DFTR : CLD JOB NO: 60432132 CHKD: DM ENEK%w' Y® [DATE. 7-7-16 ENGR : CN FILENAME: EXISTING CONDITIONS.DWG APPD: KK DWG SIZE DRAWING NO. REVISION ANSI D 22.0"x34.0" BC-XXX-004 A m 0 1 2 3 2 TENTHS 10 1 7 8 0 : C I `ll � �' :-��\�liiilIi\�\\�`i\\\�"' /'\\ ; �'\It, ii i /� 1� /' l\ \�� �� -_ \\�\\\\ `\����1-- 1.I1 (-1 I 111111{1\\\\ I \I , \ \1 11 1(\ -_ _� = : 1 \1 %} \ Ili- 1 /lllll\I11 ,, , I /)\\,)\IIII\l\\fir=--- -i % 1 /I/J/ I` I I r 1 �r 1 \ 1 \\\\ 1o\\\` `\-\ / ` flilll O\`____- �., ♦ / Ji / / I / I I I Q. IMPACT BASIN OUTLET 11'` ` --" ' ' \ ' 1 \\ \\ \1 I_ �_\�\'-� r\-- \ \ \\ \\ \`---- -\ ),/,1 ////,- i'//,/ ///,/ / ,' STRUCTURE (OUTFACE 003) `, \ \I.; '\}"/ �` 7'/'// i iIf / / ,'h// ' ' \ `, % \ \\ (��\ 1 �.— � __�` = � , \ �l `s /////% 'l. !I ! -A / ! f ♦ / / / \ l%/ / \ \ III/ __� =_ - l /'/ / /�/ I \ \"\ < / I �__- \, l // / \ \ �� \), } Illlii�-=- - ,\ �� \ I If /, /- //,ill f 110�\\ \\ `` \ \\ `\ \ \` �� %/♦'/ %- - \ \ 111�/_---- _ _� - -,,III/ -�\ \�\}1, l f \ r IOI 1 11 _\ �� \\ \ S\ //'/�� //'/- �_ \\\\ _\ \ \ \ \ \ \ / ) \ l \ % )1;" , / . " ,----, q1l" k- k, I / -- / /-% \ \ / o �\ ft `IIII '//'�ii'7J�I%/�//�////ji ���\\\\\"\\ \�\`��ii ��/ //; '// /'//''/ % O------------- ,A \� \ / / f \ \\\ \ SPILLWAY OUTLET CONDUIT QV jil, , 1/, - ; _ \\ \\\1\\ \ -=' - oo ' /// --- \ 40 \�\\�Illl // 1 1\11111I l \i i! - �--: \`\\\\\\1�\\1\\\\\\` /MII/� /�, ii��l i;--� II I/// - -- __ -- _ ,7j/�I 1 j 1 1 I I I ,���r a EASEMENT\}\\\111, r/ e`,\�,_I �/�/.-/ =1` \`1\\\\\\\\\\ ) 4/111 I //�'%%' S -: /' - =750� _ - , I \ \\\\v,1,(1I I }\ IIIII(„1 �,♦/,// ) \,1}\II\1mmill)/ . r IN III ///! ///,/�12 , / ` � !� -_- --- . 7�//1/ ll I 1 ► \ I I , / / . \ co \, \, j\I1III I 1 J,/1,1 } ///, . / ,1 I l ""J 1/ II, I I,r,/ //,/// . , \ _ --725 --``- t 1\I\\`\1; 1 1 ; rl 1 r , �` \ N�\ = \ r `, ///I 11I //, /,/.�--} I lj /./Jlll11 111 I �I¢ � ' ' ` i J--= �= I I I I \ \I, \ \\ \_-IIII -11 ( 1 // / i . II / rr If / �, \__ - '/'iii%/------_ ' .,N 1 1 I 1 1 I / I \ `\ \\\11__--rlll/' ` 1IAV / j'/ i / , I//lj///%11�/ �111 1/1111/1 f/ I I iy - , - ♦,'ii/',' /- __\ l I I I I 1 \ I I 1 / -_ \ \ ❑ `\�_�`// I/ \ \\\ � /// / , I ! I//!l//�// lI 1f11/!/I11111 \\ li ` 5'- :?%''/i%'//% % / / /'/ _ - �'/ / I I- \� _--'r % I IS/ \�-- \ \//, / / _ \\\ I - , , l /f I // _ 114,111 l I \ `�-' i�72 : _- a' y/i 'i / r I I I / / - - . I \ Gr1/�1 \ I / / /1 I r / • I I I / 1 \ //_ ' - _ / / I I / / / / . . / • • I_ I I 1 1 / - \ \`\\\`\ ��/j 1 1� `//��'71_, llllrllj��1�!1 / 1 /// j//I/ I"r6� ` ��/-- � S <', Ilr1I //II / I I ,' /• ` // i// / ,\� - _//i'`�_�� rI. - /� .`\�\l\� ��\ ��\\__/� ACTIVE SPILLWAY RISER INTAKE _ 1 1 1 11 } ` \ l\ 1 1 \ I 1 1 / --"- - " I -_, ,;" `��� , _\ \`;- ` ,/ / / h /1 i' / } IIII,III�I,IIII \I j / f�l� 1 ,/ , ��_ \ \\\\ \\\\ I. \ \ _' --��� 1 1 1 ,, / / / Il� / I•l/ll III II \ / / /, /, / �) 11 1 /i /• • `\ \ \ , \ \ I• • \_ i --` O`_ -� ._ / / /'\\_`--- =7 //\-f-\ / r/`-, 111 jl�'�\;\\`} =' / \ ��3/ // • / 1 \ \ ' f STRUCTURE __ ,., .,�- 1/1 li/ \/� •/ / ///1 /iiiJ11I11I1\ \ I /// /, \ \ I (I /r �\ ///,//-3 =i`�J` `\`, I 8 �� -' ' I'/ -- ' 1 / '\ ` 111/V \ \�\ \\� -. / \ / 11 - r \ / / / / _ / // / c • _ \ / ) . \ as / _ - / / / I , l / r / 1 1 1 - / __ \ / l I /III I II }\\`\,`` �` \\11 \ \ I 1 1 / / / / / , , / /, //- _ __2. _ \' I / -_ ----- / / \ \ — / �- � / I \ \\ \\\ 1 _ -Ii / / / / I I, , //i /�/ ,/ �I \\�.. c ,���; . \{ Ill, (,(! l I / / ,/ /�` / /�/j j'i'i//,'/ i _-- \�J I I I \__/ // - -- it i' \\ / / �'/ ! „ r ,' - \ ._ ` \\\\\� I . �J , O'er I , / _ / I I - _ - _ / . / r- • \ \ / I 1 IIIII f/ ! ' - 1 /c\/,10 \t \ \11 \I, IIII I I �; �11 � // / //, // / /' - J / ' /i �,�` \_ `_`----- // �' rr\\ ` ,l / (//JI I I /_` \\ \ \ \ �\\= / ► {� C D ' ( I 111 IJ,' / �/ Il�lll�li�\\ \\ \I�\\1}1)1{ 1 I \\ -%/ �r>"!" '' ''/; -r G�2r3 // , ; s\ - _-- '/ /' / \"/ I I 1 \ II ' Ilrl`\\\\ ' 1 \ \` `` `1§ // III lll,l /� , ,/ /,/-� ,1��1Wit I v\\\ \\\\ }1\\ \}\\ \ �-iii/ \\_ } ' I/f iI / '______ / \^'i'� -- 1 / 1 \ \ `- //'- ' r 1\�//I I I 111 II 1 r III r \ \ \ 1 - / 1/I / / , / , - / 1 1\ \I \\\ \- i II / /' / / _' /' /`\ `_ `----- ' ' -- \ I I I I I /1 li /-` _ ^I `\ \ % %% % / / I / / / , u_ `�\\\____,, r ,_11 I / / f 1 I I\\\ - I 1 S I 11 i \\ - " / ' lllr / \ `\ / / /r/ ♦ '�/,�j- \\�\�'� � ' 1 ////%ii% /IIf//% ///// ,//, `\�1 1 11\ -- �-----i'"\ I / I I I / 1I 1 ` JIJJ/l/jl,l \\i /If \_`\ /11 J\(\}l� / // 1 /I \ I I , /1 // / '' 111 ' `\\ `-_'_�i' l� - o/, /, ___ / 1 ! 1 ----_ � J I I \ 1 1 1 / \ ___\\ / GWA-11 S/D / // ///II ll, \ \ \ ` \ / { f ---- '/f /' 'j%!i/- - I/„/ /' /'---/'%' -''^` I I I \ \ // 1 / 1 I 1 1 ` l 11 111 11\ \\1 l` '' ,\" -4 _ IIII l/" \ \ \'l' ,"'�11 rC\ -_� = � " _ //// /::� /:'� / / _` 1 \ I1 I / I \ GWA-13D / J IIJIIJI\1\\\ (\ _- 11 1 I I// _/i' JI // I 1 `1 j\ \\`� \�\\�\ `\\\ "Fr's--- .._�._ /// -,' ///' /'/_ ' �/ _/ /--- \ ' / , - j I. I' / \ Ill l 1 r I 1 l \ J / II \\ \ r-_^ % ) / \\ `I // /// - l I // \_/ / / 1 I. f I I I 1 \ / // I11^\ l /// 41 - , ,I/I 1\}\ \\\ --�/ ///,r / / /'-. \ ' / / 1 i \ / \ I ( \ V \f\(<\\\\\\\I, //�// 11111 I,:\\`\ Now � / / I I 1 1 \ ` _ ACTIVE ASH BASIN=s:-s�1I , \ — /�/,.-__`\ \_/�//, I, \ � I I r\ \\ J , I/ 1 } I . \ `___ i j )1\III\ \\�\\ I r /%//// I111 ll r \ \\\\ .I l , �; `\ �< )�i�= 1 - _ --'//' �__/ '- , \ \_/ 1 1 1 \ ._-----' r l ` I 1 \ \ \ I I II} ,,\\\� 1 0II J/rll 111r\\ \`\ , c / ( /` � �_�_ MAIN DAM -'-��_ __///�\ _' _, I \ -, 1 \\ /, /J \ \ \ \ \ _, i I 1 \\ \\ \ 11// rl L 1 I,l r1 \\ \ } �` / \_ a --fir ;-' _ �-'--j -_� \ - ' I / 11- \\_ _\ -�_/ \� \\ `\ \ '1 ' „ / 14 LCi.�11 IN\\\1\.I ,/I l-�:_ J II IIII r `�\`, I J /r , /�/ _ -_ate (STOKE-116) _ = S ==-\\\`-� .'/ 1` \� _ _'^I 1 1��^/ I1 \___-- - \ \ \� `--'�/ \ 1 1 1 I11 \\\ \ /. \� I111 ,\ \ % //�2''' c'' O - `tea -- ---T - --'_�S �\�\'`�__ \`\-! I 1 ----- / \ \ \ ___- -!��\_7� 11 `_ \ / / , 1 '1, J, 1A1 \ }(�-// \ i 11 I ` `\ 1 !//'/' `\-�_�____ ----- - _.- \.J-__ - - ') I I � / / I \ \\ \_`__- \ / 111 ,Il,/(/(IIIII `iii/',\`\` /I�\111\\\ Ill '/11;/ - \__ ' '-` �~ ---------- - / `,\\\_____' - I I \ 75 _ , / 1 1/1114(-20'ID / / ! Illflll 11\\ \-�� / \``\� /IIIll ^��� f1 _/// i -',-', �/ \\�\ `-- ______i- =750 \}\\}\\ - - \/'\\ \\\\ `-_ �,/ `\ . �_(�__ I �_// /���-_/%1/j1�/t�� r�`�\ ��/��/n��\`-� j1 III}`� 1 ,'/ I I f` --, `_/ ,' / ) \ / \ `\--_�_ I I , ` -1 \ \ `\_�-' i-' __/ t __ -�--'\^) '/Y ��/ \\\� \�\\- \ )'III\`� / /11 I % /' I 'I /� \` �_/'/ �-\\I`-- - - �= /i///-i- —"-�� = -/I \\ (/--- - __\ \\`\ _ - - ` / �, __ , 1//f/l, az _ %\ \\\\1. /���I`�\\� --',lI /j/' r_Jl J'/ �r/��� �,�'/, 1 \ ` i _�'%,'/ -'. =_\I / /'~<-_-_�i'''� `_- \ Jl `}}--``-`\` \ \% `-//'� _ / / � '- __ - _mil/1 J�111/jl - �� ��/ /l / /ll f j' - / \1, \ / - -- � /, l_, } 1 / --- - --_\ � `\ \\ - `_ \._ 25 - __ -\ = r -�� - -- )_ / I /1/Il` 1 Q / 1 1, '!/f/ \ .__Jj //_ _ //,/j /// , f %l///// %'' _ \ \ \ \\ \ \\ \__ _ -\ 1 / _^r �-_ �` 1� _ --yr/ / 1�1 _ _ - §/D / ' /1 11 _ \_ _ //' /%/'/ / / f 1 //!/ i / - - , /- -� \ = � \ \ \\ \ `_-_` --- _ / ( r %i /'\i-- _ --___-----\\yl-/ — / c -- --s ��= �- / . /�i, I 1 \ \-_ \ ' / / / / / / 11, I / // / / / _'' /i " /--- \ - \ \ \� \ \\ \ J / 1 l \ / /- - 'i- _ \ l \� `_ \\ \_ \ / / \ \ / _ - _ / - - I / / . \ 1 1 \ \\\ / \ \ ---�- _ _ - \ \ r \ / I.- \�-_ / / / / O / ////,,// �/ , r I\ _ 1 ) \ 1 \ \ \ / ,/ -__ - / - \ate \ \ \_\ --_\\\ II // / / I 1 \ \� \ \1\ I l - /\\- ,-^,\\ It \, \` \ / / / _ = '%/'/1/ ___' ___t. / ''` --_/ ` \ } I /' /' /' 1 \`\\\\ \ I/ \\ \\ 1\ �/ I / / / / // .y 1 f \ l II 1 }` 1 / /-\`///'�/- /' \ \\I! / ,' -' /~ �`\\ III / \\ / I J , ///_\p/ \ \ 1 IIII\\ �\ \ ( \. / I / \ \ \ 1 4 I 1 ) -'/j11 1 I I / / / ,' __'/i�/ I1-) /' ,1 / / - 1 �`_\ \I L 1 \� 1 I , / I J L/ / \\\ ®I / - / 1 I S /' �/ /-1 /--_ /_- /j I 1 / / / 5 / 1 \\�,\\\\\ \ I \ \ / 1 I ` // / / /,il \ \\ I I / � t 1 1 \ GWA-10S/ /� , \ / ' / / / / / / ' ' // /^} _/ / / / / `- ' /' 7 \ \cam \ A / 11 /' , /, / / 700 / \ // / i\ �1-I / I/- —_ ,' / ',/' 2 / ^/-,_ \"`` )``�\\ / �\`\ y l l• / /' // l�/i/r 1 I 1 I 1 I 1 / / l 1 f a / _- _ j I, / I I 111 f \/ / `-- `_-''/ -_--' \ 1 /- 11 1 \\ \ I / ,e r) I / 1 / 1 ! I / /'/' ''/ -'/�/ \ , , .. c I \ l \ _--''/ / /' __/---__ �`� \\\ j// r"C�'�\ �� j 1\ I i / / / l ' h / 1 1 I I 1 �It \ II ,I�p/-, -,� /.,/- ."/., . ASH BASIN ` ` / 1 ` ----- 1 `-� `\/1�1/i `�. -� q •l ' •�'` 1 , /1{ 1 / ��' ////'' �__-_- - - — I rr // //// ��` / PINE HALL ROAD \ (APPROX. WJoYTER ELEVATION = 750 FT.) ._ --_--- I \ \ r // / I/ / '' EMBANKMENT DAM ` ` ,- ` `- / \ \ \` ` \ \11 I / I /��//�i/-_`\\\ \ \\ \_-, , ) '1 �)/�////J fii •// 1 // / r,-= (STOKE-116) 5 \ _ \ 111/if ////// I \ \ 1 / _ l l /1j/ 1 , / f ( 1 / J ,/, 1 /'-`\ 1 / I // ////// ///� /, l ! I I 1 / I ' / // I/ _ //1 1 / l�� J /�,�J ,/ _. _ \r \\`\11\ \�-klv, // /// / - / // 1 \ \ _ / / 1 /% //�/' ��%//�� ,////i/i % 1 I \\ / /'i '' r'r /''I/f // l , I 11 / I /l , I I /__-\`\ 1 \ \\\�I�\ - - _/\` _--i l / ! I / �� 1 / 11w, ,%%1/r,e-' -// I \ I \ \ / 1 //'1 j/ :(/T • / I I r/ �/ " / / I I I ) \ \ \\ S \\�`�-_ - l ,, /-,// , / // /// /-\ III% ' 1 1 \ / //,/1 � ? 1 ,/ I c(-/ /I I 1 \ 1\\ : � _ h l I I' 1 /\\\ \\ / // / / I \ \ f I/1 // �/ / I / , , l l / I / 1 \ \ \ I /!�// F I// / ' ///11 / ' ` i I I > 1 % \ / /. / /f/// Qi/ ! II' //' %I I I (( /' / 1 / \ `I \ \ \ `I \ \ I / ,,, /,\\_-' I I1 l I \ I `1\ , / If I f I I I \ \ \ ' /\ \ \ / .. 1///t /,/////_^\111\\ I , N `Ili\ /�/ i\ —� % -r '//i' • ` II //i/i / �t\1 \\`:``:`: i }1 i 11 \ I. \\\ _ ( / '1 %� (�1%/I /'ii���_i%/ l J 1 1 I \ 1 �� _/ b / `1 ',z= _ _ P 11 / , _ / / / / , \ \ \\ \ \ \ I,1 I } \ �\ 1 �`'\ �\ / / / / / l \ \\ 1 r 1 \ \ ' 1 I / `ii' / l ! I / , 2 / : // 1 1`_ f/ � /� 3 '�� / / //// / \\ `\\ ` >\) J I I 1 ( I \ \ , \ `� �-_,_ GWA-17S/D I / I /// /// - _ , I I I . , / Jrl� ----_///,//sss X. \ GO II' , f If I } \ \ 1 1 // / I / / if I } / `\ ` - -_- I / / / / - ) / / / ` 11 1 1.1 ,\°I /�// Q �j • I' / / i/ // 1 I I , I I (1 �, . �// j 1 l \ \ ` `` // - / / / 1 IIII \ /' O Q� ( //I / ! I \ \ \\\ \ \ , \ } \ i I ���..��� l /// 'i/ / �} 1 % /I /// ` 11 I I �/ / • c I I // rf f I I \I r \1 / I \ 1 \\\ 1 1 I __/ //! // / , , / I , , // / AB-105 11 , �� }� /1 If / \\ \� I \0 1 j/_;_�/ 11 / / 1 i\S _I11' \ I /`/ ' ;I I I� N\ /I� �O /I I /// / I // I I \ I/I1 \, .,\\ -- `\ I I ) %/-\\r `. /` ,- i / / f / , \ It I \\ " , S_ /I J I I / / ` / ` ) / I I � ^_ \. �G I If I ,r I 1 S 1\ �Cj 1 ��_�� // / / , I) 1 / / I / / I II I. •� / / / I 1 1 I(::) I�CV�\;I-\\ \�\ 1 , I I,I�� -� 1 MW-204 S\D / I /// 1 1 I lI II \111111 l r //l1 - - / i / / / 1 1 Il 11 S� I \ \ 1 ( f )-,,\, / \`,I\,l // // // IJI - - J 1 ( `\: 1 /1 / ^ ` /, II I 1 �• , ///, / I / ,/h1/ r\ f Ir II \ \ \ J I //II/ -__\III `\\IIII �''/� ill}�� ` I l\\ III / `� l/ r� �� li�l� -5S/D 6Y ''///1 ' �/ / / /1'�1/�r�/I )1,\}\ ` \I y \1 II, I., r \11 \ \ 0\,I`,,'J I / I I I 1 / \ \ \ I / I �l _ ��� �/ / /, / / / / / I / , \ \, \\ \ -} , 11 II Jll / ® \\ 1 ��� / '"1 III\' \\\ ~/ ) -,. �� JI i ,l i /; /; / .'' /' /'' I`SI )IIII { \ I _ I ; 11g1{(l( 1 I 1 , , \ 1 `\ .-\ ._`---_- �_ �__ % ��1f. �� / /_ / / l ' / 11ffi %''l -\``- ,Ill \ /, 11GWA-16S/D� ` }\\\\ /.\ \ / / \ \` \ \`) J /'- III l f 1 , // JJ /q lI' 1 \� \ I. \ 1\\} If, _�I I I \ \ ,`1 \11 \_- ,- l /-- -� // / ,- __ I . /1'/l `"`\ 1 I \ - -'/ 1 \ \ \ III 1"/ / / ,/ ,-. \ ` \I -\``�j ___- _- ({�� �/ // ( \ / I (_- • / [ ! %/ / / / 1 I , 11 I I \ (' ` ^ \ I f 1 1 i __/ I. I ill l , %//'/ // / / \\ `\%�" , `\_-__ -\ r/ / `\\ i -_-_\ ` -^` �� , / 1 //// - ( I \\ \ < 1 I , f / / } _ -__ \ 1I1 ,-/ / I ) I \ `_� " I ! / l \_) ,11 � \ /' / -`, `---Il___---,` ` \ c/ / ., I 1 I r`- l \` 11 I 1 \ 1 \\I\ ` -/ /- ( }\ l\ / // / ,_- 1 ) \ ____-/ 1 IAB-104CPT ,/ \� \\`--- i / \ - _- \ `��\ / ' ,' I r- /^ 1_ `\\\ �� \ ._ � 1 \ �1 / /' l /-_- ./ '' ''-/-.1 `` --'.1 / 4 AB-1 04 I ! ``___--'-^-``___ '- \ \\ r 1\ \ / I I l I\ ( `-` - \\ -\\ \\ 1 `�JI / / l .� �/ ,//_---- = - 1 r\ _ _-/-'�\ _ /� \ I\-�' //�/ i-'' I f % J�/I// r \ �``._.,1`\I \ j \\ `� 1 / I / III .`_- / I if I I / I I�;\ _/ / �/- I AB- �� `\ I 1 / I" /i) ` r' I \\ ` ' ` t -`\\ I 1 I I I \ l \/ / / - / ,- / i / I / _/ 1 ! I ,1 1--, 1 \\ AB-103 '__ '' \`,` I i I / /'- ✓ /% / -' /' I ' /• I \`\ \`� \ 1 , \\ \\\\ I, \ \` �i \� / ) / AB-5S/SL/D :-\' I- 1-1 -'''n�� a I // I � ; I\ \ 1 \ \ f', /ice/_' I / / - , \` 1,1 I/// / ' -\ \�� \ \ \ `I / / /r / __/ _-_ _ 1\ if 1\ 1 /III\ I /' / _' ,, ' /" \. .1 ^\ / , / /\ \ `,_) 1 1\` ` <\ `\ \ ```� \ i I I /' I` AB-106 \ \ ,I/ l� \ \ , ,I \i / ,/ /' /''� ,/ • •J I / �l,J\ \\ / I `\ `, \� \ \\�\\ - J GWA-15S/D \ I I 1 - ).,1--- I \ \ \ /•_ , \ ( --,�j V/ / / - /� , \ 1 I. / '' ` /< %9 /' I \�) \- lam ) \ 1 \ I /' ,- / i'' 1 J/\\`-'' // I/ , ,/' \`\\ \ / ® AB-4S/SL/D/BR 1 , `J- \\ I / / \,. / / /, _/ r \ \ , \ /l_ - /- / Ill \ I / // / /` / /� /- / - I // // l l� l \ (}-` \ /' . ' AB-101 PT \ 111,,E I \ I � / I --' // / / / / "�/'//�_\ // \\`\ / l ( � , N � \� �\ I `\ } 1\l``\ , _ ,'=TCN�\\ \ \ // /' /'-/ ( c \ \ %`--/1 \ \ J \ \ \ 1 I 1 . �`` GWA-14S/D�w `\`\ \ --\ ) -I �_ `--_-) e \ ; , /-- -,' / \ ` \ `I\\I F , /n \ \ \ - �/ I // I / \ `\ \ \ \ I I I \ \ 1 I �I/ // // / / ^/./�. )///I ,�J \\\`- -/C) _ ,'%' �i/1 \ \ , // , I I \` J I I J S C / \ I // ! -/, I ,\ \ \ _'In l�-= , __ 1 9/ / /, _- _ 1 - , / / I / / Iil\- -\\\\\\�;��'_-_.- .� , - 11 I I /' /-- � / //� �i'�-- _- 1\ \ I` ^ -,-_ - - 1 S \ I, S V I I\� 1 111\ 1 \ //'/' / - - \\1�// I I I I 1 �� // / ' �,, / \\\\ I A D .=, - `\\ `-_ - \ 1 ` I \___ __ _-_i%/-' --' /� % III I \1\ 'I / \ \\ ``_//j/)Ij I\ --� \ I`-' -�`\` _ )) 1 / �- _ ` k_ ��..} ` �_�_ _ --�� -'/ / / _ `'/ // J 1 \ ) / __ "-,- \``\ \ \ I / //., \ II I _ - ,\\\\\ /, // _/ 1 I �� I. -I �- \\ �N:.h -- i .I- ' -_"/_ __ / - ///f �_�_\ _ \ %\ \ / III --- , \ l 1 J \ , -- -�- -- GWA-9S/D l I /,-��/ ,//,-j/(\ I/ / -_�` / / / ' C, -2_ \ \; =_ - 1 .� - = - / G I :'/ ` _ _ -` - - - — I , // lam/, r ``- 775 //, - `_ -1 ; \ - — ., Ir-! , :. /__jr�_r - I- \J) ill-;. �� \�\\ It I If :\ /�/ CHEMICAL POND DAM 1 - _ , i p I O * / 1 1' '% -y,-_ j'- \ ,\I\ --\ / / ' \\ /' / ` I - i'' t / 1 // ,1 I t,. //-\\ \`� r I II \\ /_-- �_- /-� - \ \ II / / r //, I/ - - % (STOKE-115) _ / / ll/1 `:\<. `-1 \ r \ l _ — I O I \ \\\ / It ` \%' -iil ,�'i i `1 Y Il;t 1 \\`1/ I I 0\11 I l�(B�� Fa\ - '' _ _-- ----I _ \ l J III I \ `�\ ` _ - _' - -__' / /, \_-\ 1 I ll //// /' A 1 1� -'i�� / 1 I�pI� �' / / Iillf • O� 1 \ \� ^ i_�� / , --_- _- // \ / 1\ , /// / \ 1\ �\ \ /--) / / • / / 1 _/ 1 \\\ ✓/ , I Ill , - I / /, 1 \ , - , a / _ _ \ - \ // i 1 IIIII ' / : , I // \ / \,\ 1 T1' �� \\1 `-� `�-� r �'_-__ u I .Id / -\ ( Ii 1 / -- v` / / \` \�: I ,, / rl I / / \ 1f )\ i 'fill / , /''' j / it, \ -� ,\ III i /'-`��\\ 11 /ll I \\\}( f-`� I/,: )/ /) 11 / �,/ / 1 \ - - ` \ (IIIII /' / " MW2-1 ! r- --- 111 , \\\ II// / /���\\\ I III1// I \` 1 I \ I I 1 'I ' \.Ill I / ,I , , \ • 1 / \\ �\ \ 1 / / �, /J� 11 ` / _ ��\\„III /,/,J \\\�\\ 1 J1 I /-\111}\ /\,\ 111 O 1 I ' \ 1 / - _ I /' - I ` _ % \ \ 1 1 III /i / I/ l { / i__ 1 ll/I } \I \\ I / ?~ - �_. / c '1 J� ,�/IIIII •�� `` I \1'\I\I\ '/I , „\`\rll1/� r-\\\\\}\1j;\I//Ill/// r IIIII \\\`II ��` III , l \I �1 ' \ Il ' 1 /IIfL��- \``\`_ , r r �Jrl I / ; ///' /I 1 / - / . \\ 11 //'' \ Illl), \1 \ 1 1/ ill! _ \ I111 \\ r \`�`� 111{ \\ \ ,^ l ) / t - \ ` nl I I-- `\ I'll�� / 1 \1 \\ , \ \ ice'/ -f / '// / -- .�^� ---___ '\ I\1\ III'\ ♦ \C�.f1=-r' )1 I \�\ I Ill,I f/ `111111 may\\ -�� \\\ ,J7- \1 �,%,, \ -_/ S ' I _.1 \\ � t� �/ < \\\ J/) , 1 ; I - ' / / \ _ / \ 1 / 1\1 \ / \ 111 I /i �\ \ r \ \ r 1 1 1\ \ / \ / I ( / \ \ / \ /// // ♦/ i/ /i �� _ \ -7^ \IIII ( \ }tNl // / 1\ //' \ \\l \\\\\ \// \ / - IV / /%/�'' /// / //,%/ii'5--- �� �� \ -' 00_ -` �I��\1//'�/�__' \`IJ�'-'/ i I!\�\�\IIII((( r/\j j/ Ilj� /l�/O ;WI 1 1 , \\ Il�ll j I j1.1 �,,+ ' \ G / } //.I `\\ �\\J /�_/- I ryry / r ��\�`. `Q�v / ////// % j�/� /'''%'/� '``��`_-„\ - $ \ V I 0 I �/) \ 1 /,if I /� \\,1 _� �\�7// l // r \ \ \ \I / / - \ \ �\� ram' \ I I /I I / ul( yl1 -\ �\-_ \\\mil/f( ✓$0 I \�\\ ,- \ I /I'(/I I 1/ //- \I r I .\\`, I , I, ,/ r % // t // } i I ) l 1// /i/ // /,i ///,'� \-�\--_\\��`` \\ ` 11 l\\/� _I \1\\ I l I \� 1 -M\ I I \I1 i" r r ly\ 1/ /q'� � / IIII // //� - \ _ __ \\\/I _ J __� flr / \ \1I /Il///--, I I / \\\\ 11 I /�// / / 4 / \- \ l 11 l/ / 1 III Ill /! / //, / // /'/ ////- _�-�� - \/� ��� \ \\ r 1 �// / / \\\\\ \\\1 1/ // 1 1 /\1 \J / !! -I / • -\//j 11� i / `, \ 11 (I _ -\ / ,I I MW-5 I /i /i // / r \ -- �/` \, l \\ / I 1` / \ /Il f/ / i/ III JJA/� /�, ///jr /////^\ -_ �-`_ `�- M / / _\`�� ! \ \ `-.� , \ \\\\\\\ JI///1/,!$25 \�,I I I \j1S1//r/,ram % I -,/r�S Il r_ \ 1 / ////// J / IIIII ''i'' /ii'//' ,/iii'//`� i�� `\��``�8?s � -/-`\ `� / :< ��\\` �r�_� \ ' /-1\111`��\l,1 //f r. - `�) / l I I %1t, � / `i lJI`Ili 1L. .-_-- C PI' \II ////�/// 1 1 " -%//' / /'i ///i/ `' - � \ -` ``\ (� } 1 i ,�' - \ / 11 11� "I , I t, I II `1 1 ` f // // / 1 1 Ill ///j / //, .'/ / / / /i�/ ' �' `� \�`� 1 \ `\ ) \./ . \ / \_ 1 - _ I 1 L. \1 ,` ° / \ \_ \ / ' / I l IIIIJIIt'/l ! - / % i�/�/// / ._`, 8 \ \ �, , 1 \ \_ \ \ / /� ` % L`�; \ 1/_ / / / I-' 1 \I I `\r�\ \ \ , / ,f/ 1�1 ' / s \ 1 - I \ �1( �Q _ ` `ll\ " 11 i��''/ //�/// \ � \`���_ �� �- \`\ \\I \1 1 j \ / %J 1 /�' �/ / - r`\\\\\\I. 1�� \\\ �' �_ ° jl Ifi�1\11\\\� \`\ �, A `-- I/// ii /_ 4 I 1 I /,1\\\111 1 JII / -/' //,/ / \ \ \ �`` \ / ) / J i /s` ` /�'' \ `\ \\�\ t ey, �� sr---/S /' ' / %%/ \\\`.I J 1111/llll�i/ii' ii�_-- ` `\ 8/i5-���� \�\\\, ` }1 `\I I I /_� ` /♦T 1 '-'i / ,y' "`\- ___ "i�q�-�}\\1}\`-_° �___ -t l / }J, / /' ' /_`- ' /l 1 1/l� ll l��r'/ /.�/ \ \ \ / I / - - 1 I Il \ _ N �/ /o / J /// , - \\�\\\\ W 7 i Ji/ / , I % / I I 1 11\\ , _ _�`. - /,/ •\� J/,J / / / //^ - I /if l %' , \ `, �\ \ \\` \\ " 1 \ ' �_rr _--- _ / = \ \ } �� l \ -�. z ! 1\� \ \.q( 1- /1 ,� // ♦ // JI lI l l �^ \ \\ \ _1 _' _ I __ / \ \\ \\ o .tii•l) 1 Y r- / /i / It // / / / i /// IIII l v�►FJ \ \ \ \ �\\\\ i\ \_ __/ _ \ ----- - ./ / : --s -- `��`\� / _ i \ I C. / r )1 _ , 1 / / -P1NE HALL\R \ \ \ - _- _ ._-__ , ._1 - � \\\ 3 - !/ / / / %i, // I /II .l l / \ \ ` `\ \ `\` `���, `\\- ' 71 ------'•' //'� ice.. `�---.\l \\\ r/ =w'��� `-1 \ l / / / / /// A l;'L�4NDFT6 \ \ \ \ \\ J- -,sue J - • /•• \\ \ 7� I '1 `�� r - / / I / ' /i'/ii' //i/ ,// / \ \ \ `\`\\\\ z--5/ -% wom� 1-'/-7✓`LOSED \\ \ _ I I , �` -1`� r - \ _, , i `�\ ✓ / �i / // ,/, /.// / - / i ��r'- \ _ 1 //- / /STRUCTURAL\ \ \` �( � r _ \ Jf /I // 1 / /,// / -/ - / / �'_ _ / / I r r�C3 / / .�_��\` , -i \\ \\ I.1'/ / / , 1 1' � / - I` / -I 1 / // / 1,/ , __1 / / -/ r _i_�_'� // 1 1-\ I^ -` III i�'i FILL \ 1 }\ . \ / // _ '• 1\ \ 1�,1� / / / �1 / / - �-- - /% / / i I `�_ � 76 _-- 1, /V/ 11\1►i i ) � �p 1 1 _ / /, / l l // IifI/I / 1 / ' ' --__ , -- .«S I / ! :� -/,,I / WN' - I r \ 1 �' l"'- Q /_ 1 `//,1 / //f/f/1/ / /// / 900 r' /' i� j i � _ / / 2, / 11� \ I/II \ / / //,, /r\ � j�I / \ IIII I /// , /� - ' _,1 // / / �•• 1 / 1 / - 1 / /` y 1 / / l ., (i iii MW-7 li / r / i / �• / 1i f/I /�/jI / (' -�_'_ ., / / �/ / ,1// 1� �^4'/, /- 1,/ it I // 1 ® ll lllll� I /,-' /1 -/ %/� ' / ,II 11 1 %' 1 /1 �� -�� ✓/__% -r� I l ,' i' '/ /�/\\I %� I'\�/ / -- 1 % / I I 1!/1 __ -//I !I 1 (�r��-, lr`-' .'`,! • / \ / / 1\ Il ,�-, __ - -' /_ _ , // / / r \ / 1 /� I / U 1 I lul ---_ - 't/ Ji/1 "f', n'" I /' `- ` \ \J A I \ \I 1 _--- _ = _ 1:w l / / 1 _, / //1 \\_) II / 1 Jlll II 11. I _� __�__a �/i / / / 1 ` / / / V 1 1// ( "! 111 ` /,i'. ---.._///, 11 I -- / IIr-_-__-- '�\ / \ \\ 1 'n�1y+�r/,1��', -- I \ I I I I \ / . / / ( I \ '/// / 11 1 9 I 1 //-/-- `, / / = -= / / r if, / /II 1 J \`;}\` `� __=� ,���-'' Ii ) I I I 1 1 / r 1( ///I`ll\\ l/////'�1 / \ III 111\ 111 //// - -\` �-I ,-_�;_=�-// _/�wi /ram/[� ,•�/ `\\ II �_\1\I�\\_; '` -'%"/ ' - % 1 I / 1 , / I I I/Ir-1//ice-�'/ \\\\\`/i/// II r 1111 1\ll1111, //z/'ii'j��\\�``.';rrr'%�- %i'/ fC dY�I I\ / �� �j '-_ / r► I , II\ \n\\ \\ „/,//II}1_= °,\ 5111111) ////,/Z, ,� __\\\N\.-///r/ - _ -_ ✓17.�- /, 1� \ — _ 1\ ,\\. _ • /_- \ \ / / /II \, 1 IIII % / - lIr- 1 , / \ \\\ \\ \ \ \- / / \- / /// - \ / / / — //\\ \� / /rlll r 1 11\I \ // - _ // \ \ \ 1 �WWv/ - / ( I I 1 / / / / { \ 1 , \ \\�`���:�IIA ,� ,1 \ Jlll/Ifl Ijl f4'1 \\ \\ \_ __/ / \ �`�" l` 1 \ \ _ 1 1 , 1 _/ , / I I I / / ► \\ / . \ 1 \_/11I l r\ \\ \\\ 1J , 1 ,\ \ 1 \ \ _ _� 1 I / 1 / / / , / , /, //// 11 \1 \_ / ,\C' �\� \\\\ III \\( \ / 1 II \..� 1 / / F. \__ //// \ \/ �+ \ j / / i I 1 I II I %�/%%�' / / / / / % //// �/, �_'�2� i I I1\\\`�l\ �� ; ;r� j'- 1\ �� \\`�\��/�II�IIII \\\\�! - \� �- -' %'1I�Iilly\�.� j ( I\ \-,�,�//1 `- I/JIL \I1\'\)/ti\ .,���\ / 1 I I / / 1 -- I \ \ \ \\ \ \ r _ //III 111 n .\ -`` JIIII /ll // _ I N \ \ _/ / 1\ 1 I / I k/,, - \ \\ 1 / �� ` 1 I '` ``___ I O I / / � /0 0 1 \,`,L0 I I / ! O / / I I \` �� c � - i (z-_ Q. \1\\\-\ \\ \ `I \ - - /, J f,11\,\ \ \--- ,I\ j�/ /''\ \ I' )\)/� 1 ) Q I I I / `\ \\ --`-'' cb�% //i',�IIo00�`\\,��/ i /co / I 1 111\}\\`\`\�_'�2C8��_J)I I Ij\\\1\\ r_ _- /i 5�111��\\ �4//\ �``� \ /ll�jl� �\ `//! �i 1 �I / \ / ,/ I ` I11 , I I I I I I I I I\ \\� -\. _/,III! I(1 \_-,\ - 11 Iy ,r/f\. ;�_ ,/ \_- \ ✓ I I I 1 `-'/ //i 1 /p % i j I I f-\ 1 \ / .--� J % I r\\ , ����/,f \IIIII/ I / / / /// I \�_-JI I l i I I I \1 1 \\,\11\\�\__ /il/ll\I\�\ �% 1`I�----�_F(� I\ Q\Ilz � 'i' - ((`- 1 \ \ // I I ( \ // /iI I I \ \ \\ \\\\ } I /// -_ I I f I I ff//r//,1'\`�:J\ll )\)1 ,1 1\\\�\\\\ �1\\\\_//1I f,/i ' /' /'' / I I /\`,\\_/.\ 1 1 r\ I 1 \`"\\\\11 j ! IIIII/// Ly - _, I III I I I/11)ilL-�\^-_� /lr)� IIII I / c ------- ---I 1 \I `���\`�\\ `'\\`\\ ._// / I - ////�- I I1 ` \ \./ II 1 \ ` \ `IIIII/�/III if lI( \ } I,, 1///��\\ x\\`--J II I \ `\ I I \\ ,}��\\\ \ .`. / / -i 1 ' / ---_1 IIr\\ \ , j1\1 \ \\ \ \I II1111IIII I1111 `\�_ --\ - I I ,`T\ 1\ \\ !\ I'll \_•1 \ / I \`I `G` �\\\\\\\ \ `\- / . 1 '--_' %/`�__ III \\\ \ '\\ ,j1 \j\ \\ -1 /, (IIIII/ \I(114\\\_ --� `\� --__-\ I 1 ��Iw��1\ \\,`_ii'-\ 1 ` / ,\ } 1 \� \�\ �\ `%// //i //I r\ --_-_J 11'�,`\_,-\'-I1A\.�__---''''/'l/IIIIII,h\\\\` __ �1 `_ -.-- 1\I II l / ! 1 1/�\ \I\\J% ���\_ \\\�/y-\�l/I }�\ `\I I\1\\ ' \ \) �`��` \ / \`= i'i _ _ _ /i / /i / / f - \ I - -/ /I \- -- /// 1 II 1 \ � \ I I I / I /,, �- 1 �,\\\1 �\ , V \ \\ 1 ,1 ,_ \�\�\\ /- _ //'// `_\ \\ I I I r 11 \ //////// / / _-_ //// / , / / 1 1 \ 1, \ } \ "II // \ \"\ \ \ z` ` \\\ IIII) 1 111 ( \ `1111I\�\� I . /, =�\\/ _ ' ,/ �� �\\�� !�i -'- \`__' //\1 \� .,=��-,V-, / 11,,1 \ \\\��V., IIlIII �',/ij', / _ , J 1 \ \ \ \\`111 flll I i i L.,il r-\ „ d. \ { I. .. 7 �\`\` --, 1 2 3 1 TENTHS 10 20 30 3 4 5 1 8 BC-XXX-005 REV. A F,'' //'' // // / /,'' /'' ,'1 /I I I I I � S / / I \\`� \\ `\ \\ \` \ \\IRTERNA� / / /� Np/ �/���/ '// '''' / / , , r / / , I I I / /_ \\ \ \ \ \ / 1 // / , / I I , / / �� \\ \ _ / I / / , , / / 1 If I' i' �' I I i i i / -�- 11 i // —��IrI _ _ Imo' \I �0 � - � � 'l ' ��/OUM11201,& I%. i II �MV�-10nS\ 1 I I mmamp ___ ---- �ctr- -A-a - _S A��, _+��, __ / / , / ,' / /','// . .- /1 \\ \\ \\ \\ \ \\ \\ \\ 11 \^\ - —ate _ -- 7t - —A='I j ! Rp, T/'�/'" I le tt� !� t H _- " __ / // / , � \ \ \ _ / \\ \ \\ \ \\ __Ag __A<8_ — — — A=12 — — -675 —_ - __---- - W:17A,3' /-- / / If /' / / / /' \ ----------------------------- _ Jr-5 _ --- _ / \ - ----- - - - / / \` \ \\\\\ , \ `\\ -_ — _----------------------�-�-------__----------_ — _ - .''� I' I I i i I I I \`\ \ \` `\ - -- - _`- _ _-Hx-1-r — — — — — — — — — ---- _ — — _ AB6- - --- -'' - / JA 7 / AA-8 I % I\ I \ ) !Y--__ ----__ - 4 -AQ-- ----------------- - _---- - _ z J ___- -- _-'' -_'' _'' / _ - __-- - --------------------------- __--____-_--- _ ___--__-- ,- `-`- ` - ------ rOW-94 -AD 6� _ _ - _ ' -`__ --- - ---__ — — — tL a73- -- ----------------------- _ — — — -____' ' _ ' ---__--- -- ----- A=2— — -5 — — _ -5 — — — — — — —725- — — ___----- _---''---- ' � _-'' _-__ _ - _ ,- --- - - - - - - - - - --__ — --_____ - ------*__ ------------------------ _----- _-A-a-T99 _ -- _------------------ _------------ _-------------_______- — 1 - --__� _---- -------------- - ___-- — _-- - - - — - - ____ - _ __--______-A-4-1-% — _ _ _ _ _ _ _ — — — — _-_ --- / _ '---_ _iii_=� - --------------------- -- — — — —------------_ _ ___ ___ ' -''_- - i / --- - --__ -------reW42------ --- -1-------------------- - -' -''.- / � _--___ ___--------- __ ____ AD-12 __�--------------- -_____ - --,-� \ — — — -- ----- --- ------ ---------------- ---- ------------- - -- -- — r -'--__ __ /� — — — _________------------------------ _--- __-_'-- _-'-'---' _-''/ ' / '_ —`----------------------_ -------750-- _-_- �- ,. -', __- — _ ---- NOTES: 1. THE BORINGS SHOWN ON THIS PLAN WERE PERFORMED FOR DIFFERENT PURPOSES SUCH AS GROUNDWATER MONITORING, GROUNDWATER INVESTIGATIONS, DAM STABILITY EVALUATIONS, AND CLOSURE EVALUATIONS OVER SEVERAL YEARS. 2. BASED ON THE EVALUATION OF AVAILABLE BORINGS, A PLAN FOR ADDITIONAL BORINGS TO FILL POTENTIAL DATA GAPS WILL BE PREPARED FOR IMPLEMENTATION PRIOR TO FINALIZING THE CLOSURE PLANS FOR CONSTRUCTION. 3. BORINGS (A-# 1969) WERE PERFORMED BY DUKE ENERGY IN 1969 (PRECONSTRUCTION). 4. BORINGS (A-#) WERE PERFORMED BY DUKE ENERGY IN EARLY 1980S (POST CONSTRUCTION). 5. OBSERVATION WELLS (OW-92 THROUGH OW-95) WERE INSTALLED BY JOYCE ENGINEERING INC. IN DECEMBER 2012. BORING LOGS OF THESE OBSERVATION WELLS WERE PROVIDED TO AECOM BY DUKE ENERGY. 6. HAND AUGER BORINGS (HA-1 THROUGH HA-14) WERE PERFORMED BY AECOM (FORMERLY URS) IN 2014 FOR THE PHASE 1 STUDY. 7. BORINGS AND MONITORING WELLS (AB-#, MW-#, GWA-#) WERE PERFORMED BY HDR FOR THE GROUNDWATER ASSESSMENT STUDY IN 2015. 8. BORINGS AND CPT SOUNDINGS (AB-# AND AB -#-CPT) WERE PERFORMED BY AECOM FOR THE ASH BASIN CLOSURE PLAN IN 2015. REFERENCES: 1. BORINGS AND CONE PENETRATION SOUNDINGS (AD-XY) PERFORMED BY S&ME ARE TAKEN FROM "SUBSURFACE EXPLORATION AND EMBANKMENT STABILITY ANALYSES - ACTIVE ASH BASIN DAM (STATE ID NO. STOKE-116)", DATED SEPTEMBER 23. 2010. 2. BORINGS NEAR THE STRUCTURAL FILL (B-1 THROUGH B-5) ARE TAKEN FROM "DRAFT REPORT OF GEOTECHNICAL BORROW STUDY - BELEWS CREEK STEAM STATION, SYNTHETIC CAP FOR STRUCTURAL FILL" PREPARED BY MACTEC ENGINEERING AND CONSULTING, INC. AND SUBMITTED TO DUKE ENERGY ON OCTOBER 28, 2010. 3. BORINGS AND MONITORING WELLS IN AND NEAR THE STRUCTURAL FILL (M-1 THROUGH M-11 AND MW-1 THROUGH MW-7) ARE TAKEN FROM "BELEWS CREEK STRUCTURAL CAP MONITORING WELL INSTALLATION REPORT - BELEWS CREEK STEAM STATION" PREPARED BY MACTEC ENGINEERING AND CONSULTING, INC., DATED FEBRUARY 8, 2011. 4. MONITORING WELLS AND OBSERVATION WELLS IN AND NEAR THE PINE HALL ROAD LANDFILL ARE TAKEN FROM "SEMIANNUAL GROUNDWATER MONITORING REPORT - PINE HALL ROAD LANDFILL, PERMIT NO. 8503", PREPARED BY HDR FOR DUKE ENERGY SUBMITTED TO NCDEQ ON JUNE 25, 2015. GRAPHIC SCALE ASH BASIN WASTE BOUNDARY (APPROXIMATE) DUKE ENERGY PROPERTY BOUNDARY EXISTING SITE FEATURE (APPROXIMATE) • • • — ASH BASIN COMPLIANCE BOUNDARY EXISTING MINOR CONTOUR (5FT) EXISTING MAJOR CONTOUR (25FT) HAND AUGER CPT SOUNDING BORING r — li O COMPLIANCE GW MONITORING WELL W 0 VOLUNTARY GW MONITORING WELL I X ® GW MONITORING WELL x CD 0 OBSERVATION WELL CD 011 TITLE AREA UNDERWATER DURING THE 2014 BATHYMETRY SURVEY 0 400 800 1200 GRAPHIC SCALE (IN FEET) DRAFT NOT FOR CONSTRUCTION BORING LOCATION PLAN L=com BELEWS CREEK STEAM STATION 100% DRAFT CLOSURE PLAN STOKES COUNTY, NORTH CAROLINA N.C. ENGINEERING LICENSE NO. FOR F-0342 ISSUED FOR REVIEW SEAL SCALE: 1" = 400' DES: CN DUKE DWG TYPE :.DWG DFTR : CLD ENFr%tw*x1 JOB NO: 60432132 CHKD: DM qk%*7 T DATE: 7-7-16 ENGR : CN FILENAME: BORING LOCATION PLAN.DWG APPD: KK DWG SIZE DRAWING NO. REVISION ANSI D 22.0"x34.0" BC-XXX-005 A 0 5 6 7 FV 0 0 1 2 3 I /\ // 1'-dp / ll,I ��/i /i""ii'/ i �' .ram//: \1/' I I 1 ♦ 1 II �/r // III 1 \ \ ♦ 1 I //�/ /.; �// / --/ //� / I 1 \ \ \ \ / oop op •/ I dp 01� do lop op op lop If t Nil do v`�\\\\\�`.-;� --) �� \`\\1\` \\\\� / t ` \ ` ` ♦ ♦♦ / ��� ,\///,-� `III 11\\\\\ / ♦�I r rll�l r,\��I�Iltl�\I\\`\ j^`\\ \tII \ ♦� \\ 1 // I I 1\�\ ♦ \ \ I ( \ op EXISTING IMPACT BASIN TO JJ_^�\ ' BE ABANDONED IN PLACE OR ►'I''�,w. G ( DEMOLISHED ell EXISTING SPILLWAY OUTLET , It/r�/t�� ���\r` \\\�� \- 1 \ J I CONDUIT TO BE ABANDONED IN i1t11 -f��� J!%/ +!!t%=-: +\'•� `\``-'\` / -- �_ _ _ lic x\ 111 /' //// r/ J ri �\\ \`\ \\\;= / (SEE NOTE 6), t� PLACE BY GROUTING ENDS OF • pt / //// ( __ \\\ \ • r _ \ p, \ /i9 i i I EXISTING CONDUIT \\I / l /r/% ,\\\��o\�\\\ (r+l//iir; / /� I I I /-�`�� /IJ� II \\ 1\vlll I, 1 \r r-� `I1`\\\\ 1) 111/ / ////' / i / I L l ` I I ` ( -'♦ ' ` ` I �\\JII / ) I ►III / !/ // /^ - - `� / �\� \` i \! \ III IIII I ^, III IIII // / / \ .�r�- -. 1 /- . ♦ / /i� / ` I 1 1 / ' l /► \`\ `\_� / / 1 \ 1 ��- / \r'.� / 1 /f'ffi \ �i\I 1 / l /, / I ! //11l ♦ IIII J ' /� / / r r /- / r /, i/ ` \ r 1 ^ I \\ i \ l<`(lc\`�� �. . //,/ /) / / \ �1� \ _ -/ \ / /// Y \ / /r11dt I! //11/ /I11(\t \ \ //// r� f� l / / r \ `-- /. \ \ / /� �`.� ♦ \r/ \\\\ \� 1 \` 9.\- \ / IN. _/1/ / 111\\1 /`� ����\\\� n ✓ \ !t \ I I `-\`_\ _ / \ II / / / I I!„ \ I \\O�N I / I I\ \III 11( \ /../ / / r_ \ \ \\'11\�_�\`D ASH BASIN RISER STRUCTURE ( 1 IIII/ , r / ,/,pl 111\\\ \\t i It11II \ 's�'� /l '� _ •/,\\ '/' f \_ / 1 (I r 1 r ,\ \ . _ / / r I I \\ SEE NOTE 7 J /1/ 'i / /'/ �J/� J»Iln\\N\ \\\� t\ 1\\\ / '��,\�., (t / h iii — ;'r ^,;` \� ` _ i / ,rr I ( ) ly / /,/iii 111 1 \ \\ \\\\�\\\\=/1-l! 1 /J i iJ/ �� / \ f ' If +r /l, �\'�t�'i /►1/,� \ \t t ( r r c /i,��//�,,� •-\ / --' \ ,/ / 1 / I i / / e�"t\� ,;� („�' \� \ \ \ \ \ 775 , 1 1 �/ , \\ 11 / / l 1 1 \ / !"IpVA\ \ %I / . \ ` \ . JI 1) // \\\ \ \ \ __=__- �t/%!`t _ _ I �� -Z / 1\\\\\\\_ �_____=-�_- -r/�/ 1 1 � �_..,/�/ Ilt / / { + 1 \ 1` 1 �\0 I A/// 1 �_ / l I \ —-- - /i��r �J^ )ter/,//�I\�/� \\ \_--_ =��t / 1\\� \ I lilll`I� \�`d It ////J(� Ijl Illf lt\\�'\\ 1 \\\\\11 \ \ 1 ACTIVE ASH BASIN - •;�� ��r/ . \_��/ . •,--' t 1 • -' ,�) /` \ - - - � /j 1111 �\\\ IVY+Jt ► Ir\ �/ 11I )lu \ \ �+f /1 \ __r _^ 1 I III I\\` 1 j1 III \\ \��-l/ v/ H�=� I \__/� / l �_--___ \ / ` \\ ` \� ` \ I 1 IIJ) 777��� MAIN DAM r / :��\`�� /�/ •_ I / / !t \ \ \ �T� ) 1 ►, ,1\ r \ I _ \ �. 4// , `fie. r \ \ \ =�r�\ , \1 1 \ r III 1 1 �,i / \\ v./ � tlG 1 �I .. (STOKE-1 I r J/I�h .—` U II `�: \ \�\ I / / I '`\`—/ / t \ - r �)1 /—_ ? _� _,/' —' r_/ \�,_ _ __ `_ __ /r �,\t\ `�`� I �� �r�rlli :i► i \,; \\�\ _ \` /i ram- _ \ r-Z\ \ \ / / —� r / \ 1 `�^_\\`\�\�. / r , / r__\ _ ` lo I --/_\� ►1 PINE HALL ROAD r O 1 \ �_/ II 1 1 / (__ram' / \ / / / 1\I/ �/ Ile O t / 1 �'i / /%� /_ �•�/ �,! ` ��'i :.���`' ) 1 �:w! ::`:�\ ; -\; \ / / EMBANKMENT DAM ;'.%�%�/ __.--,ri /i OUTLET STRUCTURE --- / ,/ /� I 1 1 ASH BASIN \\ __-- _ ; ( j I ` �� \'i/!'^f I I % / /� \ - SEE NOTE 5 ! . / i I \ tJ\r/ri J ✓ \ 725 \ 1 / (APPROX. WATER ELEVATION = 750 FT. \ r!0il \ \ \ !!! / / \ 1 / // Al // /. 1. c„ _ ,'//,�/// /,//�/ i \ \ \ 1 / ^ ti I / r/,:; Jr� // Q- //j /ii / , /. / 1 I \ l i / 1 l 1 �\ t / �'i/ S� co /tr/ NN If 7_ i 1 � / / J I l i \\ //i //�_��\ +/// \ \ \� zle —'o /, i %_---_ — ::' -unna/ 11 / /// Ji r r 1 // / ► I/ r, / , ,'t �, ) Ili 1 . //i r / \\ \ \� 1 I \ 1 / \ - \ (11`1 1. t \ , I K / / / / / �l IIII // I i\ \\ ..� \ \ Ill I 1 \ i /i %'/' r` i� % / I (t.� / /` '' l 11 / J 1 / r ) (i it 1 1 l f i r 1 / i ,t \ 1 1 I / lI I/i i 1 i r i i 1 / i/ / it 1) it \\\\\\ `\ \' 1 1 / / / c( j / / / //// Irllll I ��`\\ `\ `Ilil/ r / / _ I 1 /IIII/!/ I \ 11 \ \ `\1 �... \\ire jJ t il / // \ \ \111�1/////�/ i ,-\\\I���\ s �� ' �l / !_�- `\% i i/i ///�'/ -'-�J II(�/ �I1/ \ `lI f `\ I , r I/\ \ `\ / i/�1 1 _J// ''/ III`- `\_ / tI I I' \\ 1\l //^- t APPR /��'/ \ I / Jr , __., / / i �i �� \ \� \\ \\``FAR �\ \ \ S1 /1 rll\ \\s / r \ CwJ 1 \/ \\\ ► J / / / ll \Mp \ J `N �\11-I/'i 1 I�) I /,_'/Jj j / _= n\\\✓/ ill �:�$�Qwv NN _R�\ \ ^ ~`\ �4► IIll Ij \ram -�— '\\` r ij r�- ////\ �I`_``��s /�' - / /�� I b�—/^��'- SEEPAGE COLLECTION SYSTEM _Ile \N \ �`�` '/� �� = .,z`=' ' '' SEE NOTE 8 / ( ) c< c L/i�� ice' i/' /l'/ter ��r __`\ IIIll11 '/ /%%'' i /i �`" i 40 %�^/ �/ `_`��`�:`I -- CHEMICAL POND DAM I I► l ` /^\`�o,� `�� VIll 11 / /iceI /1/.I���j�,l\\I I� / \\ \I1)11 1/\�/�/v1 ��l�(STOKE-115)`-�Jill ill ' `- / \�\II r/ //%-.\` Illlj / /� ��` � 1 11l 1 \ 1 -�� 1/}I 1 f :,0�111, �' = `\ II!'/� III \1 / / \ \�1\`��`� (SEE NOTE 3) \ eZJ�r,)-\ \ ( yll \ 1 , �\ Ill r \\w 813� / rr/ / 1{ /� //IIII I/%i%\ 6r\1 1 /,/ 82 /!' j,! % /IW ^` ``````\ \�`\Ti'__ ^`\� /% ` /�h\ !/_ II/ / I� `\111�%'��j. y �� 1 J! ►% `1 J`' ~ I' r' // /J % !/l \ / r a \_ r /c (— / �•�I`ii\�'44/1('r-'\``,J, i / I��r't // _Jr1 ` \ `_— COAL PILE 1 I / / % i�/%�%�%�-'\ ��\`�"``��`�\ \\ , \ 1 \\ � / \\ IIII 'G ` \ \111\ I/ /lr, ��//�/, ,, ��`��`i`�` 1 U l 1 i ll 1 \ /1 �, 1 / l l \ l! 1 f^�/� \� ��1 \\\\F.. 1\ / l �/ ` r--- I \ .� / \ Il/ lll'Il % /i%//'I^ ♦ )`�� �\V\\ I I \� / `-/�, , ,/ /\ IIII- si I M /Ari -- ; / lrl lli'/'�i' CLOSED \ \`\\\``N `�\t �% 5 = ',/ i / , ' /�l _ \ \�_--% ter_ / , I PINE HALL ROAD `\� \�\\�\\\�i� r850�� j tl I t %III 11 /\\\\ �- / Iti`\\`\ \II':I''/\ ljll 1 , I 1 \ \ / I I t \`\\ � �., , •-1 1 \ ill\\\\\\\\� \\; \\\ ---_ �;; 0. �� • /N�1� \ \\ \ \�\ \ \ \ TENTHS 10 20 30 3 gj �\ JNI ; 11 \T\`\ f) 4 5 �1 f` "o" I •__-'' P iBELEWS \` �'// CREEK` �r` ,11. )i 1 _Q�'P� STEAM STATION ac-xxx-ooc REV. p INTERNAL WORKING DRAFT PROVIDETO NCDEQ ON 06/07/2018 FOR DISCI;SSION PURPOSES ONLY LEGEND ASH BASIN WASTE BOUNDARY (APPROXIMATE) — — — — — — EXISTING SITE FEATURE (APPROXIMATE) DUKE ENERGY PROPERTY BOUNDARY EXISTING MINOR CONTOUR (5 FT) EXISTING MAJOR CONTOUR (25 FT) A 1/1Tr- 1. BASIS OF BEARINGS: NC GRID NAD83/2011. ELEVATIONS ARE BASED ON NAVD88. 2. THIS PLAN PROVIDES A SUMMARY OF CONCEPTUAL PLANS FOR DEMOLISHING STRUCTURES ASSOCIATED WITH THE ASH BASIN AS PART OF CLOSURE. A DETAILED DEMOLITION PLAN WILL BE DEVELOPED PRIOR TO CONSTRUCTION BASED ON ADDITIONAL SURVEY INFORMATION OBTAINED. 3. EXISTING CHEMICAL POND DAM WILL BE FULLY OR PARTIALLY REMOVED AS PART OF CLOSURE. THE CHEMICAL POND IS PART OF THE ASH BASIN AND WILL BE CLOSED AS A SINGLE UNIT. CHEMICAL POND DAM RISER STRUCTURE WILL BE DEMOLISHED AS WELL. 4. THE EXISTING FGD WASTE WATER TREATMENT SYSTEM WILL BE REPLACED WITH A NEW SYSTEM CONSISTING OF SETTLING BASINS AT THE SAME LOCATION AS PART OF THE WATER REDIRECT PROJECTS. THE DISCHARGE FROM THE NEW SYSTEM IS PLANNED TO BE DIRECTLY ROUTED TO OUTFALL 003. THE INTERNAL OUTFALL 002 AND ASSOCIATED PIPES WILL BE ABANDONED AS PART OF THE WATER REDIRECT PROJECTS PRIOR TO INITIATING ASH BASIN CLOSURE CONSTRUCTION. 5. THE OUTLET PIPE FOR THE ROADWAY EMBANKMENT DAM WAS GROUTED. THE RISER STRUCTURE AREA WILL BE CLOSED BY BELEWS LAKE REMOVAL OF ASH. THE RISER STRUCTURE AND INCIDENTAL kTER ELEVATION = 725 FT.) EQUIPMENT WILL BE REMOVED TO FINISHED GROUT LEVEL. BELOW GROUND COMPONENTS WILL BE ABANDONED IN PLACE. 6. THE ASH BASIN DAM WILL BE LOWERED AS PART OF CLOSURE. PLEASE REFER TO DRAWING NUMBER BC-XXX-008 FOR MORE DETAILS. THE EXISTING SEEPAGE COLLECTION SYSTEM WILL BE INCORPORATED INTO THE CLOSURE. 7. THE EXISTING ASH BASIN DAM SPILLWAY RISER INTAKE STRUCTURE AND INCIDENTAL EQUIPMENT WILL BE REMOVED. BELOW GROUND COMPONENTS WILL BE ABANDONED IN PLACE. THE EXISTING SPILLWAY OUTLET CONDUIT WILL BE ABANDONED IN PLACE BY GROUTING THE ENDS. THE EXISTING OUTFALL 003 IMPACT BASIN WILL BE ABANDONED IN PLACE. 8. THE EXISTING SEEPAGE COLLECTION SYSTEM OUTLETS FOR THE PINE HALL ROAD LANDFILL WILL BE CONNECTED TO THE TO BE CONSTRUCTED SETTLING BASINS VIA A PUMPING SYSTEM AS PART OF THE WATER REDIRECT PROJECTS, IF NEEDED. THE ONGOING IMPROVEMENT WORK IN THIS AREA AND PLANS FOR EXTENDING THE GEOSYNTHETICS COVER SYSTEM OF THE ASH BASIN OVER THE SOIL -ONLY COVER SYSTEM OF THE CLOSED PINE HALL ROAD LANDFILL MAY ELIMINATE THE NEED FOR THE PROPOSED CONNECTION TO THE WATER REDIRECT PROJECTS EITHER FULLY OR PARTIALLY. 0 500 1000 1500 -r� GRAPHIC SCALE (IN FEET) DRAFT NOT FOR CONSTRUCTION TITLE DEMOLITION PLAN Jm=%0wA1v11 BELEWS CREEK STEAM STATION 100% DRAFT CLOSURE PLAN STOKES COUNTY, NORTH CAROLINA N.C. ENGINEERING LICENSE NO. FOR ISSUED FOR REVIEW F-0342 SEAL DUKE SCALE: 1" = 500' DES: CN CLD DWG TYPE :.DWG DFTR : E N E RG.DATE: JOB NO: 60432132 CHKD: DM 7-7-16 ENGR : CN FILENAME: DEMOLITION PLAN.DWG APPD: KK DWG SIZE DRAWING NO. REVISION ANSI D 22.0"x34.0" BC-XXX-006 A 6 7 8 m BC-XXX-007 REV. A 0 1.1 // `�` \\_,IIII `\ ,' / / I, / / / i' '' / 1 ACTIVE SPILLWAY RISER '' ( ' I INTAKE STRUCTURE / / I ; (SEE DEMOLITION PLAN / _ '"' / _ "/ BC-XXX-006) � - '' //, �/ \----- _ _- Iff r �I , j �- , / / I - \`'\\' �/' ///'♦/ / 1 '/l1/j /�/%'1/I�l II'Uf/l�// ll II I \ -`- /I , _ ' ----'yip'%%''i''/ // / / ' /' / i'- /- `� '" / I ,`__ / - - , I I \ \--\\\•\\\ �_�ii� . `_♦ / 1,-, ----_ % _1 _ \\\\ // / / , 1 /11 ,/, II!''/-J,/I/// l I 11 ` \ /� /�i-_-_- -- % %/' / '/ / / / / / / // , / -\\ - ---/ / / I / '� 1 - �l , \ \ \\\ \\\\1 ^- i�\\`�\ \ _/ / , \ / \``` /__ ' ' r ' " ' ` ' ' '' ' ' ' ' ' ' ' ' ' -14TE RNAL WORKINU DRAFT \ / / / \1 \ / \ \ _ _ / `�\\ \\-11 , // 1 1It//��l////�1j / `tlr`'/ ♦'/// /l //I l ! 1 1 ` ` / //%/ __ i / I11 ,� / // / l j / ,' ♦'' , / -\ / 1 I / 1 \ \ - - / / __ / ' `-� \ \\\�\\\� \1 N\\ ,.- '/1',\\- ♦ '� \, I `/I I / \ \\\\\11`1ll, jrr/i/ r 11 / '//I /I I I I I \ \ \\ \ ` /// _ ' - J S / /III 1 1 1 I 1 / 1 I 1 I ' / ' r` ` --- ' ' ' \ `` ' ♦'\,\ / I ,` `\ \\\``\\�\1 1 \`-N \ �:,/ It/\ `, / I , \,, / /'-\ , 11 III IIIII Sr !! / 1 , ( / , ,III \ \ 1 \ \ \ ♦ `` //,' / /,// /_- f \ \ 1 1 1 1 1 f 1 1 1 \ / / 1 \ -- �/ / / / /-\ \ __---' / / --`- \ \` \ 'o �-\ \ --__ \ / --- J / \ ,' 1� 111 Ill, IIII II/�/rt I tl r., //// \ } \\` \\ \ \ I // // ,, _-- \ \ I ' / _ - `� ---- / / / `--------- / / I r \ \ \\ \\IIII �.\\ t\- /�_�^\`\\ ' /\ lI I,/ \//, 1 11 III I, tlr,l / ,'/,I-, �_1\I,1 \ \ I /__-__ 1\\ \\\\\1\ ,\ \ I / \ \ - /' / /// /\ - - /I ! / 1 1 I\ 1/,- \\\ -/\ / \ / ', I / 11/ \ / �/ f ,/I 111 11111,11111111 \\ l , IIII //����I 1 \ ��� \ \ \ \ \ I - - \ \ / / / / / `-- _// J / / / 1 I I 11/ �/ \\ \ \\\\---- / / /� / '-'- / ---'- \ ' / ` ' "_� \, \"- P`�-DED TO NCDEQ ON 06/07/2018 ,%� /'I/llJI \ �/ / ! /♦ JJ/��JI l I/ 11j1`t- I /'//' ''.'r' J I r / r WEIGHTED FILTER GRADES \\\ \ \ \ \ I __- . - / ,' / / �/ \ ,1 /. / / • \ 1 1 I I l/ \\ \\` \\\/ /ir / r(l \\ / / / . / . \ \ \ \ \ \ 1 I - _ 0 / / / , / - / / \ , I I f_ " I 1 `/ ,/ I/ , , 11 \\\ \\l,l\ \ I I /I //'/ /' / \ ! ^�♦III I, / ♦ --�� I \ / _ _ - /, ♦ /, \ I �_� i-- \ -_� \ -x\ \I\- ♦ \ / ,I [,I /1 / /�/ ' / / 1 I\\ \\\, \�\\\\\\ \ `\ 1 rlfl I I /I / l / / / / \ / / / / // ♦ / ' / ,' �___ _� \ \ I I I f -__/ ,- _ - `-_ -- ----- , / , `\ \ - j,r%I % ,/ / = J / \\ ` --- - \ oN \\` � -, \\ -♦\ "_. 1 1 I I I l l / / ,''y �/ 0! , 111\111`,1\\ \\\\ \\ 1 1 1 11 I I 1 I / , ♦ // /,^ -J / ♦ // / / / / / ♦ / -----= --- I- / I /' /'� / \ _ ---- ,` ' /' `- // _/ \- \ \ \ \ \ \�\-_� �\ \ '\ _ t O ''� - _ __ _-_'' ---- I jiI, �O ``_�SCUSSION PIPOSES ONLY II ///// _ ,1 01, \ ` \1�� 1�•, SO _/ / 1\ I. / / /♦/ / / ' / / \-- , / , \ '1 \ \ \-- 1 I l l / / / 1 O 1 `� \ O 1 1 r` / / IIII ♦ , / / ,' ♦ , \ \ \ -`_ ' / ' / - / I -- \ \ / N 1 \ \ \ \ ./^\ S / / / / / \ ♦ I I r I / \ /// - / ' / / 1 ^I I \', Il (St\\� \leg 1 1 , '^ "1``\ /,/ / "/,',,/\_, //%/''' - _-/' r ' / // ' / ` ` \ `--- '� ' / I \ 1 I J I1 (-\\\ /''\ , O `\ -- - \ ` �\IN, I ( f / //11, \\ 1/I1 /� // / / ,/i_// )III%�I,,�}\t tSp1� \\ \ I\ 1N.-i_%' 1// /CCR LIMIT //' ---_ \I-- / �-- 1 / 1 i \ `\ _ - 5//- /- � r /1 I 1 1 I f , III I'1 /`\\-� ' � \\ 1\ ` , / /,_, \ ` l IIIII l// � / I \ 1. 11' \ 1 \ _ / / _' \ / / / \ - - -77 / \ \ I 1 ) I 1 \ \ ) / I 1 / / / /' / , %,/iJ) I, I)1\1 \ ) LLLLLL \\ \\ \ \\ _,♦ %/ - /-' /// / 1 I \\ - ------ ' /' 1 -/-I I I 1 I I \ 1 1 I `�\ / / 1 % /'�_i'//////1 II/l //, \ r ♦ / / ♦ / / j J, I I I I s \ \ \ - / / ,, / / /' ` f I \ - _ I I I f ( l I 1 +I l/ 1\ I l_ \ % / / !//( r/i_ /// I II ( / \ \ / r /- / /, / , J, 1 � l.� ` �� "'/ / /'/ / / / �' / / / / / / / ♦ \ ! I f I - ___---- _' '\ I - , / / ! I I 1 \ I I 11 /II I -- / I --_--O , / --I \\ \I \ I �i f /I \ r / / / I / /, / '♦ ' 1 6 \\ _ , / / /,, _ / / 1r,,, / / / / / •_ I 1 ,' 1 CLOSURE BY 1 11 I I ! -O , , \ \ \ /%'I \ \I 1 1 ' ' / ' - ' /" /' - /� '----___ /J / ' I I ---- // _ ` 1 II - _ / - \ \\\ \ \ ---` III/ r / I f /r r ' /♦'1 _ /, - I , \\ / i / REMOVAL i \ 1(\ ) I \ I 1 / \ � - / / \ ! / / /' _ / _' \ `I \ ' J' / ' I I 1 1 \ \ \ 1 1 +Irflrl'1\ \ \ \ -1 \ 1'/' / \ \ \\ \�\\\1 1 \ / // / �r \ \ \ 1 I 1 I I / i i' /. ' / / /'� / r'L r i i \ i / I I I I \ 1` / I i! I \ \ ' 6 / ) 1 ` - \\\ \ /III // I \\ \\ \ \ \`\ \I \ 1 j I 675 / /„ i =IIII / I / / _ = ��� / / ,-\/ I / fill, \\\ ` , I f \ \ \ \\\\\� _- ,v\N\ \1 JI/l \\ \\\ /,/i//�'/-'i'// l / ''�_--` -S , / / J1 I // I I f I 1 I \ \ /J,// II \\\\ 11 I)// II)�/-\ \ ` , \ I 1 \ T- (SEE NOTE 4) r 1( , \I \\ I r-_--} // / I f,l ,,_ \\ \\\- -\\\\ / / / _ \ / / I I 1 I ♦- 1 1 \ t\ t \ / 1 \ \ \ \ \ \ -/ I ! / I I \ I \ \ \ \\ 700 __ ��� / / /r 1 \ -.0416, If i ' ' / `- `-_/ , / 1 / 1 ♦ 1 I \ \ II I\ �\ 1 /%' /'/ I III \ \\\ ` \ \`\ \\ \ �� I \ \ , I 11 1,1\� \\\`\ I /,, // 11 1 I I I I I \ \ \\\\\\ f f I , I -� / ,'/,'--__\ \ , // 1 1 I / / /\\ I 1/ I 1 t, \\ \\\\-J 1 /�/// r IIIII /\ \\\\\ I\\ \I I\ - tTJ / -`-(.�N. t'�- I-+-; -L'_- -__ := -----_ /�' _'� - ' ///// _ ---' / I \ , I \_'''- / \ \ \ I I 1 \ \\ _ / I \ t --- )� ' I I ► \\� ` II /,,/! 1 /Il ll r "" ---/ I I ` \I\ :1. ' - = ---= ASH BASIN DAM - _ - - _ `\ \ I \_ ` , 1 \ I / - i__'_ _ \ - __ / --_ (- \_-/' r \ I 11 I t\\1\ 1 I `_ ' I IIII \ \ \ / / 1 / \ 1 1 \ \\ / / ` J \ \ I I - I \ _ ) \ \ I 1 I 1\ \ _ 1 , III/\\\\\ \, \1,\ // // ' Its' � -`- -- ____ _-__ � ' = : %_ __ ``_- / ' ,'^` ` ' 75�� /' I ` `- _ ----- \ ` . 1 -___ / - / I y I 1 11 ( \ -_/ /l r 1 I _ --__ -___ =__-_ ____- _ ` �. r / _ I `-_ - \ \ \ ` --- I I 1 \mil r / \ 1 , / ) ,- �, ` ,- - _ _ '� _ \\ i' , I \ I ` _/ / ` -• o - / I i \ \ \ - / � /'^\ � \ , 1 1 I I j I j J I \1 jl / /i'=�- -J 1 1 1111 1` \ \ - , // // // / ' /.' .I t (STOKE-116) _ / I----- \ - ���� r I 1 II11\\.1\\\ I \�:i� : I 1 \\\\\- / / / I I-_ - -_ ____ _ _----------- �% _ ` ` \ _ / ` - _ - o - - \ _ �/� / \ - ---_ �r�� 1 I I } 'I I 1 I /// 111 a \ ♦ \ \ \ -_ / ///'i I % /,,;-----"/ / ,- _i-_ /' _ I / / / - ` T' i 1 \ \ - I - I11 / / \ t\t -/, /i� \ \ l 111 II \\\ \ ,, / / - - - _ 1 - - t \ / 1� t // \ / / /,--/ -� `=_- - __ _ _ - - ` ` ♦ l /�' I - _ \ 2 \`-_ -. ► "� / I I IIII/!/)\IIII\ ���"/;^�\\ /1 I1, \I\\\\� -J�t If\ 1 t / 1 /- I _r\ ` /'/ '' \` - ` - `__�--___________________ _�_�_ _` \ - o - \` \ -' / 1 \ _ '/ ' - �__--- ---- \` `` `` -` ` _ I 1 \\ / 1 /' % 1 j //' _i IIII III; ICI NI1\\\ \\-I/// �`\`t\` `// / I I II II'\\"\ �-I \ \\\\mx _ __ _III ,� _� / 1 \ - -\_/ 1 \_- , / / _' / , 1I 1 I I \\ I. /1 \ / / I II -\\- I\ \\ / / ♦ \ - ---- __- I ` \ - ' \ \- \ \\ \\ -_ ,/ `\� , -- \\_ 1 \ - / _- LL�1� ( / / % /�,//��l�t. \,\\`�\\ ^� J 1 /J I- \`\ \___' l III I, `� -\ I, `I \ 1 \ \\`\\ , ' / 1 I (( ``- \_ / 9 1 \ / -� � _ _ ` ` ---' _' ♦- _ t \\ -- 1 /,%' _ w`\\\`-___� 1 I 1 ` I i `\ `\-1 `\\ \ _ - _- 1 I ; l I ; / \ ` _ _ /' % ` / \ - '/':___ --- \ - - - \ \ ``--�,,- _ / ♦ ___ J/ / _ROADWAY \ / / I // % //- \ --/' / \ ` _/ / ` _ , - - _ --- t -- _ - \ `\ D__' ' /''-�'--------------- I / ! // / /'-- i ``\`-----' I 1 \\ \ \\\ I \ ``\ �/ l /// / - _ "// _ -'\ ' _ `\ r-_ - ` \\ - -N. / /- _- /'�_;- 5: --- ` _ -_- /^ ___ - -_\-_r ,I,/ l / /l/IIJt-=--: _ \\ `-_ , \ / / \`` _ / / /^ - ---- , - - - ` � - \ - I / , ,' -�', - ��`` ) � - ------ / r /III �`_-- _ `- -_ \ t \\\ ,/I /1/ i - ,`\ / , , , o : - �,�, _ -\- \ \� \ ---''" 'I ! I I , . ,'-,_- ;��% = ` __ ; ; 7 _ __ �\ ___ / // __ _ (STOKE-116) _ _` - -- \ \1 \: N. / // // / 1 \ --_ ^`\ ° / / / I / ,, Qj / �- \ t._- \ \ \_-\ \ \ _ _/ `$ I I I I 1 / L '/' 'r- _, _ t \4\\ /� - \-\ `- `�\ 1\- �\ \ III, IN / / / I `_ `-/--- _�-� -- - _\ I / ,' / ' / - __ - \ 1 \ 1 / /' --_� / \ I , I \`\ \ J 1\ \\- /, \ ` \\\ , \ I I I /^- \ \ \ \ \ Ill 1 / / \ -\ \\\\\`- \ / // / _/ ///// / _ ' I ` - - _ \ \ \ , , _ 1 I `\�\` . ,/ -\ �- - \ 1 I I /' % if , / I , \ `\- \ ,1 \IIIIII \_/� _I Ili\ '\ ��c \11\ \ \ \ / , __ - = _/ ♦ / /' --' - _ ' `\ \ \ / ,/ / I `-� \\\ / \ \\ < I .' / / / / %^ \ ` 1 11 \ `\ 1 1 \ / / ' ' 1 / / o� - ____' 1--\ ` III ( \ \ 1 , / .- // \ \\\ \ - 1 , \ - I I, t\ I 1 1 / / \ - ,/ ,I / I / , ,/ o / / -\ _\\ I I \ \ r I ♦ /, / / -�% \ \ I / I 1 \ \ \ -- \ -_ / I I I / - /' ` / ► / l l l I , / /^\- J _ :.,., t , . / \ L / \ \ \ I I l / / / / / \ 1 I / I \ - I , _ / I I lc) 0 / / N. _ _ / ,' / I I I If �s+.a. \ \ \\ \ \ \/ I , ♦ // \ 1 I `- / _ _ . \ 1 / , / / 1 ! ! I / -/ ! +I\I% % / :'// __ '- - ,^-' / I I I__I I , - 1 I ,' �!►l �� \\\�\\. I t / I / // I I r r r 1 1 1 / _ / I / ♦ / ♦ l ! --_/ �♦ / / / j `1/ - / : . \, `\\�\\\ \ � / r- \ \, / / / 11 / I S- / /- I \ I I I I I 1 I \I 1 1 1 !�� ♦ _ _// / , 1 I 9 I '^ r /' ♦_-_' _- ! 1 \ l t - `�� \/ I. -- \ / / / / /, 1 1 I l I , 1 / I Il / 11 // / �_ IIII - _ / I / // I \ \ \� \'k `� / I -\�\ / I \ I I I / / I / l i_ \-/ / ! 1 l 1 I / I // ' \ \ ! \ / - / _ \ 1 \ I / / / / \ k 1 I I ,, ,, //' ' I ' - AS I N __ --- I •, X/,, >s `� /� , 1 ! __- f , / I 1 1 I / \I \III 1 - ✓ _/ i /' , / / ,', - \ \I 1 tt \ \ / / \ I 1 `_/ \//, ,/ `�-\-\ I % I I f / I ,, % 1 11, f!-,-\\ -y ` ' / / I 1 \I 1\\ - \ ,1 I I % ,' / / , // /'/ '7 _ ` 0 25' I - I / / // / d,//l J I / / I / / / / 1 1-`1' �``x\` _ _�' % I 1 \\`\ \\\\ ,1 `1 I /' / / / , / o ___ \ 1 I / \\ \---_ o\ ----- ' \ - J I \ I '� % //// � / \ \ \\III ` `--- ! \ \\ I \_ / / / / ." /, __- I I 1 I I \ _/ 1 1 /// L / / 1 II \III \ \ I \ \ / / , / 1 \ --/ 1 \ ` I ♦' I I Id ll S III I / ^ / .,// / f (' _/' j / / III1111 s \\ `\` ----- / /'' 1 \\\\\\-- \` -_ - / 8- I \ - \ \ 1 I / / / / / \ \ \ \ \ _ I - I _' - 1 ♦ I I \ .\ /• ' / , / � , I _ _ _' _ 11 11\ \ \`` \`- -'' _' \ - `- / I/ L \ \ \ -\ \\ \ \ I / ♦/ -/ ,'- `\\ \I \ \ /, / / // / --- __ I 1 / I I )�//�// �� / I r // // / I-0\\11%"\'\�\\ _ __'� /�_J -- -� \ / ` \ - `♦ 111 I // /� / 1 / / -- J o / / `_/_ --__ \\ \ /'// j/ / 1 / ' --- "/ 11 \\` _-------\ I 1 I / / / / ____ \\\\\\ \ - \ \ \ `\ `\ ` 1 11I1 ///I/ ) I 1 1 ♦ /w ''� , \ 1 I ♦ / /// lI I 1 / , /////.)_-_ \1 1\,1 \I \\ �/ /' - 1 I \ \ \ \ 1 „ / I „ / D I 1 I % J N ,' \ ` / 'L I ( // \_/ / /'/ /-, --- 1 \1 l\\I \ \ _' ' /� / 1 I ♦_--- \ 1 I I !/ 'I/ // / ,i'/' / I I ( I 1 I 0 l / �- o'\ _ ' __'-_--- -_-`11 ,' I / //// // b / / //,// / _---_ `i I\ 11\ \\- --' /',--' _ _' _' I 1 / /' / / 111 / /, /, I 1 I \ \ \ , ,_ - \ - / -/r,(/Iifl ,- , / / I I l I \ I \ \ I III it 1 -\ - /,\--_' __-_, / I l // , ♦ / ///1/ // I % /' -,I ,I I I I t I 1 \ \ co I, ♦ ' , 0 \-\ I )/ � / 4 , / / / I I I - 1 1 \ \t \\ I - ` /� / 1 / , / /I /, // /III ///, , // \ - , / I \ , IIII %/ co l 0� / '/ i / / 1 \\/ ` ` -- 1 r\ I l 'O I , // / r / ' / / / I , ' I \ I \ _ ' \ ,- I ` I / / // ,\ ) _ / _I 1 I --\ \ \ \ \ - -' \- - 1 \ 1 / I / / Q / / 1 r / I I " o \ \ \ \ 11z, \ I III, \ ' 11 i / \ \ \\ I I /� �,/ / iI,-, /I'r]� / � /l r l'' -\ l i1 � - .5° I : '' ,' / / � tip . . / i/ /i ' i f ' i I \ , / _ sJ \\ \ \ i / - / I I I 1 ti '� ` `\ -_____ _ ' _ ) t' )/ // // I I / I \ t' / _ C- I is \ IV //I�/, /// `ij,-: JI I if II I ), l�r I I \ \ \ ' / / / .'/ `> / IiI. - -- /Ir / - /// I J I \ \ / / \\ ' _III --_ _ i\ r 1 / //r \ / /' I I \ I \ \ \♦ / I III '% 1 \ \- \ \ - _ �� _ It _ / r 1 1 - .�_____ 1. - - ' _-__ _ 1 / ' ' / \ III 1!1 _``=--_rr- I. - ` /// / / / / / f/ / ) 1 I ' ) 1' 1 r///'- /'' 1 I r '1 1 \ \\_��_ I / /` / / _ / \ \ \ /___ I / / / I / _ I I _ ,__ I I ,_ , . I I I \ \ I / / / IIII ♦ //♦ _ _ / / , ° -_ / _ / // ' , //IIII / / i I I 1 1 / ♦ \ I \ 1 J / ,I- �---- ) ' / ' / , ' - - ' " II ll - 1( F - t / / I 1 II ,- . 1 I I I `\ \\ I f.I `------ 2. /1 /, / ,1/ /`//�___- -\ , 1 // // / // _ _ , ' '1 \ 1 \ �/' \ I // 1 I I III\\\r /♦'_I 111 \ 1 \� \ \ 1 l , l / / t/ / /, , , , I / / , , / / _' `- / \ 1 II I l IIII 1 / / � / I / / % / 1 I 1 \ \ \ <' -/ I I \ 1 - -J ������� ♦'s / / l r // / ♦, ♦ /' \ I , // / / / ♦ / ''/ i oo - . _ ! I \ /I t I I // / I 1 \I\\\ \ \\t1 I 1 1 \ I I I \ , I \-__ -`--- /, - / / / 1 I I 1 Y � // , / I \ I / I/ / / /// / / I I I / I I / I , , ,) III III I- /// / /- t ,, / / / I I \ 1 \\\\ \\ \ \ \ 1 1 t51 1 I III 1 _-'_I / / J// / � \ I ' / /, • - 7 I I , I �� I Z (/ LL V r / / 1 r / / / 1 \ \ ` I I \ \ \ I r, \ \ \ 1 s \ N. -' 3. / / - / I / „ // / , (r / 1 1 r- o / / /// Oj• / o I 1 �- �\ / ^ / / ) / 1 ) \ \ 11 1 I I , \ 1 1 \ I 1 I r-- \ J -- \\ / ///',' ' / t- / I / \ 1 /' I I I t o °\ ,I �� 1 - // A / / / / / / I 1 I \ \ I /,/ /�- / /'/ �� / //^-\1\ 11 \\ \> J 1 r/ � / I d /' i/�-/ / I M I \ ` J % % , l 11 1\ \\ `\ I I I 1 I` N '� -/ /� r I I �� 1 t -/ // // / / / / I I I I\ I I 11 1 1 1 \ l l \ \ \ - -, r \\ 1 ----- -\ I \ / / / / I /., I r / / „- 1 \ J / I II ' ' / /,/ / / ! / 1 '1 1 I ') 1 i I 1 \\`\ II \ \ \` _ -- . \ , / / / / I //// \ I : �) ►I �l _// r // / 1 `, / / / r 1 / I /J ' \ I I ; - : \I \ \ ``\ \ \ 1 I / I / / I I / /// I I \ I / / / 1 l r /' '/ , I' /'� ' I ll I I I I I \ \ ` `\\ `\_; I I 11, , I /--' j I I 4. \ \ , III I / / i I \ 1 , I I `'"I I I II II / / % % III // / / I / /; /IIII I!II )II \ \\ `\ I - II � , I ill I , / / / / f I \ \ ' 1 I I / l l l 1 ` ° = - �� II 1 / O / / - / / / / / / ,/ 1 1 I; t\ 1 I I I \\ \\ \\\ --1 `\ \I (1 1 // / \ I / ! t \ 1 \ ! / / l l I� I / 1 I I I .-,/ It \ \ \\ I Ill / / 1 1 1 I 1 \ 1 `-- - �� I I ' / / 0//I r / / / / / // I / / r 1 I 1 1 \ \ . 1 \ 1 Ill (\ 1 ll I I 1 I / I I I I � -- \ \ \_' `Y / / I 1 - _ _-� -- \\�� II I 0 /, / / , , / / / ♦' J / I, I 1 I I J , 1 I I I 1 \\ \ \ 1 , 1 , I i II \I \ \ \ 1 , \ t I / ♦ 1 \ - \ -___`____ ' / ` ' -----/ `� �l I / / / / / / / I l / / / / \ - -- ---\ 1 / \ I \ \ III1 ) \ 1 \ - // t9 r / // l I IIII// 1 ` \ - \ 1 \ /'/ r1` 5. \ \ \ \ \\ , . f / / \ t \ - \ 1 I L `�- --- 1/ a � _ 1 , f ! l . / / '/' I/% / ' / I I II r l l l --- \ \ - 11 / / \ t \ \ I I \ \ , / r- _ / J \ \ \ 1 - -_/' r._. ° _ _ r_ / /� I I / -'"' \ -- / / l l 1 // J I /' ___' I , / I l \ ` 1 I I \--_--_ / \ t I / / / /^�! ` t - `-__---- _-- r r �_ // / / III / \ / ' / , _-i _- ` / I j r/ 1 I ` _ -� ) J I \� -_ _ 1 \ \ 1 I I I / / , / / 9 \ \ \ N. - -, _-___ / \ \ r -_--_ , t- \ J / / I / / / , I I I_ , / j i I. /\ -/ /I \ I I 1 I ., / /,, / // O 1 \ \ \\ `\ �` -_-_ -\, , / /\ - \ \ , \ l I. - \ "� -T - f I I ,`_ 1 I _- r`` 1 \ \ 1 \-_ II \ I I I _// / / / 1 \ \ `\\ \--\ ___ _- - / ( - ' ` - `---- ` \, / ♦ / / ( -- I \__, I 1 I. / / , I \ /'_'_ `, \ 111 t/ , - - --- ' O/ I ;\ -\ `�_ \ ' _ `' \11 \ \ \III / /' / 1 __ /- -_J1 \ II r 1 \ _ �� \I II\\`I / /'/ / _ /' - / I / __'/J _''' ` / I \` \\-- �_ _ ''' \ __ _ - --- \\\ I \ I ' /' I \ I' / \` \ \ \` `~--`` \ 1 \ / % 1 . / /- �/ !� // I o \-�/\__� ` ,/-- _ \ I \ \ I I J / / / \ ( '- - I ,\ \ _� _ \ -__ I \\] / / / O / - r- , _' ,' ___ ' I \ �� --' /__...`\ `'`_- ♦`\ I. It I \�/' / r' _i 1 i•-- __ �/ l ! /s \ - N.\ ,1 1 \ 111 \ I I I I / I ," I -2--- - - " r ammoo / " I / I I \ \ ic- - \ \\11, / I I / I III 1 / I / / / f / - I I / / / __ // I / /. - \ -- - \ \ 1 \ ` l \ / (p / / , / I I / / /[mac \ / I N \ - / ♦ / /r / // / - \ - \ \\\\ ��/�\ \ \\\\\\ \ \ \ / ll l BELEWS LAKE / _/ I \ \ -- I- - o ,\ I _� I _ . ; _-J / / , \ \ `\ /4\ ` \ \ `. \I I, } \ \ (APPROX. WATER ELEVATION = 725 FT.) 1 / Q I - 1 -- I ___ J-\ - / ,- _- \` ' _' / - / // /' / /' `\ `', `�� - _I `III, \ 1 \ I ` \%\ I I J If i i� I. .I, - " / - ( - \ , \�11, \ . ,e // " " I " I I "t I /z �,-/ I \ , -_ \ I II I I I 1 ,-^-\ // , . J0� -cl\ 11I t� I I I 1 I / , /' 11 / / / O ,/ I I f /t \ \ / III / I \ 1 \ \ ,\ `- -J 1 1 1 1 - \ -- 1��� N 6 o ) _. � I \ \ \ \ / , / __// , 1 \\/ I / 1 1 \ \ _ I ` I ! , !/ I J/�oll / IF / / / / / / -� , 1 I r --_ ,- 6t II I \ \ / / _ / / / /// '' ' /'_/ - ` /I / /�\ \ \- `A'l I I I (-\ -- - �- -- , I III // \\ - -- \ / 0 1 c-- 1 \ l I 1�1�I."11 ,_ .I_ __ / r \ --`- \ \ \ I, 1 _-i I \ III\\ \ `-_-' _// ' I 1 I / / _> / __ 1 II 1 \ ` ` % j _' -/ 0 t I \_1 I- , \ /, / � / / / / _ I ,/`\ \ ` - ___ 0�I <- __r\. \ /'_ - -9. /o \ I I / II //'/ �,_ r r _ Ili �,-___-- ,\ // / III II I 1 1 1 / / 11 /' o `\ / -`- \\ !// I \-`` __\ J / , / '_/ '•wl lI f '/'' `--�` /J --\ \ \\-- _ //'_ II /i'___ ---`N \'I\\\\\ \ III I / /� / / / / / / 'i'� -`- \ - , -\\\ `L___/ 1/ I I I III - \\ \`\\\ r-�III,�_/' --'' ('/ _\- I - _- \\\I,_ 1, I , , ,/�-l�, / / /,�,�,' �� _- I �C `1 \' - - -- I \ , 1, - I / __ ` \` \\\\I \ J/ // `//i''-'__-___,I\��__ 1 I I I r ' _' ,' /''''/ / /' ' i__` `\\�\ Ao/0) I' / -\-�'c--moo - -\\ `- 11 I \- - l �' I -` / J I I ! \IQ- ___, -` � ''' / ''' '' 1\` ' - I I / 0 /, / / , , / ,/ 1` \\ "2/r � \ - -\ - `-_ -_ ` < 1 I \ I L t\\'-_______ _ ` -- , 0 ' _ _ \✓ -/ I/ 1 1 I I I o (9 / I l � I ` \\ ' '' -/1 I' _ 1\-__'' - -- ' - _ _ \ _ ��--_ __ ` � �___ /''^ / / I I 0 _ \ \ __ , /' �l - \ I ,- \\` `\ _ / <�j'� ` I _ s 1 I w. \ \ \ - - _`�-� -_ %� _ _ // / �___ -',- / ' '' 1 \ %) _- Jr- \ \ \\ \ `\ / / j j ,)) I - `� \\ j / - -� IOF/ I Ity l , I� r --J -- `\ \ -z_ -= - ✓ __---/ /'/ _-' J J„ .- N \ \ \\ \ `\ `--' //l I Ir o / / 1 t__ _ I \ `�\ -' /' III '�O-/1/ �j Jl,. \` 111 - _ __ 7rJ. _ '� _ LN Bic- // III - I" ___1' " / '/ �-_;� ,\� � __ __ '�>6- - - I 15 11 -N, -1 1, _____ ill / ,\ r\ I/ / �/ / /7'�' '� ' \ i \ I / -\\ ' -- J J I I '--- , % . \ - Il /// _ a \-\ \ -tf \\` -/' ram^ \ ; 1 ,, �1r ' / 1 tr / / ,_ / / - \ _ 1 \/I r\ \ 1 I \ ( / / / / I ',,'/ It I I I < r � `�_ /;, \ , it /_� / / �I \ / / 1/�/ ,.," , / tJ_ __ �`-/ / / _\ / 11 I -- l J/lI/I I,; 1, • `\\\ j - \�.- / /I I `-I\\ ,�_„1__S / i- ___\ 1 } I \\ / I \� \\,I ' / '^` ,; �_ l / /' - - I- '// -\ + I oo \`\ 1 \- 1 / I 1/, , _ /_ _ - I I I - - 1 1 -� \ 1 / . I I11 , , / _ �\ /� y 1 op y -\ s -- \ , / ,, / -i -1i /, �_ \ II III I ( \ I I '/ /' ,1 - „ 1�-' / \�T// I / 4)� _ \ /�_1`` -�"\\ 111 1 Il J4�;/l t I Ir 11 0000 �I -\� -- __-_ \ `' t r '- -, '� _,,/ /__ , ! 1 , - / / I/ / // /' 11 I\ �- i ,/' ' ' I I ! ' - G/i �_ ,\ 1\ ` I !// - _ ) I I1 , , / / _ ! / / I I , / /\ I1 _ _ / 1 I , f - /'_- --\\ 1 / `_- / , :, 11 00 /-, ' "` ' ♦ / I /- , _ �! l /j -` J 1 1 / � / / \1 \ , ` ,___ \ ,--- �♦ _ - 1 / 9 1 1 �\ �.Q� / \ - D I I I I' / / �i ! / \ / 1\I / / ', \ S l \ \ / - i / / / // / - I I I \ - ,\ / \ \ I I I I I / /' , i �' ``\ 1 //,) \ \ , / / \ \\t\\ �I 1 I / \\ 1 N-_=N- mil- l - ,, / __ \ 1\I\ �; I / / \ I o / \ �L / \ f ,IIII , / /„/ I / 1 I / \ ,I / ,--- \ 11,` } I I \ \1 / \l 1 r 1 Gj -- 1 I //" 1 I �1 p - L ` `�� \ �� 1/i'_ 1) I / i / I / 1 Ill i /- / /,'ii' I ! 11 ��� \\ ,II / / \\ \\ 1 11 I / \\\l\ '`\ /_/ / / /�2 _ - �1I / �/ �.// / / I \ -r� - \ z\ / ill '/ '/ / / / / / 1 l , \ 1 / / ,-- \\\\ I // \\\\\ I - \ I 1 I i / / _ ,'--. \ I I f/ r/ \ �: --_.. 1 . \ I, II II, , IIII ( - 1,1\ �.- \\ III///" -\\\ \\ III+,) 1I r\ 111\ ► /w-\ \\►,I 1 1 1 / I ,Y/ , - \I ,' 1 Ir/ t_ I - r .- ` -- 1 I , 1 I / / / / / 7SOIL COVER ^ 1 ,,--\\ I / /-`\ \\ \ I / / O + \\x 1 1 1 I ! / \ / _ I I I _ I \ / / - \ \, ,,IIll / , \ 1 /'A - \I, , \ \\ I IJ / \IIII\ \ / \\\ IIII I I 1 /-_- III ---� IIIII`_----- � � - � � -_ / 1 ''i ` `\ • Z. <- / t,,_ \ 11, � i� _ _ \\ t � 1 / - \\ \\\ I \ I /, II / / O ( 1 1 1 \ \ I I f I I I / 1 / I, I / / I 11 - - 1 , / \ / 1� /, Ill L / ^( / ` (SE NOTE 5) -1,1\\ I� //�// -\\\/III r// /,-\ \I\\\IIII/, ,)/ / �, IIIII \\\\ I 1-.\ \ IIII , l \ I I \ I r ` 1 I / 11 IIII - \\` \ -- 1 1' li •Ir I _,'1\ ` ) '_ /� ,// �� 'T ,/ /JJJ"'/..l ��� , 1 \\ I , , , �,-- \ I, \I ,I f `, \ 1 1`II11 /I l / /'J\\ 1 III \ \ --��\\ I I 1\ \\ I I 1 I I / / I l IIII, - -_ \\ ' 1 I / t___ \ -- 1 / \, II'_\\ \ r 1 I ' ! / 1 j \ 1 I R 1 \ \ \\ C / _ \\ i I i. I__/ t�l' / / / / ' // / / - „ / \ \,\\ I / / it /111� i`J 1\ 111\,I I /I// / \, II jjj \ - \ \\ \\\ \ \\ l Ir 1 l : / _ I. " / '! f % % i:- \ - // /i// //// /9,p�,,/ i ,, „ -I \ I(I \ \ \\\\II IIII\\ IIIII J/ / ll II \\\\\ "�-\ ``�`_ ` 1\ I \ \ -_/ / I ` r� / r_..y r - / /^ /// - _ • / //'// //,jam _ - - 1\ II�1 l! ) l ` 1 \\\ it /'' If I f \\1\\1 IIII „ / \ IIII I _`\-`\` ^� -\\ `\ 1 I%I 1 ,1 \ // -- r_' /- / - \ -i , IIII%l ��--`-�--- / , / //, // /// / /,<____ \ � • - 1 lJ / I \ (/ / / / \ , II /,, ,- \t\ ( -\\\\ \\ , 1 \ \ 1 I11 \ \ \ / ` \ C / I; /- \ _�/ /�%� \�� \` \ '/ <_ ii' /" //~/i''/'/ rim= - ` � - _ ( \ /// ♦ / , \\\I 1 I ,_ \ \ \ l I / / ) I /, -\\\\ I ` I , , ,, \ 11 \ , \ t r t ( \ / / )- -- - // _/' / v `-' 1 / / / 1 I _ I I \ \ \\\ I / , \ \ \1 / \\)\ I. \ \ \_ / / \ 1! ( - /+ n- \ \Q�� \ \ / /�, / ,/// i / /, / -___ _ - \ I \I1 / / / / \\ I I _ \ I 1 f / , I \ I 1/ \\ I I -\\-\ \ ,\ , I II \ \ / /) t / J - -; \ \`, ._I f _/I/q//, \\\\t \ \ // . ,, / - //♦ / / //�� -.Z� \_ \\ `-�-" 11I •// I / / / \\I / I \\ \II , I I I , \I I I 1 II I \\ I, I - \\\-� lI I I� I / I s- // / \ ' /r III \\ \ \ \ // ///Jr l /i/ / //, / / . / - \ ,�1\\ � / ' / / ! I / J I \\`\IIJ111 r I r i11 IIIII 1 )Il tll 1 1 ^� �\\\ I I II , \ Q,, \ \) / _i I IIII I f t`\\ �/ // //, / ♦//i��/'//'/,i,,/I''--_ �- \ - \\ - // // I___ 1`l 11 \�VI, IIIII 1 t r ///I„II I "\\`\1 I I / \`\\ \\\ 1 , I /, / /- 1 -1 1 5 - t- \ ,_-- , I,rI ,� 1 \ \ I I I III / / _ r J r/ I I 1 I I/ / / / / / ,-__ - "` - -\ $ \\\ J IJ 0o I t tl t 1 + / 1 I \ 1 \ --\` // I I 1 /, / / \/r11 1 / I I `\�//ii`sc-\\ I� 1 III IIII // /, . / ♦ / / ,IIII / I _-_ 7 -\ -` \ ���` 1 / I 11 \\1 ! , - I I / /�/l l / I ,_ 1 I / - -\ - f I / , i \ \ / I ,� � ! /= _ Q--- 1 I t l / (� // //, ,/ / // /,/ ,,/ ♦/ � ---`t -� O� - • O \��• llf _ ` $ 11 1\\\!I 11\ llllll ) I // -�-�11 /� \-`-\\� ) , II // //r `- / 1\ IIII _//// \(t \' /i/i% � l / fill 1,)/ / l 111 r// / //•Q)�/' /IIII / / %� - - - ��- --- -\ 11 i = '� I \ ` - (I _,J \ \I \ 1 I I// // �-`\ I I CV \ \\\ \ I I, ! I �/, / -- /� , II //I, `__ --\ III I -\r' t ,j/. f _ I / )lll ♦ ♦/ ♦ / / / ♦ \ - --�`. - \ \ _ I /� `/ /� /r 1 Ills \ \ < t //// J I I I l ♦ ' /// '♦ / %' ��� -\`�` -� \ ,' \ / / \ `-��// / / ` I\1 1\\\ f f / / //, --\\ I 1 I Q7 ,^I 1 \ 1�1/ / L ! II -_ \li // ♦ II / - I I )/ I I (I I, // /% // / /' ♦ / / ♦/, '� - -\ _ \ ~) / /'''--\ \` \ I - / \ / / / 1 / I�1 / \ //IIII / /lI / ! i / ♦ / / ///_ - ,, �` \\ .� . 1 _- // \ \ I / \- -III 1 1 1\ / �/ / - 1 ,I / _ d //.// I r_ l / 1 I // III/ "/' /''//'///, //// / ,,��/ \-- _` _-\ -` - \ /'ii' ��`�- -_''' \ \ ✓' /'^-\\I1\\�\�\\-III Ill// - \\�-11 / I I I / /, $ c" IIII I I .., " I /lI/ / I / // / / / , / / / , , \ - _ - \ _' _ - / . \ \ - I,1\ / /,� // / Z I ///\,I 1111\I' 1 ,/ ♦I '/ 111 / //// ,/ , / 1 f I I Ilfl` /%�//' i'//�/ /'////'/ / i%i' // ` -`\ �- - 1 _ --- �l l ! \ , .,�`\\-i__ 1 ` \ / / ,-\ \11/_\\\`IIIIIII I / / -`\--/ I/ / I 11/'i/ - 1 / ,---- 111 I Alllll c9P'"� PIF� 11 ///� % / 1 1 I I 1/' //%�/// `'�-, �''/�i''/' /'%''/♦ /i' �� ` `� ��� -`-� \ -` `\ 1 I \\ \\\ \\`, i 11_' -,-, J _/ // ' I1111--"�\\11 1� 1 1 II l - -,-1 /_/ _/ / l _�'j // I 'll(Il�jl'� \1\I\\\ < `----_, ♦ / // / \ J R/ j%�'/ /' o / / I 1 II / I//1 /, / , / ,-'♦ /// /// / --` -� ` ,_ \ 1 \ / \ - / - / \ )III , \ \ \ �_ / �, I II l I \1\\I\ \ ` ��//�/- ) t \__ - / ////�''/' v l \ \ 1-Ill / r,i" ,'//i'/ / / '// //r r_-- `\ `--� <_ . - -� \` _/ \ 1 1 \ \ 1 t'--= I \ 1 \ \ \ \ \ ` / / ,r / I__' _---- I I \II \I\\ \ \ ///// \ \ , // �/ \ I \ ` \\ 1,\ 11, l 1I .- ,//,', / / • , I // \ _ �\` � \` I 1 I r_ / \' \11 I \ \ \\`___/ t-/ / - II ill \I \ `\ I//////r �� � \ _'I '%�'' ' / / , / //// -$% \ \ .! 1 1 \ \ �/ } I \J ,�-� \\ 1 \ - - \ \ \ �/ 1 f 11\1\ - // / , \_ ////♦,/ / _ I , I �1\� \t Il�ll� ll l l�'i / / // %%' \ S� ��- \\ \ 1 1 / J \ _ \ I I \ \ \ 7 '- _ I II - /.� -\` r , I 1 \ III l/I I l/, I,- ,'/ - - \\- `\ \\` _ I 1 �' /' 1 1 / - r I III 1\11\ \ - / \\ \,II I� ill I r` , , / ///l --- ` - - \t \ 1 I I _^ \ // / \ 1 - �/ �__^\ I<III 11\1 \ ------ ,' 1 ! / / ' ` III, IIII y�, )1 /l')1) (, // / ,_- - _-\ \`\` ► \ v \_- \_'--- '/ / \ I I I I - // /, , \ - _ - ___/ \ 111 1\\ _ -` r--��y1 / , l I I'll IIII.. /,/i/ -\ C,EOSY%THETIC _\\\'\ \\\ I III I ,/ / •$25 / / / , 1_-_ - %f/ `,I 1 / .0 �< _ - - I 1'11 11 1 / - i IiJ / I I CL.OS D _ , / I _ ' ' -r_ 1 II _ - % .11I ', i '-- _ ' 'I' l I ll Ill ) " ` ` LINER` I" ` `\\\ 1 \ / _ , a�// / / _ _ - I IIII \ ' '- - -, / , I I I '%' - \ \ '- 11 _- -_- __'^I � c' ____ ,_ \ \ \ \III \ // / / - - IN II I- / / JJ III lI - `'- N. \ ` \\ \ \\\\ - _ _ _ �) __- / / I / / , , _ -, ,r 11�-�\\\ `_/ . /- -- /I/\ \ I , \.-// / / / / // /I lJ/// 111 PI,Ni` HALL LOAD `- \ `\ `\\ \\' \\ \ i____--_- �=- �_ - \--------- / , / ,/, S ___--_--`-�--\"`-\ ° / I-- \ I / / / / //// I♦ lI ll l _ - \ \ \ \\\\ :r\ `-----' ��_�__ '� 0`- \ `---__ -_- • - ,i.'/____-__`----`\ _ / / \`"��\\� _/�I `--- ar �11"_�_!_�__ JJJ I / / Y / ,, // /, I 11 / - - \ V. \ \\ \ -i 85 I I l / / /, --\ \\\ \\-- r I I 1/ . //, // /// / / ASH LANDFILL - \ \ \\ \, \. - _ _ // - _ /_,. -- i \\ -_ 11 , I / / , , //I, / ll/ \\ \ \\ `__-- -% i'�� -/ ~, -- -- ,'/I'/ J/' 4 \`\- \ ` I �I �\-\\ _ �" r'-\ III , r / ///i,'i / I,/i% // i / PER�VIIT # 8503 `\ \ \\ \\ N\\\ '\\\\\ r. __--'- � �r� / J / -- _ %.'/� /' `\� \ �' \ I `��\11 It / / , /IIII'/ I/ii% ///. _/ / \ ) /) j �\�`\\\\ / i / 'r__ w _^ �a:� %�<1 , /, �, \ \\ _ I ,/ `�\ ` i_ 1, -1 It \/ --'-/ice /i/ 6or 00 \ \ / I , , // I , / / i//, / . / / �, , , \/ - / , __\ �/ / / / 1 / J .. / / I 1 / I le I 1 , , / `/ / / /// / ♦I/ / / ,' , - _ �� j % , ti i I •____i- r \ \ / /�_- \\\ �f%i/I, /` \ \ \ ( / ' 1 / \/ ,, I//� /, /,/// I// / / /,' _' r �_-,, i�-%/ r� / I C is J I I 1 : \ 1.11 \ // /,/ ,-' 825 I I It// /�// r�/� CLOSED \\I1 \llI 1i I1 /1 ,/ // r- . I k. �f / \ l �lll, l /// / /// / / ,/ / ,' / / 1 / I I \ \ / 1 I „ /� 1 IlY / / STRUCTURAL I I 111 I I ( 1 / _, \ III / \� ` iL`\J.J_w/ i !/1,/1/i/// %//' / / _-- /�i� �' / �/ rY / / I / 1 i . I-\ ` IIII \\ - -'/'/ - i _ I�! /jlIIII/,/%/' FILL \ � I � 111 1i i � � i! / ♦�lln \/ _ /^ i / _ i' / / / / \ \ 1 / _r Ir ,,1 // If 1 If f _JI; / .1 `I ",. • - / i -' . i I P:r;p:l\In ASH BASIN WASTE BOUNDARY (APPROXIMATE) EXISTING SITE FEATURE (APPROXIMATE) EXISTING MINOR CONTOUR (5 FT) EXISTING MAJOR CONTOUR (25 FT) PROPOSED FINAL ASH MINOR CONTOUR (5 FT) PROPOSED FINAL ASH MAJOR CONTOUR (25 FT) FINIAL COVER SLOPE NOTE BASIS OF BEARINGS: NC GRID NAD83/2011. ELEVATIONS ARE BASED ON NAVD88. GRADES SHOWN ARE 2' BELOW FINAL CLOSURE GRADES. FINAL DITCH GRADING NOT REFLECTED. AREA SHOWN AS CLOSURE BY REMOVAL WILL BE CLOSED BY REMOVING THE CCR MATERIAL AND REFILLING WITH CLEAN STRUCTURAL FILL. SEE NOTE 5 ON DRAWING BC-XXX-008. REFERENCE PLEASE REFER TO THE REFERENCES ON DRAWING NUMBER BC-XXX-004 0 300 600 900 GRAPHIC SCALE (IN FEET) DRAFT NOT FOR CONSTRUCTION TITLE FINAL ASH GRADING PLAN P"=com BELEWS CREEK STEAM STATION 100% DRAFT CLOSURE PLAN STOKES COUNTY, NORTH CAROLINA N.C. ENGINEERING LICENSE NO. FOR F-0342 I ISSUED FOR REVIEW SEAL DUKE ENERGY® SCALE: 1" = 300' DES: CN DWG TYPE :.DWG DFTR : CLD JOB NO: 60432132 CHKD: DM DATE : 7-7-16 ENGR : CN FILENAME: CCR UNIT GRADING PLAN.DWG APPD: KK DWG SIZE I DRAWING NO. I REVISION ANSI D 22.0"x34.0" BC-XXX-007 A Im n X X CD CD 4 � m <1 0 1 2 3 1 TENTHS 10 20 30 3 p 5 7 8 BC-XXX-008 REV. A 0 C 9 �����-__ I\\-\`�//j /� "`1 ���\�4'/%/' .' / ! II rlI/1 /%//'''I�l IIjII///jl� /� j I I '\ \�, / -_ __-��=��i��/�//// r / , ��� \ i __��- o /, -\ - --- _ ` `' / - \ \, l/ /' /' I /11 ! '� _/I 11/ / / I I \ `\ , /i_____'_- .� //// / ' / / / ' / ♦' ♦ -'� `\ ` ___�' / / I l /� 1 \_- _ - 0 4 1 I \ \ `\\\`\\\Ij li / `� �� i/ /`\/'^\ / / , l ll I / I/ I I '� //---__--_- / /, / ♦ /, / I / / / / /' `\ / I I / I I ` / I \ \ \ \ \\ �"\\ _ el. ', . �`� �/ If If111/'(-,/;If ;;1, ,, , ( _ ,r , / , '- . _ , \1 _ _\ s / , , \\ ` \_k.--t�ERNAL WORKING DRAFT ` \ ` /'/ / /' \ 11 1 /\ / -\\ \l l l l� II I IIIIII _ ! , r/ '// 1 1 0 1\ 1 1\I 1\\\ ` \\ /i' �/ J / _ ' 1 Ili\II 1 1111 ; I / I / / I l \ ` \ ----_' - ' / / `\ ` \-------''/i \ _-\� I ``' \` \\\j `� \\ 1� l � 1, \\ - I `." `\ \ / / / I 1 \ // /' \ I IIII \IIIIII ll,/j! I \1 /�" /� I, I , \\\ \\ \ \ \ "r i //i' ./ /����__� 1 \`1,\`\\ \\( 1 ( 1 I 1 1 / / \ \\ -� / / / \` `------- // I / r .� _` \ \ \\ \ \111,:\\\`� -,\_ •` - \ - /-- � ` / / 1 // \/ / - I I II11 d/r1( / / ♦ // / i ` \ / ♦ /.- \ \ / - ``__ - / / / / /\ - ♦ ^ ~-\ I ! / - 1 1 1 \ 1\II/i- \\ \ I,' ♦ ♦ // ,�, /l/ II/ //' /' I / I Ill ,IIIIIIIl111j1\\` / '////'/' ^\ �1\ �\ ` / `' /. `\`� \ `\ \ \ I ( (�- \\ \ - / / / / , \�- `----- _�/ \\ J - / / / ( 1 I I 1 1/ (�--`\\ \ �- - _ ,' / / / l/ I rl/\\ / ♦ / l / / I' III 1 `\ I / / / // - 1 \ \ 1 - \ - ' / _ - / / / / .� \ \11 If /////)/ 1 / Il // , .----- , , WEIGHTED FILTER GRADES \\\ \ \ \ , / / / / ,1 1 l I �� `1 ` " _�- ED TO NCDEQ ON 06/07/2018 -\ /' ♦ / / /// I( \ -' / l l\\\��\'(//��(\\\ I \ 1 1/�'/ // /♦ / ' ♦ t ..� \ R``--\` \\\` I I l / __ \--$�� / „// \ /-- , II / / / \ ---_ I I I- ��1�\1 I ` \ .., //' l � \ � � // �J// /' i I j I \\`\\,1 \\ \ \%%%\ \\ \\ I r II I //" /'' ,'//' N '/ _ \\`\1 1 1 I \`--''/ ' `` ----- �'i' /♦\\ ` � / '_7 / ,/ /"��rJ ` ' ``` �\ �` `\\ ' UNDER CONSTRUCTION _ / 1 I 1 /, _' ' ♦ I 11 \l11\111\ \` \\ \ \ 1 I Il, I I / / , / / , , - -/ ,' /� ♦" //' ------ '' I I ( ' ---- / . i /,♦ \ / / -_/ \\ J, `\\ \ \ _ \ , \ \ \__ I r I I f I I 1 p 1,1 \\ \ �� 1 O �^ --\ i / / /'_----- _ - / / I - ' \ \ ' f ♦ ` __- ' ♦ / / - \ \ \ \ `\ - / I 1 , I I /,I,I , .- , , ,/�N I l o l `� \\\\ \\ \ �O \,S)' 1 , l i� \ -- ` ,�', / ,'/; , ; / -__--- _ - ' ; :\\ \ - . ; /,- , / 1 1 ' I - \. - i O _ , O SCUSSION Pl'�bPOSES ONLY `� \ ( 1/ // l / / / ' 6,\\\ C 1 1 -- ,_� \\ / / / /, - c / /' // / \` \`- - ♦ / ` -' 1 1 I \ I / I Ir\ _\ I 0 \ \ - \\\ \ 1I!, -// /♦ r , //I IIIr-\1tS)\ -\` \I 1\ 1 ii�i' `\ / I. ,/ ♦ , If -_ __-, \,-- y _ _ _ _ / I I I / / ♦ / / -' / 1 i I I \\ �� \ 1 I -/- _ , \ /I( / / / '1 / /' _ -.-'� - 1 / / /\ \ `\\ \ \ _ -- ' / / / r 1 I 1 1 I I ( �I I I I)\\\`�' \ \ ) \ \ , / 11 \\\\ �/' / ' j j llI �I'�' /' / /' / /i'�/% j�1 � l l j l)lll \\ O)\IP\ \ \\\\ \\ ` `-' -'/ /�- )/'�illl� l l ' / /',' / / / ---- / / - \ ' I I I \ `` `� - --775 /' fr_ /r`J \,-_ 11 1 1 I 1 I I I \ / l' Il'/ ,1`\\\ / /^I I \ \ � � i �i%%J j �I I / . 1 / / \ \ I / / ♦, i' /// i/!, I I, I \ \ \ I,-----_ i = / I ,/♦, - / 1 10, , / / LIMIT OF ' ' \ ' I 1 1 \�_ `--- ---- ----\ I I ( 1 / \ I / ^\_ ` �� l / i �If ' \ !r ( i' / I I // \ \ . / / \ --- I / / - /� I , � / / / / / I � - I / I 1 / I lI / II \ J / \ 1 \{ t /'' - III / / ♦i [/ III I I / / / , / / / /II 650_ / I l / / / _ _ I I 1 I 1 I l -�` \\\ ` - / I //1 /l� N. \ ` l / / / / '/ / _ - \ - // /'/ --/, l� , / // // ♦- 1 I ! f-_------- \ I •'_'1 / / I 1 1 1 \ CLOSURE BY / 111 III III, \ / !\ \� / ,-ice-\ \`\\\ f \ / / / I I r I / ( ' .:►� ' / " •'' ' ' '/' FINAL COVER ' . -''\\ I 1 1 \ , / / \ I 1 1 �.\\ ♦ /. \\\\ \ -\ / __'//r , //,I ll,l \ \ \ \ \ \ 1 1 1 { I 1 - / „////i,//�-// //, f / -,/ ♦ - 1 / / 1 I I 1 1 \ 1 IIII 11(\ ` I \ - / / \ \ \\ \ ,/ ` // /,/ \ \ \ \\\\I 1 ( I _ / // // -.i // / I / / 1 r 1 / `� \ lI /' I ( / , \ REMOVAL ,'11 ('ll\\\%"\ r 1)�` I ll'/ /\ \ \ \\\�\� \\\ - ,, / ( / \ \ 1 675- /♦ . . / / , / ,-.� I / / \ 1` / 1 I \ . �J , I J f I \ \� ~ \ _-''___ ,, ,I ////,l \\\\ \\ \\ - --- ' //"/�/ / =�,// / l ,//'_- `7$ ♦ , ) / II ! 1 1 I I \ /1 //III \\\\ _ 1� 1 // III '^\ \ `� �,`� ``\\ _ 'i �.)I( i ' \ \ \ \\ \ \\\ ` - _- / %�/" // / , -/ / ,- -, \_. , /. ,^1 < I I / -, `11 / 1 \ C ( \ / 1 I \ =i I \ \ \ \ _ - ( // \ ' ' - I I 1 I I / \ I /\ I \ \� ` I /// ' III I \ \\ \ \ - -/ \ \\ . -_ 700--- - /- �\ ( i i I 1\I (SEE NOTE 4) \ / \ \� 1 \ \-I --' �// I I / ^ \ \ \ \ c ! / f \ // / /� \\\ \ \ _ ` 1 1 1 I I I I I I! \ \ \ \��.i. ( / �' I1 / I \ / 1\ \ \ II\\\\ 1 // // \ \ \\1\ II \ / t '\ / I I ` I I \\ \\ r / I I I I /\ \ 1 - I ,� I' ACTIVE ASH �n .� _ ;'/ ~-' i ` I 1 \ \ \ \ , I I \ \ \\ 1 // / / 1 I \\ \ \\\ \ o .� \ \� , /\ // 1 I `S ' / \ _ I I 1 I I 1 \ \ 11 /1 II \ \ 1 \ \ / i� , . \ - I !1 I 1 ► I \\1\ JI 'I ` _ / I II \ '/ 11� 1 1 11 / //, 1 0 "2° 1 BASIN MAIN DAM O (N- ,1 \: ' ' / % I \ ' /' ~ C (- �`'`. ,\`\ \ \ �` / I \ / _� , 1 I 1 I I i i I\, \\ \ l l // / I ~- / I I I11 `�\ _; I 1 11 - IF //_ �r- � O (STOKE-1 J J \`\ ` _/ ��� � \ I I ) I I I II I 11 \ p1\ _- \\J 11 I III\ I \\ \\, - _-/,//�/,/ -_ , ) �1+� /' I 1 / I, \ \\ /.gym \_r - I \ \ / ' / N N r �. \ \ \ `� / i� fr I I I / 1 1 \ J\ \` , , \\\\ I / 1 I I %, - \ \ ♦/r' `` ` l \� __ _. 1 I / 1 I I I ( , \ c \ /i,, ^ 1 \ 1 I \ \� \ t (t // 1` F tiJ� \`. - 1 1 \ / / - 11 I III ( II\ \\_, / \`\`\/I ` \\\ - I \ \\\ (�\/ J�,/ // '� r� `� `\ `-�_� _// , ��?�/ I /-,J//i1/I `�� \. 1�\ \\`-/ I Iil`\\\ _-/ / I I1 `� �\ III` `` \\ \` I /-// `\_ -� I \ \ ' , / / - / ! I / I \1 \ / / / \ \ �\ / / / I 11 I1``�� 1 \ \\\ \ I ` - % I 1 9 0 -- / _ ': - l 1/ J \\ \ \- I \ \ // ! I I I 11 I\ \\_ 1\\\\ \`\ ' ; 1 S ° ,// ,/ // . :PINE HALL ROAD II \ \. --- �/; � \\\ `� `\ / I `\ \ f i I ' � ° �-ef _;-_----- ;ll , /lqf/11/I i EMBANKMENT DAM .J `\=_- _ -' / \\`�\`-, ` J-1 �\` /i i If I Iff / 1 __` --__; - _l = - -----_ ' I �l i/'l l � (STOKE-1 \"` ___�� \\ \\� \ / / _ \ O N / 1 / i / ---z �`---- \ ,� _/f'r / l -_- �� \\ \ \ " -_ `\ \ I \ 1 k. Tit /_ , \ \ \ / / / Fj 1 //r-_---i I I /' %,}� 8(� \1 `-- -- �`� \ I%l - / \\\ "N. 1 \ \ \ `\ `\ \ I I 1 / \ (11 /,''/� 72 1:\\�'^ _JII\ 1 ; / /^ 0 \__------`�\'J,/II , % /' ;`\ 1 `I `\1/`\; � ;� \ / 1 CA° ���\\\ ' `Z, , `\ / I I FYI I \ � \ \\�'\\\ /� I 1 ,'' / j / ,� %%\ \\`1` 1 I I I ` \`� 1 ° \Z\\\ 11\ - \ \ \ r I .I,-- / / / \ /, \ \ I / 1 \ , •__ I i - 3 `\ I\� �� ' \ 1 L / \ \ \ / I I / / 1 I If1 i/'\ \ \ / , / I \ `� ` o \ \ / I / , I /i ! I 11 (� °It to 8 i -\ :� \,\�`\ \ \ , '^`\ ♦ \ / 1 ' , /, .' I -/`/l/ I I I I 1 , 1 I 1/I ♦ 1 ,,�� 8 ° I \ \ \ `_ \\ ' ` J, / / / / -i�' 1 I I / 1 I I I 1 , 1 1 I G - -_ o \\ \ (\ �\\ \ // I '•\� \ I C /^ \ I , / r / I 1 ( 1 / / / / S H BASIN ` \__, , \ _ / II _ \ I , - J I l III l l 1 0 \ // \-/ _. I I / `\ I ' _ -'� s °\ FINAL COVER 1 (o ` \ --\ i/ // �' ,�' _� �ji �, I , / / //, -�\ \ / , 1 l i `\ , 1 \ ll 1 I J M 026 c! // , / � / " d I,f ac �1' I / / r J / / , 1 1.\ 1 I I /. - \\\`\ _ ' i I 1 \ \ \\`\ I1 -1 I I \� // / [�' / - 'I I ( / I %\ I \\\\ \_ ' I I \ \ \ \ \ 1 / / ��Aj�- / / 1 / / / / , II I11 \\\\ / L l o / \� ,//// �J //i / I _____' �_ IIIIII\ �\`\- _--' -' J \ ``-�`� \ II 0- I/ \\ \�� a / / / /,I / / / - / / / 1 11 \ \ --- \ \, \ \ \ \ , \ , N . l T I //,�I/ �4�j / 1 I ,I __ _ i / / 1111`\\ \`,\ �\\\ _ __ __ -'J \\ `" \ \ (\I J SO / //, / coJ �I } \I / / / `-- -- / 1 % \ \\ \\ - ` - / -/ __----�- 1 1 \I / \ `\ `\ `� `\` r� ° , \ I / / ^ �// / 1 I i I 11 l///')-___--- / I I%,% 1 ` _ - - \ /--\\ \ ) I I - .5 j I s f / / ,/ I / /// --- ( \\ 1 \ _ . '/ \ .'_-``''/ / II t I 11 / /, / , i A / ., / 1 1 \ \ \ f \ 11 I , r% /'i/If // �, CO I' Ij� �% �� / ( k / / ///'''//// I I ! _ -`\ \\ 11 1 \`\���` `I___- -- "If / 1, r ( ' ' / ��, r. / -8. % 1-• // /// / �// Q. I - -' / / / I- I I I I / �/ / / _ \ `\ \\ \\ `\ \ %, `\ \`\ , - \ l I I /'' / rn // 1i , //// /� `t / n 111 ri I'/ / { I I ( r� ' N. \ 2.0 0 �` 1liIf 11 + / `" / // I i i 11 I I I I \ \ \ r1-1\% `\ \`\` - 1 r /, �r� / \ \ 1 1 \ 1 \ _ / l II / I / 1 .� � -"-%*% ---_J I I ,I/ / , L \ �/ [ I I I - 1 I I\ \ I `\ \ \�`� \, \\ \ , 1 I I 1 \ \\ / ,� \�` �` // / f I-vw, / , / / / \ \ , , N r O 1 \ \ ,, 6 \ 11 `_/ // �1 I 1 I \9, �o 1 ,, /i �- � _ / / _ _ _ - f i i ��� �l �� �' �\ % W� i i O� \I \( \I I S /'// /' jI i J ► I .- \\ \\ ` -� :~----- I If I If 1 / / , / ----\ -, , / 'I I _ill' o �,' /' \ ' /,' J' 16 °\ // \i� \ J, /! \\\\ \ \ i \I 11 / / / / % III \If \ II It / \ \ ' \\ \\ I I I I I �/ ,/ -1 / r\ I I I ,l I A `\ \ \ \ 1 \ \ I / r-Ji I / `\ N. \ \ \ 1 11 /� I \ I 90 \ N\ N\ _____ / \, \\ i I 1 -, / If \ \ \\ -IiI I III `\ .J / /, 0 I I \ .r_' /^ ,- �'-- - _-' ____\_ _-_' / 11 \ l I l /' J / r-_\ ' ,/',' %\ I ' / / i I 1 `-'' ,,, \ / / / / 1 1 ( / / / / ,/-, I �% I I I I I c ;\, IIIIIIIIIIIIIIIIIIII `` I , 1 11\ I\ --\ \%\ ; ,' ) I -- ; 1 / ' /' /'It EXISTING POWER ' I / I If 'i - ° LINE EASEMENT \ I i � ;b l \\ \\I\ `--, / -.' I \ \`\ k i 11 \- ��__/' I/ o ( `-` ' II \ \ Ill, \\ `_'' i- III It \ \ \ / 1 / I I O LO 11- Ts ,s I TSO, °�o Ov N r DUKE ENERGY PROPERTY BOUNDARY ASH BASIN WASTE BOUNDARY (APPROXIMATE) EXISTING MINOR CONTOUR (5 FT) EXISTING MAJOR CONTOUR (25 FT) PROPOSED MINOR CONTOUR (5 FT) PROPOSED MAJOR CONTOUR (25 FT) DRAINAGE DITCH FLOW DIRECTION FINIAL COVER SLOPE 1 II -- L \ ♦ - \ \ \ ---- \` / _ NOTE ltZ it,I / 1 \ 1 / / I Q' �/ 1/ / / / / / 1 j I I 1 1 / (. /-' / / 1 1 1 %I \ \ \ \- ;__--` f II 11 �l ' ` r /, I ,' I/ I I I I I I I i( I /\ \ 1 ` 1 I'- -=_ 1. BASIS OF BEARINGS: NC GRID NAD83/2011. ELEVATIONS ARE BASED I 11 \ / // / \ I I \ \ a \ \ . \ / / \ \ I ► I ON NAVD88. Il Ill __ 1/ I \ Y/,�, ��I c I I, I / / ( I 1 `` \\\\ \ \ \ I \ \ I \ i \__ / 11 11 �� I \\\ // ' ^ / / , / / // I I / , I \ I \ , 11\ \\ \I1 l \ \I \ , 1 1 \ cS I I I ��,\ r \ , ` �� I / / / �' / // / I / / l 1 l \ I I \ 1 I) l \ \ ` \ \ 1 I I f \`-/ y- I III �� Ilp ,, //, (/� ,� / // / , /I I _ ,/ r 1 I 1 \ I I I 11 \ / I`\ `/'\ 2. GRADES SHOWN INDICATE FINAL CLOSURE GRADES. I 1J �V \ 1 I r I \\ \ I I r ( -.. \ / 1 1( / -\/ V/ / , / /// I -- , / I I I I/ 1 III \ \ \ I I I 1\ \- \ 1 / I , / \ \ \ \ , I I I \ ., 1 O I / / j1 - - , l Al` I . I / // / / I I ' ) Ill I l ' l l ` I I ` \ \ ,\ r I J ' I 1 1 l , 1 1 / / / '// _ / / / /I, I I 111 1 1 ` \ \ � 1 1 I ,) l ,-__^ I (r1 1 / !I l i II // , ,/ , / / ,/, / / / , / / / / ► I 1 I 1 , 1 I \ \ \\ III \ \ \ ( I I , , , \ 1 3. FINAL DITCH GRADING NOT REFLECTED. t II (j•�� I / / / / / 1 I 1 1- � ` __ _ __ -� / 1 / O / % / / // / I I � / / r / / /' I i I I I I I I I \ \ \ \I I I I /i �� / / / / / / / / I / \ I I 1 - - �� I I /, Ci / , I / „ --- ,/ / I I l I 1 ( \ III I \\\ \\`\; -_ -` ', '\ /)I II, II / 4. AREA SHOWN WILL BE CLOSED BY REMOVING THE CCR MATERIAL \ __' /_= --`- / I I � / I-- I/, / l /•' __- / / I 1 / // 1 , \ \ \ I \ -/ / / 1 ' I - ��f ' / /I / / //If I I \ �\`\ `", I 1 ! 1 ') 1 \�`l AND REFILLING WITH CLEAN STRUCTURAL FILL. // r \ / I I` \_I/ / // I, � If /' f / _,; /_ __ - J I I � �I/ I I \ (1 `- , I I I i 5. CLEAN SOIL FILL WILL BE USED AS NEEDED TO EXTEND THE 11 \\ \\\ / /, \\ I _\, ' \ ,__� �I ( \ ,/ OO ,__/ 1 r// J I_\\ , \\\\\� -1 If 1 I � I ; (\ \,--�- PROPOSED GEOSYNTHETIC ENGINEERED COVER SYSTEM OF THE ` ` - ` _ �`� ` /, O /' ,' l 1 1 `--' \ \1 1 ' - - ASH BASIN OVER THE PINE HALL ROAD LANDFILL AREA CLOSED I c`\ \1 `-� .\ \ `� - / \,_ (-- '-- \ \ \N, i .001 / I ----J / ` \ III [ / \ \ \-- _' -_' ( _-`\\ - _ _ /'- 1 `_- _ - `\I'll\ `\` ./f /� / ,, I [ I \ I ( \ I \ ` ' WITH ASOIL-ONLY COVER SYSTEM. THIS EXTENSION WILL INCLUDE \\ (1 `1 \ �_ _ / ,/' - � \ \\\\\ I\ e, / j /' I 1 _/ ,r`\ �-`' I \\\I, \_ `� \`\`_'-/ - 1 `\_/^\_„(- \_____-_ . `-` \\ Ix / / l / , \\� -_�. ` - j t \--'/ COVERING THE NATURAL SOIL AREAS BETWEEN THE LANDFILL AND 1 \�`- - _/- \, -i'-,\ \\ / I I , / / ,/ .' ) I \ I I `\_-- ` 1 \� \ \ - / I_\ r ^ _ �/,\ I II\�,' l�I Ir'--/ I r _i- �I� I /- - � \ / N \I \I 111 \ THE ASH BASIN. ONLY CLEAN SOIL FILL WILL BE PLACED OUTSIDE �0\\ I I / / ,'^ \\ /� I Ik \ , If \\ \ (--�\ / I l I ) THE ASH BASIN BOUNDARY. A TIE-IN WILL BE MADE IF NEEDED �� `_\ I / 1/ ,- k " �/. � _ __) `I\ , )-,� - I //,',' _1 BETWEEN THE PROPOSED EXTENDED GEOSYNTHETIC ENGINEERED __.' / / /'�,// /' \1 c'' / / I -, / /,//'/ COVER SYSTEM AND THE EXISTING GEOSYNTHETIC ENGINEERED f` I- / _-'' '/ / ,4\`\ `\x\\ `� �`� \\ \\ If 1^�\ `-, i/'/ COVER SYSTEM OF THE PINE HALL ROAD LANDFILL. �� ' °\° s111111" / __1-7 /� I I ' '` `'\ / , 1 I `I C15\"7�`` - J REFERENCE r-_' J i I i /' 11 } } / // ''- --'' / I/,\\ ---'' / i / r �(�---_-/ 1. PLEASE REFER TO THE REFERENCES ON DRAWING NUMBER ,/ / ,^--' / / / •`Z J F -/ -_- r I If , \ \ \ / , /, / / ,/ 1 /_ \\ ` `1 ; BC-XXX-004. > o / / \ \ \ l\ \ \ /i f. A� I _/ .� -- ' \0 4 joIIIIIIIIIIhI, ti I I 1 ` \ /�/ / / / I / 'I .,-i' i /' \\ \ _-' � I I i -----_ 11 1 // / / I /' / / /' If If / 4100- °� /";-/`'`11 =__,( If l / _ 1 I III - _--\\�\ ` `__'-- ___//_ l^' ---\ \I \'I I /�/ -/,/�/ / / / "\ /-������``\` o N \\ - \\__ (/ -1 t // 1 I 1 11���' `'\, \; \\\ ^\_i' --'' '/ �• �! = \\\\, �I / / - \ _ ( _ 1 ( / / i / / / 11 / -----' �` __\, of -11 ' _-'^ - ,XI� 1 I \ I I I I \ \\ \ \ ` \ l'/ /'\•/ 1(�� - I 1 / _ / . / - / / .- \\\\\ ° -�\` ! I ( / \ I I \ \ \ \\ \ \ Ali / / / . --'-, . 11 \ 1 I I ( r / --- �O o - / / / -� \\\\\ • /-' / \, -\ ^( I - `� \ \ _- -\ 1 1 1 L \_`-- \` . / / -_ - �� �. \\(\_- ( If ' J / 1 III 1 1 / I \ � ' `\ \, , -♦,1 J 1 \ \ `\ 1\.\ I `- _,\ , / / _ l X�'r \\ \\`-- _==- \-- ``''1�J�T ,' / / _ \/.- / / I 1 \ \ \ \ \ \ ' / //,_J 1 11 .. _--, \�\ I (�/ ��� I + 1 x�7(�� - ```-= = -$-- '- / ---' `/,- / / / 1 I 1 \ O / \ \ \ N. \ / / ,/-- , I /- \ \ \ I' (\ /)1 +. -�\ ��X c� _ - - ./ -_'III If --./ I ` \ \ ` `--' / r ( / I I (\ \ 5 /ll \ ■ �x - x� - ' 775 _'�, `/,11 '\ / _ _-_\ `, 1 1 \`�___/' // 1 1� lj \ \�--_---' 1 \ 1- /I \j /II (l ," , `\,� - - _Jy� -\r___'__-_-\__- // _' / //r- / /' ♦ /' / \\(/` 1\ \`_� �� %//' % , ` \`� - - �` 1\\\ _- - -' l _1/ ' ' / I _- �\ »,,__ J .may.-.� -''-- - - - _ ____ (i' /II(\J/ /''' / ii\ \\\`\ `\`�\``\ ,s �'� /' ^^ `���� \\ 1 `�-,_ � _ _''' / Ir_�� 1 ' - _ •ip • //-'-�- 800- 1 \1 / /, -_ f_ \ \ 1 I r / _ \ /i' r' .' `\ ` Ir1. \ J I - }1„ j/ ' _ a ��\( r-ff \\\ �� \\ \\ / /J l� I` I /I J,T ,y-j/_' \ i ` \ ,) / 1 c' % / //_-.\` %- , / �`\ I r+ ^ [( I (� I / /1 - -\ \\\ /II If f \ I. \ ( �'-' /i' \ `�\1\ \ / / ,' If ` \ l /, "o; , I \ /�// 1 / I / -- ``� / / / \- .f 1 \ ll _ / I// I \\\ / , / \ _l 1 I III I I I 1 \ _. \-�%'- --__-- _ ,_\ \ , / / '�Gj 11, //// ,/-\ // / O _ - \,� / \ 1 _ / 1 yy \\: _ / ___ \ / IIII \ - / I l 1 �. , 1 I11 / / / � _ \`� , _'0 -\\ 11\\ l ll l I ^ II °po0( r \\\ ..(\ - _ 1 o -_-_ \ \\� 11c ^;- /-/_ - II /� \ �I I ' 111 �,',/ ,IIII 1 1 / 1 1i ` 1\\ I ` / ' I 1 O \\ \\ _�, -\ / - -- -\ I / / , \\ %`' / \ _ \ \ If If / I IIII / _ / _ __ \ \ --- \ .,IrI / 1 I I I 1 '' / ' / �1 \ \ ) y \ h\ J I I I //'' I rI �1, /-�_ \\\,Ir/ /,/ \\\\\ I ll \ 1 / J)1 // 2 - \\ I, I//// L _- , \� \ -7 0 ,/ I1 / \ I I - / .j \,\�`\ 111/1 �1 ` 1 1 / / / , /' \ r / 1 lr// �, 1 1 \\ ` \ , r l I I'lll //," /' { II ' Gj \\ II ' / . \`\\\ II I Il r\ `�\ ( /^`\\ '\II// '' I /I '' \` \\II II ll/m," \\ / '' \ \ / SQIL COVER -\ " '� -_ \\ I I , / /- \ \ I I I ► 1\1 ► 1 1 } \ I 1 l I I11 / / ,'// \ IIII / :1 ` I 1! `\`\\\ ! IIII I 10 ' \ I l \1 \ 1( �\`\ \ �, i , 1 I 1 i l I / //__\\ \ I ri�(` 1 / __i , \ •,. f \ 111 Ill �.� �/� (SSE NOTE 5) \ Il\\,% '1// ji'' \,`N\ (III' If k \ \\\�\11 I/ ! Il, , I \ 1; \I \\ I I I I I I I I I I \ /'� -, I 11 -\`, 1\ 1 \ 1 /r�r 1' / -^ \\ \ + 1'�`� i1 /,// ` \ // . \ \ ! r N. 11 lV / I / \1, \ l 1`�,� ,I I ( \ 1 1 ( , I / 11 /l� \ \\ , 1 1 . / \ \ //,/, Jlll ! /__`� ! l \ / ♦ _-^\\ I l Il ( 1 1 1 / II l � / I\ AlII% \ �\ \ 1 II \ ` \I 1 \ 1 I I Il /� - % -_\ \\\\ I ( ►^ / \_-_- \ \ S�� / _ (!/ -',/ // // //ii^ /� // -�__ _sue\ ,_. \\ l l / / / / 111�I - \ \ I111 / I / \,\ \\\ \\ \\\`\ \\ !� 1\ / / I l / / " j 1 - III, I \ i`Yl��' fD '/' j /'/ /// ' //� --_ j� s'' l ��\1\\ 1(Il / r r \IIII. % \� `, \ `j11.mm\ IIII I l J � I `\ 1 lil \`1' \ ` \ \I \ \\ I \\\\\ `\ , // j / /' _-__ \1`I `\ �` I If -\Y•r // / /i/ 1 /�) /li/ /♦,"- ____ Z. I� ► III{(\ \ ` (\�\111 /� 11 `\I\11 I I1/ / / -\ 1 I \\,I - �\ I I \ \ , / 'l ( \ / /`/% �_��`^\ • // / / ,, �i // /¢_ - `\ \ \ 1I1\ // ) , , ) \\`ill / /_ / ( \\\\\/ 11/r // r / \ 11 I I ^`::��\1 r `� ,\\ 1 I \ 1 ,I \ \ , \ \ ( ,_ (r� , \ \- / 7,fir _ f\\\\ \ / / /// / / / \\ r / I I l\ / 1 / \\\\ \\ \ I \�- / 1 , / \\\ \ -/'// /// / // / / -- - � e \! 1�1/////. / \\ I - I \\ III/1 // \1, IIII !/! \`��'J\` j r^ \ \� \I 1 \\ / I // \\ \ r( /\ '- _r�//� ^ )�...\��\\\ \ \ \ / // //, IF// /i,�/�,' r,r� _ _`�\ � \\\ \\\�,. � � I �/ / / / / / / \elI 1 /' I 1 `N \\I II I I I I 1 '�\1_I I l IIIIII I I / \\\11 1 \\`\\ 111 I IIII 1 . / O// / \, ` \ '^ I lI / � `\\ `\ `\ /, / , f,r �'I , /„/// ///, /- \\� \��� -\\\ \ \ ,///. '__' (I I_ 11\` `\\\Ill I ( 11, 111 Illl 1 \\�\\, 1 I l I I / I , ",) i _; �_ /glll f \\\\ \ \ / / // //, /♦/(��//i''/ ,// // , /,�_\ �`Z\��� \ \\�� \\,` I1 I \\ \\\) III I l 1 1 1 "i/IIII l l / /'`\ \\I 1 I /-�\\\N` I I l I I III / If / �i� ri \ / ,� 1 1 O/ / \`(\ r� � r�� �`-'IIII _I I / Illl I� 1 . / l / �� I ,� �,r0�/' //'i'/r' i ^� _ `\ \\_\\`\\\\ \ a •� 8�� .�\`\I I1 - i s� I 1\\\\r/I�� \/\ I /�/ /,II ! / _-�\°,\ 1 I / `�;, ``=11 I I I /'.% �(/ \\ \ \1 11 �/% I I_ ` \ /J \\\_ I \ \ } / \I 11 ✓ \ 1 /i / \ l IIII/j //�, /,�q)O,'/i'j/i�/,' -` ��� `\\��\\``� \\,�I �_ �c 'I 1, \:11I/.1 \\\`\(Ill\ 1//// �`�II I IN \\;\\\\ l I� �1 /�/% / y ,/Ill III /�'_._ -~\, `\;11 ^(-' c ,/i��'i' \_'1 - I / )lll �/1% 1 I. / / .�� \ _ `\` \\ - \mil % :_ _ \ `/ ! --\ll, - / \\ \ \\l , ,\\ I , , 1 \\ 1/ // L I / / / I, vn `- / \\ >t /, - .1 (1 - \ 11 / 1 I I I I111 -'"f -,�/ /j, /� ,/// //,/♦,// I-- �` - �\ \�\\ \`\ � //,- i ���, \. \ \-- f/ N. \ \- /, / ,^\ \% \\ /I // // ,- �,\\ I I 1 I 1yll , /jI/ �1 • ///�11, 111, ��/ J 4 /���- I _- //I// // % 1, 1 II( &,//// . _-/%/�','/ f " /'i ,/j / \``\ `l` , ` ` \\\``-. �.� \\-1 1''!/l \ ` ` --- \1 \ ; -✓I' /' \\\1\\\\\\ �, I! / ---, ,\l 1 I I I {11 , /„ / ,825- - �- /,!\11t IIII\I \ y " '�''' II / //// , / 1 1Illi ///' , __ . / /♦ /// \`\ \``��`� \` \\\ \ \ 1 I / l %1 lzi I I } I/ I 111\ \ I If /I// r // / / /, r \\`� \` -� -, \ _ __ _ / \ 11 / \ II I 1 / \\ I / / l/ 1 _ -----_ I 1 111 1 - ', /C 1 // / " I I \ l I!!/ /,//,/,/ �- .,_-/// // ♦�/// /, `\\� `� _.` ` \ 1 1 \ \� ,I \-''_` \ _1 // I\`\\ \\ I I \ \ 1 1 )/' - / / 1 1\\ \ '^`\ /////'/� / //// O / / I l ( / I .' - _ /'/ / / /�/ ♦ \\ \\\` \\ _"\, 1 \ \ / \ \ / �__\__/ \ \III 1 \ \ \ , , �__ / _ -�/1 1 (I ill \ \\ /// / - ( ` _ / ////�/' / \ \\ 11-11 111 ///- -///i rZ/,/ / \\ \\ _' 1 I, 1 ! 1 JI`\\1\\I \ \\ , . / I K JII 1\\\ / \ /I//\ \ - ♦ / //� . \ 11 I\1 IIII,/, �ll l _'/i_i�_ /- /,�, ,./\/-_~\, \� 8 \ \\ \ \ r- { f \ \ \ I \I I \ __, ( / / I Iit � %%\1 \ �\ l�/11/0- ^�,II \ -'I '%�' \I I I \y )1\ \\ II Ir 111 / /-i,/ r/// /i/ \ \ \\ I / ( \_ / / / _` 1i1\`'� \ 7 / "_�_- _ _ _-_--_-/I 1 ` I1\\\1\ \�-%%//� \ J~ _--�'\r %�/�''- I 1 \\"\IIII II ' I "// ✓ \ \ \\`\" \ \ \ / \ I / ll __- - 1\\ _ _ / 1 1 I \ o r�, I , / /i /,` / 1 , � 1 \\ ` 1 I11 � I11 /lI I'r_ i i•i. /14 _-_ \, \\\ ```` \\\\\\ I I I I __ \ / ♦ / 11 1 _ � //���-^\ Ill \ \ \ _ /'/ •�J 1 / l / / 1 / \ I / I / iii/ _ \ \\\ I ` --- I - _ _ I I I \ IIII \ - _ / ,/, \ ( . /,/, \ \.I I/I _ �'- \ \ \ 11 V \__- \____ / /, \ j1 �I____-� �/ /'/ \ _/ l 11 ^\`\\ 11(f/ \ , rIF l \/llr / / /, / .` /i��11 III/I I I _-_ ` ` ``\\ `\\\ 11r I , /- .i/ \ I �f I \ - 1 1 1 IIII\\ - �` jlll,l / - 'a \ % Jlj I / I . /.., EOSYr4THETIC -\� \ / 825' / (_ _ = / I I 1 I \ ` II / ' / r \ !1 /r IiJ . / , / / lI l I I 1 \\ \ \ 1 _ . / I __ - _-/ 1 I _ ___ -.- ) I I , l / ' / / ♦ I l I I /r Ci \ , \` ` \\ `\ ` ---_ ,`( j �/ __ _ / ) - ` �\ 1�\�\ o ' /� hi-__� 11 I� 1 (lf� / ' r_ _- �\(��-111�)%r��l / , - _-il/ ,/ , 111 / I -i'E `LINER\ \ \" \\ 1 �/ -- (// / _� ` l ,II\l //,.--.�ti. I)\\I / J11 _ __ \ ,- \ \ 1 /, .i'/// ` ♦ ,'/��11 I,l,/ 1/I `\ \ `\ \ \\\\ \\\\\\\ \ `-I - - - � �l �_-- -''// • _ice �5���==��`\ \`r�850 `\\, \ J r` 511 IIIIIf / \\ I /,, / / l I PAYE HALL LOAD \ \ \ ____ _ - _ --- - \ - -----' / ,-____\ --_ 1 \\ -�- - I J . (1` - \ , /, / / , /♦, j/ l,l/l lI , \\ ` \\ \ \`\ \ \\\\ �, :_ i _ -i _ �/ '1 - ( \� \\\\�, .� f ( c_ • fr \_ %I///' / \ l ' - I / / 9 , /, ♦ //,I /!I / ` ` \ \\ \ \\ \ �-__ - / I y . -5- \`\ \\`\\\ \_,/ 11 \� I _ / / I `0IJ,%!I / I (� , / '/ , /', // : /// / / ASH LANDFILL \ \ \ \ \ ` \\ , _ _ / ' \ `-`---- - ► /' %^t'' \``\\ \ \ y� I\ - �/�/ / , /_ /Ir • / 1 I I / // ,' ,11 ', ,///�// PERYVIIT # 8503 ` \ '\ \\\ \\ �� _-_--yam \i,i_ i / _-J _ i % %/ % \ ( `\ `\ r. `\ ti \I` �� /I(1 / ( I . -. - \\\ �� \\ I _11 1, 1 / / r /, ♦ , /,/ /♦/ , , P\ \\M - % _ . - I \ \ it \\ \ �_ \1�, 1 / -1/ / \ \ \ \ _�_ / / , _ / J WE 1, / / /,/♦ / /_ s )( x� , I (_ - = ,-===-- 1 l \ , I, l/l //,/ /j/ j //,/ i / , ' / - -�/' / / /�yp9 , J I \ \ / -- \ \1 1 I / /' 1 V � ♦ • \. l / / / / / / - - _- - / %' / g �I�*7 I I i, `I ' f, CLOSED \ I 1 / / r-' / 1 \ / / / _- 'Ir !� l��I/Il //// / / / % �� _/� / \ / 1 / _ `l �, /1.3 \1 \\1 II I /, / N'C 1 ✓ ' ` ; I 1 / / / / // I ' / / .' /' -%� -,; -''' /��/ - /' yam/ 1 1 1 I\, \ / 111\ \\ // / /,'- I8 5., ,1/C ,// �// / STRUCTURAL \ 1 111 I f ( / l / _\- \ / , / / \' I.`\-J. 1 /%l !/'/ ' / / / / _��� �'I� �%--- �..�J ` _/I i .) / I ill\\\ /I'll \ `/�'//��/ -2 �I! t/ . ,//' FILL \� I� IIIIIIiI� Il�v/ i ilri`\. \ r I j / /' •� I/l I / /. /. / , i- _ 0 300 600 900 GRAPHIC SCALE (IN FEET) DRAFT NOT FOR CONSTRUCTION TITLE FINAL COVER GRADING PLAN P"=com BELEWS CREEK STEAM STATION 100% DRAFT CLOSURE PLAN STOKES COUNTY, NORTH CAROLINA N.C. ENGINEERING LICENSE NO. FOR F-0342 I ISSUED FOR REVIEW SEAL DUKE rj ENERGY® SCALE: 1" = 300' DES: CN DWG TYPE :.DWG DFTR : CLD JOB NO: 60432132 CHKD: DM DATE: 7-7-16 ENGR : CN FILENAME: GRADING PLAN.DWG APPD: KK DWG SIZE DRAWING NO. REVISION ANSI D 22.0"x34.0" BC-XXX-008 A Im n X X CD CD 0o I 1 2 3 2 TENTHS 10 20 30 3 A 5 7 8 Map 0 C - 1 \ \ / 1 ,, Il. / `,. ' /( �r '' '/ ASH BASIN „ "�/'e' -- \1 I 1l�--_II \`\ \\ 1` l -_ — — — — - \ \\ /_------- =Jl��/ 1 -)- Il, -., -- / '-III I- I�- ).,-- _1I.1 1'.-1, ) I 1\- I/'I\,I I / r\ / / / / / \ I / I ,-- /; I _ - _� j ,,- vv \ v\ \A // /, 1 iii I ,/)''/ N_ `1 \ - - - � , % I / --- l I I, I /�`. /"// II-y // - - / I I I — — I, .,, ,x 'If ,_ — � I ,_N 11 \ I /?P", I // - - - —_ , \ \ .'` 1 \ !EV _-' -' /// -'' I 17 / 1 ` l \I. 1 /, / ,♦ ,/ I -1 11\ ----- , --/ , ! , / I ,--___ \--- / / ! ' I' -' -' /' /// -' I // / \ _ I ( I1. / 7/ / ,- /'\ 1 1 \` - --/ / / I , I ( // `I---\ 1 / / I / / ,' , / , / ,_- . I/ 1 I / / / / - \ 1 11 ._ --/ / I 1 1 \ - /------__ \ / / I I I I , / / '/-'--�-—`-_ I /` / / `\ lj/ tr) I \ \ I /r/♦ / ,' \ \ ,-/ l-� l\ \ \ \ \ - --- ��- -_—\ , / I I I 1 I /,, / / - I. `\1 /! /\ 11,\/� ,/\\ `\\ I I I l I /r'♦-\\ .\ j/ 1\ N��\\` iI . i - ` \ I l I I I I / 1W-t�. / / /','-' \ I - I / / , / \\ _ '�\ \I / / ,/ \\;\ I \ 1 I / `\ i \ \ \ _---`\ 1 1 l , ,. / / / \ \ \ / / I I / / / / / I1 I \ -'`\ 1 I - \ \ \\ I \ \ I 1 / / \-1 1 r . I /-- \ \ / t , _ \ 1 / / / I I, , / / , , 11 , , / Q\ 1 ► - \ , / "I" _/ \ \\ \ / 1 1 \ \\\1 - �, ., I I / ,/ N.I. \1 I I -I I , / /, / / ,/,/,/ / / %I I - ", /0lill I .1I r ,'� `\ ` I I f I l 1 ! \ \ \ II / \`\ I 11 I l /' \ `\ I / / \ I I I , / / / / / \ II l - I l I / / ., \ \ \\ ! �I I , / \ IIII , \ \ , \ I I 1 �- / 1 1 // %` / ♦ ♦ I \ 1 I / ,� , -- ..- \ \� F I ! , /- r \\I\\\\ IIII / I / / I11 l 1 I I 1 \ \ `\ I 1 j I I I \ I / -- I. \ / i - 1 ry% I , `r / \_ / ; r� / i \I ' -'/' \ \ I / \ \ \ , l / / 1 \I \ 1 \\ I 1 ' I I I I \ i / \\ I I , %/ / I; - / V r�1�`_ N. /' / \ �\ \ '' ' \ \ II `\I / I , / \I \\\ ; ` , \ I I 1 . I I I I \ I / \ It11 \\ I / / \ / / / - ,'/ \ I / / \ \ 1\ I ! / I 1 I 1 _. \\ I I I I / ///I / \� I A\\ \\ I1 I ,-,/ -^ \ \,I\II l 1 / \ , , I / I\ , 11 \ r__ \\!Iz \ \� \ \ ` I I' ' - �``. \ \ 11 /r 7 / \II y )\` \ \1 ll \ I lI , l / \ III III \ ii \\\` \ \ \ \ I \ \ \ / - / - / / - -`` \ '- ,'\ \ \ 1 II /- \ _ I , I I 1, 1 1 III1 I \ y' ' ♦' /' -�/': / / / ♦ / / �______� a ---_ -_ i 11 I 1 I r ! \lJI _ - - I , \\I I (. / I I 1 I I I \\\ \ \ �� \ \ \ I .- ` \ ' I\ \ \` \` \ / / ♦ / / , // / /i / // _ - -. J f 1 I\ I II \ \\ I I 1 \ 1 ,f / / / IIII / \ \\\ \�\ \\\1 \ \ \ \__, \ \ v I v 1 4 I V I v \ / // / / I ♦ ��/, / / ,--; `----____��`\ �`_ -\ 1 I I \ \ 1 \ \'41 I /' ' I I \ \\\\ II / /,/ /^1` I I / --`\` ` \\ -`. �\\ \`\ I. 1 1 I \ 11 \ ` \i \ I r I \\ // / I I I / \\ \ I I I I. I \ . \ I I / - 1 . r \ \/ I / I IfII �_ \ \ 1 \\ \ 1 \ // /off-' ' ♦ / , / ♦ / _ __\ __ \ i, 'Ir �1 , - I I I I ! \\\ \ \\ \ \\ / ♦ / / \ \ \I / / I I I I I \ I I I I \ \\\1 \ \\ I 1 Ill \ / / , / ♦ /' /i'-- - _ \` -- I \ /' / ' I I / I ' I I \` \\ I I I I / / /-I l \IIII I I / \\ \ \ / / / / /- - / , %, / / ' _ 1 l // / , \ - \ I( I / -. I 1 I / II , I \.` "\\ \\I I/ 1 I I I\ // / / r _- ' / / / / / / /,' / // -____ Z �_ \ `,e-- / ♦ ♦ I I \ I 1 I I \ I I `\ `� �\ I l I 1 I I / / / / rr / / / ,// /p0/, // ♦/-`_____- \� _``.��� -\ \`�`� 1'\ / / ' - / / \\ \\\ l' 1I I 1 1 ! 1lFlll �,I/, \ \III ' , ,- \x\\ �, 1I I I , , / / / , , // „ _ \ / � �� I \ \ �/ / / _ ' `I I �/' % j \ \\\ 1 I I 1 r-' / ( ,_ \ I I \ \ \ ! r l I I I I / / , 1 / / ,III / I \ \' I / \\\ `\ I 1 / \ t / / fill I I / \ I / \ \\ I I / / / / /// / ' 1, /A// " / / ♦ ♦ ✓ _-_ I. .�`� • \\\\� I a OO- 1I \`\//!I \ 1 1 11 l�l / \ I I \\\\\. / / / / /dl I l l / / /,' / ,7' // //,'/ , i' ,/ i� /i'// /// /�__ �� \. �.\ ` `� . I I 1 I - - ` - I I I \\_ \ / /, _-1 I \ 1\� \ 1 1 I ! I / / / /--`_ \ \ J l I / \ \ ��, l I I I I / / / / / / l I I I I, II / //, / / ,/, , // ,/,,/ , ,// -�-_��.�� .� \\ _ ----Z \-------- \ I /i ---� ` / I I `__\ 1 . - '/ \ \ \\ I f / - - `\ I 1 I I_ \ \\ \ \\ \\ / / I { ' % / ! , I I / I II / , ` / / / / / / / / / / ♦ `�\ - I \_ \ / r J % / ' \ I\\\ \ `\\ I11 / % / , % - : \I 1 / \ II \ / % \- / I / / / , , ♦ / / / / / / / / - `� I -9 ' ''- �__ \ \ \ 1 _ / \ \ 1 \ \ \ �1 / \ \ \ I I / 1 l , \ I I / / / / 7 / / /I.I.I.I.I. / - - - \\ \ / -\, \ \ 1 I l / / \\\ / / I 1 III /, / / , / / / / / ♦ / \ . , \ ✓ I m 1 , J�r�I I //// , ter`/ , , / / / / // / // , -. _ _ _ \ . I . \ / / / / -\`� ` ---' - \\ \ ' /- \\\ \ \\�\ .11 11 / /' / - `. \\ `/ / 1 I \� , / ) l Ill; I Q / �\/Ivvi51 /// / L- -- /,, ,/ / / h/,/♦ /// /, �/ / ` I. \.-` \.�` .� - _ r. . I r ' \ - `.\ \ \\ ` __ \ `\ ` 1 / 1 \ \ \ \,I 11 I / / l I / P `/ / I I- 1 I I ♦i/� ,, / , , / / �i / / /-1 ♦' ` . '`_ . \ `� � \ \ , \ \ r- y / \ 1 \ I I l r I. \ \ / I 1 1\ / i / /I I I 1 I I I I, /,// ♦ /'/ ,',' /' �'/, /,/ / /,//, / // �\ �� \. .�� \�` ` __> \_- \\ `\ I 1 I \ \ t \-1 \ ----- . \ / \ I 1 \\ II / I 1 1 ( I /' \ \ -, , / 1\ 1_ � / / I I \\\ I 1 . -, J I I ! /i/� / _- , . . / , / / / / �� \ `. \ _ L \ \ \ \ \ \ I I t� .. 1 ♦ / - 1 11 \\ \ I l I 1 t 1 \ - ' --- - � I \ 1'I I I /( I/I ! • , , - , / , ♦, / /I. \ ��\ _ \ \ -'-, \ ` I l \ \ \__/ / - / \ \ / / / �`. \\I I I I \ \ \ \ \\ / / , \\ \ I I11_-,/II I// I %,,-,.., �- j �-,,,, ,/ /♦,///' �/^ _-' _\ .\`_�`._ -- �\ I. �_ `\ \ \\\ _,' \ \ \ I \I II \\ \ I / r-\ Ni I / / -._ _ \ \ III \\ \\ `\ \\\\___/ (� / L__' ..�% - ac-xxx-om REV. p ERNAL WORKINU DR�,�+,FTI )EQ, ZGb�AICDEQ ON 0"07/2018 �tffg.HlbN PURPOSEONLY CHEMICAL POND \\ I \ I11 III\ I lI LL r / / - 11 , / ,' , � /, , / \/ \ \ _ ` _ \1 I\ , \ r / ` I ---' _' 1 I I I \ 1 \ \ \ 11(I II I , / I ---,' -C // / /, j// \ \\ \ I.-- . \ __I. \`\\ \ 1 1 / , / / I_ -` `-/ / /- 1 \ , , - \ \ \� / . _ �- / / \ \ \ I I o l I I , / -- .� �' , ,'/ / / `\ \ \ __. . \ \ \\ \ \ `_,' 1 1 \ I I 1 ` -- / / 1 , -- - / 10 / \ IIII1 I 1 , 11, l I ! / , ,,,�/ l ♦ /I \ \ _ .1 \\ \\ \ ! 1 ,.._\ - - - - /'/ \ ' / / / % \\\ \� IIII l , I I /, l I I ,,, .- / /I/,/ I ----__ `\ \ \` \ \ ''''/ - - 1 , / \ \ `ll / 1 I /III / l /,',' / ,'♦ / I--' -`. \\ \\ _��� \ �\ \\\\� �\., 1 \ 1/ '\-- _\_-'-------�i- __ % I\ I 1 L - -/� /I �/ f / \ - - - // /^`\ �- I/1 / , lI IIII I I / r/,', ", `\ `\\\\ � -\\\\�\\\\`\`\`\,- 1 WII __,'/ / _ ',/ ,/' I__ _ / / _ -- , I -/l - _1 - /'/,II/ `�'' / I/ I I I I l / /,,i , CLOSEQ- `\ \\ \` \ \ `\\ \ \\` \ \�, y - -___-� -, �, - / I / -} l`-I If /%' '% % % / \ J,i /"/'/ '/.1 I I /I ! I, l l I l PINE HALL ROAD `\ \\\ `\ \`\ \ \� \`\ \\ `\\\\\\\ __1 - __� — — �� _ —' /r—\1 �\ ,I �� - ` \ \ Qo \ \ \ /// / /' /' /'/////'i l 11 I l l l I l I ASH LANDFILL \`\ `\\ \`\ I. \ `� \\\ `\ \;\\\\` �\ `------__- - / _ � _ — ^ I i\--------------- / /' \ �� r'/ - �\ `I \ I // / / / // ,' / l i i \ \ \ \ \\ \ \ \ - - ' _ - _ .--- i ---------------- t �' �� _ I / /' /' ii' / / l l l /'PERMIT # 850 \ \ \` \ \ \` \ \� \ `i `\ \\\I\'�`\ \ I ° \ /. , �, �, _ �- . `�1. \`, EMS I l I / // �/ / /, / / /, / /// / / I / `\ `\ \\ `\ \ � -\ \ \` \ \ \\\ I. - - /_ --. _-/ I ---- / ,' /,, --. f, \ \ I / / / / /'/i'//i' / /// // / / / l / I \ \ \ \ \ \` \\ \ \\ �` - '- rs� /' 1 ,' /,'- - / \ \ \\ ` \ / as //// / \ \\\\\\ _iFo _ I , 1 / , // I///, /// , /, / , // / \ \ , / \\\ \\\\\\� /!- c / , - / , , 1 / / ///// / / / / . / '�, / / // / / / // / x /� „ \ \ / \\ \\ ,� / / ? / 1 \ \ / / / / / /// / III / /// I// ,/ "/ •_- / /' 1 1 / /� --' - / 1 ,•/ _ / •_ - / / —ems l / 1,,,, I ` l / / / / /,' //'//%,/, / // / / / ,' ' / /_ __ �''/ �'/I ' _ _ '� L X /' / - .1 , , \ \ `\ l / �/ s /� / / / / / % ///// // / / j/ / & ,' /' / �-- / --� �-- --/ / � /� _ X7 X — \ —_ � / ---- — _ _. \ � �, , -�-' \ \ \ / / / / / / I'/ / / , - / / /—' - ' / �/ / C / — -`\ / / —_ — AI.` , „ , + + + + + + + \ I / I l l' / / / / / / / ' ' ' i - i / _ I \ \ / //� CLOSED \ ++++++++++++++ 1 IW \\-� / / /// 1//// 1/// I //'/ / / ! '�-- - �/J_ / / I I I \ / / , / / /// / / / / / �� 1 /l / / I I I t\ L �x I \ \ • • I /i / STRUCTURAL i47 / / / , ' , -- %� �- �� i 'iii.%' / , c / I x I 1 I. \ \ ►1 \ I/%/ ,-- / --. �/ �// �/ ! FILL \ I I /// //!'/// /////� /// / // ,'/--�i'--����'��-�-j/ / / / l "I, // / I/ '\\ / I11 \\_,/ ////// // _\ I.11 IjI/ Il/j%/ \ / / 1 // /// i - / / / / rI-q 11 dip �- / / // , I \ / / / 1 / 1 , I I 1 I I / \-- - --'` _ / - ----:, /�- '/ - i� / / l , , / /'/' / 1\ /, 1 \ /// /I / l I i I I I i/ \ / // III IIII\I III \�/ �j� - ., - / 1 - � / I /' ,/ / / ////, \`�♦1I \ / , // /i I / I I��/II III I _---_-_-_- \ I / / I 1 I 1 1 1 \ 1 1 1 i- _- _-- _ ��i % - � / ' / / / / // / \ \`�-- I / // I / I III 1 I I l I I _----- ,- --_-_ \% _ _ _ _ _ ', / -1,' - ^I I , _ -, / / / / / ._- 11\ / / / ,I I I 1 I filli IIII I ,- ---__` ,- --' \ I \ , \ \\� 111 - i� - /// - i 1 / / , ///II ) //♦ / //, /// I I,I �/ I I 1 I1\1 1 ,,--�� _\\.,,/,i'- �_ I I I \ \ 1 \ -- ,. - - --'f / 0) � I �;!' I / / I r- / /, , I ! / / ! 1 / / // / I I , / / I I 11 \1 111 I q/, , - _`I_,"-_ - / / <- --- LEGEND DUKE ENERGY PROPERTY BOUNDARY EXISTING SITE FEATURE (APPROXIMATE) EXISTING MINOR CONTOUR (2 FT) EXISTING MAJOR CONTOUR (10 FT) PROPOSED MINOR CONTOUR (2 FT) PROPOSED MAJOR CONTOUR (10 FT) LIMITS OF DISTURBANCE DRAINAGE DITCH SEDIMENT TRAP SEDIMENT BASIN CONSTRUCTION ENTRANCE EXISTING MONITORING WELL EXISTING SOIL BORING WETLAN DS STREAM NOTE ` \\ I I I I /,\ \ I\ \ \ II It \ II 11 `- -- ;- �r// � _-�- -- i / ♦I I r- / ,/, / / I 1 r t \ I l / / I/, //� I 1 , i I I I I \ tI 11 \,1 1 ,//-/'/' _-%---= `_ \`• \ - ' - ' /,,-- -= 1. BASIS OF BEARINGS: NC GRID NAD83/2011. ELEVATIONS ARE BASED \ \\ I I 1 / 1\ `\ ` I \_- ___-' i -_' �-' � /C7%- I 1 , , ' , l ,','/,' I \\ \ \\ / /// I , \ II l I\I1 I \ \ 1 / , / / , _��`�\ �,, '�,�/ '-_-- \ \\ I I /\ �\\+ , \ \ ----- - __ -' -' , - 1 I / .- l l /el \ / l 1 / I I I `\ /' , J : , -_- \ ` ~` ' J% / /'.- � - - ON NAVD88. ` \ \\`li I I \\I\\\ �� -'-' i% �O- I - I 1 I / / - /,'/'/ / �` ♦ ` %/// I I �� 1 I 1 e I `/ % ,' - , — ,:,: \ 1_ ,/ ---- \ `\\ \ I I I ( \ \ \ \` ` i - ' i% - - ��� ,- - . / I / / I I 1 l / '// /,! \ \ \ \ � �// / //I I \ I \ \ \ > ! \ / / / / / / - \ \\�! \ / 1%,,- \\ \ \\ `--- - ' % / /- / I / \ _ \\ ,/ �Il tl IIII + - / / / / _ \ // . _ ` \ 1' \ 1 1 �\ M 1 `\ `_ _-' r lil*� __ • $ I / I / / I \ \ \\ \\ \ r--- \\\\ \1`\\ \\ '/ / /I I I `\\- ' III i Y \ I1\! I `\`r ' '/'/' %%'-' `` \ / , ///^%'/- 2. THE PROPOSED BORROW AREA IS ESTIMATED TO POTENTIALLY BE I / % / I \ , \ \ \---- • - ,--' I ► / ! \ \ \ \ - -- \ \\ \ \\ \ . / / I . - 1 1 \ \ 1 \ / / / / , \ \ , t `\ - / /// / .11r, - 1 / / I \ • ♦ - , I I I / / / 1 \ \ `\ I. `\ \ \\ \ \• `\`\ / / ///, I __ to I I (I 11 \\\ \ \\ , / / // / , / > ABLE TO PROVIDE 500,000 CUBIC YARDS OF SOIL. AVERAGE AND I . \ / I / / / 1 \__\/ / // / _ \\ \ / // r' / l `- \ \ \ / I 1 I / I / / I \\ `\ ` �\ \ \ \ \ \\ c•a . \ // \ \ % 1 \ \ ., / / / / / / \ - \ \ \ \ \ / /I- / -_- RUCTION ENTRANCE 8 I \ `\ \ '�o I 1 --/ I I / , / / I I \ \\ \ \ \ \ \\ \\. I, --,/ ! �, -t II I , \ I r \\ \ \\\ \ / // , / /! / // % \\ \\ \\\\\ / I / /Ill /, / , _ MAXIMUM EXCAVATION DEPTHS ARE 7 AND 12 FT, RESPECTIVELY. A 28 1\\\ \I \ \\ ` �~ \ \ ) / 1 I / ! 1 I oo / I \ \ \\ \N` . / / A •\ I 1 / \ \ \ I I / \ \ \ \ l l \ 1 \ \ \ �� -- _`` � I 1 -- / / I / ! / ! ! , , / / I \ \ \\ \ \\ ..\ \" , ,/ \. 11 \ \\ �\\\\\ \ \\\ , I , ► (I ! I, /,/, � \\; \ I. \ .- / / / (� !(� (! ,a BORROW AREA INVESTIGATION WILL NEED TO BE PERFORMED TO \ • ` I 1 ,' /// ' ! / / ,' / ♦ / I \ \\\\ \\ \ , /, - 1 ( \ \ \ I; \-�� 1 III ill \ \ \\ \ \ \,, / I I Ir\, \ l 1 / \ \ \'- / \ \ �\ \ I , I l !III 4 , \, \\\\ - -, \`,- \ , I (� , I 'IIII'\ CONFIRM THE VOLUME ESTIMATES AND CHARACTERIZE THE \ \\ / - _,-r I I I l ,- , / i � / / l l / / / / ,' ,, /' b, 1 ' \ \ \\C ', .-/ / r\ \ I 1� 1 \ , I \\ \ \ / I I I \ \ .- ��� - ! / / _ t / \__- / // \ \ \ \ l III T\ \\ \ \ \ , - I , / l / // ; l��I / / I / / / / / / •' /' --' ( / ! 1 \ T�•�•- % / '/ // \ \ \ \`\ \ \ / 1 1 1 (I \\ \ \ ` \ \ \ _.// I� I \ SUITABILITY OF THE SOILS FOR CONSTRUCTION. GROUND WATER --- I / 1 / / / , / / , ✓ ' / I \\ \\\ N� , / \ \ \ \ I I I \ \\. \\ \\ \I \ \`\ / . I III �+ I i ! / ' ! "' / / / / / / / / / - , / - ► \ \\\ ,, r 1 Ir1 \ \ _ \\ ` \\ \ ` -/ / I I I, M� \ \ �,\ ,` ` ` \\ / /I Ill, LEVELS WILL NEED TO BE CONSIDERED IN THE FUTURE UPDATES N �������� `\ I I I // / // / / I I I / / / / / ,/ /' ,' - -, / __'/ !!/ _% \ \\ \\\, I. I\ l r \ l; \ ` ` \ \�� �,ti / I 1 ,\ \ \ \\\ \\ \� \ \ \ .` i , / , / 1 I / / I 1 / ♦ / - / - I-. \ \ \ I t \ �\ 1 1 1 \ \ \ \ \� -- f I I I I l' r \���� / 1 \ I / / I I I I , / / / ' - ' ,' - f\\ \ \ \ \ \ \ \ \ \ ,\ \ p, \\ I / j l ~ f ► \ ,\ �`\ - 14j I11i OF THIS PLAN. C 1 \ \ / / l 1 / I ! / \ l _ r-_ / \ \ \ \ \ \ \ l \ \� , / 1\ \ \`��_-_, ' 1' ♦ / I I / , I \ \\ I / / I / / _ ---_- / 1 _--` i l ` 1 1 \ I I - 1\ _ \ \ ` \ __ _-- , / I \ \ I \ / / / , 1 I 1 / 1 \ \ \ I I / i �p / I \ \ , \ 1 /-- _ _ 1 I ��\\ / /, \ , 1 , 1 \ \ \ \ ,//1I�\ \ ` \ // [---" a / / I l 1 I I \ \ / I //, I I I \`.\\\, � --., r\� /1 \__ I I t 1 1 I \ 1 \� \\ // - II I \\ ,/ 1 1 a I I __ - / / I , ► , \ \ \ \ \\ / y 1 - I I I I I S-9\ \ / _ !4 - / /11 -\• / II r \ \ \_ �� ,f /1 3. MAINTAIN A MINIMUM 50 UNDISTURBED BUFFER FROM EXISTING 1 , I \ , , - I 1 \ / / ! / I I \ 1 1 \ \ - �- - -r i\ \ , I i i \ _ - \� Y / r I 1 ` - N. i`- / i ! a �, I \ / \ • O \ / / / / I \ \ ` ' `-' \`\ / I 1 1 1 _ ! / - ,yE/ / DITCH LINES. 1 1 I I \ / - \ / /,-- , 1 l III'\\ O \l / ! I I 1 \ `� `. I. -' / / % Ilr, 1 \ \ \ / -. �``_ J ` ! \ I\ / \\ - / 1 / 1 I 1 \ / , I / / / - I / I , / / / / I \ l ! I \ \ \\N �\� \ \` `: / / / /, Ill \ `\ `,�+r --_ ! \ \ ! / ! \ j / I I 1 \ l \ \ \ I , Ill 1 I , , / 1 . / I ( , I I I 1 ` ` ` , \ I , I I `,.`` --' , / / / I I ` \\\ I I. \\ `� -- / I / -' p - / r I \ \ _ \ / , I / , , `\ 8501- i I I I I i i ,// i 1 i C\ _-_-/ //, /I \\\ / 1 I - ----__ 1 \�\�� �.� \`� _ _' 4. PINE HALL ROAD WILL BE USED AS THE MAIN HAUL ROAD. A / _- / 1 \ , \` \ \ \ \ \ •. I , _ I I I I I I I 1 r ! , / - I - - // // I/ I / I -\_1 -i I ` \ \\ \ + 1 / 7 1 /� ` r ` \ I, `\ \ \ 10 l �1 ! ► / I 1 I ` r / : '/ 1 I - - / /l l ( 1 r~ �\ _ \ `\ ``\ 1 + + + DETAILED HAULING AND DUST MITIGATION PLAN WILL BE `�� \ \ I � - I ' ' ' / / : I 1 ( I ,_ `-`\ \ / I I I --__ '\ I \ \ \\\\ \ ` \ \ 1 _ -� I I _ I r'\ 1 �\ t 1 I rl , i / _ f I 1 I I / . �__ \ r�\1_ / / / I I I I \ I \ \ \ \ \ DEVELOPED PRIOR TO CONSTRUCTION. / I 1 \ 1 ` \ \ \ \ I / , I I I I . \ \ I I I I / / c` . \ ``\\\ ' / 1 I 1 1 \ \ \ \ \ \ ` \ I I, I III\ I \ \ I I I I 11 1 I I / ` \ 1 1 �\ _ IC7 \ ` I \ ` I - ----- - \ I - 1 I S-8 I I --- \ _ 1 1 1 ` \ \ , \ ` __, \ -1 ( \ , \ I \ \ \ \\\ / I \\ \\ /\ I \ -/ I I I I l I I I Ill I I \\_` __1\ I. _` 1 1 \\ I // ' I I / \\ / + I\'\ \\ _ / _ `\ . \ ' 1 \ \ \ \ + + / " \ \\ I , ' I 1 ' /• I l \ I I `, ► \ I ; II_ \ + \ \` \ a \� REFERENCE / / \ \ \ / \\ / \ \ I \ �, I \ - \ 8 _ 1 \ I I I I � �\ ! \ � . - I I r \11 I 1 / / \ / / \\ \, l l `- - _ _ — I I r I i / , ; 1- \t \\ / // \ \ \ `\\ \i i l 1\\I\ I\ \ \\ �\ \ \� 1. SEE SHEET BC-XXX-004. fCH 11 ,� / 1 \1 I\ I. , I I. _ ► I 1 i\ - ) , I \ \ ' i \ I \ 28 -�'- / , `_ - I CQ \% / I 8 / 1 1' 1 1 I \_ __ \ \ --! / I I '8 Q / / / / / / ,,/ -.- -/ J / -_ \ 1 i• \ r „/ / 1 \ \\\ / / \ I 1 I` — / 1.1 1 1 \ l - �� \ \ ` r1_\\I� `_- :',•,,/ --_ \ \\ \ ]� '" / \ ` I \ 1 \ \\ \\ - , I \ I ___ \ I h I '` ! / / I 1 I _ % \ ' `> / / I / I 1\ \ � - - \ - �- - \ \ \ / 1 ` -, , \ \ 1 I \ \\` \\\ '` _ / / r � I. �_ _ \ / / --- \ \\. ____ 1 \I \ ( 1 `\ \ `_-�- a �_ \`\\`�\ 2. SEE EROSION CONTROL NOTES ON SHEET BC-XXX-013. 1 -` /' ' \ - ( - ! ! �i > / r 0 --- / I / , / J I I \ \ `sue \\ � \ \ \ \ \ \ 1 I I I I I - -/- - // O \\ \. 1 '' /' / - \ \\ \ I r\ \ \ r_ \` \ / ' / / �- ` - / / / / \ \ \\ \ _� _`.\ \ \ I\ \\ \ '1 , 1 1 / 1 1 I /\ \\ / -\\� \ _ - 0 \ \\, �, \ __ , / \ I \ \ 1 I ` I I \ - ' / If / / /// / / 1 _ / ` I\ \ \ \ ` \`\ \ \ \\ III ' \ O O -10 1 ` / / / \ / / / I I I 1 1 I \ I \ i// ' I I / I _- - i ,, / / ♦ I 1 1 ". \ \ \ \ \I I I I I l I I / J \ 1 I I I \\ \`\ / / % ~ I1 f� \ \ \ ` `\ % r / \ \----' 11 l \ 1 1 \ `\ ! 'i // I I I 1 _- // / % I 1 % ' / \ / i \ l 1 1 ' I I I I 1 I I / �l \ 1 1 \ I\ `. \ ® J/� -_ i I i '^\ V �I r , \ \ r I \% I \ \ \ l .. 1 / I __ / / _- --- _ , I I I I 1 1 \ \ \ \ _ , I \11 .. \ \ V 1 h1 I /_\ \ \ // I ' \\ I I \\\ \\ \_' 1 ' / 1 r ',� �// - /' / / \. / I /_�-'_-'/- / I I , I I I \\\ 1 \ \� I \ \ I (( \ / // / // / / _ \ \ \ \ \ \ I I 1 \ 1 \ / rl/ I \ \ - 1 \ \\ \\ / I \ , 1 / / / i , / N r I \\ \ / - --- - _ - - / / I 1 I i\\ \11 I, \\ ;,I-, \\\\ - — ✓ / -4 11 1 \\ I \__-__ / W I I \ I \ I 1 \ \ ! l 11 // / / / ! ' ` ' I \ I / \ / I / r/ r o / / 00 I I \ I 1 \\ \ \ 1 II \ \ / / / 1 \ ` `\ \ \\ ` I I \\ \ / I II •/ I .j / / / / / O I\ 1 I \\ \; \\\\\\ / ------ _---' / / I I ' I 1 I I \ \ \ 1 \\ I / I \ / !//, j /r\\ \\ \ \ \ �\ \ / I / / ' O 1 \ \ . =`___/ / / I I 1 `II `\ \ `\ .\` ! , I ` \ '- \ .1 \ / I \ / / 11 I 1 \ -, 11 / I cc), \ I \ I, \ \ . \\ I 1 \ %1 / \I i \ _ - i \ I i�\ / // /! , \' / / \ I I I -/ \ \ \ \I `\ \\ \ `\\ \ r r I, (��',ll \ / /, ,\ \\ \\a / 0 200 400 600 1\\I ( I 1 / `\ - \ \ \ -_ / l I \ O /j/ //%� I ( II I \ I 1 I \ \ --- ) \ \I \`\\ . ( 1 \\ \` 1 - / / I \ �\ I , \ ,\ \ \ / r I I ` \.� - / / \ l \ \ \ / ! \ / -/ , / / / / \ 1\ \ \ , 1 \ \\I}\ / ! / '` ' ' ' \\ a // \ / I l ( O \ _ - / \ \ I \` - / / I / ' l \ 1 I , \\ \ I I 1 1 --- -' \ ., `/ -- , , \ I I 1 1 \ I _. r / / / BORROW AREA \ , \ \ I I � O \ -`--' / \ \ l 1 \ `__/ I /, / \ \ , \ _- - - - __. , I \ l I `I \ / I I / , \ 1 r \ \ , _ ill 1 I 1 1 \ 1 1 \ \ _ ---- /,�- _ ____ mac'= / / . \, I I \ I \ / 1 \ J \ It - \ l \ 1 / / l I / \ \ . / � _- :�-= - I , I \ / I , I if l l I / \-_ I // GRAPHIC SCALE IN FEET BOUNDARY/ LIMIT OF \ \ \ / `., \ _---__ - \ I'- I I III \ - ---_-_ _ ` ( ) ()0 � ` ` \ _ IIII ] r\. �I I . "_ / / l ` \ �1.\� / - -� _ �� / I \_ , ,/ / / I, , I I I / I \ / / DISTURBANCE 1 \\ \\ \ 11 `\ \ \ 800=__ I \ \ \ \ \ X• \\v \ \11 I - -- \ ' I ` l \ \\ \`. -I. � __`- \ \ `` _s N. / 11\I I I \ ` \ ` ` \ \_____ / ._ - // / I I I v I - / DRAFT \ ` ! I I I I ` r __,',-. - I , I \ \ \ \\\ _- 1 1 1 \ \ - _ / l \\ /,1 / /l / /-// r / I / I \ - / / / / ,,---,/ 11 / - --_ I - / / \ ( I I l \ I l \ \ / / l \ \ \ \ \ \ ,--I.-, \ I l •\ 1 \ \ \ \ `\ \ --- \ I 11 l - 1 / / ,' - - / I 1 \ , l , \\ I `_-/ ,-r / ,- / / I \ 1 \ \ \ \ \ \ \ I \ \ \\ \\ \\ \ \ \ \ _ -- / / \ \-/ /\ III,I l / \ \\` I , - -^,1 i_ - -- - / i 1 1\ I I \ `\ / I I \ \ `\ \ 1`__--, / / / /' ! 1 \ l \ \ I , 1 r \ ` I \ \ \ \ �O ------ i / /• i II r I I `� -- �\ I I 1 I l -'�-- ii- ' / 1 /\ I \\ •__/ , \ \III I ! , / I i \ \\ I \I \ I 1 \\ \\ \\ \\ ° -- / , °0- III IbIW-2426-----`____-_ ' I I -' �- f NOT FOR CONSTRUCTION /Ill I, \ / I I I I I 7 5 I / / \ \ \ \ ` \\\� \ \ \ \ \ \ I I \ - _ - \l \ /_ - / ' 1/ 1 I I -1� I 1 l \ 1 \ I I I \ \ \ / / \_ 11 - 1 /i / / / I ! I h 1 / ! \ I \ \ I I \ \ I I • A \ \ \ \ \ \ . - - - / / `_ -' , 1 \ \ X I \ ' ., lI ( 1 ,/ / , / / / h \ O \ O \ 1 I \ \ \\ \ \ \ \ \ __ __, / - / \ \ \ I.- / 1 I \ \ --'/ 1 --' ,/ / / , I. 1 1 I I \ O \ O \ I I \ \ \ 1`\\\\ �� �\\ \\ `\ _ / \ 1 \ ~q s�o ' 1.1 `/��/ I11 \ r- / I--, ///.//1� I 1 \ \ , \ \ \ \ . \. \`ii\ o \ \ _, / \_-I I \ \-- TITLE 1 / 1 \ , :/' ,I \ ` D TURBED 1 \ \ \ \ 1 I \ \ \ \ \ `�_, I / - n I ! I \ MV 202 -I------- _ �/ , \ _ I (, /�, 1 I I l , ./ - ISOIL BORROW AREA 11 4a ` __1 O \ ` \ e__/ / ,�,! 1 \ `\ `\ \ \\ A E`Q = 59 AC. I , 1 1 I , I z \\ \\\\ `/`�� _11 -' _' / /1 , 1 1-_`\ \ I \ •� ` \`I 1\\\ / !- 1 I \ ` \ ' I 1 ` \ ` I r , \ \ \ \ \ ` \ _______ -11 � // / -' - � _ . _ 1 -i liloe 11�, \`♦ I I l I� I 1 \ \III \ \ n \ , 1 ` ` \ 1 ` i { \ \ \ \. `---- 11-1 ,^` - / // / / / ! / //�, 1, 4 , \ \ \ \\ \ I \ \ \ \ I I 1 \ \ . ----- __ _ �� / � com BELEWS CREEK STEAM STATION •room� �`/v 1' '/I /\ o i \ \` \ \\ ' \ `\ \�\ i I .• `---_�� jc�� 100% DRAFT CLOSURE PLAN 1 •• - �, /,\ -.4 `�0 \\ `\\ \\I. \I \ill, \ �\ \ `\ �`,�\.I�- _ ____--- STOKES COUNTY, NORTH CAROLINA �1 �� N.C. ENGINEERING LICENSE NO. FOR ISSUED FOR REVIEW I \\\\ `\ N. / r \ / ��,►�� —' EXISTING CONDITIONS I F-0342 �♦ 1, \\ ,/ I 1\ \ \ `\ ,Pop—gwY ��,W� THIS AREA INTERPOLATED — ``� `%� i I \\\ \\\ ��C�--PITION ,L RO �� PROVIDEDFROM RFORIAL I INFORMATION E DE BELEWS SEAL MAGERY AND ..�.l�•e�� _ ������ r r, ONLY �� LAKE SCALE: 1" = 200' OE DUKE I oo —d�� _.._.._..�• IJE— \ � DWG TYPE: .DWG EXISTING CONDITIONS IN THI \ ♦ ` 0 - ' - � — • � • OF- — OE AREA INTERPOLATED FROM AERIAL IMAGERY AND • ��� OE OEJOB N0: 60432132 PROVIDED FOR INFORMQ OY •� •� ����d�-� APPROXIMATE LOCATION OEM •� -0E- ENEnKtC7w*\T1@ DATE: 7-7-16 LIMITS �F ••/ OF STREAM OE—OE� .. �0E—OE I FILENAME: SOIL BORROW AREA.DWG DISTURBANCE — OE — OE — OE — OE � / - / DWG SIZE DRAWING NO. •� — OF :AREA G CONDITIONS IN THIS QE . I AREA INTERPOLATED FROM I / ANSI D i � OE TRIAL IMAGERY AND PROVIDED I - 22.0°x34.0° BC-XXX-010 FOR INFORMATION ONLY I I 2 TENTHS I I 3 4 5 6 7 8 DES: CN DFTR : CLD CHKD: DM ENGR : CN APPD: KK REVISION I I I I I k BC-XXX-011 REV. A C ---- ---------- ---------- \ \ \ \ \ \ \ \ \\ \\ \ \; ♦\ \\ \\ \; \\ \ \\ �\ �s - ------- -— / \``��`\\`\`\` \� \�\ �\�\ \ --------------- ----- PROPOSED: \\``�: \\`� \ `�\ `\ — -665 — — — — _ --_ — STILLING- _'_-----------------__— BASIN:— -------- -- =65 PROPOSED:: �_ RIP RAP LINED—_ _ ;—''— ��\ 'OUTLET CHANNEL 5 _ _ _ Jill `-------- -- --- ro 640 L0 40 -- I Lo J / J ' / / / - / f/ ---650.-' /j _ _ `_ __ _-_-_--_-_-_-_----- \ r / _ —_— __ —__ / _ 655 -: '--'—'' —_---' _ _ ------- / / 780 770 760 750 740 730 720 710 700 690 680 670 660 650 640 630 620 C OCD I CD O I I 1 EXISTING GROUND / CREST EL. 770± \ c0 / \ O +� / \ r N zy— TOP OF WEIGHTED DOWNCHUTE (UNDER CONSTRUCTION) FILTER w DOWNCHUTE ENTRANCE TOP OF COVER / / TO BE REMOVED PROPOSED GRADE \ Cn — / / — \ \ WALL STRUCTURE / \ co mow +O +O I/Z77 \ OM — 3' RIP RAP (D50) Io - o 36' /I/ / OVER 9" BEDDING : co ': STILLING BASIN / m z DAM SECTION z BOTTOM OF V) w cn w o CHANNEL Dt°lo / i z U _ ~ P: U) w U) 0.0% w 9+00 10+00 700 690 0 680 Q > W J W 670 660 ' 0+00 CONCRETE DOWNCHUTE 4 1 FOUNDATION STRUCTURAL FILL 11 +00 I~ 20' �I I� 30' �I STATION (FT) A SECTION 011 NOT TO SCALE 12+00 WEIGHTED FILTER PROPOSED GRADE (UNDER CONSTRUCTION) 1+00 700 690 680 0 Q > W J W 670 ' 660 1+25 13+00 14+00 PROFILE 15+00 720 710 CONCRETE DOWNCHUTE 0 700 Q > W J W 680 ' - 0+00 FOUNDATION STRUCTURAL FILL 16+00 20' �I I� 30' �I STATION (FT) B SECTION 011 NOT TO SCALE PROPOSED /-4:1 (GRADE 1+00 17+00 720 710 ' 680 1+25 18+00 DRAFT NOT FOR CONSTRUCTION 780 770 760 750 740 730 720 710 700 690 680 670 660 650 640 630 620 19+00 NTERNAL WORKING, DRAFT 1, 1,NCQ NLY 0 30 60 90 GRAPHIC SCALE (IN FEET) EXISTING MINOR CONTOUR (2 FT) EXISTING MAJOR CONTOUR (10 FT) PROPOSED MINOR CONTOUR (2 FT) PROPOSED MAJOR CONTOUR (10 FT) NOTE 1. DOWNCHUTE DESIGN REPRESENTS PRELIMINARY HYDRAULIC CONVEYANCE SIZING FOR A 100-YR STORM EVENT. THIS DESIGN CONCEPT WILL BE FURTHER REFINED AND SUPPORTED BY STRUCTURAL AND GEOTECHNICAL CALCULATIONS PRIOR TO CONSTRUCTION. 2. FOR CHANNELS DETAILS SEE DRAWING NUMBER BC-XXX-027. 0 30 60 90 VERTICAL SCALE (IN FEET) 0 30 60 90 HORIZONTAL SCALE (IN FEET) TITLE DOWNCHUTE PLAN AND PROFILE AND SECTIONS BELEWS CREEK STEAM STATION 100% DRAFT CLOSURE PLAN STOKES COUNTY, NORTH CAROLINA N.C. ENGINEERING LICENSE NO. F-0342 FOR ISSUED FOR REVIEW SEAL DUKE SCALE: AS SHOWN DES: CN DWG TYPE :.DWG DFTR : CLD JOB NO: 60432132 CHKD: DM ENERGY® [DATE, 7-7-16 ENGR : CN FILENAME: DOWNCHUTE PLAN AND PROFILE.DWG APPD: KK DWG SIZE DRAWING NO. REVISION ANSI D 22.0"x34.0" BC-XXX-011 A m 0 1 2 3 1 TENTHS I 10 20 � 3 30 1 n 5 11 7 8 0 : C 9 0 1 2 3 / ' -31' 1 I // Illrll ` i�/%1 /% --%/i i� !1 ` I I 1 1\\` \\ If `\vIli \ \``TJ r1}1 \l\(Il\I\,\ \ (- `1 ` \1 J, 1 1 I I r /\\l\\\\�\\I\ , \\ / / `� / �/! — / I J AnW Ji 1p�y \l� l\i —�` j s �/ //lj7/ �1,\/ /,— .�\1\�l)),IJ/ J %���1\\�\m\♦ ♦1 11 I l \\ \` =��\\� ♦\ ♦ )i ) \ \((\ \ it til�i 1 I iiA. /,•�_'i�l/�r/ir t�'� \�•/��ti'{C���y>tv�+i/ /- __ = �__ 1\ \ \ — \\\\\ \ \ rmTIIf�//---�\\1'\l/ BG-1S/D/SB \ E/_J Illll' � co D �\\\`�� 11 , IIIII\/// / ) I //1J/J� I / , /'///i, / �— --��a\ 1 l I 1 1 I \ ` ❑ \ /'• —���� �'/;/'—\�'�(4��" ;,1 / /i/�i'll�=• WEIGHTED FILTER GRADES/ ! / r \ Q Ott 111'UND,ER 941 1j//IIII Kf11I�_` $'/' / II Il// ' / `J h06)A L LoI1 / / j... - i��rs/�y//____ �( �J '-JA---/I\�\\ ' !\r\A jI M`w/-101-S\D to / ' ' \\!\\\`\\\� — — JJ/ / / / ` i �/i `� S/�//'/^I l \ % / I 1/�I ♦/� `\ ; i I \\ \ MW-201 C \\ Iw /lo,: / GWA-10S/D—,,,..,, I o imp II \Ic\ I r 1 / 1\\� / 40 u2 IGWA-17S/D t 0 MW-204S/D GWA-16S/D 145 rII A l /r' 735MNJ � � 740 ��� \�\\ I\\l \ $Opp / / I/ I 1 ) I 1 / , l f \ •�I��_ —' / / ,, � ;III\\,/// / / / / / 1 I •� /// I I, /�\I , �� J !`I1/J%%/J/// l 1`--/ / /1r I'\�\ d/,�,I1f11\\\� N,�� /vI %�' I1�\ J il;l/ \+,10\\o `\\JJ >\I/�`'Ij \\\`\ `\ \\\ `\\ \\ j 1\\\ 11df ; 2 TENTHS 10 20 30 3 lop do I/ 400e' o/ /' do /' do // <<\� �\ 1 BG-2D/SB/BR 10, 0 'ill tilllb 1\\\\�I` /hill \\\\\ j r- I /uG� I o it : \ \�\\\\ `\ \ `\`oil — Im \ PINE HALL ROAD► I\a \\ J EMBANKMENT D (STOKE-116)1 le ,,/,/ f \ I,JI �Iii 1 1 J;// N ilk IF \s0`\� if 61 / .ry'// / / I�/ Iljll/JIIIII \1\11\\\ \\ \` \`♦ 1 I 1 I/II/\—J'llil / X � »/)if l! tJl� 1 ail\\\\ `�`,1\ 1\,\ (If,tfB i�;�ll / ASH BASIN lj } — N „( `\ " COMPLIANCE / BOUNDARY \ I fit `\ \\ 4 5 6 7 ac-xxx-mz REV. p INTERNAL WORM\4U DRAFT PROVIDED TO NCDEON 06/07/2018 FOR DISCUSSION PIPOSES ONLY P"=com SEAL N.C. ENGINEERING LICENSE NO. F-0342 1 r—/%r—A Ir% ASH BASIN WASTE BOUNDARY (APPROXIMATE) DUKE ENERGY PROPERTY BOUNDARY ASH BASIN COMPLIANCE BOUNDARY PINE HALL LANDFILL COMPLIANCE BOUNDARY EXISTING MINOR CONTOUR (5 FT) EXISTING MAJOR CONTOUR (25 FT) CONSTRUCTED MINOR CONTOUR (5 FT) CONSTRUCTED MAJOR CONTOUR (25 FT) NPDES OUTFALL LOCATION ASH BASIN (HDR, 2015) O COMPLIANCE GW MONITORING WELL OO GW MONITORING WELL ® VOLUNTARY GW MONITORING WELL PINE HALL ROAD LANDFILL ® GW MONITORING WELL STRUCTURAL FILL ® GW MONITORING WELL NOTE 1. BASIS OF BEARINGS: NC GRID NAD83/2011. ELEVATIONS ARE BASED ON NAVD88. 2. THIS ENVIRONMENTAL MONITORING PLAN SHOWS THE NPDES OUTFALL ASSOCIATED WITH THE ASH BASIN AND THE EXISTING MONITORING WELLS FOR THE ASH BASIN FOR THE ADJACENT PINE HALL ROAD LANDFILL AND THE STRUCTURAL FILL. THIS PLAN WILL BE UPDATED ONCE MONITORING PLANS FOR THE CLOSED ASH BASIN PER THE CCR RULE AND CAMA ARE DEVELOPED BY DUKE ENERGY. 3. MONITORING WELL AB -1S/D, AB-2S/D AND AB-3 S/D WILL BE ABANDONED AS PART OF CLOSURE PLAN. REFERENCE 1. ASH BASIN MONITORING WELLS PRESENTED IN THIS DRAWING ARE TAKEN FROM "COMPREHENSIVE SITE ASSESSMENT REPORT - BELEWS CREEK STEAM STATION ASH BASIN PREPARED BY HDR FOR DUKE _c— ENERGY AND SUBMITTED TO NCDEQ (NPDES PERMIT NO. NC0024406) ON SEPTEMBER 9, 2015. W n X 2. PINE HALL ROAD LANDFILL MONITORING WELLS PRESENTED IN THIS X DRAWING ARE TAKEN FROM "SEMIANNUAL GROUNDWATER X MONITORING REPORT - PINE HALL ROAD LANDFILL, PERMIT NO. 8503", p PREPARED BY HDR FOR DUKE ENERGY SUBMITTED TO NCDEQ ON N JUNE 25, 2015. 3. STRUCTURAL FILL MONITORING WELLS PRESENTED IN THIS DRAWING ARE TAKEN FROM "BELEWS CREEK STRUCTURAL CAP MONITORING WELL INSTALLATION REPORT" PREPARED BY MACTEC, DATED m FEBRUARY 8, 2011. 0 500 1000 1500 D GRAPHIC SCALE (IN FEET) TITLE DRAFT NOT FOR CONSTRUCTION ENVIRONMENTAL MONITORING PLAN BELEWS CREEK STEAM STATION 100% DRAFT CLOSURE PLAN STOKES COUNTY, NORTH CAROLINA FOR ISSUED FOR REVIEW DUKE ENPntm*w SCALE: 1" = 500' DWG TYPE:.DWG JOB 132 DATE::7-7-16 FILENAME: ENVIROMENTAL MONITOR PLAN.DWG DWG SIZE DRAWING NO. ANSI D 22.0"x34.0" BC-XXX-012 DES: CN DFTR : CLD CHKD: DM ENGR : CN APPD: KK REVISION 0 do/ —ap ;I 1 \` _\I \'i,,, \`\\� - �'J %I'/r'�// l\I``\\\ \\` \\11 1 1 /--,- / ` I I / /� r j/ I r/ice \\\\\\, / , !'-\--%lI11 / / / I I /',--- dip � 1. .; .---� \\\ III I.. /lll� \\= % / / /!� / / /I ; \ \ \ - - - % 1 �•� \\ �:/^ \\\\\\\\\\\ \ . /,� I \1 1 r_ /,/ // J/ /ll / I I \ \ `\ `--- ��-_, \ \\ --� \\'r -_\ 111111\ \\1\\\\ \-- '\ I I \` -Ill 11111 // ( \ `\; \ _ \ \ �-- �� 1\ j I (-1 111111 1\\1\\�\� \ I \V \\ Il \\ \\ 11 I I %1 1 1\ ♦ _\ \\ _ -- - `\ \\ \ \\ \\ r- \\ /r\ I I 1 \\1\\` \ 1 6' \\,\ <G1,r \\ \ )I1111t\\\\\ - -� \ \)'/ J r/ /) 1 1 1 1 I I 1 t. 1 \ � O \ � \_ III \ \ \ :---\\ / , / / / 1 0 1 I \ I 1 1 \ ,O I \\S \\\ \ ,/ I \' I \\\ \\ \--- -\ \ 1 / / . / /. / / / / I / \ III �\ \6%\\ �pj ���\\ \ (`-" �i, \ \\\ \\`----- -) ///// . /----", / , / / / \ I\\ `�\ ` cS\11'-`-�"`� �_ ---I \/�\\\\\\`-- _- IIf ,//// //'/'// ♦' i'/',' /' \`\\\� I \ \ �j\1�\\ r\ \. 111-=�_��``� _1-�` �,O \\�\_- % )/// !l / / // / / 1 V \\ \ \c�\ \ II 11♦ — _ - Via_ \ .� f r., J, / f CG / / \ \ \ \ I .--- \UJ ,/// �_ ,�\\% i \,)11 I I / �i/ '_ 1` \ ////%// I [�;� \ \�f1\`a\\\\I\�,\\ _- �)) ////// ///I%'//i' /'-__ ! l ` C . /-- 1 \�\\\\ 11\I /�//�/////l/I//Z//;,it/��5 ��\\\ \\\1 \\\` -�\ �i�iiii'i'/i''/'/'/ / I, - �` _ \,-` ,\\ ^"�°" i q 11 ,1//,/ .'1�/I l//J//1,- . _ __ \\\,\\�1\\\ `\ - - ��%'%///.,'/' //'/// �- -_-- 1 \ I \ -/ 11 1 `�1" Ili // I111\\�1 \p11j 1l II I / \ii��' -= \\ `\\\1\11 \\\\ �� N�/ /i j�i'i///I'/� / / -- _ _ -=--_--j�l \ \I \ I 1 I •an \\\iI /, 1 \\ 1\\\ IIII //ii'�_-_� \\\\\\\�\\\\\\\\\\ /r///1 ///ir//�ii'_'// '// //y�� -- -_-- )'/ I I 1 1 1 I I �J�� \\\\\Jiill(I �\\\�`-1�\11111111I1 //, -�- - \ \\\\\\\\\\\\\\ ) 41I11 1 /'// '/,'/'//'i / / L// -- `- %/"/ /1 1 % \ 1 I I ' /--``\ a I \\\\\� t 11 f 111 1111 1111 gy l' -�= --I` % 1 II`I II�\' �/%//,� lllIl l I I I I, / / //,�//,' �/' ,` ` I ` i''--__;'_-- _-_\-` ��= %I l l l 1 1 ` I J / \ \ ����\ 1.\,\\� \ rl \� (%Illllll\ %%' i'.' -, I / � jl 111, J- 1 111 1111II(i /////.''/' (' \ / /' � � / -7`/ice i�_�_�___,\_�1`\ 1 I\ 1 I I I II 1 j 1 / ``� \♦ `\ TEMPORARY DIVERSION DITCH 11 \ \ 1 \ / / / )// / / o / / / -; --'� _ \ % I I ( I ,, ` `• ` 1 \ \\\��� Itl� / \. IIIIIS � �i,i! -I I� //I/rr �� I �111� 1^1/pO��iNI \-_ ���_ Jj/iiiii' '- \` \\ 1 I I / \ J J ✓ J� 1 028 \�\�-- \11 / 1\\\\ y/, /// 1 / jl//// /I) . JliCO 1ZVINII Its\ �// - %'�- �i%/iij%/ /,'�/' �--- ==1/I I l I I \\ I I /--� \ '�sW, 1 % f � � ac-xxx-03 F+. p e INTERNAL WORKING, DRAFT e PROVIDED TO NCDEQ ON 06/07/2018 i � FOR DISCUSSION PURPOSF� ONLY -,,, r— —� I 4 '% \f /'/,. // .r:IL'- - .:z- /, /r /\\\� \`\ //� � \\\\ c\, 1 /-� \� \\\\\\� l,l. / I / ` LI^\\\I\ I \ \ \ \\�i-� / , 11\�\` \`_ , / \ l , /- / \ / I \� \///I ♦ �—\ \\\ \J/ / / "1 / / //r///,'/ 191/ '/lI 1 '� �`\ , = /-- — )'�i'i// / / , ♦/ / -/ // / \\\ / / 1 \`---/ / 1 \ —\_...\• - i \\\� _/// ,c\'r\_'—'' �\/ / / l/ / 11 / / ll l / l ll /// / \\\ N \ /—___ \ / \\\ / / I 1 l/l1I'r I l //IIII t \ 5'-- -i / /♦ / / / l / I \ �\ l`- \ \ J/ \/ / ♦ \ \\ , Il ri/1/ 1' /\ r`/-, / / I I \ \ \ �2i'_- _ //I 1 // / / ♦ / ,/' ' \\ \\\\ / 1 I/ / 1 I \ - //-\ ~ \ / _I / \ �-\ \ \ I -\\ \ s/ / -� /// - - - - \ \ ///-1--IX \ 11 / I \1\11�'// / 11 ////II/11\ \ \ ��%,,// / //III / I r _/ / \ \\\ \\ �` \�_/ 1/\- / / / 1 / \\\ 1 I I I l / / //'IIII 1 \ \� \ /// / c 1 1 I 1 1 / I I / / I ` \ \-- / /1 \ \_- / ♦\ -� N� r\_r \ \\\ 1 \� `/c \- /^`\ /// ^ 1t1 \\/,/�/' \\IIII Illlllll)fI I i1I\.! 1)I1 \\\\ \ \ 1 \ / ',i/7°°- --- 1 \\t\\\ \ \ I I \ I ( // I \ \ /J , / /\ -, N- _/ /'I\ --- / \ \\\\ \\\II - \-'\\ -'/ `/-\ 1 1/ // Ill j11 \//i/,//j I%1111I111111111N \. 1 /� /�'/i/J ��1�\\\\, ! '/ii' (33 % � \\\\`� \ I l--_ \ ` / /' \ `------'/\ \ / \ 1 \ I/i,\ _ �_ / - \ \ (l j1 \ \ \ \ ` I / -� ` / / I 1 11 1�� \\\ \ \ \ \ / �' Ill /l \/ / / ///1 //lllllllll\ \ / / \ \\ \\ \ \ \ 1 \ \ / / / / / ' ` i' - ' / '1 \ I I I/1/' \ \\\ \� - - \ \ \\ / - - / \ \ /'/ I I / /// //! ll\- �- � - \\, NI , \T\' \- It- �No i"/ " '\, \I v��� V:"NM - ,\ .�\=,-\ � h�:%�-/,-i\-, l II -q irq/ltio/ m I O-r ,I - ":-- �I;- ----I.�-,- .�I�,�;/\ . .. 11 ;r - -/-/�/ ;"/�-�- I -E-'---\-/:I*--o/-, /I- . b_ 1 1 \ I I / ♦/i,���/ / l \ t ) /'�, / 4J . / `\\ \ \ \ \\ 1 ,_'--\ \-- 8 _ _ / . , / // \----- l / / \ / �_ 1 \ \\ \ _rt I - 1 \ 1 ---� / / // I \ . / I if /c c \ / / / 1 \ , r __ \ \ / -- - / / / /\ \ - - I / ♦ - , / l I , W 1 \ l 1 \ f' /' / II 111 1)1 // 1I 1\1\\l\\\\I` \\\\ ` ~ 1 1 11 (I /r/ l / / ♦ J,/// ,/% �. /�/ / -^__ -_=\J I I I \_-' ,'-\ ` - ___ - %''// \ ` /'-' %-1 / / �_- /"\ \�- ` \ �_ \ ` \\...I. I \ I , I ) Ill I /' // OJ 1 I I Illllll\\AW, N i, II, I' IIII ' /�/-i%' ��?-// j'// ///,♦/� !/j�i /'----'' i/ 1 1 ,/=��,/ i `-_---'' '�/ ♦ '\� \�-,\ ♦/'-J/r / r_ r- \� \ \\\� � \\ /\_ 1 // ( I �l/ IJ/g /'/ ��' I I NII =tl\\\\\\\\\\\\\\\Il \1 \1\ ` `-'��� _-� fNY, ji/� / / s, r\ / -;_--- / r / /' '/ \\ \ % ,' / \ / 1 I'\ \ \ \:\ 1 1 SEDIMENT TRAP 12 / J I a/ ll / ♦ - j, ICI 0I 1 \\\\ vI\` \ \ \ : 1`\ I\1 I / /,, ♦ /, / 4J- ----- \_ - , / r \ \ S= - /.' .\r\_-4 1 I I ; 1 I 1 1 11IIIr-\` -" rl \ \ )///.�,.')I Il I \ \ \ \ , / // /1/ 1/l r ♦ / �11�II1Ill\ \ \\ \\\_-_/,// 1 /%�/ // /// / 1 / 1 \ \\ \--_---- ' '^~ 1 I \\ / 1 // \ \ \ \\ 1 028 - / / \ \ / / /// , j //JjIII�� / \y\�\\\-� '/lI/iii/ I / / - I 1 ---_ ---_/' -\ I 1 1 1/ 1 \ /�/ ; r/ \ \ \ / / 1 / \ \ l 1 I r / �� J' J r / / /.'• lI / / ♦ ' / // \ I I / I 1 11 I CLEARING AREA 111 I !I I \`' •// `- \ //_ J\(\\i r \ \ \- / -- �i' I /��l /l�/1�'\ \ \ \ \ \ r r 1 i r / / \ H "�\`ya.. q J' ��, //i�'/',i'_/ �j// // r/ /- c j_ I \ - .. 2I , x / - Z- I � I- —: � -,- - I, �L , � , : �\-- - � , ----_ / �, - � ----- / / / l I 1 `� \ / 11j 111 II\ \\I 1 \_- , \` 1' ' 1 \ \\\l\\\� � , \ I // I I / \\ +(\ ti_ --- /' -_ // /'i/Y /,`.'/ _// / / I r /♦ /\r I f \l �/ , �- I -, J , (SEE NOTE 6) r 111(11\\ \\ ( I ) rr/, - --\\ \ \ \ \_,---_ / I l , r \\ \; \ I r_ _-_�-. ',,rs/ / i /, / I / / ' I \\ i i \ 1 I \ \ \\- \ \\ �, i �\\ o. - \ ' /' /' / ', I I 1 \ 1 \\ \1\krl\%'\\\\\\ I J /// II( r \ \ \\ \ \ \ 1 �\ s,y�� - \J - ` �/, , \ / / 1 I I \ I\ I 11 \\\\\ ////// IIII IIJI \\\\ \ - \ \\ \ \ \ \ `\ / L -', _/, \ \_J , I \ \ - I I II\ \ /,/ i III 1 (r\\ \\ \\_)\\ \ \ \ \ \ - 1 - -1 [ / '` - _ \_/ 1\ ` I I ; \ I r/l /II L 11 I �\ \ \l \\ 1 I / t - \\_// - \ --- -_ \\ \\\\ --�- I c I ll I 1 1 Il1111"b ,\ 11 �'I t---_�lrllllll \\\\\`\\ J/ I'i1/ I; \\\\\- --/" \"-\-\-, t 1 I 1 1 II) 1N\I \\ _/, _ \ �I I \ \\ \ ♦ /// ♦ \ / / 1 ` \ \ \ - 1 \- �� I / , 111111 /1 I\\\ \-,i %\� \J III111 , \\- ' / /♦ \__, s� ` - '`-' \ - / / - , I1 I;u( 1\` it♦/ \\\ _I 1 ,) \` \\`\\ 1 \ \ - - I .- I I 1 I I n111 \ \� //---\\\ I II\�\\ \I !\ 1 II - _-\ 1 % /,---'//II ,III 1;\\\\ % , Ilfn\\\._. Jl l I \\``tIt\ \ \ \ 1, \ / / I \\\// \ \ �I / I �O 7 _ \\ ll Ji�'ii=____=_\� i�\`�.. 1)1 1\ \_ _/JII 0 \\\ `! 1 \ \\ I ' 2$ -- l //l/ - --- 1 J -- r/1 1 \\\ , \ \\ Of / ` = —, _ / //I Ili —_ _ _ \ \--- \ \ \ 1 Q 725 \) \ /// / ,,%' —�\ _ __/ — \\ /4j [--� l �`�� \\\� \\ \\ \ \\ \ \I \ 1 \ II -JII I 1 // , -\\ Ill 1,\ 1 f / `_.\\ \\ \ If \ II I \ \ \ / I 1 1 1 ` \-\ \\\`\ \\ II -. \\\-- -_- \ II I I ♦ / ♦ / / /- \M/\ \-\\I II \ 1\ \\\\ / 1 1 �\ / I l / ^\ \111 \ \ r 1 1 /' / / ! / I /i\ \ \ I \\ -' / 1 I l N \\�\\� - \ II \\\1 1 / / / / / I /♦/%1 \\ i f/' I I I \,-_i 11 I ` r. \\ \ fU�_ i i / ' / /' i_ /mil l (I f/ \ - -// � �/ \ / , / / r-/ r. II l 1 \1\\ I ` '/ \\�-X\„ / I 1 /' i / I // ice\`\\\ ,I i I 1 \\ \N\\ 1 It 1 1 \ r'' �/ / I ' ' / / / / ) \ \I I � \\ \ / I 1 \ \ \ ` \ /I 1\' 1 1/'// Il �z lI/sal ♦ / // , I / l\tl111\\\\\\__=i /J 1 \ \\ `\```\ I 1 �T 1/�'1 �y \� �/' / i / ' /'/-i -,' / IIIIll11 \�� \�- --/ \I \ -I`\ \ \ to >O // /i/,(( rr 1/ i/ /' I\%\ \ \ \\-- \ `� \ 1 \ \\ \ \ �\I Z I } I I , / ice' -- \ 1 \\ \ \ / I \ \ / / // .- I 1 1 \ - - - /--- I ' I' I i/♦' 1 J//1// S= / # / f f I\ I / 1 1 1 I \ 1 \\\ _ \ J /. - / / // / //,10" �(/ k/ / f X r /''r/' 11 I I ^\\ \ \\ i \\\\\` \ - -/ Ill 725 /I//j',/ �? / / ,l / �, /ff j/)I I 1 \ \\ \ \\\\�\ 1 / / /J / I //f, / / , l % , f r // I I f I / \ \ \ \ \ \\, — I - I ,/ � /' \ I - %I — I ( /I -IJ1 //I I I11 —j I- � e " I1 —) ^" 4 % I Of rOe'-I - :, ,1:' , I I) / J i " ,/ II, : Jd Z I I ,J / 11 ( / / / / r// // I I , ) / I / , , \ \ \ \ \ \ \\\ \ 11 / % ^ �, /i/i, �. ilf J , I1 / 1 1 1 l 1 \ \ \ \ , r-, 1 1 \ \ \ 11 zz - 1 `/ / / 1 11 --z - 1 - 1\ 1 / / J1 I 4 J%/ -`\ I % i �� i \\\\\\ \I \l ),);,J ))I 11 I \\ -\ \\\ \ -=< 1 I II �� f `, I ;�— _- —_� _� �',/! Q I, ; ,'/1 1�/ \, I t 1 ', /- - I 1 \ 1 l —'~ \ \\ \ — — \;_�" I /% --_ 0`SO I 11 _^ y- \'/,1/ % Q / / // j, 1 I 1 1 1 I Ir\'' i'-'i 1 \ , I I \ \ \ - \\__/-- I / \ /� 1, I ,� N) /, ,/ I / l i / O 1 I l \ \\� % J / \ 1 ► \\ \ \\ ) \ /`\- 1: L__ 1, '-- 1 I' 46 1 ,I /f / ��" r / / I I 1\ f\ I \ 1 t r \ --—m-- ' : l / 'l \ ! ' ' '� Il 1( 1 \ / / Q�/ / // \ Fa/ / / O / I I I \\\ \\\\ \� I \ \ 1 t \ \ \ I I \ / 1 / , , c / \ \ \ \\ \ \ 1 1 \ \_ ),-_/ /, /\ II, \J I111 �� \\//, / / , //// / [b/ 1 I 1\ \ \ 1 \ \ c3` 441) , . , O , / / f j, , I / \ 1 ( \ 11 i 1 \ \ \ \ \ ► 1 rf-\ � \-/ , ii //'-\\ 1 \ Ij (l ll - 1 , - Qj,/ / . / / ,/ I 1 l 1 / \ \ -\ [ / c 1 1 r'- / / //I /' / /// / % I ; 1,;►Il; liil \\\ \\\ \ \\ \\ 1 I I / I 1 -\�% \\) 1\ , , j // , l/, J is / )ll� / / / / % / /°f'�ri //h/' 111 1 1 \ I r /JII1 -'\ I \ \ 11 / / / , 1 , I \\\ /1'I* / / / //, / / / / / / / 1 I I( 1 1 I \ \ `\ `\ \. / \ I I11 , 1 I I \ 1 l rr\ I I1( % /' -- I \ / / l / / / / t - 1/l 1\ , -, \I r J I( \ \\ \ \ l / \ \ \ 7 SQ '�50 /� 1 �� \\ J// / / / / l /, // 11.E /' ( \--`\`` 1 l \ ' / J / / / 5 / \ \ \ I / 1 \ \ ` I l / / \ \ II r.- t r �� \ /// / /, �/ / . r J /, h ` \ 1 \ - / \ \\ \\ 1 11'-// % ,/ ,-\ \ \\\ \ t` - / / r 1 % rr-/-- � // / / 1 N-h /' / I ._/ J 1 ('J/l j 11 c,��/ ` r \\ I I, I \ -_'� /// \ \ - \\ • �J / fi \ / / ( I \ 1\ // 1 %% 11x 1\% \\ q \ \ IIII' r' //' / —__) 1 \ \\ — I I \ 1 ` `\`\/� _,' / i^ `—_ - I k :- _ — — ��\ \ 1\ �' / ,' / , f \--1 / r \—` 1 \\1 I \ ` \ \\_/ ,. /lt , \ 1 1 l / / / / \ 1 _---/ I J \ /— \\ � _ i / l \ _ — \\\ 1 I / , 1 \ — , \ \- - \ 1 \ 1 / , I f `\- LA\ ,/ ,- / , 1 \-- , \ - '-♦ \\ I / / I\ 1 -- `--- - - 1 \ \\ \\ \- / `\ / I /-\.� / ,/ --- 1� `- \ 1\ J/ I I , , I /' J, 11 I I- \ \1`\ I\\ \ -' / l II /' I rN`_-'/' /, �� 1 1 /, ♦ ' i l % ` i ., \ r , `\/' ) I ) I \ \ \I 1\/ / /// ' i /-,' / / ,�`\ `\ l -\\`\\ 1 c/ I`\` Il// I III \_. - ,/ ///' } / �I `\ 1\—\1 \\\ 1`\`\\ \I `;.r Ill I\ 1 I " 750 I\ / f' ♦/' //-// } }J .'J,/ I Iti`�\\ /I % l / / i1 \\\ J \ \ / /, \ \ \\ \ \ 1``-- / J' . J// / } r ,,-,//--` —r/ / \ \ \ _� I 111 \ ` IN \ �(\ \\ r` \\ \I`\\ ,\, / / /,' /,' / /, • r,i-i )%%)/,-I \1\\--- ,%�__''/�` //i'/I \ /' CHECK DAM 10 ' ` \\ : :'/'- / (/ J w/r -`/, \\ - /-'%i \ /I,� / ) / / / / / / t\//\ _ 1 J / v 1 1/ I_-____Z\r\ - \`_� _ /� /, _ _ -\\`I cS \ 028 / /','/ / / ' le- O --` %\ --.\ -- ' l \ l I ( I 1 l \�/' -\\ \�`,\ \ -\_/ '-•�/ � 11Ir I / / / to �r-��N , � _ - 1 \ I I L / - \ \\\ \ \ ', ,- --'% r_-f l Il(//''/GJO/` O ~ /�i �-`) \1\. �/ -i I /\ \, l IIll`\_=---\` ,i -i' / ,ice / 1 f I I f 1 d / / (' c\ \\ —/, 1 ` 1- \ / ` ._ _ \ X�� \ \`� v �i' 1 / -/— O --�-K.8"--<,/.-l: CONSTRUCTION ENTRANCE 828 \1 t �[ 1 I\ i1—I \ I f1'. 1 � \\\.1 r' _ '\\ f 1Ir rE/, �. - - , \ ` - - - - - - 1 / I , ^ * ' \,, =I C U - ' Z - ' - : :� -\ --=- \ \ -.z- - � z -- z - .- /- 7I . 1 �1 z : l ) /I, f / 1, 1II\lI Il I ,I 1 I / J / / / Oe ' .1 1 J I I I O f O fL I - I - -\ , ; II I \I \ N/I\ / \ 1 1 \ I - N - - I I I I I I I I I I I I I i 0 1 2 3 2 I I TENTHS � '1v l 12 7- .- 1/ 1 / -i� -- I \ 1 I r -\ t / n I� / / ,-- i ,' ,-, \ \1 1 / / I J') Illr °edi r \ \ ,.1\ t /l��_' \ �+ 11 `-/ I 1 // i \ 1 , / I r ----- • /. - ` -I \ _ / 11 -`\ - \ /I / r /(1l ,/ / \I% I 1 `\ \ /--) /i'- ®11 ' I illl Oa/ 1, irj-_\%\ I /� 1 // ..\\ \\ - / f \\ FYI I r / / ( /- I / \ 1 I ( 1 / \.f. 'JI �i// j i I \\ II/, /�(^\\ l�l/1I O\* (\r////r /l I'�-�/-\ \ In I ' I 1 ` / - `\ `� I I _ - - \\\ I / / \ )1 / I l 1 / / \ \ It I I 1�l'/ I \ \ / / 1 (1 / /// -\ I ` /// --\\\ I I J , I I /-\11 ` 1 I I \ 1 /7\ _ / \ 101 1. �i/♦ I \ //� \, \Il // / ,\ 11, / 1 III II ( / ,-- - 1 IU y- I ` ^ / o 'I r /)//// .,4e\- / -, ` \f 1 / .\ \\\ 111// / \ I �` ItII I 1 \1 1 I / \ , /-_ ) »tIL\\ \``\`- i ,/A _ _ Q 'i// / / / `�- 1 \\ / /,'\\\II\IJ�\ \ ` IIII /l,/ �//r\11 yll- 11 (\`,\` \ \ 1 III I I ,�' \`\\ \ 1 I__' \ \ \/ �(J iii/�/ // //---_ -- :6 --- 14 Ill / / \ tl, r� :r I \ \\ 1, l /, \ 1 \ \ \ \ -_/ 1 / -`-J I \ ^`L„ /-\ ) $ _ _-\`` / / J, � / //i//ilti- __;- "`\ 1\\IIt �I \(\ \\\r11 ram; 1 SI\\\I 11� / i \111i1 \\ r - `\i� 1 i i - / j'l� J /'♦,'/ ,/ '� -\ -\.- ll //'i'/ ) \\/11 /' I \ 11 III II ,\fill\t 8��tl111 J `\ 1 III I \ \ , /l \ 1, \\ \1 \\,\_I / /_JI •". I \\\\ \`\ Q / //' /' /, j' /�/j'�� — .Z - ---� \ \ \\\ ll // ' vI �' J Ir�����ilil�l i IJ''I I / -`\\'\ 1 I ' /_` I l I i/,� (, \ r\1 /// \ � /._ 1 f \\` \ / // // / / r - • --�-- ` \ \ \ I i I / // / / � 1 \ \ y / \ } 1 -1\ c\� (� /\ 11j411r1 1 I�I \ 1 � ,/ !'// % �/ / ♦♦/ /r/ - L - -- -\ --_ \�\\f rl/ ` I �\\.,I),-' I �`I� 11 1 //-- 11 I f / \`��\\ 1 /j j / \ jr1I 1 //,�/ 1`/; 1\ - B ')l�Ij m / /III)I 11)/ JI l //�/ //// /„---\- \--��� _ �\\sl j -�I// �J \\\\ ///,--\\I Ir \\`\\ /,\/ 11��1` r/ �/ -- \\ 1 1/ /\1 11 1/ 1 I111 "' ;Z,// rii'/i'/'iii�r-,`� -`- -< �` J /� �� `\`\ �1 t\ \ �^ /.'���^�\\\\\\\� 11 j ' _82\� 1I / 1/ �l V%\� �I/I J ' I / j\1 11l��/ �\ \\ a y I�1 / / I // 1 l I /,/�/,' j/ j// /,/�// -z \`-�- -- 1 � -- -/`\\\ I I ( 1 J,\`-\�__�� \ ` ' \\III\ � .r ll, /// J.\ 1/ / 1 I11\_%i'� / } �11j jl i1\ 1 ....»rc `__-- ,\ �. ////�/// I 1 \tII / i /,^/iJ♦ /�/i/' - - --> - ,:, `- \ \ I 1 \\ \\/) 1--_- \`N'i/ � iltl\\\\\IIlf11 \\\ \ \ )I_�// � ri ) --- I'I \1\\I \ / ' \ // /,/'// o/ \ \ 1 1 /, .// i i'i- J�♦� ,'---'\ - - - \--- -, \1 \ I 1 \ \ / I 11 / - -\\I 1 \)(; \\\\ \�_�' �' -' i'/ 1'' y-----')I 1' �\yN ♦\ ,/f ,�,, \a \ \_\� - ////i// ''J 11 1 1 )\I � Alit// lilt / 1' ,/ /i//!J� ' \\\ \\ � \\ ``i -� 1\`\ . 11 \I1 1 / J �1>�1 V //-; 1\\I� \\� j`\ ` --� \- . . ___ /I It` 111��\\ \-L &Se� r_-ter V''�" - . , l )I ,/ `;\ \ I III IIl11l i/�i j/iii---_- `\ \\ � \��' ` jt \`�I I 1--,-_ -- '/, ll \11 �i / /ems -\ - I II \ \\\\`\- --" - -K t t J/ ./ = / \ 1 1 \ d \ s ( rt lr ri d / / \� 1 /1 , 11l lI/r'. /// \ \ \ `-- ~ \\\� \ -7 J /// \ II �= / / / _ - _ 1 �11"I I 1 \ v/ -- - \ r+/ i J,), I J/Jr/1/o _ /�/ / / / -/ / /1l Ill /ii' ` `\ \\\ \�\\\\ t 1`. 1 i / ��'/ I =- - j /--'/I I II t\I \ -\ �'!• 1 • /�- ti c I ,7l J'% ^ /\'i'//,Ill elf /r /�F.t�s�c `\ \ \ \\\ \\\\\` 1\ `'\ 1 ' +irr' {�---'_-/%I /- ,�; �\ \i 1 \\I\���\` a-/'/'':,,800 `� / / / - �11 1 /I/ / / / ,l \ \ \ \`\ , \__--. i — �Y , /' ',— ---� . \���\\ _."+' 111� rr— 11 `„f'i�'IJ T / , / , PINE HALL\R�Ap \ \ - 1 '/„ " - A J � cl > � 11 / /4/1/ / / /i /l l / \ \ \ \ \ \ \\ - - ' --- 5 `., ��^ \ .\I - �` it -11\\\` .. \>�-----_ / ' / '-- � [ / , /i,/i/ /ii/% ,ll / A,$I`fLANDFtLI, �' \\\ \� � �_ i' � i`3 \`\\\ �\_ �`��\ `\ r [- / 1 fzJl I '// ///'///%/iii\/ /PERM�`T #8503' \ 1 / \;\v\\ 1 / /'')/ �r'� X� 1 /../ \ , \, \ t, i I _�_.. I / / I , , ,/// / ) / /�,�- \ ���� _X= > /�//�/ / \\\���/ f '��, l - - N.C. ENGINEERING LICENSE NO. - \ O l // / //,///l/''/iiii♦ / / ,,, /' / -i ?% \- ice'\ / ,- _ /i.-,i/ \ \\ i. I I I l' �i \) •I^20 1 // // I / / /// / ///♦ / / , ' /' / / / / '/ _r^'_` / 1 ` ll /!r/ CLOSED 1 \ Il r/ / /'�x I I / ` / 11'J/ //i //// ,, ,/ ,/// // � ,rl , IXI/ 1 I1 \\ / STRUCTURAL 11 Ili i11 I _' \ `bQ '/ /� '/ \ \ / / / / . / / /, l \\ / \ �/ //., : - 11/ //// \ I / \ \/// / ////// / ,,/ / / ,, !, _ /s- -` 11 , // / II r \� �1 \\ // / ///, /r\ l l / / III 1 ,- /,% / // ♦// / / SEAL `,'i rrI If ////// !�/ / t/ � � �' %/ / / / 1 / , / / ////'\ 1; / / /, I // \ 1 /f/// 'FILL /'__ -C�� /// / / // t. ,/ / ` ' /11 1( ,,I., 1 Ifl /� / _/ %/ a / / i// / �%1\1 //11 \ r �'�„ 1 l// ll�ll / II/1 ////�'llf �l 1-/// ,'//,�`_,' Y �" `J t / i I I / I _ , / \ \ J, /,/\\ \l1\�\ Itl, _�;�� i %-, �� • / , / l / ��_ // / //f^\\-,I\ / I I / 1 (IIII _ /f�0 ri �- / / \__- ' \ !„ ( - 1\I t _ %"-i , \ / / 1 / / //, // / // / I I 1 I 111 1 /i'7 -\- //,� / / / r__--' / �\\\\/II�J \11j11 ----�' �, _-- //fi , I \ 1 1 / /, I ''//111' I / / I //I Illllll // �\\/„ -r,/pry \ II/ / a �\'\ 111 / \\\\1\\\ 1��_��-' _ �'' �/ I I f I / 1 I / / 1 f �/,/J 11( r\ l/ /"/r'/11I/ )\ lit 1 1\1511111 /iii' - C�•!N�/�� `irr�l L / / f/fr__ AA ` \\\III \ 1 --/' �J% • - I / 1 ) / I I / /// // // ///�\\\ /// I r I1 1 IIII \I /re//ii ��`�/ir,'�. -___ _ /�/iV-0J/ / /` i \\\ II ` \\\�\__- '��'� I I CA I( r- //� n \`\ ////�jlll-- t \ ( 111\)1\//// /i/ \\` J, r //-- =�% i ../0.- / 1 I\v .'j \,\I\\ �'_�\\� / / yl��►//�-/'-\ I I I , /' / \ \ \\\\�![-�� \\\\\\\�-"//,II 1 \�11 4 11 1\\/,/ j/%'/i' �� \`\\J'//%f� �� ///1\\_ ' /, f- \ \ / s \ "---'' ��' s�-' l I / / / 1 \ \ \` -\� \ \ \\ -J/ //,/ 1 l l�l I lilt \\\/ / / / J \ \� \\ //� / _---_ _ / /Ir_- -'}. \\ \ �. ( r-r T r f f it-_' / -� 1 1 / r / .1 1 \ \ ``\ ` `\ `\�I\ \ �,/,I\` %1 / i 1 \\1\,\\ \ / // \�\� /I I/ / �/ 1 / - 1� /r-N /// I // 1-� 1 / / / \ / / i \ h / \ I\ \`-\ \ \ \\ �'\ \ 1 1 \ _♦/- / 1 I / I / pJ / / I 1 \ I \ , I \- \"\S \z /, - IIII \ �\ 1\� Jll! l /,// /'-` \�\\��\.11llJ r . ,-- I I I / II \\_/ J� / lr 1 /}i/ \ ` 0l1 h _, %//4�'/, f I rJ / / I\�\\\\� \. \ \\\ IIII, //' \ \�\`\JII 't\ X% I/ \/,I�I\-� /\ �i. ♦EC) �✓ \ 1 \ \� `-`I \ --\ I Gf) I I I I 1 _- ///� . / / / 0 / ! / / j'/ .'/'/ /III\\\� if \,\\I /',1� \\ \ 1\I \\�; /)I III( \Z\\ \\\ \\-IIII It\\ ✓%I \ ' / ) `--,rlfl \ \' 'i I CO I , / , / 1 \\l- 1 / \ \\\\ \\�\/ I I I f I rr/, r / / /// / i / - 11\ \ \ \ \\ l , r/ \_ / I 1 i \ \_`_ ♦ , / , ) 1 ' / / / /r/r///'J/r\\1 \\\ \ \ 1\ l t� \ \�\f 1 I \ \ \\\- I \ \l I \ //rrJ \\ /( /l \t\ \ / / SOIL BORROW AREA / // . ._ , II \ \` \\\ \ �; J 1 111 II\�\ \ `/, IIII \-%ll // I u \ r-I 1 ( '-\ \ `-__- J/ /, / . J I \\-�` ` -1f �• /// / 1 , \^� \\ \ ) \\ -_,- / 11111+\\ �' flll // I \ I I /, / ` \ .,1, )/,/� 1 I . I I / \ --_/ / / / , \ \ \ \\\-.�/,\J,1 J I 1 `1 \\ c- \- r�� l c\ �-�_r/ , /1 \ `� 11 I IN `\ / //i 1 I l l 1 1 \ - \ / 1 I , . SEE SHEET BC-XXX-010) 1 % I 1 \ I I\\\\�',\ IIII"/II\ ,\Z-�\ ���- //lt 1 iiF\`� /i/% I \_) \,✓ II 1 ,/ /'"/ /I 1 ) /- \ \ J /-- 1 I I\ \ \ / I 1 I I l I \ 1 \1 11�1\\\\II\�\�== , /ll\\\�� �= f)�I-, _�!f'�G \��l�i' - (t`- )\ \ /I 1Il I \ //// 10 20 30 3 4 5 6 7 LEGEND ASH BASIN WASTE BOUNDARY (APPROXIMATE) - - - _ EXISTING MINOR CONTOUR (2 FT) — — EXISTING MAJOR CONTOUR (10 FT) PROPOSED MINOR CONTOUR (2 FT) PROPOSED MAJOR CONTOUR (10 FT) CONSTRUCTION ENTRANCE (DETAIL 10/23) 1111111- CHECK DAM (NOTE 6) (DETAIL 8/23) NOTE 1. BASIS OF BEARINGS: NC GRID NAD83/2011. ELEVATIONS ARE BASED ON NAVD88. 2. THIS PLAN PRESENTS THE EROSION AND SEDIMENT CONTROL PLAN FOR THE OVERALL FINAL CONDITIONS IMMEDIATELY AFTER CLOSURE UNTIL STABILIZATION IS ACHIEVED AND LIMITED ELEMENTS OF THE EROSION AND SEDIMENT CONTROL PLAN OUTSIDE THE BASIN FOR CONSTRUCTION CONDITIONS. STORMWATER AND EROSION AND SEDIMENT CONTROL PHASING INSIDE THE BASIN WILL BE DEVELOPED PRIOR TO CONSTRUCTION. A SEPARATE DETAILED EROSION AND SEDIMENT CONTROL PLAN PERMIT APPLICATION WILL BE PREPARED PRIOR TO CONSTRUCTION. THE ASH BASIN IS A NPDES TREATMENT BASIN, ACTIVITIES INSIDE THE BASIN WILL NOT NEED A FORMAL EROSION AND SEDIMENT CONTROL PERMIT. 3. FINAL COVER GRADING TO BE SEEDED AND MULCHED IN ACCORDANCE WITH SEEDING SCHEDULE. 4. ONCE GRASS IS ESTABLISHED, REMOVE ALL TEMPORARY EROSION AND SEDIMENT CONTROLS FROM THE SITE. 5. APPROXIMATELY 50 FEET OF CLEARING OUTSIDE OF ASH BASIN BOUNDARY IS ASSUMED TO FACILITATE CONSTRUCTION. 6. FINAL COVER WILL LIKELY BE INSTALLED IN PHASES AND STABILIZED. FOR THE MAJORITY OF THE INSTALLATION THE ASH BASIN WILL FUNCTION AS THE SEDIMENT BASIN AND CHECK DAMS WILL ONLY BE PROVIDED AS NEEDED. 0 400 800 1200 GRAPHIC SCALE (IN FEET) DRAFT NOT FOR CONSTRUCTION TITLE EROSION AND SEDIMENT CONTROL (E&SC) PLAN BELEWS CREEK STEAM STATION 100% DRAFT CLOSURE PLAN STOKES COUNTY, NORTH CAROLINA FOR ISSUED FOR REVIEW DUKEDWG E7- N F RGY® SCALE: 1"=400' DES: CN TYPE :.DWG DFTR : CLD JOB NO: 60432132 CHKD: DM DATE. 7-7-16 ENGR : CN FILENAME: EROSION AND SEDIMENT.DWG APPD: KK DWG SIZE DRAWING NO. REVISION ANSI D 22.0"x34.0" BC-XXX-013 A INTERNAL WORKING DRAFT VIDE�D TO NCc&F_-Q ON 061EOOW 001 8 u \\C __`/'/'//',/ \ •'\C\\. ji/%'/ '7I'%'/// �' I N, I..r'..,1'1'l/,q/1101'1'1i11� \•� � / ��i� � �S' /i.�. ///,iii,/,.,..,- ./i/,/% � ��i'-�/' I �' III \ i / II11 I/, - "IN \\'\ ___�� �2p o i _�` � S.v' \\��� ��'i/iiinaa�-ter\�` ___ i-/__ \\ �C�z`\/%%! // // -� \�\ �`. • ////.,,/,� !rl 11II,1�� // / 11� I �"_ Ip// / /l,/lI //l IIII 11 ' l \\\� \\ -// 1" $ _=__'� __ _ ' '' , �j/////�,, / //,,/ /i'i/ /' % �'/' //i'i// ' I I \ `\`` \_'' ,/ / /, /IIII / / 'jl l , `_=_ / i �• ram` ��1, \ \\\�� -\\\ f \\����� //// \��//\\�_- / ,, -� \\ `�\`\j%////// \ \\\\�\\N' ,// /,'i// (llllll,/ l/ !1 /,' IN 1 / i 7//,/�� ,I,,l/I/IIII l \\\\ \\ \ �./ ♦ p% %/,/; /; /// //'/// %/ii'/i /i' / //' ' / / I I l , , �`__---' ♦ 1 / 1 \ I I _ - \\\ ``�♦/ //'i, _\\ v,A/r/'i/// III I r y / /i ///// l Ill 1\ \ \ \ \\ ,`//� - / rl/�(//j//////�/ / /'/ l // / ♦ ♦ / /// , ,/ , , 1 l\ \ \`\ \\ _,/ / / I 1 1 11 / /jl 11 l \\-----'%/, .\�`_`: s'� ♦ I I \ \\` \\\\ r'='_e``\\\\ /'/�r\ /^` �� // /� \ \\\\\\s,\+llf♦,/ , \\ 1t1 ly//-lllr, /„�'lI//�llll(I111\\\ \\\ / /////� ''' -i'//IIIII,! /I/r///,/ /�/ll If ( /// / ,' r / / \ \\� \ \ - /, /1/ll, / \I1, /i//%\ '-_` a I\_/// `\\\\\\\ ``1�=�`�_=_w�11�'r\\`\\ \ \\/',,,,,;•, �,1,1 a\�,,,,,/ ��\ \\\\,1,111„ , , ,Ill/:.,,/Il� II II,I(11111 \\ \ \\\ _ -', ,,,/, __�y� ' L _ \ --- /�\ DISCUSSION PURPOSES O L / \ \ \ \ \ / Scc//� 1111111II11t11!Il /, I I ' ' 1 / / / / / / ` \ \ ` 81O^ / / //,///\\\ \ ' /, \ - /\ / ` \\ \\� �> 1 I\ ��� \l\\� \ _ %_ _- -_ - lT \ \ /i /// J __ 11!l�:.\ /, / //_\\\\\\IIII /r N /,I/ IIIII \ \\ \\ \ \ /i/j///,= r.1 1 II IIII ( / I J \ \ \ \ -_/ �/ ///,// /- \�`�_-__ --- r /� 1 r / ` \\ \. 7 �\����� _/�\��^\\ \ - j//( \ \ \/ �i // / _ _ II 1•,� // , //- \ 1>7 III 11 1I�I , , I -,,1I/ JII11 \\\`\\\ \\ \\ \\ \ \ \\\ //i// / j IIII I I I / / ♦ \ \ \� --- ,- _// / / �/. \`\� - --- _/�ii\A 1 )/"\__� / -\ \\\ \\\ OS) ----�•;/\\=`\ --, ` ` / r'/� /// ,' , II \ /q�/,,// 11 II IIII11,1, II,I / 1 /f� /� �\ 1\\\ \Is -- \\\ \\ � \ , \ �/, /'% ,' 1 1 1 \ 11(\ , / / ( r -\\ \ `\ \-______-- / / ///Jj„ \�\ - __/i// \ \ , )I / Ir\_ . 1 �` i. ���` /�\= 1 ,\\ a \ - ` I/ / //„ // , - ,1 y �•,, •,, / / ]► ",IIII I� \ \ I /, ��/�/�,.�)\\\ \\ \\ \ / ,,, / WEIGHTED FILTER \.\\\\ \\\\ \ I I I \ \_-__-\_. \ - ///r/ / _ �__ -_=--' 9� l \ \ , , , _ , l ,III II 0 ., "�-�_,�_� .\\ \\\� _-// \ `--\ \ /// ////// ' / I , / / / 1 11! \� ) //%'/ ////� �11 1\ \\\ ,, , C \ \\ \ \ I I _ `- \\� ` ----- -/ , / //�,\ \ `\_-_--- ' ' 1 1 1/ 1 -\\ \ \ I I C\\ \` _-�\\\- _ //` - Ir i // / /i / Ir \ /// -1 /,//�/IIII \ �) - \ , / /i/iii/� �' /iJl 1 , 1 1 //l _� \ �`\`��`� �`\ "\\ \ I I 1 I \ \� -\ _`\� \__ _ /'/i% �/// /ii\\\\ ``-----__'/-\ / / / / / / 111 II I� lj ^\ \ \ s _ ,\\ \` , \ / / / f \, i/ //,//,/l 1\ \r / I //i/'iii' �'%11 \ 1 ,II \r//' ,� GRADES \\\ \\ \ \ \\ 11 I `__ \,`_ --''/ // \ // / / \ \ _ 11 i-_1\ , /� - ////�/i,�/ /„II �11 ` /, / \ 111 I ////,/� /ii/ -/ / I�\/ 11\_ I ,\\\ \ \11 /--' _ _ ///"%/�/,\\ -/_ /\ �jl//i// /,,/ 1 \ � �/1111111'l�ll(y_\\\11 \\�1\ "\`\\��N -J� ` 1 / / / 1 /// // \ \_� / 1l�If 1\\ l / /,,/ii/,i /, / /� \ \ \\ J 1 vi v 'vr' / _==z= ��\`����\\\� \ \111 111 1 ` / --�� \- - ____$OO-�'// //i/ii / \\`� �' / // - /r /// ,\\\\ ,__ , 111'11� 1 \\ IIII\IIII\\\\�`^, \_/g/ /// 11/ v �l' ` / l -i !I/ !l/�/////// / / J \ '%� / / /_ _--i- \\\\\\ 1 ,����__�� \\_ /'/ /%/�j/'/ \\`_ /,� -11/ �j/� / z'i// // \\\\___ _ O' \\! c�\\\\\\\\\I \\\�� \\�•\`���J/� 1� / ///// 1 / `/l,/jlI \ /,llllll\.. \N\ I // ii/ / / // 1 /// �9�///I�/,//j/jam///- __�__- -`__\ \ � III / \" �`�`_ _ _ /� / /\\ _ i / I / / / -_ice //_ O,\ _ \ \ \l_�� 1\\\\ J\l I i_ ✓/ / , / / , %, �11(ll 1/1 / 0 .'i // 1 I 1 \ \ 1 II 11111,0'/O O' ' ' / r-- / // /i // / //i // /______= =a� \1 111 // __ _ \`\\� \_ / / / II I 6 /IIII \ ( 11 1 1 I I / / /O !c` /%% /// /� ///// // �// �/ - - >>J' II ,III ( \ /// j��\` �____--- �iii�jj///,',�\\\`� - �/ / / //, / ��_�_/ `"\ -__/ O\` `����\\\\\\�� \�� �l�\\`jam\\\.-�_`- \ / / / //! Il , I tI111I11 IIII / 1- - ., rill IIII IIII 11 ,\ ♦\ 1 I Illl,lllla0,o) I O / / I\ .- 7 -��+ ice/ //'i/!i/''///%%/'ii,'////i= = _�/%// j /ll \�_i'ii�'- //,/�/\��\� �� O.-/i'- / , / /-/ .�\ '/ I� I i=- \ _ \\\` \ \`� \ \� \�- �\ \ \ \`\�/^�= ( / / / / 111'I I 1 II"ll, ll// �/ O, ,1/�//I/%I/111111I1�1, \\\� 1 I�11�\IIICO CO! I�l(/'� /y//,'r�``�� i /� O !!/.,..iG%/i/,�/// �� _____�i%%i%// /ii' r //// \� 79 -/ -i �',,/ 1 \\\� -1 + / 1'/= �\ ' `=`�` __\` \`\\\ _ \ \ l�\� // \/ , / I I 1 I 111 U// / �,� O / 1,/Ilfjlll \\\ I \\ 1 \ 1 ,If, l 1 \\_� ^�.yf�/„\\/ % , / O !iri //// ' _ / _ / , // �\ --- / _- \�_- / I I /__ \ \\ _ / ( 1 ' 1 l llllll ( ///// /�/ �// ll IIII 1111,II1 `\\\\\ l\\\�11\11�)\Ill IIII \ \ _ ��// \ `/ 1` O O/ i/ //�.% -- i//t /ii%-----///'%'i//��\\\��� - "/'i'i'i/�/ 1 .\\ _'//^ 021 11I , / IIII III/r,``\\/ \\`I \O , `�\``\`� \�_zz:-: ` ``'`\ /� / / i 1IIfI, r, / //'i/, //j,-.\7,OIIIIIIIII\l\\!� \. \u. \\,1�11,\\\ IIIII 1\ - "ii\\\ - (�� '�,�� �/JO' O% .'/� ///' `-ii%ice---/,�////r�\\`\�\�� 780�_'-/-i�// //J _-/(11 I 1 1 I rI 1I i \\\ /! 1\ I \ , \ \\\ t,.� -/ / / / ' I1 !�I / / /, ♦/-/ �^ ' O,y)l,\1 IIII 1 ��\ \\\\\\\\� _��/� � X j1111�f, r ,A/. �..'� //CO / O /, // /i/ - - , / / / Irj\\\\\ `� _ _-__ / / - \, IIII I , 1 I 1 Illll IIII11`r� \\\\` //'1\ \ 1� (�� \ ,, \\\ \ `.1//Y"/� �11,11111II \ _ I / / / , /,/ fl ///, /////�/��'��,/�Jr .i �+ 1 \,\\\\\��_-:-��i�, )i-J3sa�J,llJ111 Il ,/.'�/�'�/,,- t� �- /-/,//,- _ r a\\\� -/ I//V\✓;I 11 I IIII I /4/ 1 / / , �\< ( ////// //i/ , /,,/iJ A \ \ ��/i /i/�-/I/ II /. /i .1$ r ( // /i// - \ ` lI 1 I I I II \\�\\ _ //- _-, I / III 11 111 1 llllllllllll,\ \\�_--/i^,1, 1\ \\ \ \ . \\ \, Ji / ///Jj/i /I ' / / -/, // ! \ \\\ ///// / j% //ij- -,,., \\\\\`• - Ai'4i% //l,I / /„/ \ \__ ,j / -�' \ I I 1 1 „I\ 1 \� ��___�_ 770=;��/� \,\ I jr�; �.,� I IIII/ 11 �I 1 \ I\ /1-11I7.1t) r 1\ -I!W I' '? \\ ,- \`,-�/ i'/i' �fll�l a \ ('(' 'pi,/� 111\ ACTIVE PILLWAY RI ER --'/'-/ -- / / J \\\\\\ `\I //////�i/'// /i/i/' 015 ==i �ij/,./� ./ J i, / `\ \.�/// //' \ \ J I I II 1)� lI __----_ __\ \ 1 1 I(i - // // /►I II /1 IIII I ` //I/Ililil'I / III\\ 11/i Ill 90=�\\\ - /' �'\\\ \ 1\\rr\Ct fin' S S - ----1.1�,,_ -- 1 _ _ /%,/�--'/' \\\ \�\\`\\IIII (Ill /I/�lrr(/�l//, �r 66 �: �/ /%/'JJ' % �i�i' ///'// /_ _ 0'/%%'�'i^�\� 1 I I I ,ICI°Ill __ 760 '' \ \11 11�/,//1/ �� ,/I lIIl1I� I III I\� `\\ /l/l'T I,IrN I�\\\`-II(\\\\ _ \1\t�\\\ /r/ ����N\14\\ \\\\( 'tia INTAKE TR CT RE N- '/'----. \O21 /..1 \\ \\ \\\\\\\\\\�\\\l�l;(llll;l�i)I ✓,,;/J/,,��/� � 021 /, / a /,�_ �a,'//,��:- \I11 ,/r If/gl \ \\\/l'it, r,, ,l/11,1I II\1\\ \ /,,�Ihl�4 I�\u\\•\\ lljl':780 `l!U/I;I1) )'! "/,/-_.`\\`\ \" S U U \ / � 11 \\\\\\\\\\\\�\\\\\\\ ��.�.f//i�!ii -/ / I / - ///i,�/=___� 7 /�/j//// Ill ! t /// 1 11r /i III II! \ \ \ -�,1 // I / \\\�\\\\\ �\\ \ / , / I ��__�/ /// / / , / , \\\,II ) Ill I \ 1il / Id Ilr\\ `'11 1) / ' 'IIf/�,\\ \\ \\ �v S ii \ _ ) I \ `\\`\\�\\\\�\\\`\\\\ / - ��/i ( l l %i/////'' -__� \,� ,,,, , / \�I 1 \11J 11('/- l '� \ \\�'/'1l/ \ 1 IIII ll' I\ p I\ _ / N�/�%�//1111111M \\\\���I�r77Q/i /%/'/%\ II' 1 I /^ �\ \\\ ��`�\\`�� \\\ \) / / I !, \\\\\ \\\ \�\ \\ / P (�-/,//�/i,� \`\�\770/// / 'iii`I I I I / II / l 1 I 1 \ \ III /" ,\\\\ T'''`-- / / / 1 11\\\\�\\\��i'�\ 7OO / ���x` _ /%i'/ i ` � J �/ i // 111 Il / / / II \ riJ jl 11 \\ 11I I I11 \ p \ 11\\\\\\ \ I I////// \1 III6LIIIIIIII,/j,\ �\\\\`\ �``-\-\ r l b ` \ / ! 1 \ \\ \ \ 1 _ + ` - - �'/%y _ \� r �'" \1 /i/ III f \ \ \\ i / I ( / , 1 1\ \ / 1 1 I \ ., / /// 1 . II''Il,n \\ \\ \\ \\ __ ( ,\ - I 1 1 I \IIII /III(-1 // // 1I1111 t\\ \\\ \\\\\� 1 I III \ 1 \ I / / II !!' \\ \\\\\ ` N, \ \\ . - ( - -..- a _ - _ �: , - O , -JI%(/ _ ��_ - -�� - - - _ iii%/ir `-- 11 \ '%ri'i/ IIII \\\,,-/// llr/ i \` - /,� / 0 1/ r 1 II\\ \-\ \ \ I ! 111'III!,111 ` �J I // /�l,llll �11N111111111NIIIIIII/,\`\I\\�\�� `-.. \\\\ \ \\\1 'l L '/ \ \ \\\ �___---- -----_ - = �\ L-/ // / - `760i'ii/ III`\\-_, / II I \ \_='- // O / \ 1 1 \ _-- 111 I I111 /' 1 II)I II II ` \ \ \\\, 1 /-/i/ \\- /I I \\ \___-'� ,/ / \\ \>a\\ - IIIII IIIII \\\ / ! \=- III III,,\\\\\\\\\\J1 \1\\ ` / ' l ' == ' ASH BASIN DAM .::`_- '.'% - ��`-_%%' -' 1 Ill\ /r'I ,I \ - - /� , \ \\\\`\\O`,\ \ _ I I 11111.11jj1q `\\'111 l/ll, 1 `_--ii,ll 111 1 �\\\\Ix,I\\-111Io IIIII 1 � / I 1 / _ `��= -'' ~\ \ __- / I , \ -%/ /�%1 / I ` \� -- --- \� , '/ /,/ \ \ . �\ `� � --ii 1 , \ / • \, I I 1 IIII 1Il,III 11 \\ JI I/// I \\ -= JL�IIIIIIIII-111' I� / \\\� ��;\\� / /1, j1) I 1 11 /-/ -ram / - = / 1\ / '' 1 I I III I I \ ll��. I \ \ -/1/ // ' I /j,,- _ (STOKE-116) _- ` .� 111 �// 1 I 1 ,- l \ _ ___ _ _ \ `-/� If- ` \ 1\�\O \� : \ \ 'I I \ _:' I I II r I \ z. ' _1• 1' / \ I `\ `_ ;,! / 1 _ \ / \ Q. \\ \ ,.I��� -� -/_ \,\� I \ 11 ,,IIIIIIIIIIII,)IJ \1\\, II �' ��\11j1111i111y�1\(I/ \�\����`� /i __ _____ - -'/ \`-------- \\ -/, \ \ \ \\ �\ \�\\��+ �I \ ___ , , _`\ 1j1 _ ' I (IIIII II! li/ 1\ \\- �i'1I I 1 1 IIjQ� \ \,\__ I \ / _�=__tea 2II 1_ - I I \`-` /'�'% // / - - \ __ \ \�`\\\ \`-` '- I 11 \`\� , 'w�' -) 111111NIII1 : 1\\\ \ \\�\i1111111\\\\llllll \i''lI / ,J II �. r / --^_ ` �►.\� 1 1 ✓ / \ // ' JII II III t � I \\\ \ � �\ - _ _ - �' I I ( �.!-/- ♦ // ----- _ ` __ \ \ \ \ w� ��� ` \ 1 l\ \ \ / \llllll I1,1 y 1I\ tea\ \\` �//I'I1�I�1111 \\�`\ \ \ \ \ , I \` \\ / // J ,III I 1 \ / / I Ill \\\�\` )1 / \\\ ' \ 1 / -- �y ( `\ ili' _ _/ / , A \�_\� `- 111 l I `\ __// / / / / // / - i / 111 I !IN'1' A \\\\s'\ \�\`�\\-� /j/ I NI I `�\\ \1 \\ r _� / / 1 1 �/ / / ` \ \ - _ I' :: =' -_ ril ,l l 11 I �\ \\ _- / / III, I l�� �� 1111�II � ' � 1 1 \\ / l �t//1 I j� /',' / f / _ \\ \\ + : f + \ _ / - I/// // / � �_ �i// (l�a \`�a\\\`` llllll l \\`l�1 1 \ �V\ ;% / - + f I-- , / / - + _ +\ _ -- _ - - /lJ 1�1 \\\ \\ -J_' ,III' \Ni\`' \\ i \t\\\\ , i 3 / v/ /// ,/ I ��// /�lIl //"_ -�/ �� �" / / -r --- ~� \\ \\ /' 1 �" l `�� _� ( / cz> - + \� / \\�\\\ 1\`fit\ / /l _ ' i \ \ f - 7+0/ /iS_� - \ _ !!�__ Inc`- \�� __ = \/III\ \\ /' jj 1! /,�%�llj�llrl/ \ -_� \ `\ \ �� Q x% 1 - " '\�\� ` _ - I I II, ,//S --\\` _ `-"�r"=z -^'\ ' =�_/ _! 1 - _ ?0mm_��,11� `L��--,\\\\ T\\\ ,IY� - _ /" �/ ,/ �j'II IIII \ \\ r\_` �\ \\ 1 f - �' _ \ \ \ - 1, / I I I 1 I I I I I I f / /ij / i �� V_ \\\ �� -78� - \\\\ _v \�� - ` _�\ .�>_:� \ \\\ / / , I'll 1 =_ _ �p If9 0. ` _ ' / I �, /'�/ . - S \ / \. l 1 \. n/ / 1 - -�\� �/ / 2 - ` _` ! ► I 1 11111'll'l1 % \ H , / ' ate\\` / \ - \ \I III l /./ /,/ /1 !) _ \ \\\` O , i . / ' \ - `\ D. ' - 1 1 1 I \ /� i / / /i% �\ --_ �`\a� 1 \\�\\\ ,\ ,` `,,� 1 I -,\ I /, \ - _ ,\ __ \\ l/1I r 9wL / / / / - ` / / l \ \1\1 l\ / / ` 790-- \ Ill -_ \\\ 1�8 �\,Z, lal I I �\ / / / / ' / / � \ \\\ 1 I =�-_ I // , _ \\\ 11 \ I , \\ \ \\ \ !III 1 019 _i=^\\ i , / / ��' 73 _ �O' �/ / / \ 11,1 II �,P<Jk �,> \\I \ // ^ r _ \\\\ II / 1 \ ` / /// \ \\\ \• \ IIII 1 / l / - `_� \ / ` �i'J- �a �/ / _� I I I \ \\ \ __ \ -\ \ v 1 \ / \\\ \,\\ 1\I 1 \ \ \ / \ Ill! I I � � \ // \ \\\ IIII ► 1 J'rl \\ 1 l \ \ _ ' `�'' /''/ Cn ``\\`\\\ "\ ! ( + - - ,/ ++�` /�' II / \ � ` , I I // // r /// 1 / //// \\ \ \ \\ lIl \\ �\\\; 1/1 \\\ , /- ll \\ \\i \ I I 1 I + , 40 0 \ / , , //� I / 1 \ III 1 \ \ / , + 7 . / / . 1 .. / / / ' � _ \ _� : -/ I \ ; I I . O \ \\\\ J \\ / / i, / / / L \ i\\ \ \ 1) 111\ \\ II - II / I � /---o-- / ' // - / / -�/ /// _ l / i, I u \\ \ \ \ I \\ � I l 1 / / / /%%�/ l \ 11 `IIII f j! � �f i li� \\ :� 1 II l bo / / / t / / •� /----�,�/ll , �-� , / / �\\\ \\ / \ / ! l / 1/ l� , I I \ /I I I 1 \ / / _/^��,1 11 / , 1 _-/ // '/ 1 /, \�\►���`�"\ �` I /-r_\ \ \\ill l 1 / / / ,/i ♦ /r // `- 1 I\I III II 1 , I 1,1 I / \ z / _ \ I / /, I I 1 /lI /11 I I(� 1 1 l 1 ' ♦' / /'' /�/ �i/%// I / 1 1 1 1 cI �/, •, /' '' / - '' i /i/�/ - - /- I j _ � \ � \ 11\`% l!I \\' `� / / \ \\\\\ /, I / / / // �' / / - 11I I I I Il III \ I 1 I\ .`_` / / / /''/ % //, // �� �/ _ _ J / - _/ 1 I I \ \ \ / I 0 1 / / / / \ - // ///llllll\ I / // I l ' /'�\ 1 i �\ 1 / -\ /1 / / / / \ ,/,,I,llll, / III ! // //,/ 1 /j ,, // /, 1 C I C I \\\; \(\t\\, / 1 �/ •'�. -, •� / , \ \ f. // ' / /,//// , / /�-__�, / /rll I llf /I/// / /4 7 y I /I l -- ♦ / 11 I , 1 / IIII / / / / / / /♦ .' -/.' + : ASH BASIN -/ - ,-'� _\ \ \_-- // ____. I Z! \,\\� \\ \ / r//rr �` ^ 1 1 \ I,I I / I r 1 l I r/ '/ ' / // / 1 I II r \\II(� I / //,//rr,//, /,/,, \ _ /`\\\�\\- /i//I / --__ I \\ !!"\\�-�,- �jl/////// 6 11 , //11 / r 11/ I // /111/ _�,\\� ////,///II IIIIIIII11Ili I1 j u\\�1\'1\ -1 I 1 / rr,%ii'/' / ) `-J \- --' , --- -- I I \ c , \ �/ / O21 J -- \ 1a\ I ! 1/,-/' %i- /iii'♦' //I f r I \�kA 7 7 -- �7- 7 -4 0 _�'-- _- _ \- 1 \ \ 1 ' I , 1 ///!%// a`:�\\ /!, `I>' 1 1 ) / %/// I / l �,\\`--_ � - I \\ I 1 \\\\\/•.,111 11 J// r // / l I lirr \\\\\\__ / 1 \ \ \ \ \ \ \ `N III ♦ /i/// / / - I If \ - -- - ` 1 \ G �/ // \\ \ 4/j/l I 1 / //"'; 1 / / I I I\, ,\ Ilp^ \\\\\ / i / / l I \\ \\ \ \ / I 1 \\\I II\ (r ' -- \ \ 1 � l - - _1 �1 \ \ r � ` % �� // I 1 r r 1 . 1 \\\\ \_---'- -/ \- , U I \\\ 1 1 / /// /_ / /-__ \, \ I O18 / I \/ / ♦ / , / / / / 1 Q\\\ - ,, / 1 \\ \ \\_ - \ / / I 1 1\ I1 ) / \ \ \ \\ - t 1 -- _ _ �_1 \ , , / I \\\Iff �J /) / 1 / 1 , ♦ //, , / / / I ` \\- \---' / ' /) \ , � --\`\ \ `v _ _ I / / / / /�- / \\ \ �1 -`\ \ II\ \ \\\\\1 /// /- , \ i OM% ' \ '''�/1 / r / / ---' /--_- J \ ' / I ♦ I`//'/ /// � ////11/� I 1 11 11 1 /� _ -/,'Ill \\ \�\\ ;` _%ii--'// 1 ) 1 \ _"Z\ \\ \ \ \\\\ \, ,\ \ 1, / / 11 \ 1 O _ / o / 7 \ \ 1 + / l // '�\ / / 1 /J% ' _/ /I l \ - / / \\\\\ II \ , \ \` \`\\\�\ \' 1I1!/I/ // ,/ ,i I I I 1 N ' f 1'/� i /' ` / 40 \ + + I //1!/ , I \ / ) , //�// ///� ` _ _ 1 I \\ \ �\� -_- -%ii' /' /-' \ \ I _ ,_I \\\\\\� II II / // ,, / / 1 1 ,� + + / l , / %//�r///� jlll( 1 \� I ///i//,/�^/i_=---'1'1\I\ )\ `\\- -/'/-- - - \1 \II ,- _ - \ \ \\\ ! - L'. l I I / ,iii /- I / /, --' ll I I I l / \� \\\` \\ 1 + ♦ ,,/ + O \ / / , /'_ �\ 1 / / , -''_ _ cam_\-- \\ \ , /' / / g/,v7//// A �/ //% 111 I 1 \ 1I I/J///� //// /ii-_--=___� _/ , 1 1 I ==- / J------_ / I I a \ \ \\ 1 \ , I / // / /iii I /� //- -� , - - -"- - ---- \ I / / ////� ///� q J l l , , /J//,//� �j,,/-_ \ 1 \ \ �\ - / /i1- �--1-- ----/IIII Il , /--_ 1 1/ i ////, ' -// %/i /i♦/ I -� C-` I 11 I - s�.a - ` ` \ / / / /ljl�j//a//// = I I I /r///�/1! r//////_ _ -\ \ \ a\\\\ �� `\'' ,- Jri__ -_"/ I / \ill!/,I'll, / /,/!.:%ii'/-��`1�/�I 1 / I 1 \ `\\\ / '/' 'iSS' - \ \ ,\ f I / / r/r///�//1/ fi/ III I 1 //// „/Ill, l /r-__ \ \\ \\ 1 �aaa�$�\�-//� �__-_-�-/ _ �/ I 1 / / ♦ , r 730 / / _ \ \ ; /J r `^ ,/ 1 1 //r / /r I _ , `� - , - r ! //,/,♦ / .//y ,? o I \ 1 \ \ \ / / .! / , i / +� , /'i/ III - \\ 1 \ \\ ��`_-'' r __ I /lp-, /,//,/; C,O ./ 1 / n ( / l Ill I // \ 1 \ I\\\\ \\ ./ �_ I / //� \ 1 / / i`a pia/ / / /// ►!f 1 1 \ \�" �_ , . c=== 11////' e / -. 0 1 1 11 i / _\ f 1 / / / /�////// �� / /I1 ) / /'Ji''////'�//!! II'I II /' _�\ \ \ I\\ r\\1\\ `�\E�/ �``-�'_' / / l ♦ l %'' Ill /// /'� ///, , \ /, / 1 I f / 13� . 740 \ \ I \ I / /�// ll L* 01 // 1 j// / - /fr iii'/ i / Ill l l l l I I /- ``\\\ \\\\ J 1 \ \\\ - . \ \ \ L/j///ay//// 1 ^ / / 1 I1// i i 1 /r11j?',-- - "/IiI/ I 1 l 1 / -- 1% \\ \ \ I \\ \Nv,\\\\\� I/ / -' i//IIIII!lIl/' ��//- - /j/ _ / ' \ / �>' /'� , \ 1 / �/ 4 r II / /�� a/� / 1 \ \ \\\\ - „i \ \\ ( f\ / /// i///r� 1 I , , r111 / 1 i! ii1) : ,, I I 1 1 ' 1 , \ \ \\\ \ \ 1 \ \ : \\\\�. . I� t i i/,�/ // zl ""11 , , , \ /l, / _ _ _ \ 1 / // d///i A `� ^ l 1 i r /\ \ \ \ \ \\\\ \\ r / I / /„ ��/1�� ��/ III, - I r I,1 / - / - ,10 \ _ - - \ / 4 // /, j I I / r'/ l I r / // / / 1 / / \` \ \ \ \ \ \ \ "\ i. ,I , I I / - -i \ / / / I // /% I I I l l l / \\ \1 I' *1_ � ��, _ , II / \ I \\ !%/ % . .�� J F \ \ I / /// �. �/ �/ 1 r 1 111 i J 1 / r l \ (� / ♦ / r , \ 1 \ \ \ \ \ `:\\ nz-> \ ,_ l /♦ ) \I 1 \\ \ \ 1 \ \\ \\ - ' , ' �/' ' /% O17 \\� / _ /1 ' r %/ 4M�// /\ 1 // / 1�1 j1 IIII II `\\` \ r' \_ r a `11 `1 i 1\ \ \ \\ \ \ \ `-��\ / + , � 1 1 /,IIII %/) / 111 I 1 II \\\\\\\ `\ -\ � \ I /,\1 \ I I ,I \ \ \ \ \` �\ / /f// )II Il I \ - O / / / // _ - - 11 f // - �' �/ /r�/1////1/ IIII\ \ \ \\\\\��\\\\ \- \ \\ \11 II \ \ , \\ \ \ \\\\\ - - \'\ \__/ F // // �\ 1 1 II I1 1 /i / a ///ra//// r \ / l / / / /l \ \\ \ \11\ \,\ Ir II I \ 1 \ \\ \\\ \ � \\ / ` _ � -__ � /, ) \ / ///// / \\ \ \� \\ \\\\\\\ \ \ \ \ 1 II II.. I I \ \ \ \ \ \\\\\\`,�\-- � ` \ I 1 // y.� / / / \�\� / II \ ♦ / , / / t =� - \ \(ll//l/�//�// r 1^��\ �/ J// ////� \ 1\\\\ \\�\\\\\, \\ \ \, \ 11 III IIIII 111 \ \ \ ) \\ , \ \ �_ M� /// / o / / //,// //J1/ I1\ \\\� \ \\ \\1 \A / , / 1 111 1I1 \ 1 \ \ `�"a V17 11l /// I II I ♦ / // 7,c �- �� _.I( -- \, // 4////� \ \ \ \\\ \ \ II 1 - \ \ \-` 1\\ / // \ 11 \ I11 1 _ \� \ \\\ \ \\\�,�_ 1 I/ / %r�//l/ - /' 1 11 / ♦ ♦ / ♦ + + '1MI II/IIJ Via_ - _ /rrAI / / j Q, 1 ,J///% IJ/% I I \, \I\IIII \% %///�,j///'/i///l//t\111j111111 1 \ \ ,� `\ \\\\ \ - _ _- I t I 1, //, %,/ / / + + 0 75O f1,' I1 __ i%///M�// 1 11 /%, r1 III// \ , 1 I ////,r///�-/�/�// IIII 11\ \ \ _ -\ \\\\\ \- =-__�\ /_- I I f / f + --- + / 1 / / / , - ' 0 j //ii' o o I, �- T/ �_��� /,/ / t� 1r // 1J r, / /Y/ I 1 I I I I I I l//,i/,i ///,,� �i//I / I /111 1 \ 1 \ f'- \� \ \\ \ \ \ \ _ _ 1 l I _ 1 // //N�// / / / / I I / 1 I 1 _ -- - I �/ _^ -- I II 1 III,/// // `�Ss� , // /// , /1 - / �/1 I'll I --- ill`li���//r�/// �/ // // r,/11 �j 1 I I 1 11111111!''//�.��//�/%ii��- /„ llllll 1 1 - \ 1 \ I \ \ \ \ \ -\\ _ /i__-- 1 /1 /,//�;=-- =11 I /// // %/ // / �. r r, IIIII I rylll�`~`�I/ 1% ///,� r/j /l/// , Illllll IIf/�/,I�j,1111)I��/�i'� /i%�\\111\1\1I1\ 1 II 1 1 1 , \\ \ \ \ \ _ \\� _- _ I \-/ I j1/ //• / //-_ ' .\ I ' f �l /// / /� I I 1 / \ \ \\ \/ / 111 1\ 1\\\1 1 1 1 l 1 \ \ \\ (l 1) l \ N, - ; _ _ 7/% / / /,,/, - \ ) IIII 'r,� / / cJ� r\ A. I r1 , \\� a/// / / /, // , ,II II III 11 \v1\I((/t/ �, II111\1 11 \ \ \\l\\1 \ \\► %/ \\ I ► // O 'x /'- , 1/I lly , \ // i f ( //l , / //l, III \\\\ l \ c-. e 1 \ \ \ \ \ _- : 4i-__-__ 111 %�i-`�\ li II/,/ / I / , _, / Ill' ' Ijl \ ///O/// / / // I 1 1 \ /�% / / / /' III 1 \ I \-, \ \ \\ t / II \ \ \ \\\ // ,/ 11 I _- ill // / //' _ -,11 11 /:/ I 1 J \, I I ► I I \ \ + , / , / / // I 1 \\ \\ \\ `\ 1 \\ 1 � \\ `\ \\ \\ `\ \ IIIII I l /�,- - _-- 1 / !, / // // S \1 1 / J l / / /, / I I I f I \ \ \\ \\\\\\\� \� \\\ ) I \ 1 \� 11 ► 1 \ 1 1 1 /� v I , , 0 __ \ fT) \\ �c-. /_. -; IIPI-, I ".1. -I, I z / I ! % 'I \I % " % I I, I I - - _ I " - - 1I - f,1� \ /l , N/ ( I I l „l l %1/ / / '-, \\ I III//// / . / / /�� �.v�� �/ I 1 I ��" !I 1 \. 1/ //1/ LL // // O T ` a ! // I .,/ r / / / 1 , I I \ \ \\\\ \\ \ \\ \\ 11 \ \\\\ \11 1 1 \ \ 1 It Ill / r._ S_---\\\\ ////i = j/ f 't //Ill(/ //--,\11111111111 �� /, = ,�� 74 I �'"� �� fl/a \\1\)�/�//� ^ ///t //// O /,�c� /�//Ill `� ////,/////,II 1I11111if11\\"�\\I\\1i \\\II)\\\\\I\\\ l\.\`\`\ \ `\/ I'II141(ll//ram\\`�\ ���- r/ /� �. 1 1 / / / „ %4 O - =�� ,III r\ \ /// / / / )` u, 11 1 11 \ 11 111 '� al \ I \ \ 1 I 1111 \, // /i/- / /// / /'\\11 \I\\\\\ / ,. /i Q 1✓ /// // / // ! / / / / / 11 11 III 11 III I` 111 \ \\ \\ , \ „ I I/ \\\ \\_J=`\\\-/ I //i,ii�at( / - ,/i , / ///_ I \\ \\ II / /, / / /' - ��_-t f11 I_ -ice /// / /J // // / , / / / C� __/ /%/ // / / 1 ' 1 I I j11111\I Il,l 1 /,ll„IIIII U\ 1 \ \\\\� \ \ O \ \ \ „ I 1 I r^ �\� �i^\\\� I l//cam_ /, //// /, , \ 11111,1//%iG\ 11I // /// / �� _ /� /// // // // / / / / t\ - / / /, , , I 'r / lI I ,111 I/, I l// I I I �1\ \\� \ \ \ \ `` III 1 )IIIII, . \` /, \\\ \``-- - �\ 1 1 I / / /// r // ///1 ' /%/ / l I l / / / E = ', r\'1 // / // // / , / / cb ,/ , / / / ll, / /' 111N II/,/l ,I I \\\\\ �\ \Cf `\ \ \\ \ \ \\ \4/ 11 II 11 //-'�' 11/r�`\111111I'' \ \\,\� `\\ \\ 111, 11 / / ,/ �/ �,, , /\ //� / / / 1 ' f - 1 / /// /O jII 4 /\- / /%/ // I / / / % /' / // 1 / I / / // /i / /V/ 11),1//l/,1'I, I d ^I \\ O \ \ \ I " 1, I II \ \ \ 1 111 / // I. /✓ h 017 I'/, I /// /// I , r/ //,//ii / / o , / / „ /,, /J,ry�n (11 r/I„1, v I d \ ,N\` \ `-_ \ IIIII l uli/ )Ill \ul I! I / / , l( / I / // f 1��-� \ , \ 11 IIII 1 /j/ ,• /i,/ / \ l i _ 1 / // / /// / / O / / / / / // // , III I 1l� f M N\\11 \\ \ \\ \11 I II/ /i,1 \IIII \\\\`\I ,I,I,l1, 11\// / ,/, /♦/� 1 E `I l t\\\�\ IIII ll // �"'o ^ i Ill_ �= _-�� lflilll \ 1/ //'-' /� f ,-'.(b/ , / / /////////1/III�II��I�//,lrl fly\\ \\\\ \,- \_ \11 , ; l\\I1�liliiu��:/'.�/►/v")\ \\`\)\I11�111'jlllll Ili%/ //�/ /I� , /% l I \'; I \�\\ \ `\` !Ill IrI, ____ /y� ♦ i / ) "1 \\\ \� , I \ 1 // l \ / / / \ 017 //)// 1 \ \ l (1 I ____ ==-�� , 1, 1 �i Q �/ /i r//:' :i / i / , o / �, �// /i/i, MINA\,\o o i 1 \� `I\1 \ \ 1 J ' (IIIII / ,' _ I , / O / / ) / l // II I I \ /q \ \ \ Il ll II' 11111 \/ �// // / / / / \ Ir %I ( _` \ \\ \ /i / 11 0 --r� 1-`-_� ��__- 111 �4 ! %/ rA // / l // / // / //i' // iN♦ ♦ O I 1 1 1 11((( J/1\' I' _ ; \ \\ \\ \ `-\\ I \ 1 ) \,�II�/�/Ir/ , , ` V / 1. 1-ICI I \\ \\ \\\\ 111 \ 1/ I(/ Ir\I11 / \ 1 11 11 I I I 1 / / / / / + \ \.��-sue �+� 11 p I //// // // , ( /'/-', /' / /Q� , I Ir lIr O , '!1 I \ \ \`-'\ 1 \ 1 11 11 l 11 \ \ / 1 / /^ ll 11I1�\\� - \�\\ \ \\�/� ''//l1 + + + z-- o '-/ -- = ` it /l,l , �: O /J/ , /// / / /, / �- � "'." r �fr0, I h/�r/ /II 1 1�\ \\\\\ \I 1 ( JlI,/ll II \I�((' \ \\ 1 / i o-' =m; zr =__� 1 .. ,/ ///// /// / //� O // 11 \- \\\\\_=\ll Ir _// /1` \ \\I II\\�\\\Illtl J�)\\\\ I / / / `\\\+ + - \ p \ /� ---- �// \\�U/Ill,, 1 k tA/ // l////// 1 / / // -/ / I //� 1 \ \\` \\IIII\ l\ -/%// \\ \ \ 11 / / / ^ \ \� - \ /�z�i% / I r_ i // / // // // 1 /-' /'/ / /%/,/ l�r CO'i. , ////l IIII \ \` \`\- \1 \ / \\\1\\\\\\\\ \\\\\\ I JI,I,III'/ /1 ! r . \ \\\ \`\ \�\\(111 \� i'�=-0-_'i \ 1 + /' / _ \-'^%JJrr'- ^' l\- 11 \ / / r7` / �l\ /� �// //// ///// /\/.��/// / r l/ / - / I r / JI�1yfi %I/III Ill \;`�\1 llllll(\ \ �% \\ \ \\ 1\\ /1�=i 1 \ \\ \\\ \\ ` 111\L \__-' _-.- / 1 / / I \_/ / / -_' / \`_ (\\ / 1l// l r // %/� / / 11 ♦ / -- r I I �- /i/• I,f// / \ \_ �// i \` \\\ \\ ,111\\ 1/z /i„ / / / / \ \\\ \\\ \ 111 `�_\\ _-- _---\ 1 / _ - - � 1 r\II�/ , 1 , I l -\ \\\ // ////�/ f'> /a r / ////r/- , /,\_- III 1 /// ///'l,llrJf/l I \ , \I llllll \_ / \ \\ ,I 11,1 111,1j j /,/ / / / / \ \ \\\,\ C\ `\\\ ___ ' 1 // '^ - ' / < 1\ / _/--\ r ( �` \\ / // III ///a % / 1 --- J /'_�/ l f 1 (,� / ♦__ \ 1 1 \ \_ - . \ \ 1 I I / // / / / % \ \ \ \Ill a` \ _ / �' _/- // ( / \_ / I l / / _ \ "�// //�'' / //� v /r'� /// /% �_`-' 'IIII//--//,�Ilflllt \ \ \ \ \1, 1 //f \ �_�-% %i \\ \ \\ II IIIII Il///// // / / / \ \ \ \ `\`� `\``==-- `----- ^1 / IIj / _ \\ - / _ /1 / ^\/ / / \/ 1\ (l r I I I \ \ , / 1 ( �Z�-�- �\ \ 111I1 I / /�/// / , -j / \ \ \\\\\\,\ \\----- ---, 1 + - / // �\\\\ / r,- / le� `� \ - -� \ \� - // \�\ /� / I( '/i n II'-�`-'J \\\\\O/! j\,111 _"`�\\ jl`/!r//1 ;\ \ \\ \ 11 111 /, / // /. 11\ \ \\----`-- 1 I' l / i -j 11 \ , l/ 1 \ I \- \\\\I11111111111;i�////r /i' r \-.116 111 \\`\\\`\\\\\\ _ 1 1 I - I 1 \ /) ' \-1\\\���lf -- \\/� � (� \ �,�\ \` It\ p , //(11( /' \/II \ _ \\ \\\ /lIl 1 IIr \\ \ \ \/ \ \ \ \- \ \\ , 1u 1 �/- \`�\\ \\'- //lI) II f I \ \�/iii " Z', "�-I C) 7. I = -:,": \\\I11111'"i%�%/ /// / / 1 -- 1 \ 1 \\ \ \ \\\\ , 1 / Ir\- / \ 1 \\\`,. -``�\� /i / , _--��_\ \ \ `\�\ 1_�� _� �\\\ ( , \ �// (`-�//� I 1 /rf/,\\_/I , \\ I 11 \I II I� rJ/ �1 1 1 \ /i -i/--- 1 \ II\/ /-,/ // _/ I \\ \ \\\ \� `> II II \1 I\ �Q j /�---- � \, \- �_ --_ \\�\ 1�l 1 / 1-- /� 1, I,I-\`- Jrii ��-_'- j111 IIIlllr�,`( IIII\II\\i-'i�'� \\ 1 \ / - I ) 1 ) 1 O \ l 1 \ \ -_\\ \ 4J/ /i 1, I /\ _- / , _ 111 I I ' \ \ 1\ -'%ice//- \ 1111 , -/r/, 1 / / / / 1 / ) \ \ \ ) /' ♦/ / l I ! \ I I In O O J / \ � ==�z - i -// \ \ \ \ \�\ I / / / / - / I , / / \ / II \�\ \ \II\\_\`\\\ \\\\\ /i-/,- `I llllll\\\�''/ / / / rJJ I ♦ r ---- Q// / i/ �, , - / / M \ r n� \1 ---_ r /' \ _ - -\, \- ♦ / I I'-=-/ / \_ \ ` \a \�_// /^ �- 11 \ \ 11 / _ / / II . l ti \ \ \ / \\\ , \� - \__-- //__- \-__`'c- D \,\ \, 1 I lI/// / / 1,1 Ir-- r\\ `-/ 11\ \\`_ \\N,- `\ ._/ ` 1111\\\ 111 / ,/ / J /= I I--_�O//' i i'i �'-` -/',J, `J II C_ )` // I \ /\ �/ / ` \ `= "-- � ` 1 / / / / Il \\\ r___� \� 11\11\\`� �� �\� \ \\\ r I 1` \`, /// /, / / O 1 1 �- ♦/ Or/ /- �/ / \ - , `---- -i'i \ _ ,I I \ X \ 1 / / / , - / ! 1\\\ I �__\\ / 1 \ \\ \\ / / / / '� ''- /-/'i--, -/ r `-_---/--//- \ i \ l I l ys -/ I J / / - \:- - ` JIINm \�\ \ll\\ I I I �) ,_ \� -- :" -" " :I"-"" "., ; / /--` \ -� \ O16 ,I, / / / 1/ / / // 1\IIIII f \ \\_- \ , \\\ \ll Y rj `II / / /-/, /'/-/ _/'/-' --- I / _1 - \ \/_�\ r11 /-/ Il I / --- //,,, II/ 1 \``_-)11 \\\ 1 11� _f' 1\\ ' / / / ll/ O16 %,, //'O'---=''' `� a_ c?Z`1�( "/\ 11t I� , \�_/ /11 //ref-__/-i4/1\ (t^--- / llll I \ I 1 it / -`--- -- O / ` ` (n \ ) \I / / \ 1117 ' `////\\ \\ \\\ \_, / / l 1111 \ 1 ,,_- -,' / ', \ �� -1� - - :, . ',\,- \/_, - ,.��\\ ' - L r "I / , I) --,_ �, z �- ,I -- � " Z9) ,.�: Z, - - I I l I/ \__ ///;l,/-- q o �'f � r I I l + /i, -1- I %I / ,3 �/ - , l C\\\,\`= �\\\\ \\`\\\_-_,// 11/ 1//J ,\1 /// // (1�\\\- '/, / -ter - + + + + - // /A- /' . %-/ /'-` �1`jl \ `�`\ �\ // % / / \ \ / / //i IIII((-�\ \ , / i♦ U\ o + ( A \ //// /, \ \ I I /, /// + / --- / / •vl / aF 1 cal, - - --// 1 , \\� - \-' / %'/ // I I 1 ( / /, / ///// i_ // r ` /' / o - \' o x o _ , I / /, 1s / 1' / ` \ . ,o i _ `,\`\\\, Kc l / \\ \` \ II /, /i i ' 1 1 v, //Ill/l/i( c // - -/ / /// //,/ // �/ / }/\\ \ \ 1 \ r / O l\ / //// / _ ��s>- / , \\ \ \ \\ \,\\ t, < \, / III 1 1 / /In1\\\ ; ��, \ / O / , / -j /I \ \ \ \\,\,\ `\ \ \\ li\ ��� / r ii BELEWS LAKE / , / , , , /, ) \ \ \ \\\\ \\ \ \ I \' ,,, , 1 \ \\ I (APPROX. WATER ELEVATION = 725 FT.) ""'% \ % 1"111 \-I II�//,1I%I 11 l /1, ,Ili I---j) 11 ♦ , ,- ^ \ %� // ,,� ' / I , \\ �i \\ \I1 \ \\\\ \ a / ,/,,,- ,,_ , ., . N-�1,� .\I - .\ / /�-1-- 1 O my ,a - , / \\ \\ I'll ltl I,l, _ 7510 - // ",",_,I / 1 i/ \ (\ \ 1 I Ill\ \ ` \. . .` \ \\�\�\��I \II /lr 1 r / / 016 '' / / /- ' � /' / O} \ ,'// /I lift �` \\ `' / / I')II\ \ \\ $ \ `.)J1/ I 1 (III I,l - OOC (� /! , // / / / / �// � -- / //,lI \� \� \_-_ i % I ) \ I \ n/ `I 1\IIIII \ I I C _� i '� \1 I\l` ��JS r\�I\\l1 1 \ 1 I /' O- , } 0� - /' / / ,Ill I/r\\; \` // /lI11 11f I ) __✓ \I \ �- ., , __ / o + ir)G�\ I! f / -I:I1I, 31 - I ,, , \I - �/ , : /�� ,I �/ , . � 1- J ," , " ,/,, - _,x, z1-(z1/I / / / %/- ' ' i%%l Il ,` `\\` / /f / % // i����� 1 rr \ _ -,/ / / C 11 \\ ( / // /- / la ♦ // �j. l 1// \ \ �� \ ate\- '1 \� \ \I 'oa � _\ /. � ) -O - _ ,I , _ ) _ , . �1 -I_ , r / _ // , /-, / / bo // , / / i�� '/ i80 - ///l//r \\\\\\\ , / \�/\\\ / I \ \ / - / 1 I \ / � // / / ,-� \\\\\1 \-\` \ \` ---\ / / ) // 1/ I/ (�'- /- /ram -I` / /1\ \ \` / \\\ \ \\` \\ rl \ \\\ -,\ \\ , \\__- I _-� - 1 f // / ��%'/ / i//- -'/ /^- I \"\,\\\`\\\ \\\\ ✓,ll\\`\` \ /�--,//i )1) 111-1%// / i11`\ \ \\\\\\\\\-,O_ _ -_\ `\ I, - ` _ _ - - ( ,/ii-�// �� - // r // II 1 \ � \ I 'N� \\\ \:- �I__ `,-;;N1 �`\\ \\ f _\,/ / \ _-' /-- 1 \ / /l// , / -1 / , / \ //// ,' /' / , / // /- r , ♦/ i )iJ�, 1 11 I \\- / \ \ /� /,%iii \\ 1 \\\ \j11`I \I,%%/,//�/i%/ llI�)i� - pIrjl // / I 1 ♦ 1' r // /l` ��f\\\\\ \ /�,_ /i I\,/ i i a \ I 1111'1 , I C B /,f / ////. Z- -- _, _ " : _ �/'%ii'- as/ r r - / �\ \ - - / �i \ \ r� / / // , / \ III / , // �/ -I /i,//i/'ii \ ! \ \ // /11, �+- �=�^ 1IN '// I I I I / /// '/ice-//' , 1 (� IIII,! f M % / // „ l////111ii// /-` I \'/ `` \\\` �' it �/ _ %__---\`11N\1\\( / / , /// //// i' l , \ I /l/l`\ i-` V15 _ \/ \ �1 ///� ` Illlllllltji///= _s__:.l,C //;r�-� \`\`�t\_% _=,�L� i/- \`\ 11\\ \\l\�/ ' B j //////%///''/ v \ \ 1/ \, / -\\ V - /l `- I 'I / / III 11 II L � \ `�„ G �=ram-� /'i \ I ( / I / /" _ J - \ \ _ /I I III \\'\\ \ \,\ \ \ r--' �� - / _ _ \ \ I \I\\\ -_ / \ \� ' ^\ \ / r IIIII l _ \`\ \\` �:•� - /i ,_ „ i - I \ l // //// / -'%-' �,\\ I \ ♦ \ _-_�\ !Ili\ l Ill- /--_ \ - --' I -- f �i/ -ice- - _ Ii 111 / \ , 015 '' / // 1 //'ii ��_ ` I \ ` l \_ \�c>� C� r,\11 1 l 11I 1111 V�\\` \ \ \ \�'i // r: \/�/ /�'- -= I, \ 1 \ 1 / / 11 // / / ���-/- Ir 1 1 I , 1111 - _ \ 1\1\ \\\ \ / ♦ i/ - ,\ - I / 0/_/,/ �i //-i/4 iii_--- 1n@\ - - / 1 I -\ 1 \\ -\\\\I-\ I, , \ \ __` ,/�// \/ i''i - 1 II /-i / cn -/ / // /, - \ + _ ( \\\ 1 - I \ � - \ 1 I II I 1 \\ \\ -_-` /fir / - - 1 ' , .,," /A � \ W _, , " _ ���--, _ _ - , :-; -:* : ��- :I ,: :r I I -- ;_ \_ \,�I- ,-\/,-- _X _ . ,- , () -k I I 11 1 _ \� .___ // _ /' ; \I lJ%l i � l I ,/K / 1, / , \� I.1/ Z11 1i - m, 1 ,�-1l 1/\ I\ " ,I, l t , l \�I -1 � ; \ f- �-1�_ '\\ , ,,, __01 \/�' \ 0 �, /l 1111 11 \I\`,\ 0 111jr-?i90\_/,/ _/111+1 1 \ / \_ - ,\\\ \\\�(�=__� a -- i1/ __ / la-=_ - 1 1' ;, \ -,IIIII , -- ,\\ \ 11 -, L , ,I ",, ',_/ 1 IN ,, / 1 _, I /''ri N V / /"- / I !_ /, / i �,I, / _- - i- �� /-- �/ /- I �4 � / .,0I' -I -� - II- - / - -- -, -:-� �I-I - ; 1 _ ( d_�,_�. ; -� _- /I � _ , ) 4 _ I , N� � :: r bi , � , I % t _ _ r iiii� A I N -C :) -4 : �� S-� T_u I�:: //� -_ , _-' - .-09/ �,/ - " ) ,1,,_1-I�,:,1/_';-//_.o 1�- --- -I-, % I I. �IA --, = � - l o.j : � . �, r 91 LEGEND ASH BASIN WASTE BOUNDARY (APPROXIMATE) DUKE ENERGY PROPERTY BOUNDARY - - - - EXISTING GRADE CONTOUR (2 FT) - - - EXISTING GRADE CONTOUR (10 FT) PROPOSED FINAL GRADE CONTOUR (2 FT) PROPOSED FINAL GRADE CONTOUR (10 FT) NOTE 1. BASIS OF BEARINGS: NC GRID NAD83/2011. ELEVATIONS ARE BASED ON NAVD88 _ /i////�//) -' dvr \\\, \\\\�\`-'/�////�'I1� O %�_1'II\\ \ �_--')\ \\\ � �r j r� ��� _ --- ,i�__' -\ � ) ((( I \ 0 300 600 900 i `,, / i/i i __\� ,� I \ \_` 7 '/ / L ,l \11\\`------' J\\ \ .- - // ,It.% \R ,1 =_ __--__ _`r-=_ -- fir/ -Z; I/ / II --' - 'i �\ '� \ `_` // / O21 \\\�\ `_ ___ `� �5 _ ./ - a "�` / /' /I/ _ /_mo w,,,. - l I \ % _'-- = � -_ _ %%//i \ \ ```�\\`\ \.i / //' - Jl 1\1 /i \ ` / / / // I,r^^JAI (1 I \ _ '-�i-_• • / �'Y ' ^ �_F� \ / / \\`IF 1)\\) J///// i �ii'�'`%• -\ , \\\� //,/ % 1 //i/iri'//" \\� L 11/(� - ,/� _ \� \ 1 II - , \ • // r p / ___, -- rr J 11/i�, //�/�/:�'/ \�� O ` /i/il �i/ii% ',�'::1� _ _ _ --- _ - - _ GRAPHIC SCALE FEE 11 , / \. O / / //, // \\ \/ )1\ Ill( /i �(/ / \\l /r\- 1 / \ r _ \ \\\ I1cff _ i !� s - _- _ _) . " ? % i //=� / _ -��j§roi,, i'%'--\_ 0 \O\ , ///% (1// /�i/ / _\�\\ / r/�, g ���\���lll,ll� -_ �// \\`�\ / f II '' / \ �// © \\( / -I \\1\\ Illllll \�\�'\ i = - % �i%i i%�i/�_-\ �` ,ljlll�ll ,__ ,////♦^\\�\\Ill j/%�%/, 1\I \ / /� //,/ �� ����/%i it �`r _ \`\\ I IU I'1 1' llf'll `\//i' >~ \ (/\ 1 I I 1 \ I 11 \ //�_ I__- --///- / 1 1N1, r^�\ //ll /-, 1 //r// If / / / 0 \\ i/ /'���LLL \ \ ,1 - _ / I ,10111. j 1(\\ • \ /\ , \`-1 I 111 x '�_^\\ i/-_S'i%i ` I11)I //i^,\\// IIII/ _ /.�/,/ f 1, - �l//////$ ����� iii//��- 1 / II \/ Ill'III o00 l \ �0• /t \-\\`�-- / -J \\\\ {�/ //Ill, ,�,�/� `\ s/i�i �/ \ 1 IIIII lI - \\\_ I f 11 //, 111 I , //• - \„ i//ii' /-,\� 1 \ l! 00 l� %' \i� \ '- _ =�J� DRAFT `\\ 1\� _J/�// /iii/�---' /i-i _ i =-_ \`1 1 / I �I,!/; / '11 \ \� //I l 11 1 ' /l I11/, N�--�i'%/\\\I II, 1 / ''/Ill'/% I l(r 81O `y - f � _ / // \ ,r\jII ljl� l °p°° II ,I \ \ `\ `\_ /�� _ �J t\) // II f? i�-i/,1/, / i 1 /,////j \-c_\ \r l /,I11�,1 1� /-i 11\IIII\� l/1/ II / 1111 _�_ = - �i- \�_ r_II Il 1/'' I/ / \, II, II O , I I /1 `a -�_ rii'sz+ \., /I// I f11111 /j' / // iii% ��� \ l I / /// --\, 1 I1,/ 1 O/i//\\\I\I�- r/ / !l I I f^ --o - _ �= \I _ // '/\ I IIII OOo�o I'j, I, , / I �\ `\ �- /// jII ,l111I11'll'^ ♦,// �'//' /'i%ii'% / _ �- I 1 / ,*%%/\ \\\//%,/// 1��\\1\ !��!%ice:\\���` / lll�lI\\\`\\�\\��\ /� - I / `-'lIIII1,11 I l I / 1 `C` \1 /- _ // / f \ ///// / I'` / / / /,/,/ _ 1 / //// /// \\ /.0,/ \\\\\ \`n \Il/,, 7 -/---_ - - //1� II Ill I I 1' \/ _, 1 \ iJ/jl `\ / / , 11I11,�'I // - Go ' I l /; //„/ \I,l // ,�. \ _� (��.\, -��I '- - // ��,I .Ill , j' �\ - `\` �11 � NOT FOR CONSTRUCTION / // 1 ,11111�'llll , //-� /ram i'i%� __ \ l / \r 11 I ,\ Jlll /////' ��� \' OI, ,\\\�Ih ,_\ rr /' ii` )1 1 / /y' /'%� _ 1 11 I p I I l i�� /' / \ 1 1 1//i.11r,1I11'II'' ,�,' �" �i/�i, r \ \ l l 11 1 \II 11.1I - / 1\\\\ IIjII/%///� 790 ^III // \ rr % i 1�� /i/J�1' /l' / '/-'_- \\ ` , ` ,II ---\ (1\\ 1 _ lI , // I _ \\ `\III\ 1 \ .' § � S r _ - _ \ ) ) / / 1 / ; - , - -- / - - - I f I' J : _ , : ; r f N , ( 1 , ,; \ , f . ` -_ \: 1 � I , ;- - -1 I , / - _ v ,z ,. / _ V = / - - - / "i - 0 l e ) K l, - L - , _ _ � � � : �s - � l % : o r _ , I , �/ 1 ; , 1 � - 1 I _ f- _ , _ _ � ; s o e -. g �, \- \"� _ X / t , - " _ 7 I � A '1111jlil 'iillillll ,!'! 111\\�\\I\\ 11 x 1 1 1 1 ) 1 I 1 II I r I \ 1 I I r I I 1 1 / ,1 ( \\ /r, / , r\\ \ 1/�/.1 //j//♦/_`. / y/ /,/ , />'/ d;/ /, /g,,;/1 ///' \ \ \� ;,, // / I. / I� \\ III J ,/ // /� /f1); : 'if ItI �,////,-//j '-1111, 111 "/// ///-♦' i ' - /1,.\ -"I'I Qf //// /%/���r . \ ili 1 \� 1 /i/////ii.i/ii / r _ w \ r r \I�t\1\- 1,.1/l'/r%rl4 /iari' \`J\\ � I- �iliilhi'l' , - //1�l \ \ 1\-/), 111 ///- / 1 2 _ l I ? ;.eA, � 0�l leI - v I - e , � V/ ' f l 2 j " / ; ; , 4 A l v ; - x k - - r -= , 9 _ - -� % - ��I:fI�/I 0 I Y i . - . k , -: : : � , x _- ?4 _ ' _ , 4- 7 �, -� Q _� ,: ; �z q � - :-: �! �/ , � - _ 7 " � _ I %1 4 _, _ I - r� ,, '- - - ` , - _, - , I " - ! _ , / ,/ / �- , ' & , l X /z n ! � - l L I/ - 7 1 r 7 : J - 1 i - _ yA� y i%'iii'-,�p"�/, // \\ I I , I -`\ IIII / s/'y'%%= \` `11111,1�,I /r''/' r ov II/,11� / \ \( jj�V \ICII\�111/,j fly l/ ,1\�/ 1-/' �� ��\`\\ IIf \ I \\\\\_ Il/- \\ P1' 1,- /i�i�;1 r., I I / /� �_ \v\111 \ /' i%�.��\ \\)fllM!'Ijr/%%-;\ jI ijI/O,//`\IIII IIIII \� 1111111f11II III III r 11 /r' \\ II \=_ _ 1 \\\\`--_ `=v _/ r \\ \ �`\ .• / \ " / // \ III °\ 1 1 I' II \1\ / 'I! �= =`�\ I ,\ate-- _--_�,�,// -' -`\ _/� ^ \\ \ \\ •� / 11 1 / �/i/i l I I / r \, Nl -- %iii��i%� \ IIII'////'/-ice ��\ Il, , JO / \ 11 1, I1 1\t,1 \\�\ II ,Illllll IIII i, I I I / / _ \\ / _ _ 11 \-`� `\,1 -_`,\ `�_�_�_ / -' /'l 1 / / \` \\ ••r *iI \ I I /, \ l \ / / / \ , x III ( I / _ I \\ \ �► j k - - �' __-. R -- _ I_ " e _ I / . - - � - -I t � - 7 - - I : ZK � , _ - - - ,_ . ___ w %I k N ' - 0 - ;1 � o - . . .,. -lA , 1 l 1 i I l f - & - , _ -1 I _I I I I 1 \ /� /\� �`` _ / / / i ---_-- \ // /,-,/,�/_\ III / //'\\\ \ // /. / \al \\ fi_� 5 IIII I I I11 \ �i ( I 1 / - \11 , - q1I����\\ \ / r\- / N r \/ %, _ 1 TITLE +, )/,, /7/% ;� _ \--\ / / „' `-\ \\r\�aI\ Iljll/��//�/j _�/^\\\ llllll' I(rrNi'\\�\\�1\ y�, //,/////OJ \11(NNN11I1+ \ 1fl(rl�-�� llllll\\\\��\ 1 1 I hll _�� ;>�\\\\ l f - cjI ITV ' \�I,�-/ , 1 '' \ \\ - f' �' � /, O•/i,�'=_ _�� \ \/ / /9 \ 1 III / // , \ 1 - ,�, ll I\./\ \I11` 1 , \\\-� \ \\\\ \ 11/l I II 'i% \`\ \ l g, I �x J/'%/ ,/�i„�, /'/f'� ` 111/ II'N!'�l//rc/�r (/1 i-� \II %� �J�1,1 ' I11 ' IIIII 1 I' //l///y - \\ \\`\�\\ \\\\- \ `\�`� ��\\\\1 I\\\\\\\ \\\ `'/ // \ / r 1 /i /-/ \�11 \ \ \ il+i-/ III - /� I " r__-\� /�/\ \ 'mot`\\ , ,, �` ' \ \" OVERALL PROFILE AND CROSS / /, �i,ijiiia�_ _� _ \ --� - \ ` \\ ,11,111\\\\\ \II r \\\ Ili-�`-, / ♦ 1 Il\ I // ///,,0, ^\1 I'll ? \\ \\ -\ Il, 1 1 r`II\\\ \ \ // / r / -, -1 \ \ ` ^J/ \ / II r-\ i\ \-= \ // - \ I\ \ \ G 11 \ I -_ IIII I 1 I \,1f 11111 \ \\\ \_-♦4 , _ \a=-/ II , --\ \ /// // . d'ovi/� `-_� -_ \� a i� �\----- \ v 011 11) \\1 ,1&_ \ \\ II/ /i' ,/ IIII\ (1 ///// �, \\I A1'I I /i 1 /`-,\ I l I\ 1\ _ ``� � 1 / // 011 I \-/ \ . \ \ \ \ \� ` \\ \\ \\\ SECTION PLAN LAYOUT /'/ / QjO/%%� %! s__��� ��� r11 1 %/%���//y ^j11 \ \\\a\\ ,I I1 // �I 11 ` \\ , llii�ri/,/.-,\\\lN ( � I �\ �\ \1 \ , , I \ `) 1, j \ \ 1l 1 , 1011 /1 /'/ J i- \\ I \ /// / \\ \ ��j,/jam, J/I I \C\J,ll / -- ,Illjq \j , l,fl I� /, i' II III / _\ IIII\ /�, h l,ll�`I��f, II \\1111 \, \�i�r/ r , `� /�%i�/ ; \/l11 ` ` I r // r✓f//,i�/i Y/ii%i %iii ii��_�� G �`�r`�\-_;- :- ` `� III \ ` I Il / , Ill 1 \ \ /// ��`e1 \ \�IJ 1// , , / \ \ \ . /// ////, O///// � /_�____���\a��\��\ \\ - v\\ll \ / ///,//�%i�'�i' 1 \;dV// f�/' %flll 1(Illll'l,l(1 J �114411 I 1 IJ� /\� 1 Il ll / /r pllll,llllll� II f 1/1 %may/ 1�/ I \ �\i I '\ 1" �11y//// I/ 1 \`\`_ I Il IrJ / _ �\ \\ `\ //�"ice O/%/i%i/'i�'%r mac_-������\�y� _ \ \\`�\�\\\ �i�,/�4 ��' l 1 !/ /''� p ►IIII 1�111I 1 tl\( r,1i 1. I /-_ \III11 rr/-_\ l I , I, 1„ I ll1/'i / �I 1�� \I►\ �jii , \ \��� / v\\ _i\ \I/1 - I I /r :! \ \ll BELEWS CREEK STEAM STATION ////i,4)/./?��/o, / - < `\�?Z-`\\_ - • _/____ \ � `\` 11,1111 \-ice `e_- �8� / I111! I ar \;I `\ I' ��/ 1 ' /jJ� / �� IIII\\IIII// i`, 'llllll IIII 11/// fN�% , , \ }/`\N_ / 11 j//1 *, 1 \�, •t n \\ `'tc \\ �) r mine l I /- i? 11� 'i/ �ifi�/i'�O 4/ii/��//iii _��� �� � - `--\a .`llllll l r/ _ l !llllll\:- //!//���IJII \I\IIII 1 /%/ =-� IIIII111!/rji � ` 1,II,ll,f I///,ice / r \-,�,ffl . \ 11 \ \`0c . // 1 //, \ �\ \\\ I _ I / \ 1 / // / \ / I :' L� _ •• _ - , \ \l" i \ \ 1 // , ® 100 /o DRAFT CLOSURE PLAN ' /-"4/i: I\ ,.G1/'�/ii///'/�-°� k\-Zap ��- -��� 1--r-- _'��\\�c'II\' =ram 1 /I, II\\� IIIII/i%,� y Ill \\ llllllll „ \\ \ I 1, 1, 111\✓ / �f 1 � `- //// 1 1 J" / \\ \i \\\ / \ �\/ / // ' /1 //iii/// - /' iii'//'i/ f \��a��\��- �\-`\a� --- ��, �___-/i ��.�� �1\ / -/ / \\ `� �f / //ii\� \ ` 9//��1/// \\ llllll ,l / Ill \ y/// / `I,\\ I 1 /' -� `�/ •_���/ \ \ \\ 1 1 \\ `\ y ` \\ -! \ I I / fll // l 1// h, r,i.�. ti�Z/'�f../-/�/:,;�- -\I // _;�\"�-_/ / 'I\\\"�`,z�'%%/ \. \ \ ,N,1/ /„� \\ 1 1/ l 1 1�.// _ _ _, ./ `--, \ STOKES COUNTY, NORTH CAROLINA '�/iii / O�ii-�i /ij/--/�/i '- `��� � �a�%'`��� �a�.�---- \l /ii/���r-;, �� _ I \ \\I\� 1//// �� \\ \ /Ill// //� `-\� llllll/ll III I // x 5�l'� I',/i' _ J� _ _/ I =�!/^ `\ --\/ \ 1 I`, , -/ \ l j �,-./ 1//�// /j1�/%// �i'i�/ /ii, !-% /i%,/--ii'; /- ��-�-- � - aa-z-15 � � ZI \� `��\ � //� /i/ _� C \\ \ c--/ / / ,\ \ `�\ lgllllll�/// - �\\\�/�11 'I \y� / ---- Imo✓ -1 ' \\ ` \ \ -\ I ' / i// // / < FOR /ii/'>!� OO % /r M,%%//yi -\\ -- -- :&- ` c- --�i•�- - �,�� Ill,i((((`\rrl l - \�\tom = �� \ \ \ \ c / , ��1 11� ` 1 I I fl /// i��`\��/r'� ///' L " / _ \ w \ \ C I�I r ,7 // / / // \ \ \ N.C. ENGINEERING LICENSE NO. i% /, , ,,'•,;'/�,� ,,;% - -�`_ `_ \\ I \ \I\\ :�1 hll� , `\�`.J„ Jll,r i _ _�'�II1�_ \ 11)\\II \ \ �, , /, , / r„�r _ -----, r = _- \ \� .0 /' - I/ / o ISSUED FOR REVIEW / / ,/, / / l , / - / !1 \\ \ - 1 1 i / -1 / / / \ w \ 1 /\ / / F-0342 �_,/ ��O ♦i//i/Gi/,ii// `\`� `-\<`�-��a� \�� \��\ I IIII\\\\ \\\� J/r -' // , \\ \) �� 1 t/rlf , \\\ '911It\\\ \ \\ _ ' /- _--___-_ \ \� �` \ \\i \ , \ I�i /- • / / / ///ems /%/ z \` l `r) / ' I ��\\\ ` I O21 - -- `b /,ii r /i♦ \ \ `-� �a�� ��� 1 1 I \ 1 _ �l r \--_ I \\\\"`\ \ -%%= ' / \ ) _ _JII �` `� l _ \ `��,. - /y \�\\/ _ �, /� i� / , �i /i/i / / / I - Q - 1 v Ili \ /1 /1J1 J \ 1 I l\ \ \ �� _ - - - / \ __--- \ \\ - \ \ \ ` 1c.^` ^ r \ '� / / � \\ \ I \ l / / -\ \ \ / - - 1 \ - 11 1 D / � �\a Il _ 1 � \ / SEAL \ \\a \\\ . 1 \ - - - \ \" r SCALE: DES: / / d/ - \ r a _ _ -_� -\- _ J111 / \ -� \ _ /ll�����,�/� i///��, _/ ,\ \\ \ \\ \ \.\ - _ @\\\\Q\\Q,L / 111\�rlll I l / �_/' \ ;.-*--_��/ ) \ - �//j-//\\1g111ol.1111�_= ;� �y-'li%j� / _,\\ =_ _--,NP , _ \ `\ 'e �x1\ I �\.a � _ - ll1 //ii/� / ♦' \ �� �Q_a ACV\\\\\\\�\ /�IIII1 IIII ^ - _ J \ ,,/j/// \IIII s / 1 / i' / ,( \\\\ �� `- \ \ _ � i j '/ ./`F./'M_ ^-Vflr �7 fllllll// /''/'i," ,�,/// - __ `\ `\ \\ \\ \ - f \ \ \ 1 V \ J //r // ,1 111�1 == ass r , / " /---- - ) / t / \ r'`�a;l Il� I�rr�'//.-''/�i/ l \ \ \ \ \\ � � Q�\\\\\\\\ III\ f / / / III, 1___4:- ��_�;�/ \ \� - �/� i_- __ Ill 11 11 \ _ . \ �. /, tom \ \ , ��a / r DWG TYPE: .DWG DFTR: CLD \ III /-`--' ) ' ' / -//\ II Il=s M - I / _ \ /-- \ . �-•� ,- / // c� r\ r o , llllll !!,IIII '// ''0 /'/ \ \\ \\ \\ \\\ \\ \ _mac \ ��\\\\\\\ / 1111j�\ I I l \-- -, //��-- /i/// l 1 / �'/ 1,11 /i ` / / --_ III 111 IIII 1�\- /` '-4�5� -- \ �.e `� r ,--e+\� l p iii J, _ lI / ll ll Il Il / /// l I=-- _ I - ' --;_ /1 1 IIIII \ / '\ __ +g_ t_ // / r) . ,�jllljl I\/i/�/, ,/ �'.'L�O�E�'\ \ \ \ \ \ 'C9 \\ \\ \ \\� \(�a�`\���� `A\\I��\ , -\ ' ,- '; ;/i, 11 , -r-/_;-_ �_ i/iJl/, \ Lam/ � ` .\ - _ .\ llllll \`\' /, /ter l i// / /- r JOB N0: 60432132 CHKD: DM IIIIII'I,I�I,�I /�� / - \ \ \\ \\ \\ \\Q0 \ \ ,\ \`\\&\y;�\ \\\\� 1`\,� . /�����%_ ass --1 / _� ___ - �i�//-- \) /�'� "__ ��_�\. \,r - \\� \-,, /, +` \l� r� / // I r /2 ./ III,�,1/ll,lll ///l/ ,PINJE'I�AuQ\ \ \ \ \ \ \ \`\`\�\ �`\\�\`\\\�\`===_r: $%% I 1-- _ _-/ //i / �$/� `-\ - ► \-v'Ir[i...r n� / _ / = / 6 ljllll,�/l lljl/l / / / \ \ \ \ \ \ \ \ \ \ \ \ \\ ��\\\ \\ s s`�----�-r �? 11��===------ /i/ /' _� `�` `�/-, ` ��_J \_af1+. I 1 / O _ \ 1 _ , - _ `,� ` �/ 1\J - /,l r ENEk7\R ji//%l I , / / \ \ (9 \ \ \ \ \ \ \I Q\Q\\���\\\\Q�\1\.^= _ - %ass - 1\_� - - - _ = s' \ 1 / / ' 1 \\ - x \ / _�,„1 \\ tq I / 1 DATE: 7-7-16 ENGR: CN //Jllll///,l ♦ �►S LQ•�IDr4k-t \ \9 \ \ \ \ \ \ \ \\\ V\\�\�\\\ . \-2= -= _-_y \ -� 1 Imo- -- ,�/ /// /i ��-�`� \ `\ , \ -� r-, - \ \ - r I J / \1 �/ �,,,ii�rhlljl/1" / / \\ \ \O \ \ \ \ \ \ \\\\41\\\\`\\ �`-__= j/ -/ \ I II<==�------ II \ `/r�i///,i /�// / \� \\ \ \ /1 1 I1y' \ \ �� -\- /, / //•---, / III / / ,'�ERII�IIT # 850� ` ` ` \ ` ` ` ` \ ` `\ �:`\:\ `\��`�\� ^y� : /i/ ��- -)/�i .'' -' l - "' % � /:%`; ,/ • `�\� _, ;\\ �� rf _\\' \\\ � I ' =-=> r / / / l I (,l,- FILENAME: OVERALL CROSS SECTION LOCATION.DWG iii/i rr/,� li / \ \ \ \ \ \ \ \ \\ / t / - \///'' \ + `�Y AP P D : KK pp�%/','//- / / / t9 / ♦) \ \ 1 1 1 ) ) I \ i�\����\\``��\ !+ lam' / / 1 - 'K 1_ -�� / \\��\\� \\\\ - /_/ \\1 / z r t �- 1 \ I 1 \ rr �- / I - �� /i-', ,/ / �� // / ,J 1\ I 1 / / ,/ L \,,\1��1\II r-�j> r % -aeia��i 1 , �I // / ,ice / ' \`\�\�\\\\ e -` 1 111 Tr ? - - \ S / //i >�- \� \�\ '1 ' ` f�'r%,r' _ _ DWG SIZE DRAWING NO. REVISION / / - I I / _ X�i / // , / , / c__ / / / \ � - \ ,i/ii / / / ' / i�i�%/rye/ �� � '� t -/% y \ \ c \/ _ I I -�- ( 1 t= -- %� /'' / ' '' ''",/,-' /' /%i/'-j%%'-%/ % �� / / 1- - /// /��\II \ �'r/r `'=s 1 j�-i/i ' Ci $ED / \ \_ \\\;\ \\\\\\\ 111 %' \i' //'-i I 1 I r r!� 'i% il`\ • ( /%i''T • / ' ANSI D 7i / / / / / - -\ / /i/ice__' 1\11 ( \1 \1 ! / / / i� 1I I 1 �,� ) / i/1 / / / ,/ ,- ,,, / // , jii%-iii S' - ( -r i I" � `` l r 111 \ /// %//� y =�� 1 1 / /// \ � \\ (1�1 ' / -/ /' l r'//ZSI 1 \ ��G/ - ,/// /' • _ ///� / _..� // I / % III II,\\ '//rr1 \-,,//�/, _ _„___� 1\111 _/ /•� r/ STF IUCTURAL \ 1 1111/111 II II/ �/ / // XXX'l // x / ' '/'' /'- ' c/'''i%' //i/" 1 _ / l? lI 1, II II a\\\\ ///IIIII\\ / /� - //-�\ 1 %�/ /// / / 1 �I,, II11 I�I,11/ // // I I 1- I I/1' / / . �/ /// / / 22.0°x34.0° �C-AAA-01 4I/ / ' ,' /-' / _=i %f/�%' i4�� -, \ -r - / / ////// 11 Ilfl\\\\-//,�II11 \` i�/1j/� `e1/ /r, I,IIIII I // /%/�a I FILL ` I Illllll Illll �1/r / , ,1 /ril�l�i/� f ///// \ ` // //r, p a / IIII I' ! I J / I /' I/ 3 ? TENTHS 10 20 30 3 4 5 6 7 8 n X X O L 2 3 4 5 6 7 8 BC-XXX-015 REV. A INTERNAL WORKINU — S E-& A A B B C c n X X O Cn m D 0 1 2 3 2 TENTHS 10 20 30 3 4 5 6 7 8 DRAFT 780 780 770 LEVEL 2015 POTENTIOMETRIC � (FROM HDR 2 16 MODEL) 760 760 \ - SSUMED AV RAGE LEVAT ON) \ — — P OPOS D FINIL COVER GRADE - - 750 � � • ppR PROPOSED TOP OF OCR MATERIAL GRADE TV TV _ 750 \ ►MAT _ \ ac-xxx-mc REV. p INTERNAL WORKING, DRAFT 0 C 0 f 0 790 ASH BASIf 780 770 760 750 w 740 LL_ 0 730 I= < w 720 J W 710 700 690 680 670 LEGEND 790 780 770 760 750 w w LL_ 740 Z O Q 730 > w w 720 FAR 700 690 680 O o O O O ± ASH BASIN ASH BASIN IOME 2015 POTEN RIC LEVEL EXI 3TING 3RADE ' - (FROM HDR 2016 MODEL) � PROPOSED FINAL / - - i COVER GRADE / \ PROPOS / ED TOP OF CC R \ r \ MATERIAL GRADE (BY HDR MODEL) OTTOM OF GG b — — b b -A b b b b b b b- b b b b O O O O O O O O v v v v v v N r0 Ln c0 � 00 O + + N ro � 0 c0 � SECTION C - C STATION 24+76 + + + + + + + + + + + + + 00 O O N r0 � � c0 ao O O N N N N N N N N N r7 r7 Ilk 790 780 770 760 750 w w L_ 740 Z O 730 Q > w 720 w NEW 700 690 b 680 O 00 CIA N r7 r7 ASH B4,SIN NAL CCIVER GRADE \ 2015 OTENTIOMETIRIC LE EL EXISTING RADE TPROPOSED \ \ ROPO ED TO OF C R - / MATERIAL GRADE i \ HISTORICAL GRAD (BOTT M OF CR MATERIAL.) (BY IlDR MODEL) \ ir i i ID p p p p n n n n n n v O O O O O ± N r7 2015 POTENTIOMETRIC LEVEL (FROM HDR 2016 MODEL) PROPOSED FINAL COVER GRADE PROPOSED TOP OF CCR MATERIAL GRADE EXISTING GRADE - - - - - - - - - - HISTORICAL GRADE (BOTTOM OF CCR MATERIAL) • POST CAPPING GROUNDWATER (BY HDR MODEL) FILL WITH RELOCATED ASH 1 2 TENTHS 3 1 10 20 O O O O O O �t L0 C0 r- 00 0) O + N ro �t L0 NOTES 1. FINAL COVER CAP SYSTEM IS ONLY REQUIRED WITHIN THE ASH BASIN. 2. BASIS OF BEARINGS: NC GRID NAD83/2011. ELEVATIONS ARE BASED ON NAVD88. 3. THE LIMITS OF THE CCR BOUNDARY SHOWN ON THIS MAP TO BE REFINED THROUGH GEOTECHNICAL INVESTIGATION TO BE PERFORMED AT A LATER DATE OR VERIFIED DURING CONSTRUCTION. 4. THE HISTORICAL TOPOGRAPHIC MAP PROVIDED BY DUKE ENERGY WAS ASSUMED TO REPRESENT THE BOTTOM OF CCR MATERIAL VERTICAL BOUNDARY. IT IS NOTED THAT AT SOME LOCATIONS THE BATHYMETRY CONTOURS ARE BELOW THE HISTORICAL GRADES, INDICATING SOIL MAY HAVE BEEN BORROWED FROM WITHIN THE BASIN BOUNDARY TO CONSTRUCT THE DAM. NO AS -BUILT BASE GRADES ARE AVAILABLE. FUTURE GEOTECHNICAL INVESTIGATION WILL BE PERFORMED TO VERIFY THE CCR MATERIAL BASE AT SELECT LOCATIONS PRIOR TO FINALIZING THE DESIGN FOR CONSTRUCTION. 5. THE GROUNDWATER LEVELS SHOWN AS FROM HDR WERE OBTAINED FROM THE GROUNDWATER CORRECTIVE ACTION PLAN MODELS DEVELOPED BY HDR IN 2016 TO REPRESENT EXISTING AND LONG-TERM POST CLOSURE GROUNDWATER LEVELS. THESE MODELS ARE UNDERGOING REFINEMENT TO INPUT THE CURRENTLY PROPOSED FINAL COVER GRADES. LOCATIONS SHOWING LONG-TERM GROUNDWATER LEVELS ABOVE THE PROPOSED FINAL COVER GRADES ARE ASSUMED TO BE THE ARTIFACT OF THE MODELING AND ARE BEING REFINED AT THIS TIME. 6. CLEAN STRUCTURAL FILL MAY BE USED OUTSIDE THE BASIN BOUNDARIES TO PROVIDE POSITIVE GRADES TOWARDS THE CLOSED BASIN COVER SYSTEM. 30 3 4 + + + + + + + + + + + + + + + + c0 rl- 00 00 O N n �t Ln c0 r- 00 0) O N N N N N N N N N N r0 r0 SECTION D - D STATION 30+58 REFERENCE 1. HISTORICAL GRADE (BOTTOM OF CCR MATERIAL) WAS DIGITIZED BY AECOM USING THE HISTORICAL TOPOGRAPHIC SURVEY MAP (SITE PLAN, DWG. NO. BC-1002-1, REV. 9) PROVIDED BY DUKE ENERGY, PREPARED FROM AERIAL PHOTOGRAPHY TAKEN ON OCTOBER AND DECEMBER 1966. 2. EXISTING GRADE IS BASED ON THE TOPOGRAPHIC SURVEY PERFORMED BY WSP IN APRIL 2014 AND SUBMITTED TO DUKE ENERGY IN JULY 2015. 3. EXISTING GRADE DEPICTED BENEATH THE WATER SURFACE IS BASED ON THE BATHYMETRIC SURVEY PERFORMED BY HDR IN JUNE 2014. 4. THE ASH BASIN EXTENTS AND THE 2015 GROUNDWATER POTENTIOMETRIC LEVEL PRESENTED IN THIS DRAWING ARE BASED ON THE "COMPREHENSIVE SITE ASSESSMENT REPORT - BELEWS CREEK STEAM STATION ASH BASIN," PREPARED BY HDR FOR DUKE ENERGY AND SUBMITTED TO NCDEQ (NPDES PERMIT NO. NC0024406) ON SEPTEMBER 9, 2015. 5 6 790 780 770 760 750 740 w LL_ 730 0 I= < 720 w J W 710 700 690 680 10670 O O O O O O�t r0 r0 r0 r0 r0 r0 r7 7 SEAL PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY TITLE =co L m N.C. ENGINEERING LICENSE NO. I FOR F-0342 0 20 40 60 VERTICAL SCALE (IN FEET) 0 200 400 600 HORIZONTAL SCALE (IN FEET) 91M, �1 NOT FOR CONSTRUCTION CROSS SECTIONS 2 BELEWS CREEK STEAM STATION 100% DRAFT CLOSURE PLAN STOKES COUNTY, NORTH CAROLINA ISSUED FOR REVIEW DUKE RAYJOB ENE ® SCALE: 1 = 200 DWG TYPE:.DWG : �04316132 DATENO FILENAME: CROSS SECTION.DWG DWG SIZE DRAWING NO. ANSI D 22.0"x 34.0" BC-XXX-016 DES: CN DFTR : CLD CHKD: DM ENGR : CN APPD: KK REVISION A W n X X X 6 d� m ac-xxx-on REV. p INTERNAL WORKING, DRAFT 0 C 0 LEGEND 2015 POTENTIOMETRIC LEVEL (FROM HDR 2016 MODEL) PROPOSED FINAL COVER GRADE PROPOSED TOP OF CCR MATERIAL GRADE EXISTING GRADE — — — — — — — — — — HISTORICAL GRADE (BOTTOM OF CCR MATERIAL) POST CAPPING GROUNDWATER (BY HDR MODEL) FILL WITH RELOCATED ASH I i I i I i I i I i I i I I 0 1 2 3 2 TENTHS 10 I 770 760 750 740 Ld 730 LL_ O 720 I- < w 710 w 670 660 00 00 00 00 00 00 00 00 00 00 O O O O O CD± N r0 � Ln O � 00 0) O + N r7 �t NOTES 1. FINAL COVER CAP SYSTEM IS ONLY REQUIRED WITHIN THE ASH BASIN. 2. BASIS OF BEARINGS: NC GRID NAD83/2011. ELEVATIONS ARE BASED ON NAVD88. 3. THE LIMITS OF THE CCR BOUNDARY SHOWN ON THIS MAP TO BE REFINED THROUGH GEOTECHNICAL INVESTIGATION TO BE PERFORMED AT A LATER DATE OR VERIFIED DURING CONSTRUCTION. 4. THE HISTORICAL TOPOGRAPHIC MAP PROVIDED BY DUKE ENERGY WAS ASSUMED TO REPRESENT THE BOTTOM OF CCR MATERIAL VERTICAL BOUNDARY. IT IS NOTED THAT AT SOME LOCATIONS THE BATHYMETRY CONTOURS ARE BELOW THE HISTORICAL GRADES, INDICATING SOIL MAY HAVE BEEN BORROWED FROM WITHIN THE BASIN BOUNDARY TO CONSTRUCT THE DAM. NO AS -BUILT BASE GRADES ARE AVAILABLE. FUTURE GEOTECHNICAL INVESTIGATION WILL BE PERFORMED TO VERIFY THE CCR MATERIAL BASE AT SELECT LOCATIONS PRIOR TO FINALIZING THE DESIGN FOR CONSTRUCTION. 5. THE GROUNDWATER LEVELS SHOWN AS FROM HDR WERE OBTAINED FROM THE GROUNDWATER CORRECTIVE ACTION PLAN MODELS DEVELOPED BY HDR IN 2016 TO REPRESENT EXISTING AND LONG-TERM POST CLOSURE GROUNDWATER LEVELS. THESE MODELS ARE UNDERGOING REFINEMENT TO INPUT THE CURRENTLY PROPOSED FINAL COVER GRADES. LOCATIONS SHOWING LONG-TERM GROUNDWATER LEVELS ABOVE THE PROPOSED FINAL COVER GRADES ARE ASSUMED TO BE THE ARTIFACT OF THE MODELING AND ARE BEING REFINED AT THIS TIME. 6. CLEAN STRUCTURAL FILL MAY BE USED OUTSIDE THE BASIN BOUNDARIES TO PROVIDE POSITIVE GRADES TOWARDS THE CLOSED BASIN COVER SYSTEM. 20 so 3 4 SECTION F - F STATION 41 +55 790 780 770 760 750 w 740 z0 730 < w 720 w 710 700 690 680 670 ASH B SIN 20 5 POT NTIOMETRIC LEVEL (Flom HD 2016 ODEL Ppc)pc)RF=n Fit FIR GRAnF EXIS ING GRADE PRO OSED OP OF CCR / MATE RIAL G DE / OST CAPPING GROU 4DWXTER / (BY HDR MOd L) .. .. • L .. .. y .. .. F7' HISTORICAL GR DE (BO TOM F CCR MATERIAL \ __ i / k b b O O O O O O O O O o O O O O O O O O O O O O O ± N r0 u') (D � 00 O O + SECTION E -E STATION 35+72 O O O O O O O O U O N r7 � to O � 00 M O + v 790 780 770 760 750 740 w 730 z0 < 720 w w 710 700 690 680 670 co O O O CO N n I- N N N N SH BAI 31 2015 POTENT (FROM HDR2( OMETR IC LEVEL )EQ A ROPO ED FINAL CO ER GRkDE EXISTING GRAD i PROPOSED T DIP OF OCR MATE IAL GR DE ' \ / \ q / P ST CAF PING\ ROUN WATER HIS ORICA GRAD (BOT OM OF CCR MATERIAL) b_b bb b b 780 770 760 750 740 730 w LL_ 720 0 I- < 710 w w 700 670 660 O O O O O O O O O O O O O O O�t + + + + + + + + + + + + + + + + Ln (D r- 00 0-) O N r7 to O 00 M O N N N N N N N N N N N REFERENCE 1. HISTORICAL GRADE (BOTTOM OF CCR MATERIAL) WAS DIGITIZED BY AECOM USING THE HISTORICAL TOPOGRAPHIC SURVEY MAP (SITE PLAN, DWG. NO. BC-1002-1, REV. 9) PROVIDED BY DUKE ENERGY, PREPARED FROM AERIAL PHOTOGRAPHY TAKEN ON OCTOBER AND DECEMBER 1966. 2. EXISTING GRADE IS BASED ON THE TOPOGRAPHIC SURVEY PERFORMED BY WSP IN APRIL 2014 AND SUBMITTED TO DUKE ENERGY IN JULY 2015. 3. EXISTING GRADE DEPICTED BENEATH THE WATER SURFACE IS BASED ON THE BATHYMETRIC SURVEY PERFORMED BY HDR IN JUNE 2014. 4. THE ASH BASIN EXTENTS AND THE 2015 GROUNDWATER POTENTIOMETRIC LEVEL PRESENTED IN THIS DRAWING ARE BASED ON THE "COMPREHENSIVE SITE ASSESSMENT REPORT - BELEWS CREEK STEAM STATION ASH BASIN," PREPARED BY HDR FOR DUKE ENERGY AND SUBMITTED TO NCDEQ (NPDES PERMIT NO. NC0024406) ON SEPTEMBER 9, 2015. 5 11 7 SEAL PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY TITLE =C0 L M N.C. ENGINEERING LICENSE NO. I FOR F-0342 0 20 40 60 VERTICAL SCALE (IN FEET) 0 200 400 600 HORIZONTAL SCALE (IN FEET) NOT FOR CONSTRUCTION CROSS SECTIONS 3 BELEWS CREEK STEAM STATION 100% DRAFT CLOSURE PLAN STOKES COUNTY, NORTH CAROLINA ISSUED FOR REVIEW DUKE ENE RAY® SCALE: 1 = 200 DWG TYPE: .DWG : �04316132 DATENO FILENAME: CROSS SECTION.DWG DWG SIZE DRAWING NO. ANSI D 22.0"x 34.0" BC-XXX-017 DES: CN DFTR : CLD CHKD: DM ENGR : CN APPD: KK REVISION A 00 n X X X 6 ac-xxx-me REV. p INTERNAL WORKING, DRAFT u c 800 790 780 770 760 750 I- w 740 Ll_ z0 730 Q w 720 w 710 700 690 680 670 PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY ASH BASIN 2015 POTE14TIOMETRIC LEVEL P OPOS PROPOSED TOP OF CCR MATERIAL - - EXI TING GRADE G DE - HIS ORIC L GRA E (BOTTOM O CCR ATERI L) • \ \ / POS CAPPI G GR UND TER / (BY HDR MODEL) r, in n n n n n n n b 660 O O O LEGEND 2015 POTENTIOMETRIC LEVEL (FROM HDR 2016 MODEL) PROPOSED FINAL COVER GRADE PROPOSED TOP OF CCR MATERIAL GRADE EXISTING GRADE - - - - - - - - - - HISTORICAL GRADE (BOTTOM OF CCR MATERIAL) POST CAPPING GROUNDWATER (BY HDR MODEL) FILL WITH RELOCATED ASH p O O O O O O O O ± N r0 �t Lo Co r- 00 m O + N r7 Cn CO LIE NOTES 1. FINAL COVER CAP SYSTEM IS ONLY REQUIRED WITHIN THE ASH BASIN. 2. BASIS OF BEARINGS: NC GRID NAD83/2011. ELEVATIONS ARE BASED ON NAVD88. 3. THE LIMITS OF THE CCR BOUNDARY SHOWN ON THIS MAP TO BE REFINED THROUGH GEOTECHNICAL INVESTIGATION TO BE PERFORMED AT A LATER DATE OR VERIFIED DURING CONSTRUCTION. 4. THE HISTORICAL TOPOGRAPHIC MAP PROVIDED BY DUKE ENERGY WAS ASSUMED TO REPRESENT THE BOTTOM OF CCR MATERIAL VERTICAL BOUNDARY. IT IS NOTED THAT AT SOME LOCATIONS THE BATHYMETRY CONTOURS ARE BELOW THE HISTORICAL GRADES, INDICATING SOIL MAY HAVE BEEN BORROWED FROM WITHIN THE BASIN BOUNDARY TO CONSTRUCT THE DAM. NO AS -BUILT BASE GRADES ARE AVAILABLE. FUTURE GEOTECHNICAL INVESTIGATION WILL BE PERFORMED TO VERIFY THE CCR MATERIAL BASE AT SELECT LOCATIONS PRIOR TO FINALIZING THE DESIGN FOR CONSTRUCTION. 5. THE GROUNDWATER LEVELS SHOWN AS FROM HDR WERE OBTAINED FROM THE GROUNDWATER CORRECTIVE ACTION PLAN MODELS DEVELOPED BY HDR IN 2016 TO REPRESENT EXISTING AND LONG-TERM POST CLOSURE GROUNDWATER LEVELS. THESE MODELS ARE UNDERGOING REFINEMENT TO INPUT THE CURRENTLY PROPOSED FINAL COVER GRADES. LOCATIONS SHOWING LONG-TERM GROUNDWATER LEVELS ABOVE THE PROPOSED FINAL COVER GRADES ARE ASSUMED TO BE THE ARTIFACT OF THE MODELING AND ARE BEING REFINED AT THIS TIME. 6. CLEAN STRUCTURAL FILL MAY BE USED OUTSIDE THE BASIN BOUNDARIES TO PROVIDE POSITIVE GRADES TOWARDS THE CLOSED BASIN COVER SYSTEM. 1- 00 m O ± N r7 - N N N N N SECTION G - G STATION 46+74 REFERENCE Ln p � 00 m O N N N N N n n n n n n n Po 1. HISTORICAL GRADE (BOTTOM OF CCR MATERIAL) WAS DIGITIZED BY AECOM USING THE HISTORICAL TOPOGRAPHIC SURVEY MAP (SITE PLAN, DWG. NO. BC-1002-1, REV. 9) PROVIDED BY DUKE ENERGY, PREPARED FROM AERIAL PHOTOGRAPHY TAKEN ON OCTOBER AND DECEMBER 1966. 2. EXISTING GRADE IS BASED ON THE TOPOGRAPHIC SURVEY PERFORMED BY WSP IN APRIL 2014 AND SUBMITTED TO DUKE ENERGY IN JULY 2015. 3. EXISTING GRADE DEPICTED BENEATH THE WATER SURFACE IS BASED ON THE BATHYMETRIC SURVEY PERFORMED BY HDR IN JUNE 2014. 4. THE ASH BASIN EXTENTS AND THE 2015 GROUNDWATER POTENTIOMETRIC LEVEL PRESENTED IN THIS DRAWING ARE BASED ON THE "COMPREHENSIVE SITE ASSESSMENT REPORT - BELEWS CREEK STEAM STATION ASH BASIN," PREPARED BY HDR FOR DUKE ENERGY AND SUBMITTED TO NCDEQ (NPDES PERMIT NO. NC0024406) ON SEPTEMBER 9, 2015. SEAL O O m O Po �t 800 790 780 770 760 750 I- 740 w Ll_ 730 zo Q 720 w w 710 700 690 680 670 660 TITLE L=com N.C. ENGINEERING LICENSE NO. I FOR F-0342 0 20 40 60 VERTICAL SCALE (IN FEET) 0 200 400 600 HORIZONTAL SCALE (IN FEET) 91MAIM1 NOT FOR CONSTRUCTION CROSS SECTIONS 4 BELEWS CREEK STEAM STATION 100% DRAFT CLOSURE PLAN STOKES COUNTY, NORTH CAROLINA ISSUED FOR REVIEW 44*) DUKE ENErjt'"*VR® SCALE: 1 = 200 DWG TYPE:.DWG JOB :76132 DATE:-7-1 FILENAME: CROSS SECTION.DWG DWG SIZE DRAWING NO. ANSI D 22.0"x 34.0" BC-XXX-018 DES: CN DFTR : CLD CHKD: DM ENGR : CN APPD: KK REVISION A o0 n X X X 0 00 m I i I i I i I i I i I i I I 0 1 2 3 2 TENTHS I 10 111111iiiil 1 1 20 30 3 4 5 6 7 ac-xxx-ms REV. p INTERNAL WORKING, DRAFT 0 c 790 780 770 760 750 740 I— w 730 Li 0 720 Q w 710 J W 670 660 PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY ASH BASIN PRC POSEDI FINAL OVER GRAD / 2015 POTENTIOMETRIC LEVEL ( ROM HDR 2016 MODE) IROPO ED TOR OF CCR MATERIAL GRADE / / \ --- -- ---- EXIS ING RADE \ LRICAL HIS GRADE GGIR \ MATERIAL) \ / \\14 POST G GRO JNDWATER \ rAPPIN (BY h DR MO )EL) b6 6 6 -� b 6 6 6 6 650 O o O O O ± N r j �t Lo co r- 000 + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + O N po Lo CO I- 00 00 O N n Lo c0 I- 00 O-) O N po Lo c0 I- CD 00 N N N N N N N N N N n n n n n n n P7 P7 NOTES 1 1. FINAL COVER CAP SYSTEM IS ONLY REQUIRED WITHIN THE ASH BASIN. 2. BASIS OF BEARINGS: NC GRID NAD83/2011. ELEVATIONS ARE BASED ON NAVD88. D 3. THE LIMITS OF THE CCR BOUNDARY SHOWN ON THIS MAP TO BE REFINED THROUGH LEGEND GEOTECHNICAL INVESTIGATION TO BE PERFORMED AT A LATER DATE OR VERIFIED DURING CONSTRUCTION. - - - - 2015 POTENTIOMETRIC LEVEL (FROM HDR 2016 MODEL) 4. THE HISTORICAL TOPOGRAPHIC MAP PROVIDED BY DUKE ENERGY WAS ASSUMED TO PROPOSED FINAL COVER GRADE REPRESENT THE BOTTOM OF CCR MATERIAL VERTICAL BOUNDARY. IT IS NOTED THAT AT SOME LOCATIONS THE BATHYMETRY CONTOURS ARE BELOW THE HISTORICAL GRADES, — — PROPOSED TOP OF CCR MATERIAL GRADE INDICATING SOIL MAY HAVE BEEN BORROWED FROM WITHIN THE BASIN BOUNDARY TO CONSTRUCT THE DAM. NO AS -BUILT BASE GRADES ARE AVAILABLE. FUTURE EXISTING GRADE GEOTECHNICAL INVESTIGATION WILL BE PERFORMED TO VERIFY THE CCR MATERIAL BASE AT SELECT LOCATIONS PRIOR TO FINALIZING THE DESIGN FOR CONSTRUCTION. - — — — — — — — — - HISTORICAL GRADE (BOTTOM OF CCR MATERIAL) 5. THE GROUNDWATER LEVELS SHOWN AS FROM HDR WERE OBTAINED FROM THE POST CAPPING GROUNDWATER GROUNDWATER CORRECTIVE ACTION PLAN MODELS DEVELOPED BY HDR IN 2016 TO (BY HDR MODEL) REPRESENT EXISTING AND LONG-TERM POST CLOSURE GROUNDWATER LEVELS. THESE MODELS ARE UNDERGOING REFINEMENT TO INPUT THE CURRENTLY PROPOSED FINAL COVER GRADES. LOCATIONS SHOWING LONG-TERM GROUNDWATER LEVELS ABOVE THE FILL WITH RELOCATED ASH PROPOSED FINAL COVER GRADES ARE ASSUMED TO BE THE ARTIFACT OF THE MODELING AND ARE BEING REFINED AT THIS TIME. 6. CLEAN STRUCTURAL FILL MAY BE USED OUTSIDE THE BASIN BOUNDARIES TO PROVIDE POSITIVE GRADES TOWARDS THE CLOSED BASIN COVER SYSTEM. SECTION H - H STATION 52+08 REFERENCE 1. HISTORICAL GRADE (BOTTOM OF CCR MATERIAL) WAS DIGITIZED BY AECOM USING THE HISTORICAL TOPOGRAPHIC SURVEY MAP (SITE PLAN, DWG. NO. BC-1002-1, REV. 9) PROVIDED BY DUKE ENERGY, PREPARED FROM AERIAL PHOTOGRAPHY TAKEN ON OCTOBER AND DECEMBER 1966. 2. EXISTING GRADE IS BASED ON THE TOPOGRAPHIC SURVEY PERFORMED BY WSP IN APRIL 2014 AND SUBMITTED TO DUKE ENERGY IN JULY 2015. 3. EXISTING GRADE DEPICTED BENEATH THE WATER SURFACE IS BASED ON THE BATHYMETRIC SURVEY PERFORMED BY HDR IN JUNE 2014. 4. THE ASH BASIN EXTENTS AND THE 2015 GROUNDWATER POTENTIOMETRIC LEVEL PRESENTED IN THIS DRAWING ARE BASED ON THE "COMPREHENSIVE SITE ASSESSMENT REPORT - BELEWS CREEK STEAM STATION ASH BASIN," PREPARED BY HDR FOR DUKE ENERGY AND SUBMITTED TO NCDEQ (NPDES PERMIT NO. NC0024406) ON SEPTEMBER 9, 2015. SEAL O Ln �t �t 790 780 770 760 750 740 I- 730 w Li 720 0 Q 710 w J W .•I 670 660 TITLE L=com N.C. ENGINEERING LICENSE NO. I FOR F-0342 0 20 40 60 VERTICAL SCALE (IN FEET) 0 200 400 600 HORIZONTAL SCALE (IN FEET) DRAFT NOT FOR CONSTRUCTION CROSS SECTIONS 5 BELEWS CREEK STEAM STATION 100% DRAFT CLOSURE PLAN STOKES COUNTY, NORTH CAROLINA ISSUED FOR REVIEW DUKE ENEK%w' Y® SCALE: 1 = 200 DWG TYPE:.DWG JOB : �04316132 DATENO FILENAME: CROSS SECTION.DWG DWG SIZE DRAWING NO. ANSI D 22.0"x 34.0" BC-XXX-019 DES: CN DFTR : CLD CHKD: DM ENGR : CN APPD: KK REVISION A m I i I i I i I i I i I i I I I I 0 1 2 3 21 TENTHS 10 20 30 3 4 5 6 7 2 3 4 5 6 7 8 BC-XXX-020 REV. A INTERNAL WORKINU A AIv Lli B B C C Im n x x x C N 0 m < D 0 1 2 3 2 TENTHS 10 20 30 3 4 5 6 7 -i 8 DRAFT PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY 810 810 800 800 PINE ALL ROADWAY 790 EMBANKMENT DAM 790 i i 780 780 ASH B SIN NO COVE SYSTEM 770 770 / 1 760 760 2 15 POT NTIO ETRIC EVEL ROP ED FINAL COVER G DE � \ 750 750 � PR POSED TOP O CCR MATERIAL GRA E � 740 740 � EXISTI G GRADE � REMOVE C RAN � � Q 720 � 720 > > ST UCTU L FIL w w � w w 710 710 i 700 � 700 690 � 690 680 \ 680 / HISTO ICAL G ADE (BOTTOM OF C R MATERIAL) • � 670 670 • � POST APPI G GRO NDW ER � 660 660 650 650 J 640 I I I 640 0 0 0 0 0 0 0 0 0 o O o 0 0 0 0 0 0 0 0 0 0 0 0 � o 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 O � N I'7 � � O � 00 O O N M � � � � 00 O O N M � � O � 00 O O N M � � O � 00 O O N M � � O � 00 � N N N N N N N N N N r7 r7 r7 r7 r7 r7 r7 r7 r7 r7 � � � � � � � � � � SECTION I - I STATION 56+70 NOTES REFERENCE DRAFT LEGEND 1. FINAL COVER CAP SYSTEM IS ONLY REQUIRED WITHIN THE ASH BASIN. 1. HISTORICAL GRADE (BOTTOM OF CCR MATERIAL) WAS DIGITIZED BY AECOM USING THE - - - - 2015 POTENTIOMETRIC LEVEL (FROM HDR 2016 MODEL) HISTORICAL TOPOGRAPHIC SURVEY MAP (SITE PLAN, DWG. NO. BC-1002-1, REV. 9) NOT FOR CONSTRUCTION 2. BASIS OF BEARINGS: NC GRID NAD83/2011. ELEVATIONS ARE BASED ON NAVD88. PROVIDED BY DUKE ENERGY, PREPARED FROM AERIAL PHOTOGRAPHY TAKEN ON PROPOSED FINAL COVER GRADE OCTOBER AND DECEMBER 1966. 3. THE LIMITS OF THE CCR BOUNDARY SHOWN ON THIS MAP TO BE REFINED THROUGH TITLE - - PROPOSED TOP OF CCR MATERIAL GRADE GEOTECHNICAL INVESTIGATION TO BE PERFORMED AT A LATER DATE OR VERIFIED DURING 2. EXISTING GRADE IS BASED ON THE TOPOGRAPHIC SURVEY PERFORMED BY WSP IN CROSS SECTIONS 6 CONSTRUCTION. APRIL 2014 AND SUBMITTED TO DUKE ENERGY IN JULY 2015. EXISTING GRADE 4. THE HISTORICAL TOPOGRAPHIC MAP PROVIDED BY DUKE ENERGY WAS ASSUMED TO 3. EXISTING GRADE DEPICTED BENEATH THE WATER SURFACE IS BASED ON THE ac-xxx-021 REV. p INTERNAL WORKING, DRAFT 0 C 790 780 770 760 750 740 730 w � 720 0 710 > 700 w J w 690 680 670 660 650 640 630 ASH IN DA i PROPOSED FINAL COVER C \ RADE / POST CAPPINC GROUNDWATER / \ ..... \ /HISTORICAL GRADE \ / (BOTTOM OF CCR MATERIAL) 0 o O O O O O o O O ID - o O o 0 0 0 0 0 0 0 o O O O ± N n V) O r- 00 a7 0 ± N 820 810 800 790 w w LL_ "-' 780 z O Q 770 > LL_I w 760 750 740 730 EXISTING GRAD i -IISTOF 'BOTTC ICAL GRADE M OF CCR / VROP OSED FINAL GRADE PROPOSED OP OF CCR REUCVE CCR, AND REPLj kCE WI H CLE N STIR TURA FILL 6 0 o 0 0 o O O O O o 820 810 800 790 w w L� 780 z O 770 Q > w 760 w 750 740 730 O O O O O O O O O O O O O O O ± N n �t Lo c0 I- 00 0-) O + N r2 SECTION K - K NEAR ROADWAY EMBANKMENT SECTION J - J STATION 57+83 830 820 810 800 790 :e 770 760 750 740 730 720 710 700 O Po Lo c0 00 1 + + + + + + + + O+ + N N n � Ln c0 Il- 00 O SECTION L - L CHEMICAL POND 830 820 810 800 790 780 w w LL_ 770 z O 760 Q > w 750 w 740 730 720 710 700 + 790 780 770 760 750 740 730 w Ld 720 710 0 700 > w J 690 w 680 670 660 650 640 630 O O co 0) O O 0 20 40 60 VERTICAL SCALE (IN FEET) 0 200 400 600 HORIZONTAL SCALE (IN FEET) PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY 0 4 8 12 VERTICAL SCALE (IN FEET) 0 100 200 300 HORIZONTAL SCALE (IN FEET) LEGEND 2015 POTENTIOMETRIC LEVEL (FROM HDR 2016 MODEL) PROPOSED FINAL COVER GRADE PROPOSED TOP OF CCR MATERIAL GRADE EXISTING GRADE - — — — — — — — — - HISTORICAL GRADE (BOTTOM OF CCR MATERIAL) • POST CAPPING GROUNDWATER (BY HDR MODEL) FILL WITH RELOCATED ASH NOTES 1. FINAL COVER CAP SYSTEM IS ONLY REQUIRED WITHIN THE ASH BASIN. 2. BASIS OF BEARINGS: NC GRID NAD83/2011. ELEVATIONS ARE BASED ON NAVD88. 3. THE LIMITS OF THE CCR BOUNDARY SHOWN ON THIS MAP TO BE REFINED THROUGH GEOTECHNICAL INVESTIGATION TO BE PERFORMED AT A LATER DATE OR VERIFIED DURING CONSTRUCTION. 4. THE HISTORICAL TOPOGRAPHIC MAP PROVIDED BY DUKE ENERGY WAS ASSUMED TO REPRESENT THE BOTTOM OF CCR MATERIAL VERTICAL BOUNDARY. IT IS NOTED THAT AT SOME LOCATIONS THE BATHYMETRY CONTOURS ARE BELOW THE HISTORICAL GRADES, INDICATING SOIL MAY HAVE BEEN BORROWED FROM WITHIN THE BASIN BOUNDARY TO CONSTRUCT THE DAM. NO AS -BUILT BASE GRADES ARE AVAILABLE. FUTURE GEOTECHNICAL INVESTIGATION WILL BE PERFORMED TO VERIFY THE CCR MATERIAL BASE AT SELECT LOCATIONS PRIOR TO FINALIZING THE DESIGN FOR CONSTRUCTION. 5. THE GROUNDWATER LEVELS SHOWN AS FROM HDR WERE OBTAINED FROM THE GROUNDWATER CORRECTIVE ACTION PLAN MODELS DEVELOPED BY HDR IN 2016 TO REPRESENT EXISTING AND LONG-TERM POST CLOSURE GROUNDWATER LEVELS. THESE MODELS ARE UNDERGOING REFINEMENT TO INPUT THE CURRENTLY PROPOSED FINAL COVER GRADES. LOCATIONS SHOWING LONG-TERM GROUNDWATER LEVELS ABOVE THE PROPOSED FINAL COVER GRADES ARE ASSUMED TO BE THE ARTIFACT OF THE MODELING AND ARE BEING REFINED AT THIS TIME. 6. CLEAN STRUCTURAL FILL MAY BE USED OUTSIDE THE BASIN BOUNDARIES TO PROVIDE POSITIVE GRADES TOWARDS THE CLOSED BASIN COVER SYSTEM. REFERENCE 1. HISTORICAL GRADE (BOTTOM OF CCR MATERIAL) WAS DIGITIZED BY AECOM USING THE HISTORICAL TOPOGRAPHIC SURVEY MAP (SITE PLAN, DWG. NO. BC-1002-1, REV. 9) PROVIDED BY DUKE ENERGY, PREPARED FROM AERIAL PHOTOGRAPHY TAKEN ON OCTOBER AND DECEMBER 1966. 2. EXISTING GRADE IS BASED ON THE TOPOGRAPHIC SURVEY PERFORMED BY WSP IN APRIL 2014 AND SUBMITTED TO DUKE ENERGY IN JULY 2015. 3. EXISTING GRADE DEPICTED BENEATH THE WATER SURFACE IS BASED ON THE BATHYMETRIC SURVEY PERFORMED BY HDR IN JUNE 2014. 4. THE ASH BASIN EXTENTS AND THE 2015 GROUNDWATER POTENTIOMETRIC LEVEL PRESENTED IN THIS DRAWING ARE BASED ON THE "COMPREHENSIVE SITE ASSESSMENT REPORT - BELEWS CREEK STEAM STATION ASH BASIN," PREPARED BY HDR FOR DUKE ENERGY AND SUBMITTED TO NCDEQ (NPDES PERMIT NO. NC0024406) ON SEPTEMBER 9, 2015. TITLE A"=com SEAL N.C. ENGINEERING LICENSE NO. I FOR F-0342 NOT FOR CONSTRUCTION CROSS SECTIONS 7 BELEWS CREEK STEAM STATION 100% DRAFT CLOSURE PLAN STOKES COUNTY, NORTH CAROLINA ISSUED FOR REVIEW DUKE RAY®[DATE. SCALE: 1 = 200 DWG TYPE:.DWG : 7-7-16132ENE FILENAME: CROSS SECTION.DWG DWG SIZE DRAWING NO. ANSI D 22.0"x 34.0" BC-XXX-021 DES: CN DFTR : CLD CHKD: DM ENGR : CN APPD: KK REVISION A W n X X X I O N m f 0 2 TENTHS 3 1 10 20 30 3 n 5 11 7 I I I I 2 3 4 5 / II \ \\\ \\\\ \\\\\\ \\\\ ` `\ �\\�\ XIpII 1,11I I I l �0\\ ,/ ' // , // / '//,' I I /I I iII I I �I I i II I �i/ I \;\ I I `I I I `\II I \ II `I,l 1,I,l `\;\l1 \ ;j \I` \1II` \I1`1 \�11` \1I1 \ I1 \1,1 \ \11\ � \I1\I I1\I \1\`\�II \1I'\ \I;I \'I; I\I\I"\1 \1\`1 ' 111 \ `\\\ \\\1\\\ \`\\\ \\\` \``\ \\ \\\�\`�\\��\`\\\ `' �\\�\\\`�\'�\" `\\ \ S�►'\ ,` \\ `^\ r \ 1 1\ 1\ i1 1I 1II1 , I I1I ,1I1 I1 1 I I IRpIFRIA O 01 I II I 1 1 I %I I R ��Tf-D R�EWill VLjTCiDF�E•I I / 1 I I 1 1 1 1 ► I I I I I I III11 ,' /' I I l /// j l 1/ j j l j! I I I I I 1 1 1 1 II 'I I l l l l l l l l /\ \ `\ \ 1 1\\ I 1 I 1 , \ , l l l///ll f,^/ / / / / ,' ,� ��' / // �/ / I l / I , I I 1 I l I I I I I I I 1 \ 1 \ \\\ \ \ \ \ \ \ \ \ III 1 / 1 / l l 11 %%� 11 ` % /' / % "' ,' .'' / /' ' /' l 'Ile If `\C) I ! l \ \ \ \ \ \ \ \ \ P ' / I / I j I I I I j \ \ �\ !' ( ` `\ \ `\ \ \ \ \ `\ 1 1 I ` _, \ \\ O \\ \\ \ c9 \ c9 \ / / / I I I I I /' /' /' / I I I I I 1 I I \ � \ \ \ \ \ \ 1 1 \ \ \ \ 1 \ 1 \ , I � l I � I 1 / l I / / i l l l/ I `�"' /' / /' /' /' / /' / ' •' ' / / / I I I I I I 1 1 1 \ \ 1 . \ \ 1 \ / \ ; 1..1 1, I I \ 1`' / , / , / �� / �� / I I I i 1 I WIG` tlLhP+L,T 11 1 \ \\ \ \ \ \ \ \ \ ► \ \ \\ \ \\ / , . / / / / , / \ \ 1 19 � / ,/ �. / � , , / // / , I 1 \ 1 1 1\1 \ I I QInl DITYfI , I l I , l , I l Imo/ / / / � . . / � �� _. / / � (/ / / 1 � 1 1 I 1 � \ 1 ► I \ O I I �/ / I \ 1 \ \ 1 S � 1 I I I 1 1 � � 1 1 \ / / / / / 1 I I I I \ \ \I \ O \ t9 / / /, /, /, /,///' / / 1 / I 'O 1 I I I OI I ► 1' \ \ 1 1 OCD I I l / 1 / / / l l l l / / / / , / �' / / /'' / , , / / / / / / I I co I 1 O 1 c9 /1���/l 1 jj//j/'�' I ` �/ '/ // / % /' / / / / // / / / �� �/ j/ / // / /i // I I I ICI j I Ic~9j'1111 `\ I O `\ 'e I I I I Ico I 1 1 111 1 \ I I \ \ I / 1 (91 / / / / STOKE 116-P-98S 1 1 \ \ \ I ,.APBROX)I/E XT cF 1JOE10FiT ,FIT V /Ay �/ ,/ ,' ,STOKE 116-P-98D ` 650 12+00 \ A I 1 I I /// /llll,;\\ \ ` \ ` \ ` \ 1 I / P)R©ylL.LV 1/A1/�E /P7 / ; / / / / / / / / / / / I / / / I / // l / I QT E1) i 660 I� 670 //� // /////„ / \ \ \ \ \ \ \ \ \ \ • \ \ \ \ \ \ \ 1 \ \ I I I I I I o 191 I 7 BC-XXX-022 REV. A /'� / /'/I1/11 A / / / G� / / F- QV' y' yI D / / i'�' "\/Q/01 �//��/ 01/2018 I I I , / / / I--' / k I a^O / / '',/ i `\ 1� I `^_'//� R/'�/� 1p •/' jj NLY I C:) 1 05 Q) _---- 8"3iA: \ \WE4GH F W FILT \ 1 \\ _ \\ \\ \ \ N' DI\A�HDPE CID PIPS ----' / ,_� \ ' STOKE 116-P-101 " / _ �1r� ` ` 1 I I I l STOKE 116-P-100D -- STOKE 116-P-100S i ,' ///,/ ,' ,' /,/��/',/',j ��'/ //',/ STOKE 116-MW-102(R)S / � /, , , , , / , /\(. � i i / i \\ \\ \ \ \ \ \ \ \ \ \ \\ \ \ \ \ \ \\ \ \ \ \ \ 680STOKE 116-MW-102 R D , / / / . / ' / � / '. � ol r. CO 'o fu ♦ ` O 4H.1V 4 1V \ 3+00 I / \/ '/' // i / // // �/ �/ / / / �,' le/ // // / , I / STOKE 116-P-97S STOKE 116-P-96S STOKE 116-P-97D ` STOKE 116-P-96D-- o ' �6 I o 15 0 WEIGHTED FILTER I \\ -_ ` 11 r CD. 1- 8" DIA. HDPE PIPE \�\ ♦ 4 Q � �I 0 ` \ 5+00 LEGEND EXISTING DAM BOUNDARY (APPROXIMATE) EXISTING MINOR CONTOUR (2 FT) EXISTING MAJOR CONTOUR (10 FT) PROPOSED (UNDER CONSTRUCTION) MINOR CONTOUR (2 FT) PROPOSED (UNDER CONSTRUCTION) MAJOR CONTOUR (10 FT) PROPOSED MINOR CONTOUR (2 FT) PROPOSED MAJOR CONTOUR (10 FT) CLEANOUT 1. THE GRADES AND LABELS SHOWN ON THIS DRAWING ASSOCIATED WITH THE WEIGHTED FILTER PROJECT AREA, WILL BE UPDATED ONCE THE ONGOING PROJECT IS COMPLETED AND AS-BUILTS ARE AVAILABLE. 101 BASELINE EXISTING GROUND I CONCRETE DITCH 6" MIN. STRIPPING (TYP.) j _7 ACCESS ROAD I1 I12 00 8 0 9+ _ �— 16+00 I10+00 I 7LOWERED DAM STRUCTURE I 17+I 0 I PROPOSED BERM AT EL. 700 VARIES 7I WINCH TE ENTRA CE STRUCT RE son oft 60, EARTH FILL 3' MIN. COVER WETLAND AREA WB TO BE BACKFILLED TYPICAL (EXISTING) WEIGHTED FILTER BLANKET SECTION SCALE: N.T.S I APPROXIMATE LOCATION OF EXISTING DAM TOE LOW / 18+ 1 107 TOE DITCH STRIP DRAIN _ � 00000 / — two q.V0 ppP-\ u 0 60 120 180 GRAPHIC SCALE (IN FEET) DRAFT NOT FOR CONSTRUCTION k TITLE ASH BASIN MAIN DAM OVERALL VIEW P"=com BELEWS CREEK STEAM STATION 100% DRAFT CLOSURE PLAN STOKES COUNTY, NORTH CAROLINA N.C. ENGINEERING LICENSE NO. FOR F-0342 ISSUED FOR REVIEW SEAL _ SCALE: 1" N = 60' DES: C DUKE DWG TYPE :.DWG DFTR : CLD JOB CHKD: DM rNERGYn DATE: : 7-7 16 32 ENGR: CN FILENAME: ASH DIKE CROSS SECTIONS.DWG APPD: KK DWG SIZE DRAWING NO. REVISION ANSI D 22.0"04.0" BC-XXX-022 A I I I I I I I I I I I 1 I I 0 1 2 g I TENTHS 10 20 30 ac-xxx-oza REV. p INTERNAL WORKING, URAFT 0 C 0 790 780 770 760 750 740 730 720 710 700 790 780 770 760 750 740 730 720 710 700 690 680 670 660 650 EN I STI NI GRAD - 1 P C OPO VER 'PRAD ED FI AL \ ED TOP OF \ GRADE FILL WITH RELOCATED ASH ROP SED G FINALE ADE G ADE PROPO 790 780 770 760 750 740 730 720 710 700 0 0 0 0 0 0 0 0 O O O O O O O O O O O O O O O O O O O O O O � N O 00 co � N O 00 co � N O N O O O O O N c� CO O N c0 CO O N r� r� r� N N N N N I I I I N O O — N N N N N ro ro ro I I I I I I I I I I I I I STA. 2+00 E ISTIN RAD NAL PROPOSED F COVER GR ' PRO OSED FINAL HIS ORIC L P OF RAD i CCF MAT RIAL FILL WITH RqLOCATED SH pig 790 780 770 760 750 740 730 720 710 700 690 680 InKI R P� Sw Ow In D IN 5%3w%—Crw—wr U( I �S mi FE EXISTING GRADE --Fl w T-"qGwr T—Ir—FI-16. or) %im PRO OSE FIN L COVER G ADE - ROP SED INAL PR POSE TOF OF C R M TERI L GTE FI L WI H RE OCA ED A H HI GRADE TOR CAL 7,12018 ONLY 770 760 750 740 730 720 710 700 690 680 O O O O O O O O O O O O O O O O O O O O O O O o 0 0 0 0 0 0 N O 00 O N O co O � N O co O N O O O O O O N cD 00 O N �t O 00 O N �t ro ro ro N N N N N I I I I N O — — — — N N N N N rO rO rO I I I I I I I I I I I I I STA. 4+00 790 780 770 760 750 740 730 720 710 700 690 680 670 660 650 640 630 620 CD CD CD CD CD CD O O O O 610 � N O 00 CO � N O 00 CO � N O O O O O O O O O O O O O O O O O O O O O N O 00 c0 � N O 00 O � N O O O O O O O O O O O O O O O O O O O O O O rO rO r0 N N N N N 00 (o �t N I I I I I I I I O O 00 O N co 00 N � c0 00 O N � I I I I I I I I I I I I I 0N O 00 O N � cD 00 O N � O 00 O N � I I I I I I I I I —— — NNNNroro I —————NNNNNroro ro STA. 6+00 STA. 8+00 LEGEND EXISTING GRADE - - - - - - HISTORICAL GRADE PROPOSED TOP OF CCR MATERIAL GRADE PROPOSED FINAL COVER GRADE FILL WITH RELOCATED ASH 790 780 770 760 790 750 780 740 770 730 760 720 750 710 740 700 730 690 720 680 710 670 700 660 690 650 680 640 670 630 660 620 650 610 EX STIN RAD E \ PIROPO If -COVER 3ED F GRA NAL E AN HI TORT AL , PROPOSE FIN RADE L --- - - - X - CCR MAT RIAL RAD FILL WITH ELO ATE ASH ii,411 DRAFT NOT FOR CONSTRUCTION TITLE ASH BASIN MAIN DAM CROSS SECTIONS 1 P"=comBELEWS CREEK STEAM STATION 0 20 40 60 100% DRAFT CLOSURE PLAN STOKES COUNTY, NORTH CAROLINA VERTICAL SCALE (IN FEET) N.C. ENGINEERING LICENSE NO. FOR F-0342 ISSUED FOR REVIEW SEAL DUKE SCALE: AS SHOWN 0 200 400 600 DWG TYPE:.DWG JOB ENEMM7Y® DATENO : �04316132 HORIZONTAL SCALE (IN FEET) FILENAME: ASH DIKE CROSS SECTIONS.DWG DWG SIZE DRAWING NO. ANSI D 22.0"x34.0" BC-XXX-O23 DES: CN DFTR : CLD CHKD: DM ENGR : CN APPD: KK REVISION A m F 0 1 2 3 2 TENTHS 10 20 30 3 4 5 6 7 8 ac-xxx-oza REV. p INTERNAL WORKING, URAFT 0 C 0 790 780 770 760 750 740 730 720 710 700 690 680 670 660 650 640 630 620 610 790 780 770 760 750 740 730 720 710 700 690 680 670 660 650 640 630 620 O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O �t N O 00 c0 �t N O 00 c0 �t N O 00 (D �t N O O O O O O N � c0 00 O N � (D00 O N � r7 r7 r7 N N N N N I I I I N � (D 00 — N N N N N r7 r7 r7 I I I I I I I I I I I I I STA. 10+00 XIST NG GPj0E / PROPOSED FI AL COVER GRAD r-FILL WITH REL CATE 3 AS - - OTORICAIL ROP SED OP O - - - - GRADE -CCR MATERIAL RAD PROPOSED FINAL i IN. i N, / N, i O O O O O O O O O O O O O O O O O O O O O O O O O O O O O O � N O CO c0 � N O 00 O N O 00 C0 � N O O O O O O N � O 00 O N � O 00 O N � r7 r7 r7 N N N N N I I I I N O N N N N N r7 r7 r7 I I I I I I I I I I I I I STA. 14+00 790 780 770 760 750 740 730 720 710 700 690 680 670 660 650 640 630 620 610 790 780 770 760 750 740 730 720 710 700 690 680 670 660 650 640 630 620 790 780 770 760 750 740 730 720 710 700 690 680 670 660 650 640 630 620 610 O I D T D NO /0 F IS S I U POSES EXISTING GRADE PROPCSED -COVERGRA INAL E FILL WITH ELO ATE ASH ROP SED TOP O i / PROPOSED FINA RAD / / i -__ HIS GRADE ORIC L v t2t 18 780 )7NLY 760 750 740 730 720 710 700 690 680 670 660 650 640 630 620 610 O O O O O O 0 0 0 0 0 o 00 CD CD CD CD CD CD CD CD CD CD CD O � N 00 (0 � N CD 00 c0 � N CD0(D � ON O O O O O O N � O 00 O N � (D 00 O N � r0 r0 N N N N N I I I I N � (D 00 N N N N N r7 r0 r0 I I I I I I I I I I I I I _QTn 1 *2+nn LEGEND EXISTING GRADE - - - - - - HISTORICAL GRADE PROPOSED TOP OF CCR MATERIAL GRADE PROPOSED FINAL COVER GRADE FILL WITH RELOCATED ASH 0 20 40 60 VERTICAL SCALE (IN FEET) 0 200 400 600 HORIZONTAL SCALE (IN FEET) DRAFT NOT FOR CONSTRUCTION TITLE ASH BASIN MAIN DAM CROSS SECTIONS 2 P"=com BELEWS CREEK STEAM STATION 100% DRAFT CLOSURE PLAN STOKES COUNTY, NORTH CAROLINA N.C. ENGINEERING LICENSE NO. F-0342 FOR ISSUED FOR REVIEW SEAL fft) DUKE SCALE: AS SHOWN DES: CN DWG TYPE :.DWG DFTR : CLD JOB NO: 60432132 CHKD: DM ENERGY® DATE: 7-7-16 ENGR : CN FILENAME: ASH DIKE CROSS SECTIONS.DWG APPD: KK DWG SIZE DRAWING NO. REVISION ANSI D 22.0"x34.0" BC-XXX-024 A 00 n X X 6 N m F 0 1 2 3 2 TENTHS I 1 10 20 30 3 n 5 6 7 8 ac-xxx-ou REV. p INTERNAL WORKING, URAFT 0 0 790 780 770 760 750 740 730 720 710 700 690 680 670 660 650 640 XISTI G ROU qD PRO OSE COV ' FINAL GR DE i DTOP O GRAD CCR MATERIAL ILL REA \� / HIST RICA 790 780 770 760 750 740 730 720 710 700 690 680 670 660 650 640 O O O O O O O O O O O O 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 �t N O 00 CD �t N O 00 CO �t N O 00 p �t N O O O O O O N CD 00 O N cD 00 O N I I I I I r7 r7 r7 N N N N N I I I I N O N N N N N No r0 r0 I I I I I I I I STA. 16+00 PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY 790 780 770 760 750 740 730 720 710 700 690 680 670 0 0 0 0 0 0 0 0 0 0 0 0 o 670 O O O o O O O O O o 0 0 0 0 0 0 0 N O 00 (D � N O 00 co � N O 00 co � N O 0 0 0 0 O N 0 0 00 O N 0 O 00 O N 0 n rr) r� N N N N N N co 00 I I I I I I I I I I I I I I I I I N N N N N r7 r7 r7 STA. 18+00 i: 790 780 770 760 750 740 730 720 710 700 690 680 E ISTIN RAD - - / i PROPOSED FINAI. H STO ICAL \ � � COV R GR DE GRA i C.CR PRC M POSED TERI TOF L GRADE-' OF i FILL REA ' LEGEND EXISTING GRADE - - - - - - HISTORICAL GRADE PROPOSED TOP OF CCR MATERIAL GRADE PROPOSED FINAL COVER GRADE FILL WITH RELOCATED ASH 0 20 40 60 VERTICAL SCALE (IN FEET) 0 200 400 600 HORIZONTAL SCALE (IN FEET) DRAFT NOT FOR CONSTRUCTION TITLE ASH BASIN MAIN DAM CROSS SECTIONS 3 P"=com BELEWS CREEK STEAM STATION 100% DRAFT CLOSURE PLAN STOKES COUNTY, NORTH CAROLINA N.C. ENGINEERING LICENSE NO. F-0342 FOR ISSUED FOR REVIEW SEAL DUKE SCALE: AS SHOWN DES: CN DWG TYPE :.DWG DFTR : CLD JOB NO: 60432132 CHKD: DM ENERGY® DATE: 7-7-16 ENGR : CN FILENAME: ASH DIKE CROSS SECTIONS.DWG APPD: KK DWG SIZE DRAWING NO. REVISION ANSI D 22.0"x34.0" BC-XXX-025 A W n X X 6 N m F 0 2 3 2 I TENTHS 10 20 30 3 4 5 6 7 8 I I I I I I BC-XXX-026 REV. A 0 VEGETATIVE COVER 6" TOPSOIL/AMENDED COVER SOIL ~ 5� X, \\ \ COVER SOIL GEOSYNTHETICS FINAL COVER SOIL 18" 24 GEOCOMPOSITE - FINAL COVER SYSTEM GEOSYNTHETICS TEXTURED 40-MIL � / LLDPE GEOMEMBRANE / CCR MATERIAL / / CCR MATERIAL 2 ANOCHOR TRENCH POSED 2 FT. X 2 FT. 1 TYPICAL FINAL COVER SYSTEM 2 TYPICAL ANCHOR TRENCH 026 NOT TO SCALE 026 NOT TO SCALE B C 0 LINER LIMIT SIGN EX. GRADE GEOSYNTHETICS ANCHOR TRENCH FINAL GRADE 2.0% MIN. CjR MATER/// jr// 5' 2' COVER SYSTEM COVER SOIL COVER SYSTEM GEOSYNTHETICS TYPICAL CAP TERMINATION ALONG BOUNDARY, - NOT TO SCALE STAINLESS STEEL BATTEN NEOPRENE GASKET i' 3/8" Ox3 3/4" GEOMEMBRANE ' STAINLESS STEEL CINCH TYPE ANCHORS BOLT @6" CENTERS. KT' GEOMEMBRANE CONNECTION �A�6TO CONCRETE HEADWALL NOT TO SCALE SEAL INTERNAL WORKING, DRAFT PROVIDED TO NCDEQ ON 06/07/2018 FOR DISCUSSION PURPOSES ONLY L=com N.C. ENGINEERING LICENSE NO. F-0342 TITLE DRAFT NOT FOR CONSTRUCTION FINAL COVER AND CAP TIE-IN DETAILS BELEWS CREEK STEAM STATION 100% DRAFT CLOSURE PLAN STOKES COUNTY, NORTH CAROLINA FOR ISSUED FOR REVIEW DUKE ENErjt'"*VR® SCALE: N.T.S. DWG TYPE:.DWG JOB :76132 DATE:-7-1 FILENAME: DETAILS.DWG DWG SIZE DRAWING NO. ANSI D 22.0"x34.0" BC-XXX-026 DES: CN DFTR : CLD CHKD: DM ENGR : CN APPD: KK REVISION 0 W n X X X O IV a) m 0 1 2 3 2 TENTHS I 20 30 3 n 5 I 7 BC-XXX-027 REV. A 0 : C 24" CAP SYSTEM GRASS -LINED CHANNEL CL WEEP PIPE (4" HDPE INTERNAL WORKINU U RAFT COVER SOIL CHANNEL WEEP PIPE SOLID PIPE) -SEE NOTE 1. 24" CAP SYSTEM PROVIDED TO NCDEQ ON 06/07/2018 o F SOLID PIPE)(- HDPE NOTE 3 LOW 1 POINT 5.0% MAX. FCOVER SOIL 5.0/o MAX. LCHANNEL CALCULATION SUMx L.1 I %..? %.# % MJ!3Y'ARL� SS ION PURPOSES ONLY vi ')A" t- nn Q\/QTCKA TYPICAL CENTER CHANNEL SECTION - STANDARD DESIGN NOT TO SCALE NOTES: A. THIS STANDARD CHANNEL DESIGN INCLUDES VEGETATED CHANNELS AND IS TO BE USED IN AREAS WITH LOW SURFACE WATER VELOCITIES. IN AREAS WHERE HIGH SURFACE WATER VELOCITIES ARE ANTICIPATED, REFER TO ALTERNATIVES 1 AND 2. B. TO PROTECT AGAINST EROSION OF COVER SOIL AND TO ESTABLISH VEGETATIVE STABILIZATION WITHIN THE CHANNEL, EITHER ECM (EROSION CONTROL MATTING) OR TRM (TURF REINFORCEMENT MATTING) WILL BE USED. THE SPECIFIC PRODUCT WILL BE BASED ON THE ANTICIPATED SURFACE WATER VELOCITY AND SHEAR STRESS REQUIREMENTS. C. SUBSURFACE DRAINAGE WEEP PIPE TO BE INSTALLED EVERY 50-FT ALONG LENGTH OF CHANNEL. THIS PROPOSED PRELIMINARY SPACING WILL BE RE-EVALUTED FURTHER PRIOR TO CONSTRUCTION BASED ON ADDITIONAL ANALYSES. 6" UNIMAT FABRIFORM (OR EQUIVALENT) WEEP PIPE (4" HDPE TYPICAL CENTER CHANNEL SECTION - ALTERNATIVE #1 NOT TO SCALE NOTES: A. SUBSURFACE DRAINAGE WEEP PIPE TO BE INSTALLED EVERY 50-FT ALONG LENGTH OF CHANNEL. THIS PROPOSED PRELIMINARY SPACING WILL BE RE-EVALUTED FURTHER PRIOR TO CONSTRUCTION BASED ON ADDITIONAL ANALYSES. B. 2-FT WIDE CONCRETE PLUG TO REPLACE 18" COVER SOIL BETWEEN FABRIFORM AND GEOCOMPOSITE EVERY 100-FT ALONG THE LENGTH OF THE CHANNEL TO PREVENT POTENTIAL FOR SOIL WASH -OUTS UNDER FABRIFORM. 11 %1 24" CAP SYSTEM Ditch Drainage Area Channel Location ID DA (Acres) RCN Q2s (cfs) Q1oo (cfs) Slope M Liner Material W (ft) D2s (ft) D1oo (ft) V25 (ft/s) V1oo (ft/s) Proposed Channel Depth (ft) DA-1 1-1 132.49 71 330.9 537.9 1.03 ECM/TRM 20 3.0 3.2 5.0 5.8 6.0 DA-2 2-1 122.85 71 353.8 573.6 1.07 ECM/TRM 20 3.0 3.3 5.1 5.9 6.0 DA-3 3-1 255.34 71 668.3 1083.7 1.11 Alternative 1 40 3.1 3.4 5.5 6.5 6.1 DA-3 3-2 346.74 71 916.6 1486.1 1.03 Alternative 1 40 3.0 3.2 8.1 9.5 6.0 DA-4 4-1 48.55 71 146.2 236.6 1.30 ECM/TRM 10 3.0 2.7 4.3 4.9 6.0 DA-5 5-1 395.29 71 1020.7 1668.2 1.06 Alternative 1 40 3.1 3.4 8.5 9.9 6.1 DA-5 5-2 458.1 71 1165.1 1903.4 1.301 Alternative 1 40 3.1 3.4 9.5 11.1 6.1 DA-6 6-1 19.83 71 68.8 110.4 3.56 ECM/TRM 10 2.0 1.8 3.4 3.9 5.0 DA-7 7-1 160.89 71 305.7 500.1 1.62 ECM/TRM 20 3.0 3.0 4.9 5.7 6.0 DA-8 8-1 641.13 71 173.9 283.0 1.62 ECM/TRM 10 3.0 2.9 4.5 5.1 6.0 DA-9 Entrance to Downchute 2.31 71 1454.67 2371.47 NOTES 1. THE CHANNEL SECTION CALCULATIONS SHOWN ON THIS SHEET ARE FOR THE DRAINAGE AREAS OF THE PROJECT THAT PRODUCE Q25 FLOWS GREATER THAN 50 CFS. FURTHER ANALYSIS OF THE CONTRIBUTING SUBDRAINAGE AREAS WILL BE PERFORMED AT FINAL DESIGN STAGE TO PROVIDE FURTHER REFINEMENT OF DESIGN CHANNEL DEPTHS, VELOCITIES AND REQUIRED LINERS FOR ADEQUATELY CONVEYING STORMWATER RUNOFF. TYPICAL Q25 CHANNEL SECTIONS FOR THESE UPPER REACH SUBDRAINAGE AREAS ARE ANTICIPATED TO BE 10' WIDE, 2' DEEP, WITH GRASS LINED ECM/TRM FOR LINER MATERIAL. 2. REFER TO THE STORMWATER MANAGEMENT SYSTEM PLAN ON SHEET BC-XXX-009 FOR DRAINAGE DIVIDES AND CHANNEL LOCATION ID POINTS. 3. * SYMBOL INDICATES NO CHANNEL - SEE SHEET BC-XXX-11 AND BC-XXX-22 FOR ENTRANCE GRADING TO DOWNCHUTE. 4. THE D25 CHANNEL DEPTHS IN THE CHANNEL CALCULATION SUMMARY TABLE INCLUDES 6 INCHES OF FREEBOARD BELOW THE WEEP PIPE OUTLET FOR THE Q25 DESIGN FLOW. THE D100 DEPTH IS THE CALCULATED DEPTH OF THE Q100 DESIGN FLOW. DETAILS PENDING REVISION BASED ON UPDATES TO DUKE PROGRAMMATIC DOCUMENT W n X x x C N 4 m 0 1 2 3 2 TENTHS 10 20 30 3 A 5 7 GRAVEL ENTRANCE SHALL BE 50 FEET IN LENGTH AND 20 FEET IN WIDTH WITH 20 FOOT RADIUS AT DESIGN CRITERIA EXISTING ROADWAY AGGREGATE SIZE - USE 2-3 INCH WASHED STONE 36'-0°MIN 4'-0° 101-01, DIMENSION OF GRAVEL PAD THICKNESS - 6 INCHES _......._._.... _._�._ .._......._ MINIMUM 6" MIN. _ ______________ THICKNESS WIDTH - 12 FT. MINIMUM OR FULL WIDTH AT FILTER FABRIC 23 WASHED STONE ACCESS POINTS OF THE VEHICULAR ENTRANCE AND EXIT AREA, WHICHEVER IS GREATER GRAVEL CONSTRUCTION ENTRANCE LENGTH - 50 FT. MINIMUM. LOCATION - LOCATE CONSTRUCTION ENTRANCES A �oPo AND EXITS TO LIMIT SEDIMENT FROM LEAVING THE SITE AND TO PROVIDE FOR MAXIMUM UTILITY BY eJ j ALL CONSTRUCTION VEHICLES. AVOID STEEP GRADES AND ENTRANCES AT CURVES IN PUBLIC ROADS. CONTRACTOR SHALL INSTALL ADDITIONAL GRAVEL o� CONSTRUCTION ENTRANCES NOT INDICATED ON 6"MIN. THICKNES THE PLANS REQUIRED FOR STAGING AND/OR \�'$ BORROW AREAS AND MAINTAIN AT NO ADDITIONAL 2-3" COURSE AGGREGATE hd �� EXPENSE TO THE OWNER. CONTRACTOR SHALL SUPPLEMENT AND MAINTAIN GRAVEL CONSTRUCTION ENTRANCES AT HIS EXPENSE UNTIL FINAL ACCEPTANCE. 8 CONSTRUCTION ENTRANCE 028 C STAPLE CHECK 30' 4" MATTING IN DITCHES SLOPE EXCAVATED MATERIAL - VAR TO 1 VAR. �7 2TO 3' DIVERSION DITCH MINIMUM 1( GAUGE LINI WIRES ILI NOTE: USE SILT FENCE ONLY WHEN DRAINAGE AREA DOES NOT EXCEED 1/4 ACRE AND NEVER IN AREAS OF CONCENTRATED FLOW. * FOR REPAIR OF SILT FENCE FAILURES, USE No. 57 WASHED STONE FOR ANCHOR WHEN SILT FENCE IS PROTECTING CATCH BASIN. 18" (MIN.) BACKFILL EXISTING GROUND 6" (MIN.) STAPLES ON 1' CENTERS IN TRENCH 6" MIN MATTING SHALL BE STAPLES ON 1' PLACED IN TRENCH AND CENTERS IN BACKFILLED TRENCH DIAGRAM AO 6 STAPLE 3' x \/ 1 /2' /\ 3' /\ X Staple Check Pattern 8'-0" MAXIMUM I VARIABLE AS DIRECTED BY THE ENGINEER SILT FENCE FABRIC A NSTALLED TO SECOND 9" (MIN)-�?FQ' HIRE FROM TOP c r'11' STEEL POST WOVEN WIRE FABRIC SILT FENCE FABRIC 3'-0" o FILL SLOPE 26" _.._ "� GRADE 6" MINIMUM COVER OVER SKIRT " 2'-0' I ANCHOR SKIRT AS DIRECTED I BY ENGINEER SIDE VIEW 9 SILT FENCE 028 DIAGRAM CO DIAGRAM BO , NOTES: 1. STAPLES SHALL BE NO. 11 GAUGE STEEL WIRE FORMED INTO A "U" SHAPE WITH A MINIMUM THROAT WIDTH OF 1 INCH AND NOT LESS THAN 6 INCHES IN LENGTH. 2. EXCAVATE TEMPORARY SILT DITCH WITH NON -VERTICAL SIDE SLOPES AND NOT GREATER THAN 1.5:1 SLOPE. 3. SEED BERM CREATED BY EXCAVATED MATERIAL AS DIRECTED. 4. THE ANCHORING AND STAPLES SHALL NOT BE ALLOWED TO CONTACT THE FINAL COVER GEOSYNTHETICS. 11 DIVERSION DITCH 028 MINIMUM 12-1/2 GAUGE INTERMEDIATE WIRES GRADE NCDOT #5 OR #57 WASHED STONE CLASS B EROSION CONTROL STONE 12" OF NCDOT #5 OR — #57 WASHED STONE NOTE: 1. USE SILT FENCE ONLY WHEN DRAINAGE AREA DOES NOT EXCEED 1/4 ACRE AND NEVER IN AREAS OF CONCENTRATED FLOW. 2. END OF SILT FENCE NEEDS TO BE TURNED UPHILL. 3. REMOVE SEDIMENT DEEPER THAN 12" AND REPAIR ANY UNDERMINING IMMEDIATELY. 4. CONTRACTOR SHALL BE RESPONSIBLE FOR PLACEMENT AND REMOVAL OF FENCE. 5. CONTRACTOR SHALL BE RESPONSIBLE FOR RESTORING DISTURBED AREAS TO ct I7�C l�r1AICT�I Il�TI/'1A1 !�/'1A11-11 T1/'1A1 s� TEMPORARY SEDIMENT TRAP DESIGN CRITERIA DRAINAGE AREA < 5 AC. (ACRES) MIN. LENGTH TO 2:1 WIDTH RATIO 3600 MIN. (CU. FT. VOLUME PER AC. REQUIRED DISTURBED) 435 SURFACE (SQ.FT. PER AREA CFS Q10) REQUIRED NOTES: 1. SEDIMENT TRAP NO. 2 WILL HAVE A 24" HDPE INFLOW PIPE. SEE DETAIL 4, DRAWING BC-1042-37. 2. REFER TO STANDARD SPECIFICATION 6.60 OF THE NORTH CAROLINA EROSION AND SEDIMENT CONTROL PLANNING AND DESIGN MANUAL FOR ADDITIONAL DESIGN SPECIFICATIONS REGARDING TEMPORARY SEDIMENT TRAPS. 3. REFER TO STANDARD SPECIFICATION 6.65 OF THE NORTH CAROLINA EROSION AND SEDIMENT CONTROL PLANNING AND DESIGN MANUAL FOR BAFFLE SPACING AND INSTALLATION. 4. NCDOT #5 OR #57 WASHED STONE SHALL CONFORM TO DIVISION 10, SECTION 1042 OF THE 2012 NCDOT SPECIFICATIONS. PLAN VIEW DESIGN SETTLED TOP --- 2 T� 5'� O 3 1. 5' FLOW �. 8 OZ/SY NON -WOVEN J ac-xxx-oze REV. p NTERNAL WORKING, URAFT SIDED TO DISCUS. APPROXIMATE EDGE OF CHANNEL 8 OZ/SY NON -WOVEN GEOTEXTILE JEQ F�(TYb N 06/07/2018 A1 n n /S 1�16$ B (SEE PLANS) `A6 B FOR SPACING) RIPRAP a L = THE DISTANCE SUCH THAT POINTS A AND B ARE OF EQUAL ELEVATION GEOTEXTILE NOTES: 1. ROCK CHECK DAMS TO BE UNDERLAIN BY A 10 OZ/SQ. YD. GEOTEXTILE. 2. ROCK CHECK DAMS TO BE INSTALLED AS NEEDED AROUND BASIN CONSTRUCTION AREAS. rl 0 CHECK DAM 028 21" MIN. MAX. GEOTEXTILE GROUND 12 SEDIMENT TRAP 028 NOTE: EROSION AND SEDIMENT CONTROL DETAILS ARE BEING SHOWN FOR REFERENCE PURPOSES ONLY. DESIGN AND SITING OF MEASURES TO BE FURTHER DEVELOPED WITH CONSTRUCTION LEVEL DOCUMENTS. NCDOT CLASS R STONE ROCK CHECK DAM PROFILE Ditch/Swale Slope(%) Rock Check Dam Spacing(ft) 0.50% 400 1% 200 1.50% 133 2% 100 2.50% 80 3% 67 4% 50 5% 40 6% 33 Spacing = 2ft/Slope OVERFILL 6" FOR n SETTLEMENT X X X L=10' MIN. / ti50P EMERGENCY 00 BY-PASS 6" BELOW SETTLED TOP OF DAM EXISTING GROUND X=7' MIN. m < TITLE A"=Com SEAL N.C. ENGINEERING LICENSE NO. I FOR F-0342 NOT FOR CONSTRUCTION E&SC DETAILS 1 BELEWS CREEK STEAM STATION 100% DRAFT CLOSURE PLAN STOKES COUNTY, NORTH CAROLINA ISSUED FOR REVIEW DUKE ENERGY® SCALE: NTS DWG TYPE:.DWG :7-7-16132 DATEN: FILENAME: E & S DETAILS.DWG DWG SIZE DRAWING NO. ANSI D 22.0"x34.0" BC-XXX-028 DES: CN DFTR : CLD CHKD: DM ENGR : CN APPD: KK REVISION A I i I i I i I i I 0 1 2 3 2 TENTHS W I I I I I I I I I I I I I 20 30 3 4 5 6 7 BC-XXX-029 REV. A SURFACE STABILIZATION MEASURES DEFINITION Surface stabilization measures are the measures necessary to control runoff and erosion on disturbed areas by establishing perennial vegetative cover with seed. These measures include both temporary and permanent measures. Temporary seeding measures control runoff and erosion until permanent vegetation or other erosion control measures can be established. PURPOSE To reduce erosion and decrease sediment yield from disturbed areas, to permanently stabilize such areas in a manner that is economical, adapts to site conditions, and allows selection of the most appropriate plant materials. SPECIFICATIONS SEEDBED PREPARATION Good seedbed preparation is essential to successful plant establishment. Complete grading before preparing seedbeds, and install all necessary erosion control measures as shown on the approved erosion control plan. A good seedbed is well -pulverized, loose and uniform. If soils become compacted during grading, loosen them to a depth of 6" using mechanical means that will ensure that the cover system drainage system is not adversely impacted. Roughen or groove soil surface on the contour. If recent tillage operations have resulted in a loose surface, additional roughening may not be required, except to break up large clods. If rainfall causes the surface to become sealed or crusted, loosen it just prior to seeding by disking, raking, or other suitable methods. Groove or furrow slopes steeper than 3:1 on the contour before seeding. Lime Application: Apply lime according to soil test recommendations. If the pH (acidity) of the soil is not known, an application of ground agricultural limestone at the rate of 1 to 1-1/2 tons/acre on coarse -textured soils and 2-3 tons/acre on fine -textured soils is usually sufficient. Apply limestone uniformly and incorporate into the top 4-6 inches of soil. Soils with a pH of 6 or higher need not be limed. Fertilizer Application: Base the fertilizer rates on soils tests. When these are not possible, apply a 10-10-10 grade fertilizer at 700-1,000 lb/acre. Both fertilizer and lime should be incorporated into the top 4-6 inches of soil through measures such as disking, raking or other suitable measures. If a hydraulic seeder is used, do not mix seed and fertilizer more than 30 minutes before application. Complete seedbed preparation by breaking up large clods and raking into a smooth, uniform surface (slopes less than 3:1). Fill in or level depressions that can collect water. Broadcast seed into a freshly loosened seedbed that has not been sealed by rainfall. SEEDING Seed selection is provided in the Tables below. Select an appropriate species or species mixture for seeding based on the anticipated growth season. Evenly apply seed using a cyclone seeder (broadcast), drill, cultipacker seeder, or hydroseeder. Use seeding rates given in the Tables below. Broadcast seeding and hydroseeding are appropriate for steep slopes where equipment cannot be driven. Hand broadcasting is not recommended because of the difficulty in achieving a uniform distribution. Small grains should be planted no more than 1 inch deep, and grasses and legumes no more than z inch. Broadcast seed must be covered by raking or chain dragging, and then lightly firmed with a roller or cultipacker. Hydroseeded mixtures should include a wood fiber (cellulose) mulch. MULCHING Provide mulch for newly seeded areas at a rate of 4,000 lb/straw per acre. Straw shall be dry, unchopped, unweathered and without weeds. Anchor straw by tacking with asphalt, netting or a mulch anchoring tool. A disk with blades set nearly straight can be used as mulch anchoring tool. HYDRO SEEDING Provide surface roughening on completed construction slopes to aid in the establishment of vegetative cover. Obtain soil tests on the graded surface to establish rates of additives. In the absence of soil tests, provide lime and fertilizer rates as described above for seedbed preparation. Provide a minimum application rate of wood fiber (cellulose) at least 4,000 lb/acre. Comply with equipment manufacturer's installation instructions and recommendations. Use approved hydro -spraying machinery with fan -type nozzles (50 degree tip). Spray in opposing directions for maximum soil coverage. Observe weather conditions and comply with manufacturer's recommendations. MAINTENANCE Generally, a stand of vegetation cannot be determined to be fully established until soil cover has been maintained for one full year from planting. Inspect seeded areas for failure and make necessary repairs and reseedings within the same season, if possible. Reseed and mulch areas where seedling emergence is poor, or where erosion occurs, as soon as possible. Provide additional mulch if needed and do not mow. Protect from traffic as much as possible. If washout occurs, repair the slope grade, reseed and reinstall mulch. Fertilization --On the typical disturbed site, full establishment usually requires re -fertilization in the second growing season. Fine turf requires annual maintenance fertilization. Use soil tests if possible or follow the guidelines given for the specific seeding mixture. Continue inspections until vegetation is firmly established TEMPORARY SEEDING SPECIFICATIONS Ground stabilization shall be performed within 7 calendar days on perimeter areas and slopes greater than 3HAV. Ground stabilization shall be performed within 14 calendar days in other areas. SEEDING MIXTURE (Table 6.10a LATE WINTER EARLY SPRING) Species Rate (lb/acre) Rye Grain (Secale cereale) 120 Annual lespedeza (Kobe) (Kummerowia striata v. kobe) 50 SEEDING MIXTURE (Table 6.10b SUMMER) Species Rate (lb/acre) German Millet (Setaria italica) 40 SEEDING MIXTURE (Table 6.10c FALL) Species Rate (lb/acre) Rye (grain) (Secale cereale) 120 SEEDING DATES (PIEDMONT) Fall: Aug. 15 - Dec. 30 Late Winter and Early Spring: Jan. 1 - May 1 Summer: May 1 -Aug. 15 SOIL AMENDMENTS Follow recommendations of soil tests or apply 2,000 lb/acre ground agricultural limestone and 750 lb/acre 10-10-10 fertilizer MAINTENANCE Re -fertilize if growth is not fully adequate. Reseed, re -fertilize and mulch immediately following erosion or other damage. PERMANENT SEEDING SPECIFICATIONS Ground stabilization shall be performed within 7 calendar days on perimeter areas and slopes greater than 3HAV. Ground stabilization shall be performed within 14 calendar days in other areas. SEEDING MIXTURE (Table 6.11.b Herbacious Plants for Primary Stabilization) Species Rate (lb/acre) Tall fescue (Festuca arundinacea) (Grass lined Channels) 200 Tall fescue (Festuca arundinacea) (Surface Areas Outside Channels) 100 SEEDING DATES (Table 6.11.b PIEDMONT) Fall, Winter, Spring: Sep. 1 -Apr. 15 NURSE PLANTS (NURSE CROP SPECIES) Species Rate (lb/acre) German Millet (Setaria italica) 10 Rye Grain (Secale cereale) 40 NURSE CROP PLANTS SEEDING DATES (Table 6.11.a PIEDMONT) German Millet (Setaria italica): May 15 - Aug. 15 Rye Grain (Secale cereale): Aug. 15 -Apr. 15 SOIL AMENDMENTS Apply lime according to soil tests, or apply 4,000 lb/acre ground agricultural limestone. Apply fertilizer according to soil tests, or apply 1,000 lb/acre for 10-10-10 fertilizer, 1,750 lb/acre for 5-10-10 fertilizer, or 871 lb/acre for 10-20-20 fertilizer. MULCH Provide mulch for newly seeded areas at a rate of 4,000 lb/straw per acre. Straw shall be dry, unchopped, unweathered and without weeds. Anchor straw by tacking with asphalt, netting or a mulch anchoring tool. A disk with blades set nearly straight can be used as mulch anchoring tool. Anchor mulch by tacking with asphalt at a rate of 400 gal/acre min., roving, or netting. Netting is the preferred anchoring method on steep slopes. MAINTENANCE Re -fertilize if growth is not fully adequate. Reseed, re -fertilize and mulch immediately following erosion or other damage. REQUIRED MINIMUM STABILIZATION TIME FRAMES SITE AREA DESCRIPTION Perimeter dikes, swales, ditches, slopes High quality water (HQW) zones Slopes steeper than 3:1 are allowed Slopes 3:1 or flatter length All other areas with slopes flatter than 4:1 zones (7 days) STABILIZATION TIMEFRAME EXCEPTIONS 7 days 7 days 14 days 14 days None None If slopes are 10' or less in length and are not steeper than 2:1, 14 days 7 days for slopes greater than 50' in None, except for perimeters and HQW FLEXIBLE PIPE TIE DOWN 10' MAX SPACING TIE DOWN AT END DIAMETER (18") 12" 2"-5" A GENERAL NOTES: 1. TEMPORARY MATTING INSTALLED ON SLOPES SHALL BE DESIGNED TO WITHSTAND EROSIVE VELOCITIES PER THE ENGINEER'S REQUIREMENTS. 2. PREPARE SOIL BEFORE INSTALLING ROLLED EROSION CONTROL PRODUCTS (RECP's), INCLUDING ANY NECESSARY APPLICATION OF LIME, FERTILIZER, AND SEED. SLOPE SURFACE SHALL BE SMOOTH BEFORE PLACEMENT FOR PROPER SOIL CONTACT. 3. BEGIN AT THE TOP OF THE SLOPE BY ANCHORING THE RECP's IN A 6" DEEP X 6" WIDE TRENCH WITH APPROXIMATELY 12" OF RECP's EXTENDED BEYOND THE UP -SLOPE PORTION OF THE TRENCH. ANCHOR THE RECP's WITH A ROW OF STAPLES/STAKES APPROXIMATELY 12" APART IN THE BOTTOM OF THE TRENCH. BACKFILL AND COMPACT THE TRENCH AFTER STAPLING. APPLY SEED TO COMPACTED SOIL AND FOLD REMAINING 12" PORTION OF RECP's BACK OVER SEED AND COMPACTED SOIL. SECURE RECP's OVER COMPACTED SOIL WITH A ROW OF STAPLES/STAKES SPACED APPROXIMATELY 121, APART ACROSS THE WIDTH OF THE RECP's. 4. ROLL THE RECP's DOWN OR HORIZONTALLY ACROSS THE SLOPE. RECP's WILL UNROLL WITH APPROPRIATE SIDE AGAINST THE SOIL SURFACE. ALL RECP MUST BE SECURELY FASTENED TO SOIL SURFACE BY PLACING STAPLES/STAKES IN APPROPRIATE LOCATIONS AS SHOWN IN THE STAPLE PATTERN GUIDE. WHEN USING THE DOT SYSTEM , STAPLES/STAKES SHOULD BE PLACED THROUGH EACH OF THE COLORED DOTS CORRESPONDING TO THE APPROPRIATE STAPLE PATTERN. 5. THE EDGES OF PARALLEL RECP MUST BE STAPLED WITH APPROXIMATELY 2" MINIMUM TO 5" MAXIMUM OVERLAP DEPENDING ON RECP TYPE. 6. CONSECUTIVE RECP's SPLICED DOWN THE SLOPE MUST BE PLACED END OVER END (SHINGLE STYLE) WITH AN APPROXIMATE 6" OVERLAP. STAPLE THROUGH OVERLAPPED AREA, APPROXIMATELY 12" APART ACROSS ENTIRE RECP WIDTH. NOTE: SIN LOOSE SOIL CONDITIONS, THE USE OF STAPLE OR STAKE LENGTHS GREATER THAN 6" MAY BE NECESSARY TO PROPERLY SECURE THE RECP's. MAINTENANCE NOTES: 1. INSPECT ROLLED EROSION CONTROL PRODUCTS (RECP) AT LEAST WEEKLY AND AFTER EACH SIGNIFICANT (2 INCH OR GREATER) RAINFALL EVENT AND REPAIR IMMEDIATELY 2. GOOD CONTACT WITH THE GROUND MUST BE MAINTAINED, AND EROSION MUST NOT OCCUR BENEATH THE RECP. 3. ANY AREAS OF THE RECP THAT ARE DAMAGED OR NOT IN CLOSE CONTACT WITH THE GROUND SHALL BE REPAIRED AND STAPLED. 4. IF EROSION OCCURS DUE TO POORLY CONTROLLED DRAINAGE, THE PROBLEM SHALL BE FIXED AND THE ERODED AREA PROTECTED. 5. MONITOR AND REPAIR THE RECP AS NECESSARY UNTIL GROUND COVER IS ESTABLISHED. *REF: 6.17.12 NC EROSION AND SEDIMENT CONTROL PLANNING AND DESIGN MANUAL, Rev. 6/07 CLASS B RIP -RAP APRON EXTEND TO EDGE OF DISTURBANCE �13MATTING 029 CLASS B RIP RAP AT SUMP a , a a > a STAKES a > a 'a as a , a , a a � a a 1. PROVIDE FITTINGS AS NECESSARY TO ROUTE PIPE AS SHOWN ON PLANS. 15 SLOPE DRAIN 029 HAY BALE DIVERSION, SEE DETAIL 3 ON BC-1042-38 FLARED -END SECTION OUTLET NcTRERNAL WO UNDERLAIN WITH 8 OZ/SY _ _ 8 OZ/SY NON -WOVEN GEOTEXTILE La FOR NCDOT RIPRAP TYPE DRAFT N 06/07/2018 OSES ONLY Acceptance Criteria for Rip Rap and Stone for Erosion Control Required Stone Sizes, inches Class Minimum Midrange Maximum A 2 4 6 B 5 8 12 1 5 10 17 2 9 14 23 T SOURCE: NCDOT STANDARD SPECIFICATIONS TABLE 1042-1 DEFINITION A STRUCTURE DESIGNED TO CONTROL EROSION AT THE INLET OR OUTLET OF A CHANNEL OR CONDUIT. PURPOSE TO PREVENT EROSION AT THE OUTLET OF A CHANNEL OR CONDUIT BY REDUCING THE VELOCITY OF FLOW AND DISSIPATING THE ENERGY. CONSTRUCTION SPECIFICATIONS 1. ENSURE THAT THE SUBGRADE FOR THE FILTER AND RIPRAP FOLLOWS THE REQUIRED LINES AND GRADES SHOWN IN THE PLAN. COMPACT ANY FILL REQUIRED IN THE SUBGRADE TO THE DENSITY OF THE SURROUNDING UNDISTURBED MATERIAL. LOW AREAS IN THE SUBGRADE ON UNDISTURBED SOIL MAY ALSO BE FILLED BY INCREASING THE RIPRAP THICKNESS. 2. THE RIPRAP AND GRAVEL FILTER MUST CONFORM TO THE SPECIFIED GRADING LIMITS SHOWN ON THE PLANS. 3. FILTER CLOTH, WHEN USED, MUST MEET DESIGN REQUIREMENTS AND BE PROPERLY PROTECTED FROM PUNCHING OR TEARING DURING INSTALLATION. REPAIR ANY DAMAGE BY REMOVING THE RIPRAP AND PLACING ANOTHER PIECE OF FILTER CLOTH OVER THE DAMAGED AREA. ALL CONNECTING JOINTS SHOULD OVERLAP A MINIMUM OF 1 FT. IF THE DAMAGE IS EXTENSIVE, REPLACE THE ENTIRE FILTER CLOTH. 4. RIPRAP MAY BE PLACED BY EQUIPMENT, BUT TAKE CARE TO AVOID DAMAGING THE FILTER. 5. THE MINIMUM THICKNESS OF THE RIPRAP SHOULD BE 1.5 TIMES THE MAXIMUM STONE DIAMETER. 6. RIPRAP MAY BE FIELD STONE OR ROUGH QUARRY STONE. IT SHOULD BE HARD, ANGULAR, HIGHLY WEATHER -RESISTANT AND WELL GRADED. 7. CONSTRUCT THE APRON ON ZERO GRADE WITH NO OVERFALL AT THE END. MAKE THE TOP OF THE RIPRAP AT THE DOWNSTREAM END LEVEL WITH THE RECEIVING AREA OR SLIGHTLY BELOW IT. 8. ENSURE THAT THE APRON IS PROPERLY ALIGNED WITH THE RECEIVING STEAM AND PREFERABLY STRAIGHT THROUGHOUT ITS LENGTH. IF A CURVE IS NEEDED TO FIT SITE CONDITIONS, PLACE IN THE UPPER SECTION OF THE APRON. 9. IMMEDIATELY AFTER CONSTRUCTION, STABILIZE ALL DISTURBED AREAS WITH VEGETATION. MAINTENANCE 1. INSPECT RIPRAP ENERGY DISSIPATERS AT LEAST WEEKLY AND AFTER EACH RAINFALL EVENT THAT EXCEEDS 0.5 INCHES WITHIN A 24 HOUR PERIOD. REFERENCE N.C. EROSION AND SEDIMENTATION CONTROL PLANNING AND DESIGN MANUAL, 2006. �14RIP RAP APRON 029 NOTE: EROSION AND SEDIMENT CONTROL DETAILS ARE BEING SHOWN FOR REFERENCE PURPOSES ONLY. DESIGN AND SITING OF MEASURES TO BE FURTHER DEVELOPED WITH CONSTRUCTION LEVEL DOCUMENTS. TITLE DRAFT NOT FOR CONSTRUCTION E&SC DETAILS 2 P"Com BELEWS CREEK STEAM STATION 100% DRAFT CLOSURE PLAN STOKES COUNTY, NORTH CAROLINA N.C. ENGINEERING LICENSE NO. FOR F-0342 ISSUED FOR REVIEW SEAL SCALE: NITS DES: CN DUKE DWG TYPE :.DWG DFTR : CLD JOB NO: 60432132 CHKD: DM ENERGY DATE: 7-7-16 ENGR: CN FILENAME: E & S DETAILS.DWG APPD: KK DWG SIZE DRAWING NO. REVISION ANSI D 22.0"x34.0" BC-XXX-029 A 03 0 X X X 6 N CO M 0 1 2 g 2 TENTHS 10 20 30 3 5 7 :