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(� DUKE ENERGY July 28, 2017 Mr. Larry Frost North Carolina Department of Environmental Quality Division of Waste Management Solid Waste Section 2090 U.S. Highway 70 Swannanoa, North Carolina 28778 Re: Response to Email Requesting Retention Basins/Leachate Storage Designs Dear Mr. Frost, 526 South Church Street: Mail Code EC13K Charlotte, North Carolina 28202 980-373-5697 As requested in the June 29, 2017 email titled Retention Basins/Leachate Storage Structures, please find the enclosed design documents on the DVD for the proposed retention basins at Duke Energy's North Carolina Stations. The retention basins are designed to store and treat comingled wastewater as a replacement for the ash basins. Design packages were submitted by Duke Energy's CCP Ash Management Projects Group to NCDEQ Dam Safety for review and approval. Additionally, the treatment and discharge of these retention basins have been permitted by NCDEQ Division of Water Quality under state authority of the NPDES Program. If you have comments and/or questions, please direct them to Tyler Hardin at 980-373-5697. Respectfully Submitted, erer � ruett, PE Environmental Services Cc (via e-mail): Ed Mussler, NCDEQ Ed Sullivan, Duke Energy Tyler Hardin, Duke Energy Kimberlee Witt, Duke Energy Sean DeNeale, Duke Energy Melonie Martin, Duke Energy Ryan Czop, Duke Energy RECEIVED JUL 312017 SOLID WAS% SECTION ASHEVILLE REGIONAL OFFICE BURNS MSDONNELL. Belews Creek Station Retention Basin and Holding Basin Dam Permit Report -�' DUKE ENERGY Duke Energy Carolinas, LLC Process Water Redirection Program - Belews Creek Station BMcD Project No. 88673 Revision F June 2017 Belews Creek Station Retention Basin and Holding Basin Dam Permit Report prepared for Duke Energy Carolinas, LLC Process Water Redirection Program - Belews Creek Station Walnut Cove, NC BMcD Project No. 88673 Revision F 6/2 9/2 017 prepared by Burns & McDonnell Consultants, Inc. North Carolina License No. C-1435 COPYRIGHT © 2017 BURNS & McDONNELL CONSULTANTS, INC. CERTIFICATION Duke Energy Carolinas, LLC Belews Creek Station Project No. 88673 Retention Basin Dam Permit Report Chapter Number Number Chapter Title of Paees 1.0 General Information 6 4.0 Hydrologic and Hydraulic Considerations 8 5.0 Design Elements 4 6.0 Construction and Operations 2 Appendix D Hydraulic Calculations 59 Certification I hereby certify, as a Professional Engineer in the state of North Carolina North Carolina, that the information in the above sections of this document were assembled under my direct personal charge. This report is not intended or represented to be suitable for reuse by the Duke Energy Carolinas, LLC or others without specific verification or adaptation by the Engineer. Ky e . Tonjes, N.E. North Carolina License #044974 Dates / Duke Energy Carolinas, LLC Belews Creek Station Project No. 88673 4 Retention Basin Dam Permit Report Chapter Number Number Chapter Title of Pages 2.0 Site Investigations 2 3.0 Geotechnical Considerations 5 Appendix E Geotechnical Calculations 156 Certification I hereby certify, as a Professional Engineer in the state of North Carolina North Carolina, that the information in the above sections of this document was assembled under my direct personal charge. This report is not intended or represented to be suitable for reuse by the Duke Energy Carolinas, LLC or others without specific verification or adaptation by the Engineer. ��2 aA;4toi, Robert A. Abbott, Jr., P.E. North Carolina License #025880 Date: Duke Energy Carolinas, LLC Belews Creek Station Project No. 88673 Retention Basin Dam Permit Report Chapter Number Number Chapter Title of Pages Appendix G Structural Calculations 908 Certification I hereby certify, as a Professional Engineer in the state of North Carolina, that the information in the above sections of this document was assembled under my direct personal charge. This report is not intended or represented to be suitable for reuse by the Duke Energy Carolinas, LLC or others without specific verification or adaptation by the Engineer. i Zac ary S. rane, P.E. 0�(N� SRNorth Carolina License #042698 �..•pF O ' .-9 . : S L • a 2698 : Date: (%`l 120 11 �v s.9C. FNGI.NEEF.�QC�ee ��ygRYS.G �. Retention & Holding Basin, Dam Permit Report Revision F Table of Contents TABLE OF CONTENTS Page No. 1.0 GENERAL INFORMATION................................................................................1-1 1.1 Introduction.......................................................................................................... 1-1 1.2 Project Owner and Operator................................................................................ 1-1 1.3 Statement of Dam Purpose................................................................................... 1-1 1.3.1 Retention Basin..................................................................................... 1-2 1.3.2 Holding Basin....................................................................................... 1-2 1.4 Survey.................................................................................................................. 1-2 1.5 Site Location and Description.............................................................................. 1-2 1.6 National Pollution Discharge Elimination System (NPDES) Design Criteria .... 1-3 1.7 General Description of Retention Basin.............................................................. 1-3 1.7.1 Flow Contributions............................................................................... 1-3 1.7.2 Construction..........................................................................................1-3 1.7.3 Operation............................................................................................... 1-4 1.7.4 Size........................................................................................................1-4 1.7.5 Dam Classification................................................................................ 1-5 1.8 General Description of Holding Basin................................................................. 1-5 1.8.1 Flow Contributions............................................................................... 1-5 1.8.2 Construction..........................................................................................1-5 1.8.3 Size........................................................................................................1-6 1.8.4 Operation............................................................................................... 1-6 1.8.5 Dam Classification................................................................................ 1-6 1.9 Description of Downstream Properties................................................................ 1-6 2.0 SITE INVESTIGATIONS....................................................................................2-1 2.1 Geologic............................................................................................................... 2-1 2.1.1 Bedrock.................................................................................................2-1 2.1.2 Geologic Profiles and Report ................................................................ 2-1 2.1.3 Observed Water Level Information...................................................... 2-2 3.0 GEOTECHNICAL CONSIDERATIONS............................................................3-1 3.1 Assumptions for Foundation and Embankment Materials ................................... 3-2 3.2 Seepage Control................................................................................................... 3-2 3.2.1 Flow Net Analysis................................................................................. 3-2 3.2.2 Piezometer Design................................................................................ 3-2 3.3 Slope Stability Analysis....................................................................................... 3-3 3.3.1 Foundation Bearing Capacity and Sliding Base Analysis .................... 3-5 3.3.2 Overturning Stability Computations..................................................... 3-5 4.0 HYDROLOGIC AND HYDRAULIC CONSIDERATIONS..............................4-1 4.1 Hydrologic........................................................................................................... 4-1 4.1.1 Runoff Characteristics of Drainage Area .............................................. 4-1 Duke Energy Carolinas, LLC TOC-1 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F Table of Contents 4.2 Watershed Development...................................................................................... 4-1 4.3 Streamflow........................................................................................................... 4-2 4.4 Drainage Area...................................................................................................... 4-2 4.5 Ground Cover Conditions.................................................................................... 4-2 4.6 Design Flood and Wave Action........................................................................... 4-2 4.6.1 NPDES Design Requirements.............................................................. 4-2 4.6.2 Dam Safety Design Requirements........................................................ 4-2 4.7 Dam Breach Inundation Study............................................................................. 4-3 4.8 Spillway Design................................................................................................... 4-3 4.8.1 RB Primary Spillway............................................................................ 4-3 4.8.2 RB Emergency Spillway....................................................................... 4-3 4.8.3 HB Emergency Spillway....................................................................... 4-4 4.8.4 Description of Emergency Spillway Design Storm .............................. 4-4 4.8.5 Spillway Types and Materials............................................................... 4-5 4.8.6 Minimum Time Requirement to Drain Reservoir ................................. 4-5 5.0 DESIGN ELEMENTS...........................................................................................5-1 5.1 Permit Drawings.................................................................................................. 5-1 5.1.1 Cross-Sections.......................................................................................5-1 5.1.2 Plan and Profiles................................................................................... 5-1 5.1.3 Pool Levels............................................................................................ 5-1 5.2 Conduit Design.................................................................................................... 5-1 5.2.1 Basin Drain System............................................................................... 5-2 5.2.2 Interior Surface of Conduit................................................................... 5-2 5.2.3 Seepage Protection................................................................................ 5-3 5.2.4 Clogging Prevention............................................................................. 5-3 5.2.5 Conduit Loading................................................................................... 5-3 5.2.6 Material.................................................................................................5-3 5.2.7 Containment Berm Erosion and Damage Protection ............................ 5-3 5.2.8 Temporary Erosion Control Measures during Construction ................. 5-4 5.2.9 Riprap....................................................................................................5-4 5.2.10 Appurtenant Structure Resistance Against Flotation Uplift ................. 5-4 6.0 CONSTRUCTION AND OPERATIONS...........................................................6-1 6.1 Construction Schedule......................................................................................... 6-1 6.1.1 Techniques and Work Force................................................................. 6-1 6.1.2 Activity Completion Time.................................................................... 6-1 6.1.3 Stream Flow Diversion Techniques...................................................... 6-1 6.1.4 Quality Control Extent and Methods .................................................... 6-1 6.2 Filling Schedule................................................................................................... 6-1 6.3 Construction Materials......................................................................................... 6-2 6.4 Sediment Control................................................................................................. 6-2 6.5 Maintenance and Operation Plan......................................................................... 6-2 6.6 Estimated Design Life.......................................................................................... 6-2 6.7 Maintenance of Stream Flow Downstream.......................................................... 6-2 Duke Energy Carolinas, LLC TOC-2 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F Table of Contents 7.0 REFERENCES.....................................................................................................7-1 APPENDIX A - PERMIT DRAWINGS APPENDIX B - SPECIFICATIONS APPENDIX C - E&SC PLAN APPENDIX D - HYDRAULIC CALCULATIONS APPENDIX E - GEOTECHNICAL CALCULATIONS APPENDIX F - GEOTECHNICAL DATA REPORT APPENDIX G - STRUCTURAL CALCULATIONS APPENDIX H - NOT USED APPENDIX I - DAM BREACH INUNDATION STUDY APPENDIX J - DAM PERMITTING CHECKLIST Duke Energy Carolinas, LLC TOC-3 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F Table of Contents Table 3-1 Table 3-2 Table 3-3 Table 3-4 Table 4-1 LIST OF TABLES Factors of Safety ................................... Soil Layer Material Properties ............. Retention Basin Results ........................ Holding Basin Results .......................... PMPEvents .......................................... Page No. .................................................................... 3-3 .................................................................... 3-4 .................................................................... 3-4 .................................................................... 3-4 .................................................................... 4-4 Duke Energy Carolinas, LLC TOC-4 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F Table of Contents LIST OF FIGURES Page No. Figure 4-1: Cross Section of Belews Creek RB........................................................................... 4-7 Figure 4-2: Cross Section of Belews Creek HB.......................................................................... 4-8 Duke Energy Carolinas, LLC TOC-5 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F List of Abbreviations LIST OF ABBREVIATIONS Abbreviation Term/Phrase/Name BMcD Burns & McDonnell Consultants, Inc. CCR Coal Combustion Residual ELG Effluent Limitation Guidelines EPA Environmental Protection Agency E&SC Plan Erosion and Sediment Control Plan FGD Flue Gas Desulfurization GCL Geosynthetic Clay Liner HB Holding Basin HDPE High -Density Polyethylene HMR 51 Hydrometeorological Report No. 51 MG Million Gallons NCDEQ North Carolina Department of Environmental Quality NPDES National Pollutant Discharge Elimination System PMP Probable Maximum Precipitation PWR Partially Weathered Rock RB Retention Basin SPT Standard Penetration Test WR Water Redirection WWT Waste Water Treatment Duke Energy Carolinas, LLC i Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F General Information 1.0 GENERAL INFORMATION 1.1 Introduction Duke Energy Carolinas, LLC (Duke Energy) (Owner) operates the Belews Creek Station (Belews Creek) located in the city of Walnut Cove, Stokes County, North Carolina. Belews Creek consists of two operating coal-fired units: Unit 1 is a 1,120 MW pulverized coal fired unit built in 1974 and Unit 2 is a 1,120 MW pulverized coal fired unit built in 1975. Belews Creek will be subject to complying with the Environmental Protection Agency's Coal Combustion Residual (CCR) Rule issued in April 2015 and the Steam Electric Power Generating Effluent Limitation Guidelines (ELG) issued in September 2015. Duke Energy will make plant modifications to comply with these rules (the Project). The work required to comply with the new rules includes the addition of a new wastewater Retention Basin (RB) and redirecting wastewater and storm water flows from the existing ash basin to the new basins. An existing Holding Basin (HB) will be renovated near the Retention Basin for plant wastewater collection and pH treatment before being pumped to the new Retention Basin. This report will focus on design criteria for the exterior containment berms at the RB and HB relative to permitting as a regulated dam under North Carolina dam safety statutes. 1.2 Project Owner and Operator The owner and operator, Duke Energy, will be responsible for completing the Project. Below is the contact information for Duke Energy: Duke Energy Carolinas, LLC 3195 Pine Hall Road Belews Creek, North Carolina 27009 Phone: (336) 445-0642 1.3 Statement of Dam Purpose This report presents the final design report for proposed dam facilities at Belews Creek Station: The Retention Basin/Holding Basin. The perimeter containment dike for the RB and HB will provide water retention designed to treat the influent for suspended solids, and pH to meet the National Pollutant Discharge Elimination System (NPDES) permit requirements prior to discharging into the existing external outfall 003. Drawing BLC00-CV-C-SI.EN-003 in Appendix A shows the location and the general arrangement of the basins. Duke Energy Carolinas, LLC 1-1 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F General Information 1.3.1 Retention Basin The Retention Basin will be used as part of the Belews Creek Station wastewater treatment system. As referred to in this report, the Retention Basin is comprised of a system of the three basins that will provide treatment of various water sources from Belews Creek Station. See drawing BLC00-CV-C-SI.EN-003 in Appendix A for basin layout. The Retention Basin will treat the influent for suspended solids and pH to meet the National Pollutant Discharge Elimination System (NPDES) permit requirements. Treated water will be discharged to a new outfall located north of the waste water treatment area. The following flows will be routed to the RB for treatment: • Boiler yard sump • Consolidated sump • Pine Hall road landfill cap drainage • FGD WWT effluent from the new ultra -filtration system • HB discharge 1.3.2 Holding Basin The Holding Basin will be used to provide storage and treatment for coal pile runoff, as well as air heater, precipitator, and fireside water washes. All flows will be pumped to the basin. Treatment includes TSS settling and pH adjustment. Once the water is treated in the Holding Basin, it is pumped to the Retention Basin for final treatment and discharge. 1.4 Survey Refer to Appendix A for RB and HB site maps including location of proposed construction and control points. All elevations shown on the drawings and referenced herein are North American Vertical Datum, 1988 (NAVD 88). 1.5 Site Location and Description Duke Energy's Belews Creek Station is located in Stokes County adjacent to Belews Lake, northeast of Winston-Salem, NC at 3195 Pine Hall Road in Walnut Cove in Stokes County, North Carolina. The coordinates for the entrance to the water treatment basins site is latitude 36.284689' N, longitude 80.066377' W. The RB and HB facility will be located north of the main power station between Pine Hall Road and the existing ash basin. The RB and HB location is shown in the project drawings found in Appendix A. Duke Energy Carolinas, LLC 1-2 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F General Information Both the process water influent and treated basin discharge are on the northern end of the RB. All normal basin outflows are directed to the permitted plant outfall in accordance with the facility NPDES permit. Permitted discharges from the RB emergency spillway during wet -weather flow to the existing ash impoundment. The HB emergency spillway flows to the RB. 1.6 National Pollution Discharge Elimination System (NPDES) Design Criteria The RB is designed to maintain a permanent normal operating pool of 6-feet in depth. Allowance is made above the normal operating pool for stormwater pumped to the basin during wet weather, for direct rainfall on the basin, and for wave action. The RB storage requirement is such that it will not discharge from the emergency spillway more frequently than once every 25-years on the average (4% annual probability of exceedance) in accordance with the facility NPDES permit. Wave action is considered since any flow over the basin spillway, including that from intermittent wave run-up and stacking, must meet the 25-year NPDES criteria. The HB only discharges to the RB therefore has no separate NPDES discharge permit. 1.7 General Description of Retention Basin 1.7.1 Flow Contributions The proposed RB is a renovation of an existing wastewater treatment basin to lower the bottom elevation and slightly raise the berm heights, as well as to modify the cell arrangements within the basin. The proposed renovated RB includes two small primary basins and a larger secondary basin. All flow, except for direct rainfall, is pumped to the primary basins from sources within the power station. The basins only stormwater contributions include the precipitation that falls on the basin footprint and stormwater components of the pumped wastewater. Pumped influent will enter the primary basins at the north end and discharge at the south end via weir structures to the secondary basin. A perimeter road will be installed around the new basin. 1.7.2 Construction The primary basins are generally excavated into existing topography and separated from the secondary basin with an intermediate fixed crest weir. The secondary basin is generally excavated into existing topography in the northern, southern and western portions. However, the basin embankment along the eastern sides of the secondary and eastern primary basin will be constructed in fill. This embankment Duke Energy Carolinas, LLC 1-3 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F General Information meets the criteria for a dam as defined by the State. The dam will consist of an earthen fill constructed on existing ground. Borrow material for construction will be sourced from excavation of the basins. The primary and secondary basins will be lined with a redundant liner system consisting of a high -density polyethylene (HDPE) liner over a geosynthetic clay liner (GCL). The basin wall liners will be covered with rip -rap. The primary basin and FIB floor liners will be covered with concrete to allow for periodic removal of collected sediment and the secondary basin floor liner will be covered with crushed rock. 1.7.3 Operation The Retention Basin is designed to maintain a permanent, normal operating pool. Allowance has been made for additional storage above the normal operating pool for water pumped to the basin during storm events, and for direct rainfall on the basin. The basin meets or exceeds the design criteria for the facility's NPDES Permit and Dam Safety Design as described later. 1.7.4 Size The two primary basins are identical in size. The bottom elevation of the each basin is 781 feet and the crest elevation is 792 feet. The basin's combined maximum storage capacity at the basin crest is 10.6 acre-feet with a surface area of 0.6 acres at the pond bottom and 1.36 acres at the basin crest. The primary basins are designed to maintain a normal operating pool. The normal operating pool elevation is controlled by a weir structure at elevation 787 feet which equates to a volume of approximately 4.7 acre- feet. The secondary basin is rectangularly shaped. The bottom elevation of the basin is 781 feet. The crest elevation around the basin is 792.0 feet with a maximum storage capacity of 124 acre-feet. The secondary basin is designed to maintain a normal operating pool. The normal operating pool elevation is controlled by a weir structure at elevation 787.0 feet which equates to a volume of approximately 62.8 acre-feet. The combined primary and secondary basins of the RB will be approximately 1330 feet in length and 471 feet wide at the base. The basin's storage capacity will be approximately 23.3 MG (71.7 acre-feet) with a surface area of 13.4 acres normal pond operating depth of 6-feet (elevation 787-feet). The total storage at the top of the containment berm elevation of 792-feet is 145.5 acre-feet. The combined surface area within the perimeter containment berm of the RB (including the HB) is 21.5 acres at the top of berm elevation of 792-feet. The RB perimeter dike's maximum height above downstream toe is approximately 41 feet. This maximum berm height is located along the west side of the RB adjacent to the existing ash impoundment. Duke Energy Carolinas, LLC 1-4 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F General Information 1.7.5 Dam Classification The Belews Creek RB is proposed as a medium size, Class C, High Hazard dam due to the overall height of the perimeter treatment facility containment berm above the lowest toe of slope elevation. This maximum height is approximately 41-feet which would constitute the medium size classification. The total storage volume within the basins is well below the 750 acre-feet minimum for a medium size classification. The Class C designation is suggested for environmental releases due to a breach, rather than for effect on downstream properties, since any release from the RB will enter the existing ash impoundment. This classification affords the most conservative requirements for design, construction, operation and maintenance. The Class C, medium size classification requires that the emergency spillway be designed to pass one-half of the probable maximum precipitation (1/2 PMP) event for the facility location. The basin volume and spillway elevation shall be such that the emergency spillway is not activated by the 100-year event (1% annual probability of exceedance). Note that wave action is not considered in determining the spillway activation frequency under dam safety regulations. 1.8 General Description of Holding Basin 1.8.1 Flow Contributions All flow into the HB is pumped from sources within the power station. The basins only stormwater contributions are the precipitation that falls on the basin footprint and the stormwater component of the pumped plant wastewater. Pumped influent will enter the HB at the south end. Flow will be recirculated through the HB with pumps and associated piping for pH adjustment and settlement of solids before flow is pumped to the RB. All HB effluent, including from the emergency overflow (spillway) structure travels to the RB primary basins. 1.8.2 Construction The existing HB will be excavated into existing topography. There are existing slopes on several sides. The HB was not separately permitted as a dam when constructed. The existing basin will be deepened with this project. The HB will be lined with a redundant liner system consisting of a high -density polyethylene (HDPE) liner over a geosynthetic clay liner (GCL). The basin wall liners will be covered with rip -rap. The HB will be surfaced with concrete on the basin bottom and riprap on the side slopes. Storage is provided for Duke Energy Carolinas, LLC 1-5 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F General Information TSS settlement from coal pile runoff being pumped to the basin during storm events and direct rainfall on the basin. After pH balance and addition of polymer to control total suspended solids, the effluent from the Holding Basin is pumped to the primary basins of the Retention Basin. 1.8.3 Size The Holding Basin is rectangular in shape. The length of the basin bottom is approximately 350 feet and the width is approximately 120 feet. The bottom elevation of the basin is 785.0 feet. The top of the basin is 804.0 feet. The maximum storage capacity is 32.67 acre-feet at the basin top elevation. 1.8.4 Operation The water surface elevation in the basin is controlled by pumps with floating suction lines. The pumps are capable of fully dewatering the HB. Flows into and out of the HB will be intermittent so no constant operating level will be maintained. The design affords 1 foot of sediment storage in the basin. The HB has a concrete ramp and basin bottom to allow periodic removal of settled solids. 1.8.5 Dam Classification The Holding Basin is considered part of the RB system and is included in the calculations for RB spillway capacity and activation frequency. The HB emergency spillway is designed to pass the '/z PMP peak hourly flow in conjunction with the RB dam classification. 1.9 Description of Downstream Properties There are no residential, commercial, or agricultural properties downstream of the RB/HB containment berms. Any emergency wet -weather releases of the RB/HB, or containment berm breach flow would enter and be contained by the existing ash impoundment. Refer to Appendix I for effects downstream during a simulated failure of the RBand/or HB containment berm. Duke Energy Carolinas, LLC 1-6 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F Site Investigations 2.0 SITE INVESTIGATIONS 2.1 Geologic Refer to Appendix F for the site geotechnical report prepared by S&ME, Inc. for Duke Energy for the RB and HB (S&ME Report). The following geologic descriptions are taken from the S&ME Report and describe the regional geologic conditions that characterize the Belews Creek Steam Station project. The Belews Creek Steam Station project site is located in the Piedmont Physiographic Province of North Carolina. The Piedmont Physiographic Province is a relatively broad region extending from central Alabama across Georgia and the Carolinas into Virginia. Rocks of the Piedmont occur in belts that conform to the regional northeasterly trend of major geologic structural features. The belts are delineated by gross differences in rock types, structure, and grade of metamorphism. The major portion of the bedrock in the Piedmont is covered with a varying thickness of residual soil which has been derived by chemical decomposition and physical weathering of the underlying rock. Residual soils developed during the weathering of this bedrock consist predominately of micaceous sandy silts and silty sands which grade to clayey silts and silty clays with nearness to the ground surface. The thickness of the residual soils can vary from only a few feet to in excess of 100 feet. The boundary between the residual soil and the underlying bedrock is not sharply defined. Generally, a transition zone consisting of very hard soil to soft rock, appropriately classified as "partially weathered rock", is found. Within the transition zone, large boulders or lenses of relatively "fresh" rock which are generally much harder than the surrounding material often exist. The irregular bedrock surface is basically a consequence of differential weathering of the various minerals and joint patterns of the rock mass. 2.1.1 Bedrock Partially Weathered Rock (PWR) in a massive form was encountered from 39.5 ft to 54 ft below existing grade. Partially weathered rock is a transitional material between hard soil and rock and can be penetrated with some difficulty by power augers. Standard penetration test values in weathered rock varied from 50 blows in 1 inch of penetration to 50 blows in 5 inches of penetration. Auger refusal was encountered from an elevation range of 723 to 759 f ft. 2.1.2 Geologic Profiles and Report Refer to Appendix F for the S&ME Report. As stated in the S&ME Report, it should be noted the natural geological profile of parts of the site has been modified by past grading activities that have resulted in the Duke Energy Carolinas, LLC 2-1 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F Site Investigations placement of fill, with significant thicknesses present in the north and west portions of the Constructed Treatment Wetlands (CTW)/Equalization Basin (EB) [future RB and HB]. Additional areas of existing fill could be along the roads and trails, some areas of the drainage features, and around the former structures that previously occupied portions of the site. 2.1.3 Observed Water Level Information Water levels, were observed by S&ME in the borings made for the RB and HB subsurface investigation after a period of about 24 hours, refer to Appendix F. It should be noted that fluctuations in water levels may occur over more prolonged periods of readings and can be influenced by various outside factors. It may take groundwater several days, or longer, to reach hydrostatic levels in holes in cohesive soils. Water levels observed and recorded by others reflect only those conditions that existed at the time of investigation and may vary from true phreatic groundwater levels. Stabilized water levels in nine existing piezometers in the vicinity of the HB and RB (previously installed as part of the CSA and CCR program) were reported by S&ME and are also included in Appendix F. Seasonal variations in rainfall, changes to on -site conditions, and changes to off -site conditions can affect groundwater levels. Fluctuations in groundwater levels from those noted in logs should be anticipated during construction. Duke Energy Carolinas, LLC 2-2 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F Geotechnical Considerations 3.0 GEOTECHNICAL CONSIDERATIONS Finish grade of the RB and HB requires new cut and fill heights up to 12 feet (see Grading Sections, Sheets 1 — 4 Appendix A) be made into or above existing manmade fill and cut slopes. Geotechnical conditions affecting the use of existing fill and residual soils for use and support of new embankment fill are therefore of primary importance to the design of the RB and HB. According to S&ME (see Appendix F ) the primary geotechnical considerations for site grading will be the exposed sandy and silty residual soils (both fill and excavation areas) and slope stability where the west embankment will be reconstructed on top of tall existing fill slopes. Here, S&ME recommended thorough slope stability analyses to determine if flatter slope inclinations are required to increase stability. Slope stability sections analyzed for design of the RB and HB were selected based on slope geometry and height. See Section 3.3 for further details. Additional discussion related to use of existing site soils for embankment material and support of planned embankments provided below is taken from the S&ME Report. A majority of the subsurface soils have a slight to moderate silt and mica content. These soils can generally provide suitable structural support, but they are sensitive to moisture during grading. Close moisture control, and compaction using both sheep's foot and pneumatic tire roller type compactors will be required during grading. This can be a significant consideration if grading is performed during unfavorable weather. Also, these types of soil tend to degrade quickly, especially when heavy equipment operates on the exposed subgrade during wet weather conditions. Depending on prevailing weather, drying these soils with disc harrows or mixing crushed stone with them could be needed. Excavation for the HB and RB will be made into existing fill and residual soils, characterized by S&ME as low to moderately high consistency soils. S&ME states that the materials can be excavated by routine earthmoving equipment. Residual soils on site appear generally adaptable for use as well -compacted structural fill. Some moisture adjustment (wetting or drying) could be required to achieve the recommended degree of compaction. Undercutting/stabilization of soils directly beneath the existing CTW and EB should be anticipated to extend an additional 18 to 36 inches below the sediment depth. Based on the boring data, materials explored in cut areas appear to be suitable for use as embankment material. Existing fill soils will need to be evaluated by a Geotechnical Engineer to determine suitability for reuse. Typically, these soils require significant drying prior to reuse as structural fill, or contain organics or debris that must be segregated. Duke Energy Carolinas, LLC 3-1 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F Geotechnical Considerations Based on the boring data, the materials encountered in the borings appear to be suitable for support of direct support of proposed or light ancillary structures. However, the existing fill composition, consistency, and depths vary considerably across the RB[/HB] limits. Accordingly, some areas of unsuitable fill are anticipated in unexplored areas. Existing fill can remain beneath embankment areas provided they are stable under proofrolling. Unstable or otherwise unsuitable surface materials should be undercut as recommended by the Geotechnical Engineer. Further evaluation with hand auger borings, Dynamic Cone Penetrometer (DCP) testing, and/or backhoe excavated test pits could also be required if unexpected conditions are encountered or for areas not accessible to proofrolling equipment. 3.1 Assumptions for Foundation and Embankment Materials The borrow source for embankment fill is materials from the excavation of the RB. The HB does not require any borrow material. Undisturbed and bulk samples were obtained from borings during the geotechnical investigation. Moisture content, Atterberg limit, sieve analysis, Consolidated Undrained Triaxial Compression Tests with pore pressure measurement (CU, R test) and direct shear tests were performed on laboratory prepared test samples. The soil parameters used for embankment materials are listed in Section 3.3, Table 3-3. 3.2 Seepage Control A dual lining system (see paragraph 1.4) has been incorporated into the design of the RB and HB to cutoff infiltration of stored water into underlying soils. While the dual liner system provides redundancy, and lowers the risk of leakage, the potential for leakage exists due to the potential for manufacturer's and construction defects. Potential leakage through the liner was estimated in accordance with available literature and studies, at a rate of 5 gallons per acre per day. See Seepage Notes in Appendix E for additional details. 3.2.1 Flow Net Analysis The RB and HB design includes a dual liner system to cutoff infiltration of stored water into underlying soils. For this reason, the estimated leakage will be insufficient to establish a hydrostatic pore water pressures and thereby a seepage gradient within the embankments, therefore a flow net analysis was not considered. See Seepage Notes in Exhibit H of Appendix E of this report for additional details concerning estimated leakage through the liner system. 3.2.2 Piezometer Design Nine existing monitoring wells (GWA-4D, GWA-5BR, GWA-5BR2, GWA-5D, GWA-5S, CCR-11S, CCR-11D, CCR-12S and CCR-12D) will be used to monitor groundwater conditions prior to Duke Energy Carolinas, LLC 3-2 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F Geotechnical Considerations construction. Existing monitoring wells at GWA-5BR, GWA-5BR2, GWA-5D and GWA-5S will be decommissioned prior to grading operations in those areas. Monitoring wells GWA-4D, CCR-11 S, CCR- 11D, CCR-12S and CCR-12D are planned to remain in service throughout the life of the RB and HB. New piezometers will generally be constructed at approximately 500-foot intervals around the perimeter of the RB and HB following completion of the embankments. The piezometers will extend to elevations as indicated. The piezometers will be constructed according to details on the drawing. Refer to drawing SKC008 in Appendix A for the piezometer locations, elevations and details. Use of existing monitoring wells and new piezometers will allow for monitoring of piezometric pressure conditions, monitoring pore water pressures to estimate effective stress to assess the strength of the dam, and monitor seepage. Although the design calls for installation of a dual liner system to cutoff infiltration of stored water into underlying soils, piezometers will be monitored as part of the inspection and monitoring program. Given the Class C High Hazard classification, the use of monitoring wells to monitor the phreatic zone for seepage and slope stability will be required per the North Carolina Dam Safety Laws and Regulations (15A NCAC 02k. 0207 9(d)). 3.3 Slope Stability Analysis Analyses were conducted for both local and global slope stability of the RB and HB. Local stability (shallow, erosional) was considered by running infinite slope calculations to verify the appropriate factor of safety as noted above. Global stability (deeper, circular failures) of selected critical sections were checked with SLOPE/W stability software from GeoStudio 2016. Global stability was run for long term steady state, end of construction, seismic (pseudo -static) and rapid drawdown loading conditions. A rapid drawdown condition was analyzed to model the potential effect of an elevated pool elevation of the Ash Basin due to a design flood event. The flood event would potentially impact the stability of the west and north slopes of the existing RB and HB respectively. As explained in Section 3.2 and 3.2.1, hydrostatic pore water pressures or a seepage gradient should not develop beneath the dual -liner system implemented into the design of the RB and HB. Therefore, porewater pressure changes associated with a rapid drawdown condition that could be seen within an unlined slope system will not develop during draining of the respective basins. Project criteria for factors of safety were as follows: Table 3-1: Factors of Safety LOADING TYPE: FS: SOURCE: Long term, steady state "normal" loading 1.50 NCAC — Title 15A, 2K Short term, end of construction EOC 1.25 NCAC — Title 15A, 2K Pseudo -Static Seismic loading 1.00 CCR Rule, EPA 40 CFR Parts 257 and 261 Rapid Drawdown 1.25 NCAC — Title 15A, 2K Duke Energy Carolinas, LLC 3-3 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F Geotechnical Considerations Material properties for the soil layers observed on site, as tested during the geotechnical investigation, are as follows: Table 3-2: Soil Layer Material Properties Long Term End -of -Construction Drained Undrained Seismic Undrained Seismic Drained Unit Friction Friction Friction Friction Weight Angle Cohesion Angle Cohesion Angle Cohesion Angle Cohesion Material c de s de s de s de s New Embankment Fill 120 30 0 22 55 22 55 30 0 Existing Fill 120 30 0 22 55 22 55 30 0 Alluvium 110 26 0 0 625 0 625 26 0 Residuum 110 33 0 20 150 20 150 33 0 Weathered Rock 130 35 0 35 0 35 0 35 0 For the RB slope, the following results were calculated and are reported: Table 3-3: Retention Basin Results CONDITION CRITERIA SLOPE/W FS INFINITE SLOPE FS Long Term Steady State 1.50 1.96 >1.50 End of Construction 1.25 1.48 > 1.25 Seismic Undrained 1.00 1.17 >1.00 Seismic Drained 1.00 1.55 >1.00 Rapid Drawdown 1.25 1.69 N/A For the HB the following results were calculated and are reported: Table 3-4: Holding Basin Results CONDITION CRITERIA SLOPE/W FS INFINITE SLOPE FS Long Term Steady State 1.50 1.59 >1.50 End of Construction 1.25 1.26 > 1.25 Seismic Undrained 1.00 1.03 >1.00 Seismic Drained 1.00 1.29 >1.00 Rapid Drawdown 1.25 1.43 N/A Duke Energy Carolinas, LLC 3-4 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F Geotechnical Considerations Details are provided in Appendix E with the stability calculations and printed program output for each analysis. 3.3.1 Foundation Bearing Capacity and Sliding Base Analysis Foundation bearing capacity and base sliding were calculated and the results showed that the factor of safety is greater than 2.0. Detailed calculations are provided in Appendix E. 3.3.2 Overturning Stability Computations The RB containment berms are earthen embankments. Overturning is not a failure mode applicable to earthen embankments therefore stability computations related to overturning were not performed. Duke Energy Carolinas, LLC 3-5 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F Hydrologic and Hydraulic Considerations 4.0 HYDROLOGIC AND HYDRAULIC CONSIDERATIONS 4.1 Hydrologic The RB and HB receive process water from several sources within the plant. Under dry -weather conditions the process water inflow rate is equal to the RB outflow rate. During wet -weather, the plant process water includes a stormwater component where rainwater comes in contact with locations that require the runoff to be treated (termed contact stormwater). There are no streams or other surface hydrologic sources flowing into the RB. The only stormwater flow entering the basin are plant process flows and direct rainfall which falls within the footprint of the RB, including the HB. Process wastewater pumps have a maximum capacity of 6,800 gpm. This will be the maximum process water influent rate to the RB during wet weather. Dry weather process wastewater flows vary based on plant operations. The maximum dry weather process wastewater flow rate is 3,400 gpm based on an analysis of internal plant processes which generate wastewater. The RB discharge pumping capacity is 6,000 gpm. For conservatism, it was assumed that the HB was filled to the height of the emergency spillway when the design rainfall events occurred. This results in all rainfall contributing to the HB being routed through the RB when determining emergency spillway capacity and activation frequency. The RB volume is designed to meet the NPDES wastewater discharge requirements. The basin exceeds the dam safety requirements to fully contain the 100-year event with no RB emergency spillway activation since the '/z PMP, 6-hour event is fully contained, excluding wave action. 4.1.1 Runoff Characteristics of Drainage Area The drainage area is the footprint acreage generally bounded by the center of the perimeter containment dike on all sides and includes the HB on the north, which drains to the RB primary basins. Since the top of the containment dikes are compacted and covered with granular surfacing, it is conservatively assumed that the entire depth of rainfall on the RB/HB footprint enters the basins. 4.2 Watershed Development The watershed for the RB only includes the area within the exterior dike of the retention basin and holding basin. No runoff enters the basin other than direct rainfall and from the wet -weather component of the pumped process flows. Duke Energy Carolinas, LLC 4-1 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F Hydrologic and Hydraulic Considerations 4.3 Streamflow No streamflow enters the RB. The basin does not obstruct the flow of any existing stream. 4.4 Drainage Area The drainage area within the RB and HB perimeter is 21.5 acres. This is the area that contributes direct rainfall to the basin. 4.5 Ground Cover Conditions The basin berm top is to be covered with granular surfacing and the spillway is constructed of 8-inch concrete. The bottom of the primary basins and HB are covered with 8-inch concrete and sides of the basin are covered with 15-inch riprap. The bottom of the secondary basin is covered with 6-inch crushed rock and sides of the basin are covered with 15-inch riprap. The outside face of the basins is seeded except for the access road which is covered with granular surfacing. 4.6 Design Flood and Wave Action 4.6.1 NPDES Design Requirements Basin design volume above the maximum process water level and below the emergency spillway contains the 25-year, 24-hour NOAA Atlas 14 storm depth of 6.13-inches. It is assumed all rainfall falling on the basin footprint enters the basin during this event. At a drainage area of 21.5 acres within the RB perimeter and HB, the total runoff volume entering the basin during the 25-year, 24-hour event is 3.57 MG (10.96 acre-feet). Containing the 25-year event meets the NPDES requirements of the basin which allows overflow through the emergency spillway no more frequently than 25 years on the average (4% annual probability of exceedance). Basin depth allowance below the emergency spillway also accounts for wave action of 2.37 feet in depth along with the rise in water depth from the 25-year event. Basin volumetric calculations for process flows, rainfall, and wave allowances to verify no overflow of the emergency spillway based on NPDES criteria are found in Appendix D. 4.6.2 Dam Safety Design Requirements The emergency spillway hydraulic capacity is designed to pass the PMP event as required for medium size, Class C dam facilities. The PMP event is described in detail in Section 4.8.1. Excluding the wave action allowance, the RB fully contains the '/2 PMP 6-hour and 24-hour event which exceeds the NCDEQ Dam Safety requirement that a Class C dam facility fully contain the 100-year event. A basin Duke Energy Carolinas, LLC 4-2 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F Hydrologic and Hydraulic Considerations inflow/outflow hydrograph showing total storage and basin elevation at each time step during the '/2 PMP event is included in Appendix D. Figure 4-1 at the end of this section shows the relevant elevations of the basin design cross-section, along with maximum water elevations calculated for the 25-year NPDES event including wave action allowance, and the %2 PMP event excluding wave action. The HB also fully contains the PMP, 6-hour event, and the emergency spillway is designed to convey the '/2 PMP, 6-hour peak flow to the RB. 4.7 Dam Breach Inundation Study A dam breach analysis was performed to determine downstream impacts related to a failure of the treatment basin containment berm. The analysis included a sunny -day and stormy -day breach analysis. The stormy -day analysis assumed process flows pumping into and out of the RB at maximum, concurrent with a'/2 PMP event falling on the RB area. A separate analysis was performed on the HB. A spreadsheet was developed to simulate an inflow hydrograph for the RB and HB during the %2 PMP event. NRCS Type II, 6-hour and 24-hour rainfall distributions were applied to the'/2 PMP event rainfall depth. The rainfall distribution were entered into a spreadsheet at 6-minute time steps over the event duration. Maximum process influent and effluent flow rates were added to the rainfall at each time step. This basin inflow hydrograph was used for the stormy -day breach analysis. The Breach Analysis and Inundation Study can be found in Appendix 1. The RB and HB influent hydrograph spreadsheet developed for the analysis is included in Appendix D. 4.8 Spillway Design 4.8.1 RB Primary Spillway The primary spillway is a weir structure in the secondary treatment cell that during dry weather will maintain a consistent depth of 6-feet in the primary and secondary cells. This weir structure will have two pumps mounted on top, each with a capacity of 6,000 gpm. 4.8.2 RB Emergency Spillway The emergency spillway is designed at an elevation above the primary spillway that will contain the 100- year, (NOAA Atlas 14) rainfall event without overtopping excluding allowance for wave action to Duke Energy Carolinas, LLC 4-3 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F Hydrologic and Hydraulic Considerations comply with NCDEQ Dam Safety requirements. The RB design actually exceeds this standard as it will fully contain the 6-hour or 24-hour'/z PMP event without overtopping the emergency spillway. The emergency spillway hydraulic capacity is designed to pass the peak hourly flow rate from one-half of the 6-hour PMP event. One-half of the 6-hour PMP is 14.5-inches in rainfall depth, while the wave action height allowed for to determine the emergency spillway elevation is 2.37-feet, or 28.4-inches to assure NPDES permit compliance. Discounting wave action the basin will actually fully contain the PMP event without discharging through the emergency spillway. Therefore, the only flow that may discharge during the '/2 PMP event would be caused by any wave action. Also if wave action is added to the water surface elevation produced by the 100-year event the top of the containment berm is not exceeded. 4.8.3 HB Emergency Spillway In conjunction with the RB design criteria, the FIB emergency spillway is designed to pass the PMP, 6- hour peak flow. The HB also exceeds the 100-year activation frequency criteria by fully containing the '/2 PMP, 6-hour event above maximum process pool elevation excluding wave action. If you add wave action above the 100-year event pool elevation, the top of the containment berm is not exceeded. 4.8.4 Description of Emergency Spillway Design Storm Per North Carolina Administrative Code — Title 15a, Subchapter 2K, the design storm for a medium size, high hazard classification dam shall be '/z of the probable maximum precipitation event (PMP). Per Hydrometeorological Report No. 51 (HMR 51), US Department of Commerce, National Oceanic and Atmospheric Administration, Et al, published June 1978, the PMP events for north -central North Carolina, assuming the smallest drainage area published of 10 miz, are as follows: Table 4-1: PMP Events PMP Total Rainfall PMP Duration Depth (hours) inches 6 29 12 34.5 24 39 48 42 72 44 Duke Energy Carolinas, LLC 4-4 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F Hydrologic and Hydraulic Considerations A Natural Resources Conservation Service (MRCS) Type 2 rainfall distribution was applied to the 24- hour and 6-hour PMP events to determine the peak hour rainfall depth during the event. This analysis yielded a peak hour rainfall depth of 8.84-inches for the 24-hour'/2 PMP event, and 9.31-inches for the 6- hour'h PMP event. Based on the results a maximum rainfall intensity of 9.31 inches/hour was used to determine the design flow rate through the emergency spillway. This yielded a maximum flow over the spillway of 201.83 cubic feet per second. This peak flow was used for the RB emergency spillway design and for riprap sizing on the slope downstream of the spillway. Based on the above peak rainfall intensity the peak flow for the HB emergency spillway and pipe leading to the RB influent structure is 25.32 cfs. 4.8.5 Spillway Types and Materials RB Primary Spillway Description: The primary spillway is a reinforced concrete structure with an overflow weir to take process water to a pump station located north of the wastewater treatment basin. Design pumping rates are variable and intended to match influent process flow in order to maintain a consistent pool depth of 6-feet in the treatment basin. The basin liner system will be bonded at the concrete weir structure to prevent seepage. RB Emergency Spillway Description: The emergency spillway elevation is such that it fully contains the '/z PMP event, to be stored above the normal process water pool without overtopping. The flow conveyance capacity of the emergency spillway is sized to pass the peak hourly flow from the '/2 PMP rainfall event. The emergency spillway is 50-feet wide and concrete lined. To prevent erosion, rip -rap is included downstream of the spillway crest on the dike exterior 3:1 slope and beyond on the natural slope to spread the flow and reduce velocity to an acceptable rate for a vegetated slope. HB Emergency Spillway Description: The HB emergency spillway consists of a reinforced concrete weir structure with a 36-inch ductile iron discharge pipe that drains to the RB primary influent structure. The concrete weir is 7-feet in length with 3 feet of freeboard to the basin top. 4.8.6 Minimum Time Requirement to Drain Reservoir North Carolina Administrative Code Title 15A, Subchapter 2K requires that: Duke Energy Carolinas, LLC 4-5 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F Hydrologic and Hydraulic Considerations "Within 15 days following passage of the design storm peak, the spillway system shall be capable of removing from the reservoir at least 80 percent of the water temporarily detained in the reservoir above the elevation of the primary spillway." In the case of the Belews Creek RB the primary spillway is a weir structure which serves as a wet well for two effluent pumps that sends treated wastewater to the permitted outfall location. The weir is 6-feet above the basin floor and maintains this normal operating pool level during dry weather. The maximum pumping rate out of the RB is 6,000 gpm (14.19 cfs). The only other means of water leaving the basin is via the emergency spillway. The maximum influent process water pumping rate is 6,800 which would occur during wet weather. The estimated maximum dry weather process flow rate is 3,400 gpm. The RB influent/effluent hydrograph was developed in a spreadsheet format with influent equal to the maximum pumping rate of 6,800 gpm plus the direct rainfall from the %2 PMP event. Effluent flow was set at the maximum pumping rate of 6,000. For each 6-minute time step total storage and RB pool level was calculated. During the rainfall event water height in the RB does not reach the emergency spillway. After the rainfall event influent flow was reduced to 3,400 gpm and effluent pumping was continued at 6,000 gpm to determine the time needed to return the RB to normal pool level (primary spillway elevation). The results of this simulation indicate that the total time to pump out the 1/2 PMP, 6-hour event is 56 hours (2.33 days). This is a conservative estimate since it is unlikely process inflows would remain at 3,400 gpm during the entire pump -out time. A similar spreadsheet was developed for the HB to determine time to pump out the 1/2 PMP, 6-hour event. The maximum influent rate to the HB was set at 2000 gpm with the effluent maximum of 1600 gpm based on pump capacities. After the event the HB influent rate was reduced to the average annual dry - weather wastewater process flow of 134 gpm. The simulation on the HB only resulted in a time of 12.5 hours to return the basin to normal operation level. Calculations for the time to return these basins to normal operating levels can be found in Appendix D. Duke Energy Carolinas, LLC 4-6 Burns & McDonnell EMERGENCY SPILLWAY 820 EL 791.0 820 25 YR EVENT WITH WAVE ACTION MATCH EXIST GRADE EL 814.00 �g o EL 790.7 810 TOP OF BERM 1/2 PIMP (NO WAVE ACTION) \ v \ i -----��---�� 810 EL 792.0 EL 789.5—/ UZ 3: Uz iW UZ 3iW / 800 16 OZISY GEOTEXTILE NORMALPOOL 800 (TYP) (SEE NOTE 6) EL 787.0 // 6'TOPSOI / AND SEEDING (TYP) 790 MATCH EXIST GRADE EL 788.0 0 8 790 FIN GRADE DE 6' CRUSHED ROCK (TYP) :EL BH.00 EL BH.O - ANCHOR TRENCH (TYP) \ 15"RIPRAP (TYP) - - - I I I1 (SEE NOTE 4) 780 - - / �i�,-�__________ GRANULAR - -' '- _ 780 / MATERNL (TYP) M / COMPACTED BASIN LINER SYSTEM (TYP) (SEE NOTE 3) / SUBGRADE (TYP) 770 / EXIST GRADE 770 760 760 750 740 Figure 4-1 750 740 %BUPNS DUE RWDONNELL VENERGY Cross Section of Belews Creek Retention Basin Retention & Holding Basin, Dam Permit Report Revision F Design Elements 5.0 DESIGN ELEMENTS 5.1 Permit Drawings Refer Appendix A for drawings that include cross -sections, grading plans, proposed pool levels, surfacing plans, erosion control plans and construction details for the Belews Creek R.B. 5.1.1 Cross -Sections Refer to Appendix A Sheets GR.EV-001, 002, and 003 for cross sections of the RB and HB. Complete cross sections are shown for the length and width of the RB, including critical sections where fill heights are at maximum and through the proposed emergency spillway. 5.1.2 Plan and Profiles Refer to Appendix A Sheets GR.PL-002, 003, and 004 for detailed plan views of the RB and HB. 5.1.3 Pool Levels The basin bottom elevation is 781-feet with a normal maximum process pool elevation of 787-feet. The emergency spillway elevation is 4-feet above the maximum process pool elevation at 791-feet. The pool elevation for the 25-year NPDES design event including wave allowance is 790.7-feet. The maximum pool elevation during the 'h PMP, 6-hour event is 788.2-feet and during the '/z PMP, 24-hour event is 789.5-feet. 5.2 Conduit Design There are no conduits entering or exiting the RB through the containment berm with the exception of a 4- inch caustic drain line that penetrates the liner on the north side of the east primary basin. The penetration is located above the normal water level but could be inundated during rainfall events. This HDPE conduit is to be bonded to the basin liner system to prevent seepage along the pipe through the berm, as shown in the detail sheets of the drawings in Appendix A. Influent flow to the primary basins is through a concrete distribution structure that can direct flow to either or both primary cells. The flow enters the primary basins through two open concrete troughs constructed above the basin liner system. Because of this, no additional measures are required to prevent seepage along the influent troughs. Further, the invert elevations at the top of the trough are greater than the max operating level in the RB, eliminating the hydraulic connection. Duke Energy Carolinas, LLC 5-1 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F Design Elements RB effluent flow is through a weir structure at the south end of the secondary cell. This structure also serves as a wet well for the effluent pumps mounted on top of the structure. The basin liner system is mechanically bonded to the effluent structure. There are existing conduits in the RB basin berms that are proposed to be abandoned. The conduits and structures to be abandoned will be removed to three -feet below the berm surface with the remaining void filled with flowable fill. At the HB emergency spillway structure the basin liner system will also be mechanically bonded to the concrete structure to prevent any seepage along the pipe leading to the RB influent structure. 5.2.1 Basin Drain System Basin dewatering below the elevation of the effluent weir will occur if necessary for emergency purposes, by use of a self -priming diesel driven pump. A suction pipe will be permanently fixed on the effluent weir structure and provisions made to attach the diesel pump discharge to the basin outfall force main to allow the diesel pump to remove all water from the secondary cell of the R.B. There is no gravity drain conduit at the basin bottom elevation through the containment berm for environmental concerns to limit the possibility of accidental discharge of non -fully treated wastewater to a downstream receiving water. The diesel emergency pump will be procured with approximately the same discharge capacity (6,000 gpm) of the proposed electrically operated effluent pumps. At 6,000 gpm the diesel driven pump will be able to remove all water from the RB secondary and primary cells below the normal pool elevation of 787 in a time period of 65.3 hours (2.7 days). The diesel pump will be stored on -site at all times, available for connection to the permanent suction and discharge pipes and placement into emergency service. The HB is capable of being fully drained by the HB effluent pumping system. If the HB is at maximum process wastewater pool elevation of 14-feet in depth, the HB effluent pumping system at maximum capacity of 1,600 gpm can empty the HB in 71.9 hours (3 days). 5.2.2 Interior Surface of Conduit The one pipe penetrating the basin liner system below the elevation of the containment berm crest is a 4- inch DR- 11 solid wall HDPE pipe. The pipe will be heat -fusion welded. Duke Energy Carolinas, LLC 5-2 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F Design Elements 5.2.3 Seepage Protection The basin liner system is mechanically bonded to the effluent discharge structures to prevent seepage at the liner/concrete interface. The liner system is also bonded to the 4-inch HDPE caustic drain line penetrating the liner in the RB primary basin area. Construction details of the basin liner system and structure/pipe bonding details are found in the drawings in Appendix A. 5.2.4 Clogging Prevention Since only clarified treated wastewater exits through the overflow weir clogging of the outlet structure or pipe is not considered an issue. 5.2.5 Conduit Loading The only conduit fully penetrating the basin containment berm is the 4-inch caustic drain line. This pipe is solid wall HDPE, DR 11 and is structurally adequate for earth and live loads within the berm. The pipe is also specified to have heat -fusion joints therefore is fully restrained within the berm. 5.2.6 Material Process water entering and exiting the RB and HB pass through reinforced concrete structures. The buried caustic drain line entering the RB primary basin is specified to be solid -wall, DR 11 HDPE. The 36-inch emergency overflow pipe from the HB to the RB is specified to be mechanical joint, Class 50 ductile iron, cement mortar lined, much of which will be placed above -ground. 5.2.7 Containment Berm Erosion and Damage Protection The basin will be lined with a multi -layer geosynthetic liner that will prevent seepage from the basin and help protect the interior of the basin from erosion and wave action. The liner system is protected by a geotextile covered with a 12-inch layer of granular fill, which is then covered with 15-inches of riprap. No adverse effects due to scour from influent or effluent flow are anticipated due to the presence of the liner, granular fill, and riprap. The exterior slopes are proposed to be seeded and then covered with erosion control matting. The emergency spillway is lined with 9-inches of concrete over the spillway crest and riprap on the slope downstream of the crest. The riprap downstream of the spillway crest extends to the bottom of the basin containment berm and on to the natural slope below. Duke Energy Carolinas, LLC 5-3 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F Design Elements The bottom of the primary basins and HB are covered with 6-inches of concrete on the granular fill layer to allow for periodic removal of sediment. Refer to drawings BLC00-CV-C-PA.PL-001, 002, and 003 in Appendix A for the Surfacing Plan. 5.2.8 Temporary Erosion Control Measures during Construction The Erosion and Sediment Control (E&SC) Plan has been submitted for approval to the regional office of the NCDEQ. Refer to Appendix C for a copy of the submitted E&SC Plan. 5.2.9 Riprap Riprap will be provided on the interior slopes as well as the exterior slope of the basin below the emergency spillway crest. The riprap along the emergency spillway extends to the bottom of the 3:1 containment berm and onto the slope below. Flow velocity and riprap sizing calculations are included in Appendix D. Riprap will be North Carolina Department of Transportation Class B or Class 1, depending on location. 5.2.10 Appurtenant Structure Resistance Against Flotation Uplift The resistance of the retention basin effluent structure and holding basin overflow structure against flotation uplift was calculated. The buoyancy was checked assuming that the water table was at grade during service. The results showed that the factor of safety for these structures is greater than 1.5. Structural calculations for these structures is found in Appendix G. Duke Energy Carolinas, LLC 5-4 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F Construction and Operations 6.0 CONSTRUCTION AND OPERATIONS 6.1 Construction Schedule Overall, construction is scheduled to begin in May 2017 and be completed by May 2018. 6.1.1 Techniques and Work Force The RB will be an earthen structure. Material from the immediate area will be used to source soil material for construction. The basin will be constructed by a civil contractor with experience in construction of similar basin structures. Design and construction quality assurance requirements will be in accordance with Duke standards. 6.1.2 Activity Completion Time The following are approximate durations for major construction activities for the basin: • Excavation and earthwork — 5 months • Installation of liner, riprap, concrete and crushed rock — 4 months • Installation of mechanical and electrical systems — 4 months • Startup and commissioning — 2 months 6.1.3 Stream Flow Diversion Techniques No stream diversions are applicable. 6.1.4 Quality Control Extent and Methods Specific quality control requirements are included in the applicable specification sections included in Appendix B. 6.2 Filling Schedule The Retention Basin is designed to accept primarily process water flow from Belews Creek Plant operations. Normal operation of the basin is for flow coming into the basin to essentially equal flow going out of the basin on an overall average basis. The basin provides for additional storage volume to receive wastewater during major storm events. The basin will take approximately three days to get to the normal operating level in the basin. The Holding Basin is designed to accept storm water flows from the coal pile and miscellaneous plant maintenance activities. Therefore, it will normally be empty and there is no filling schedule. Duke Energy Carolinas, LLC 6-1 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F Construction and Operations 6.3 Construction Materials Refer to Appendix B for technical specifications related to the project. 6.4 Sediment Control Refer to project Erosion and Sediment Control Plan in Appendix C. 6.5 Maintenance and Operation Plan The Owner currently maintains a maintenance and operation plan for other existing dams and wastewater treatment facilities on site. This plan will be updated accordingly prior to placing the new wastewater treatment basins in operation to incorporate maintenance and operation of the new Retention Basin. 6.6 Estimated Design Life The estimated design life of the wastewater treatment system is considered to be 20-years based on construction materials, equipment life, future obsolescence of plant processes, need for the waste treatment system and experience with similar structures. 6.7 Maintenance of Stream Flow Downstream The Belews Creek RB/HB complex does not block any existing natural stream. The footprint of the proposed treatment basin generally coincides with the existing wastewater basins so no loss of drainage area contributing downstream will occur. Rainfall falling on the basin footprint will be pumped and discharged to the permitted plant outfall. Duke Energy Carolinas, LLC 6-2 Burns & McDonnell Retention & Holding Basin, Dam Permit Report Revision F References 7.0 REFERENCES "Chapter 2k — Dam Safety." North Carolina Administrative Code Title 15A — Environmental Quality. Atlas 14 Point Precipitation Frequency Estimates. National Oceanic and Atmospheric Administration. Hydrometerological Report No. 51, Probable Maximum Precipitation Estimates, United States East of the 105th Meridian. U.S. Department of Commerce, National Oceanic and Atmospheric Administration and U.S. Department of the Army, Corps of Engineers. June, 1978. Criteria for Classification of Solid Waste Disposal Facilities and Practices (Part 257). EPA Code of Federal Regulation Title 40 — Protection of Environment. Identification and Listing of Hazardous Waste (Part 261). EPA Code of Federal Regulation Title 40 — Protection of Environment. Duke Energy Carolinas, LLC 7-1 Burns & McDonnell APPENDIX A - PERMIT DRAWINGS T 2 T 3 T 4 T 5 DUKE ENERGY T 7 T 9 �—A �_C �—D E E 04/17/1TWEG1 BL I ISSUED FOR PERMITTING D 04/13/1 T WEG 1 BL I ISSUED FOR PERMITTING C 104/11/17MEG1 BL I ISSUED FOR PERMITTING B 103/08/17MEG1 BL I ISSUED FOR PERMITTING A I11/18/161 WEG I BL I ISSUED FOR PERMITTING CIVIL DWG. NO. 88673SKC053 B LC00-CV-C-G R. CS-002 B LC00-CV-C-S I . E N-001 B LC00-CV-C-S I . E N-002 B LC00-CV-C-S I . E N-003 BLC00-CV-C-EC. PL-004 B LC00-CV-C-G R. P L-002 B LC00-CV-C-G R. P L-003 B LC00-CV-C-G R. P L-004 BLC00-CV-C-PA. PL-001 BLC00-CV-C-PA. PL-002 BLC00-CV-C-PA. PL-003 BLC00-CV-C-PA. PL-004 BLC00-CV-C-PA. PL-005 B LC00-CV-C-G R. EV-001 B LC00-CV-C-G R. EV-002 B LC00-CV-C-G R. EV-003 B LC00-CV-C-G R. EV-004 BLC00-CV-C-EC.SD-002 BLC00-CV-C-EC.SD-003 B LC00-CV-C-G R. S D-001 B LC00-CV-C-G R. S D-002 B LC00-CV-C-G R. S D-003 B LC00-CV-C-G R. S D-004 B LC00-CV-C-G R. S D-005 SKC008 no. I date I by I ckd I description Z:\Clients\ENR\DukeEnr\WtrRedirProg\88673_BelewsCreek\Design\Civil\Dwgs\Contract\Dam Permit\88673SKC053.dgn BELEWS CREEK STEAM STATION WATER REDIRECTION PROJECT WATER RETENTION BASIN AND HOLDING BASIN STOKES COUNTY, NORTH CAROLINA TITLE COVER -INDEX LEGEND, ABBREVIATIONS, VICINITY MAP, AND GENERAL NOTES OVERALL SITE PLAN KEY PLAN WATER RETENTION BASIN SITE PLAN WATER RETENTION BASIN EROSION CONTROL PLAN WATER RETENTION BASIN GRADING AND DRAINAGE PLAN - SHEET 1 WATER RETENTION BASIN GRADING AND DRAINAGE PLAN - SHEET 2 WATER RETENTION BASIN GRADING AND DRAINAGE PLAN - SHEET 3 WATER RETENTION BASIN SURFACING PLAN - SHEET 1 WATER RETENTION BASIN SURFACING PLAN - SHEET 2 WATER RETENTION BASIN SURFACING PLAN - SHEET 3 WATER RETENTION CONCRETE PAVEMENT JOINTING PLAN - SHEET 1 WATER RETENTION CONCRETE PAVEMENT JOINTING PLAN - SHEET 2 WATER RETENTION BASIN GRADING SECTIONS - SHEET 1 WATER RETENTION BASIN GRADING SECTIONS - SHEET 2 WATER RETENTION BASIN GRADING SECTIONS - SHEET 3 WATER RETENTION BASIN GRADING SECTIONS - SHEET 4 EROSION CONTROL DETAILS - SHEET 1 EROSION CONTROL DETAILS - SHEET 2 MISCELLANEOUS DETAILS - SHEET 1 MISCELLANEOUS DETAILS - SHEET 2 MISCELLANEOUS DETAILS - SHEET 3 MISCELLANEOUS DETAILS - SHEET 4 MISCELLANEOUS DETAILS - SHEET 5 WATER RETENTION BASIN PIEZOMETER PLAN F I06/29/171 WEG BL I ISSUED FOR PERMITTING no. I date I by I ckd I description VICINITY MAP N INDEX OF DRAWINGS STRUCTURAL DWG. NO. B LC00-CD-K-YM .00. P L-001 BLC00-CD-K-YM.00.PL-002 BLC00-CD-K-YM.00.PL-003 B LC00-CD-K-YM .00. P L-004 BLC00-CD-K-YM.00.PL-005 B LC00-CD-K-YM .00. P L-008 BLC00-CD-K-YM.00.PL-009 B LC00-CD-K-YM .00. P L-010 BLC00-CD-K-YM.00.PL-011 BLC00-CD-K-YM.00.SD-001 BLC00-CD-K-YM.00.SD-002 BLC00-CD-K-YM.00.SD-003 BLC00-CD-K-YM.00.SD-004 BLC00-CD-K-YM.00.SD-005 BLC00-CD-K-YM.00.SD-006 BLC00-CD-K-YM.00.SD-007 BLC00-CD-K-YM.00.SD-008 BLC00-CD-K-YM.00.SD-010 BLC00-CD-K-YM.00.SD-015 BLC00-ST-S-YM.00.SD-001 SK-001 DWG. NO. SKM005 REFERENCE DWGS TITLE DWG. NO. SITE PLAN BLC00-CD-K-YM.00.PL-006 INTERMEDIATE WEIR STRUCTURE PLAN, SECTIONS, AND DETAILS BLC00-CD-K-YM.00.PL-007 PRIMARY BASIN INLET STRUCTURE PLAN BLC00-IS-P-WY.20010 EFFLUENT STRUCTURE PLAN, SECTIONS, AND DETAILS OVERFLOW STRUCTURE PLAN, SECTIONS, AND DETAILS VACUUM TRUCK UNLOADING PAD PLAN, SECTIONS, AND DETAILS FLOATING SUCTION PUMPS PLAN, SECTIONS, AND DETAILS HOLDING BASIN INLET TRENCH PLAN, SECTIONS, AND DETAILS HOLDING BASIN TRENCH END BOXES PLANS, SECTIONS, AND DETAILS STANDARD DETAILS SHEET 1 STANDARD DETAILS SHEET 2 STANDARD DETAILS SHEET 3 STANDARD DETAILS SHEET 4 STANDARD DETAILS SHEET 5 STANDARD DETAILS SHEET 6 STANDARD DETAILS SHEET 7 STANDARD DETAILS SHEET 8 PRIMARY BASIN INLET STRUCTURE SECTIONS AND DETAILS TRENCH LID PENETRATIONS PLANS, SECTIONS AND DETAILS STRUCTURAL STEEL STANDARD DETAILS SHEET 1 HOLDING BASIN MISCELLANEOUS PIPE SUPPORTS SECTIONS AND DETAILS MECHANICAL TITLE RB/HB FLOW SCHEMATIC PREPARED FOR: DUKE ENERGY CAROLINAS 3195 PINE HALL ROAD, BELEWS CREEK, NC 27009 PHONE: (336) 445-0642 TITLE CHEMICAL FEED BUILDING PLANS, SECTIONS, AND DETAILS CAUSTIC STORAGE TANK PLAN, SECTIONS, AND DETAILS ISOMETRIC YARD DRAWING PRELIMINARY - NOT FOR CONSTRUCTION BURNS N&MSDONNELL 9400 WARD PARKWAY KANSAS CITY, MO 64114 816-333-9400 FIRM LICENSE NO. C-1435 Ike r 1rOkA- 02-31-79 its$rt0t Jun 29 2017 14:54:56 TITLE WATER REDIRECTION PROGRAM COVER -INDEX FOR BELEWS CREEK STEAM STATION U1 &2 DUKE ENERGY® STOKES COUNTY, NC SCALE: NONE DWG TYPE:: CVL DFOTR: SKN JOB NO: 88673 CHKD: BL DATE: 11/18/16 ENGR: TMP FILENAME: 88673SKC053.dgn APPD: WEG DWG SIZE DRAWING NO. REVISION ARCH E1 30.0"x42.0" SKC053 F A--� C__� D--� F--� 4 5 h 7 8 I 0 29/2017 sknichols 11:14:38 AM 2 3 4 ABBREVIATIONS i i i 1 1 5 6 7 8 9 LEGEND NEW EXISTING RAILROAD ROADS 750 CONTOURS 750 —A *TOP OF SLOPE *TOE OF SLOPE --- -- SWALE --- -- Now ••• mm- FLOWLINE No. •••111- ff ,°��I_wu$ �� CRUSHED ROCK°°° �`°° RIPRAP —B CONCRETE ASPHALT �V, TOPSOIL & SEED FENCES SILT FENCE PROPERTY LINE —C STRUCTURES SURVEY MONUMENTS O BNi TOP OR TOE OF SLOPE TO MATCH EXIST. GRADE UNLESS AN ELEVATION OR SLOPE IS INDICATED. ALL SYMBOLS ARE STANDARD WITHOUT RESPECT TO CONTRACTS. —E—A 3BREVIATION TERM ABBREVIATION TERM @ AT M.O. MID -ORDINATE AHD AHEAD N NORTH ASPH ASPHALT NO NUMBER AUX AUXILIARY OD OUTSIDE DIAMETER BK BACK OPNG OPENING BLDG BUILDING ± PLUS OR MINUS BM BENCHMARK PC POINT OF CURVE BOT BOTTOM PCC PORTLAND CEMENT CONCRETE CB CATCH BASIN PI POINT OF INTERSECTION C TO C CENTER TO CENTER PL PROPERTY LINE CL CENTERLINE PT POINT OF TANGENT CHDPE CORRUGATED HIGH DENSITY POLYETHYLENE P.R.C. POINT OF REVERSE CURVE CJ CONSTRUCTION JOINT P.V.C. POINT OF VERTICAL CURVE CMAP CORRUGATED METAL ARCH PIPE P.V.I. POINT OF VERTICAL INTERSECTION CMP CORRUGATED METAL PIPE P.V.R.C. POINT OF VERTICAL REVERSE CURVE CONC CONCRETE P.V.T. POINT OF VERTICAL TANGENT CPT CORRUGATED POLYETHYLENE TUBING R RADIUS DBL DOUBLE RB RETENTION BASIN DET DETAIL RD ROAD DI DROP INLET RPT RADIUS POINT DIA DIAMETER RCP REINFORCED CONCRETE PIPE DWG DRAWING RR RAILROAD ECB EXISTING CATCH BASIN RT RIGHT EDB ELECTRICAL DUCT BANK ROW RIGHT-OF-WAY E EAST S SOUTH EF EACH FACE SLP SLOPE EJ EXPANSION JOINT SHLDR SHOULDER EL ELEVATION STD STANDARD EMH ELECTRICAL MANHOLE ST STORM SEWER EQN EQUATION STA STATION EXIST EXISTING SWG SWING EW EACH WAY T&B TOP AND BOTTOM FBD FLAT BOTTOM DITCH TEMP TEMPORARY FLL FLOWLINE TOA TOP OF ASPHALT GA GAGE TOC TOP OF CONCRETE GALV GALVANIZED TO GRATING TOP OF GRATING HDPE HIGH DENSITY POLYETHYLENE TOM TOP OF MANHOLE HORIZ HORIZONTAL TOP TOP OF PAVEMENT HPT HIGH POINT TOR TOP OF RAIL HWY HIGHWAY TOSB TOP OF SUBBALLAST ID INSIDE DIAMETER TOSG TOP OF SUBGRADE IF INSIDE FACE TYP TYPICAL INTSCT INTERSECTION UON UNLESS OTHERWISE NOTED INVT EL INVERT ELEVATION VC VERTICAL CURVE L LONG VERT VERTICAL LT LEFT W WEST MAX MAXIMUM W/ WITH MH MANHOLE W/O WITH OUT MIN MINIMUM WR WATER RETENTION MISC MISCELLANEOUS WWF WELDED WIRE FABRIC NOTES: 1. ALL ABBREVIATIONS ARE BURNS & McDONNELL STANDARDS WITHOUT RESPECT TO CONTRACTS. 2. ABBREVIATIONS ARE APPLICABLE TO ALL DWGS. GENERAL NOTES APPLICABLE TO ALL DRAWINGS: 1. ALL ELEVATIONS SHOWN ARE TOP OF FINISHED SURFACING UNLESS NOTED OTHERWISE. 2. ALL SIDE SLOPES ARE 3H:1V UNLESS NOTED OTHERWISE. 3. INSTALL TEMPORARY EROSION CONTROL DEVICES AS INDICATED ON DRAWINGS BLC00-CV-C-EC.PL-004. 4. COORDINATES AND BENCHMARK ELEVATIONS PROVIDED BY WSP USA CORP IN MAY 2017. 5. CONTRACTOR SHALL VERIFY PROPERTY BOUNDARY COORDINATES WITH BENCHMARKS PROVIDED ON DWG BLC00-CV-C-SI.EN-001 6. ANY AREAS DISTURBED BY THE CONSTRUCTION SHALL BE RESTORED TO PRE -CONSTRUCTION CONDITIONS. 7. ALL DISTURBED AREAS SHALL RECEIVE EITHER ROCK OR TOP SOIL AND SEED UNLESS NOTED OTHERWISE. 8. CONTRACTOR SHALL VERIFY LOCATION OF UNDERGROUND UTILITIES WITH DUKE PRIOR TO ANY EXCAVATION. 9. RADII ARE TO THE EDGE OF FINISHED DRIVING LANE. 10. COORDINATES AS INDICATED ARE PLANT GRID COORDINATES. FOLLOWING IS A TABLE FOR USE IN CONVERTING BETWEEN PLANT GRID AND NORTH CAROLINA STATE PLANE GRID, NORTH ZONE, IN NAD83 AND VERTICAL DATUM NAVD88: PLANT GRID STATE PLANE GRID LOCATION N E EL N E EL 4,501.58 2,363.52 740.50' 923,722.09 1,687,411.54 740.07' PLANT MON FGD-1 3,656.50 2,345.80 739.78' 923,086.11 1,686,854.73 739.35' PLANT MON FGD-2 4,535.86 3,594.13 739.61' 922,957.34 1,688,376.34 739.18' PLANT MON FGD-4 E 04/13/1T WEGI BL I ISSUED FOR PERMITTING D 03/08/17 WEG BL ISSUED FOR PERMITTING C 11/18/16 WEG BL ISSUED FOR PERMITTING B 11/04/16 TMP BL ISSUED FOR REVIEW A 09/19/16 TMP BL ISSUED FOR REVIEW no. I date I by I ckd I description 792 791 790 789 LU 788 W U_ z 787 H > 786 W J W 785 784 783 782 781 0 4 8 12 16 20 24 28 32 36 40 STORAGE (MILLION GALLONS) WATER RETENTION BASIN ELEVATION VS. STORAGE PLOT F �06/29/17�WEG� BL ISSUED FOR PERMITTING no. date by I ckd 4 (FOR REFERENCE ONLY) t 936 �t Walnut Cove FUlp OLDTOWN RD t9t5 � e�r�7ic BELEWS CREEK POWER STATION ADDRESS: 3195 PINE HALL ROAD, BELEWS CREEK, NC 27009 STOKES COUNTY, NORTH CAROLINA LAT/LO N : 36.281756/-80.059231 804 803 801 799 797 Lu Lu U_ Z 795 0 H Q 793 > Lu J Lu 791 789 787 785 0 1 2 3 4 5 6 7 8 9 STORAGE (MILLION GALLONS) HOLDING BASIN ELEVATION VS. STORAGE PLOT — — — — — — — — — — — — — — — — — — — — — — — - t9tt t9tF PINE HALL RD a -yam: description I 5 6 7 8 i I I I BELEWS CREEK VICINITY MAP NOT TO SCALE 2031 Hillsboro 4 f l a t� Stokesda Ie y NORTH PRELIMINARY - NOT FOR CONSTRUCTION BURNS N&MEDONNELL 9400 WARD PARKWAY KANSAS CITY, MO 64114 816-333-9400 FIRM LICENSE NO. C-1435 I . 013179 dP 1 m rz *this# tit���; Jun 29 2017 14:55:43 F TITLE WATER REDIRECTION PROGRAM LEGEND, ABBREVIATIONS, VICINITY MAP & GENERAL NOTES FOR BELEWS CREEK STEAM STATION U1 &2 DUKE SCALE: NONE 5SKN0 DWG TYPE:: CVL DO R: ENERGY® JOB NO: 88673 CHKD: BL DATE: 08/05/16 ENGR: TMP STOKES COUNTY, NC FILENAME: BLC00-CV-C-GR.CS-002.dgn APPD: WEG DWG SIZE DRAWING NO. REVISION 00�42 0" BLC00-CV-C-GR.CS-002 F Z:\Clients\ENR\DukeEnr\WtrRedirProg\88673_BelewsCreek\Design\Civil\Dwgs\Contract\Dam Permit\BLC00-CV-C-GR.CS-002.dgn 9 I 1()/29/2017 sknichols 12:29:38 PM I 6 0 LO N T 2 T 3 T 4 T 5 T 6 T 7 T 9 -1 �_C �-D �-E X\\\\� N 7,000 N 6,500 N 5,500 NOTES: 1. SEE DWGS BLC00-CV-C-PA.PL-001, BLC00-CV-C-PA.PL-002, AND BLC00-CV-C-PA.PL-003 FOR SURFACING PLAN. 2. SEE DWG BLC00-CV-C-GR.SD-004 FOR CULVERT SCHEDULE. b • • Mar 10 2017 10: 3 9:45 TITLE WATER REDIRECTION PROGRAM WATER RETENTION BASIN PRELIMINARY -NOT SITE PLAN FOR CONSTRUCTION STATE PLANE FOR BELEWS CREEK STEAM STATION U1&2 NORTH BURNS �'` SCALE: 1" = 100' CON: 5.8120 D 03/08/17 WEG BL ISSUED FOR PERMITTING o � �� PLANT GRID �&MSDONNELL Angle (39 59 56.753460) NORTH DUKE DWG TYPE: CVL DFTR: SKN C 11/18/16 WEG BL ISSUED FOR PERMITTING 0 100' 200' _�%. ENERGY® JOB NO: 88673 CHKD: BL 9400 WARD PARKWAY DATE: 08/03/16 ENGR: TMP KANSAS CITY, MO 64114 B 11/04/16 TMP BL ISSUED FOR REVIEW NORTH SCALE IN FEET STOKES COUNTY, NC U 816-333-9400 FILENAME: BLC00-CV-C-SI.EN-003.dgn APPD: WEG A 09/19/16 TMP BL ISSUED FOR REVIEW FIRM LICENSE NO. C-1435 DWG SIZE DRAWING NO. REVISION ARCH E1 D no. I date I by I ckd I description no. date by ckd description 30.0"x42.0" BLC00-CV-C-SI.EN-003 Z:\Clients\ENR\DukeEnr\WtrRedirProg\88673_BelewsCreek\Design\Civil\Dwgs\Contract\Dam Permit\BLC00-CV-C-SI.EN-003.dgn 4 5 6 7 $ 9 1(3/8/2017 jmbrunkhor2t05:01 PM i i I I I I mw C__� D--� F--� 1=11 WE MEN mom an WIN PENN N 6,500 -C-1 N 6,000 �■ E N 5,500 SITE STABILIZATION REQUIREMENTS SITE AREA DESCRIPTION STABILIZATION TIME FRAME TIME FRAME EXCEPTIONS PERIMETER DIKES, DITCHES, SLOPES 7 DAYS NONE HIGH QUALITY WATER ZONES 7 DAYS NONE SLOPES STEEPER THAN 3.1 7 DAYS IF SLOPES ARE 10' OR LESS IN LENGTH AND ARE NOT STEEPER THAN 2:1, 14 DAYS ARE ALLOWED SLOPES 3:1 OR FLATTER 14 DAYS 7 DAYS FOR SLOPES GREATER THAN 50' IN LENGTH ALL OTHER AREAS WITH SLOPES 14 DAYS NONE, EXCEPT FOR PERIMETERS AND HIGH FLATTER THAN 4:1 QUALITY WATER ZONES NOTES: 1. SEE DWGS BLC00-CV-C-EC.SD-002 AND 3. ALL AREAS DISTURBED BY CONSTRUCTION SHALL BLC00-CV-C-EC.SD-003 FOR EROSION CONTROL BE TEMPORARILY SEEDED IMMEDIATELY UPON DETAILS. COMPLETION OF GRADING IN ACCORDANCE WITH SITE STABILIZATION REQUIREMENTS. 2. MAINTAIN EXISTING EROSION CONTROL DEVICES. INSTALL, MAINTAIN AND COMPLY WITH NEW 4. BASINS ARE TO BE CLEANED OF SEDIMENT BEFORE EROSION CONTROL DEVICES AS INDICATED. FINAL SURFACING. D 03/08/17 WEG BL ISSUED FOR PERMITTING C 11/18/16 WEG BL ISSUED FOR PERMITTING B 11/04/16 TMP BL ISSUED FOR REVIEW U A 09/19/16 TMP BL ISSUED FOR REVIEW LEGEND 00 \ CONSTRUCTION ENTRANCE 15" RIPAP (NCDOT CLASS B) ROCK CHECK DAM (MAX SPACING 200 FEET) DOUBLE SILT FENCE SILT FENCE OUTLET (100' SPACING) w STATE PLANE NORTH Angle (39' 59' 56.753460") c- 11 I, PLANT GRID NORTH 0 100, 200' SCALE IN FEET no. I date I by I ckd I description no. date by I ckd I description Z:\Clients\ENR\DukeEnr\WtrRedirProg\88673_BelewsCreek\Design\Civil\Dwgs\Contract\Dam Permit\BLC00-CV-C-EC.PL-004.dgn 4 5 6 7 8 i i I I I 0 0 L0 W 745 750 '10% �Flfifff►II��f�ri/ H SEAL 0231-79 offffe�i�t Mar 10 2017 10:41:01 .�_' FCC I—D--� TITLE F WATER REDIRECTION PROGRAM WATER RETENTION BASIN PRELIMINARY - NOT EROSION CONTROL PLAN FOR CONSTRUCTION FOR BELEWS CREEK STEAM STATION U1&2 BURNS 4", SCALE: 1' = 100' CON: 5.8120 N MIEDONNELL DUKE DWG TYPE: CVL DFTR: SKN E N E RGYO JOB NO: 88673 CHKD: BL 9400 WARD PARKWAY KANSAS CITY, MO 64114 STOKES COUNTY, NC DATE: 08/26/16 ENGR: TMP 816-333-9400 FILENAME: BLC00-CV-C-EC.PL-004.dgn APPD: WEG FIRM LICENSE NO. C-1435 DWG SIZE DRAWING NO. REVISION ARCH E1 30.0"x42.0" BLCOO-CV-C-EC.PL-004 D 9 10 3/10/2017 jmbrunkhor9t13:51 AM I I I I I 1 1 2 3 4 5 6 CURVE DATA NO. DELTA DEGREE RADIUS TANGENT LENGTH HB-01 90000'00" 64001'03" 89.50' 89.50' 140.59' HB-02 90000'00" 52019'30" 109.50' 109.50' 172.00' HB-03 90000'00" 64001'03" 89.50' 89.50' 140.59' HB-04 90000'00" 64001'03" 89.50' 89.50' 140.59' WR-02 90"00'00" 114035'30" 50.00' 50.00' 78.54' WR-03 90000-00" 114035'30" 50.00' 50.00' 78.54' J_C m N 7,250 Z30 M -C-1 7 � ■ I;U,R�/ I 7 10 1.5k PT ROAD H (C RV� N ,99 .54 W11,57 .93 EL 804.b8 (S OT c � o PIPES PPO T t (BY OTHE S) (Y ) (C RVAP NO �� N6ki' 0 0 LO 17 PT ROAD H -02' ' VE NO AB-01 N 7,197.55 ?g PE MA E T S TTLEM NT E 80 OOg SU VEY VIONUMEN l-- EE OT T T=60 ' N ,16 .88 N 7 1 2 3 OTI CONCRETE -- - - -- '' -- -- \ /CGURB (TYP) END RAMP \ ?g (SEE NOTE 1) �C/ ' ' HB-01 N N 7 060.5 ^°� W 1,452.64 \ EL 785.00 SEE REFERENCE \\ DWGS FOR EXISTING BADE(SEE \ m o o/ �9 12 RPT = 80.00' N 7,097.80 W 1,183.88 o END DOUBLE G SIDED GUARDRAIL V 003 (SEE NOTE 6) C,R•E N 7,042.18 W 1,075.60 PT ROAD H B-02 (CURVE NO HB- 4) N 7,040.22 1,079.32 EL 804.08 0 1 M14 11, INU 7 o END 4' F o N 7,392:: s i GIN / � 79 ?g FENCE DEMO 9 N 7,369 .99 W 1,030.62 BEGIN 4' FBD BO N 7,361.89 W 908.71 ST-1 L 792.55 (SEE NOTE 3) PI ROAD HB-02 N 7,291.96 (CURVE NO HB-01) W 863.63 ♦ g0 14 ,N 7,219.2 EL 801.17 W�,2g ,124 1 f PI FENCE 8.32 7,257.39 N 7,281.07 8 0 W 1� 18.E W 866.52 W 1,002.13 /EL 80400 EL 802.00 B0 PI FENCE N 7,233.16 �N 7,286.16 W 1,099.15 W 846.66 EL 803.00 CL 40' MOTO IZE -SLIDINGGATE (SEE NOTE 4) PC ROAD HB-02 `�' N 7,210.46 N 7,243.8 (CURVE NO HB-01) W 990.41 W 856.97 N 7 132.39 ° E L 802.00 g02 W 1,102.33 SLp END ROAD H B-0 EL 804.08 N 7,245.26 - 7,118.3 12 BEGIN DOUBLE o SIDED GUARDRAIL a' r W 851.64 W 896.40 (SEE NOTE 6) 'o � $0_00- EL 803.00 N 7,110.26 PI FENCE �' 46 N 7 145 94 W 1,092.59 0� ' 1(V 810.66 N 7,137.53 N 77137.76 W 823.99 W 1,07, .33 80 4 EL 8 2.94 EL 803.00 o N 7,975.11 Q PI F _N E N 7,149.85 2 W 1 P059.69 49 _ W 830.52 51 48 1 47 ? gz� 34 \SLP = 10.75%- " �- 5 `Ao At 0°j° oo� \8 \100POR pop IF IF 0-1,00 IRON 1 36 TRENCH F 25 w 1, 32.U6 \ W 418.4 E 80 08� EL 8-7.78� ? \ 40 g 9 ?g 452.83 E EN 4" 1 E L 752 BEGIN ROAD WR-02 - 785 N 68 9 Pp = 33 0' , / \ BEGIN RAMP N 6,808.91I; W 1,456.0 N 6 76 .9 WR-02 W 1,165.09 ?g RPT = 37�50 INVT EL 783. 2 W 1,376. 7 N 6,715.29 EL 792.36 N 6,801.3 ` 78 •• s� /EL 792. 0� / W 1,123.75 �, W 894.07 \\ \\ EL 792.00 ?$ 775 6 V- I 3 PC ROAD WR-01 - -- '' -` \ `` RPT = 37.50' (CURVE NO WR-03) ,, N 6,787.96 N 6,763.37 \ \?g2 \ I I - ?g � � W 947.54 ` 77 EL \ 1 6� W 1,347.49 \ ?g `; RPT = 37.50' `; �� BEGIN BER 1 \ 1 EL 792.36 1 N 6,766.16 76 �� V N �_ 3 ?$5 N ; W 1,034.86 \ W 999.45 RPT = 37.50' `` N N o �` �` EL 792.08 I` �� 15 N 6,752.81 ` AP. 'Qt \ N �; W 1,088.32 V R 03 7 .75 ® ECTION 37 RPT = 4.00' \ GR•E \ ySA - 38 \ ` N 6,709.05 W FOR CONTINUATION 12 CONCRETE SEE iWi L-003 \� W 1,128� � CURBP�(SEE�TF� NOTES: MATCHLINE N 6,683.08 - SEE DWG BLC00-CV-C-GR.PL-003 1. SEE DWG BLC00-CV-C-GR.SD-003 FOR TYPICAL BASIN 4. SEE DWG BLC00-CV-C-GR.SD-002 FOR FENCING DETAILS. 7. SEE DWG BLC00-CV-C-GR.SD-002 FOR PERMANENT ©9. NOT USED 12. SEE DWG BLC00-CV-C-GR.SD-005 FOR BASIN PIPE SECTIONS AND DETAILS. SETTLEMENT SURVEY MONUMENT INSPECTION FRAME AND PENETRATION DETAIL. 5. PROVIDE FENCING WHERE TREELINE DOES NOT PROVIDE LID DETAIL. 2. SEE DWG BLCOO-CV-C-GR.SD-004 FOR TRENCH SCHEDULE, A NATURAL BARRIER. 10. SEE STRUCTURAL DWG BLC00-CD-K-YM.00.PL-010. LOCATION, AND DETAIL. 8. SEE MECHANICAL ISOMETRIC BLC00-IS-P-WY.20010 FOR 6. SEE DWG BLC00-CV-C-GR.SD-002 FOR TYPICAL SINGLE AND CAUSTIC PIPE ROUTE. 11. PHASE 1 WILL PROVIDE AN ELEVATION OF 788.33' FOR THE 3. SEE DWG BLC00-CV-C-GR.SD-004 FOR CULVERT SCHEDULE. DOUBLE SIDEDGUARDRAIL DETAIL. BOTTOM OF THE HOLDING BASIN. E 04/04/17 WEG BL ISSUED FOR PERMITTING STATE PLANE NORTH D 03/08/17 WEG BL ISSUED FOR PERMITTING PLANT GRID Angle (39' 59' 56.753460") NORTH C 11/18/16 WEG BL ISSUED FOR PERMITTING H 07/11/17 TMP BL ISSUED FOR PERMITTING 0 30' 60' B 11/04/16 TMP BL ISSUED FOR REVIEW G 06/29/17 WEG BL ISSUED FOR PERMITTING NORTH SCALE IN FEET A 09/19/16 TMP BL ISSUED FOR REVIEW F 04/11/17 WEG BL ISSUED FOR PERMITTING no. I date I by I ckd I description no. date by ckd description Z:\Clients\ENR\DukeEnr\WtrRedirProg\88673_BelewsCreek\Design\Civil\Dwgs\Contract\Dam Permit\BLC00-CV-C-GR.PL-002.dgn 4 5 6 7 8 i i I I I 9 :INTO �� o IST � NC ti D FEC E O KEY NOTES: ',381.22 1 RPT = 10.00' 15 RPT = 37.50' 35 BEGIN 45' ROAD 71.06 O N 6,727.16 O N 7,038.32 N 6,890.84 �/ 1 191.06 ' > E DWG 00- V-C-GR.AL-5�7 W 1,041.08 W 1,044.40 �R RETE �I�iv BASIN UTFALL 16 BEGIN 4" PIPE EL 802.97 PLAN AND P`kO IL 2 RPT = 10.00 O N 6,884.75 O N 6,906.59 W 1,018.55 36 END 45' ROAD O W 978.02 INVT EL 787.67 N 6,850,74 W 997.57 ORPT = 3.25' 17 450 BEND 4" PIPE EL 792.35 N 7,020.32 N 6,883.78 W 1,066.12 W 1,022.43 37 N 6,712.07 INVT EL 787.58 W 1,253.77 O RPT = 16.50' 55 N 7 070.64 18 45° BEND 4" PIPE 38 N 6,707.47 W 1,012.27 N ,027. 010 1 W 027.W 1,272.21 O5 RPT = 15.00' INVT EL 787.37 39 N 6,826.69 N 7,043.27 19 PVI 4" PIPE W 1,015.96 BEGIN ROAD W 1,004.11 N 6,849.13 O H B-01 W 1,134.74 40 N 6, 832.51 6 RPT = 15.00 W 992.67 13 N 7,2 9. 4 N 7,012.71 INVT EL 784.88 W 79 .4 W 989.85 20 TRENCH D 41 N 6,945.82 L 800.83 (SEE NOTE 2 W 1,161.23 O7 RPT = 18.00' AND 10) N 7,045.40 21 N 7,042.65 42 N 6,948.40 W 902.75 W 1,051.58 W 1,150.88 7, 1 .13 Og RPT = 17.00' EL 803.00 43 N 7,153.84 ♦♦ 782.36 N 6,976.96 22 TRENCH B W 1,100.12 L 801 0 W 886.43 (SEE NOTE 2) 44 N 7,173.41 O9 RPT = 30.00' 23 PC V-DITCH 2 W 1,117.25 N 7,047.10 N 6,888.74 W 842.76 W 822.56 45 N 7,163.88 32 EL 789.61 W 970.57 10 RPT = 20.00' EL 803.00 co 11 N 6,968.44 24 PI V-DITCH 2 R = 52.53' 46 N 7,178.40 W 825.03 N 6,939.72 W 912.35 \ 11 RPT = 45.00' W 834.80 EL 803.00 N 7,193.10 25 PT V-DITCH 2 47 N 7,131.90 W 823.56 N 6,927.43 O W 885.99 W 916.94 12 RPT = 20.00' EL 789.37 N 7,218.10 48 N 7,110.77 W 824.03 26 END V-DITCH 2 W 996.18 co N 6,905.82 0 13 RPT = 20.00' W 975.94 49 N 7,123.35 EL 789.09 W 945.72 N 7,282.44 31 W 840.54 27 BEGIN V-DITCH 3 N 6,881.23 50 N 7,126.58 14 RPT = 45.00' W 1,078.56 W 938.28 N 7,304.47 EL 788.76 51 N 7,104.13 W 852.47 ?9? 28 BEGIN 30' FBD W 1,056.45 $0 N 7,056.03 W 1,008.84 52 N 7,120.62 EL 797.50 W 1,060.56 g0 _ 0 29 BEGIN 20' FBD 53 BEGIN 36" DUCTILE SL - 0.5 /° IRON PIPE N 7,021.51 N 6,948.08 W 870.93 1,156.29 W�o o EL 802.00 INVT EL 796.23 33 0 30 END 20' FBD 54 NOT USED 29 N 6,957.08 W 854.84 EL 799.34 31 PI 4' FBD 30 N 7,113.72 55 RPT = 16.65 N 7,306.58 W 777.76 10 EL 796.31 W 825.55 EL 800.00 2 cA o 32 END 4' FBD 56 RPT = 45.00' w SLP = .0% N 7,203.07 O W 805.63 N 6,876.10 EL 793.50 W 873.17 33 BEGIN 20' FBD 57 N 7,120.93 23 B GIN 4 B N 7,026.33 0 053 W 947.18 \ N 6,90 .8 EL 802.00 ©58 36" DUCTILE IRON PIPE `Ao cAo� W71.5 EL 80 .0 34 END 20' FBD N 7,071.46 59 PIPE CONTINUATION \ W 883.32 ABOVE GROUND E - 797.00 \ 60 PIPE CONTINUATION AREA C� x I••IOL U I BELOW GROUND STATE DOT TI PERMIT IS OBTA N D �. 3:1 LP (TYP) 61 END 4" HDPE PIPE I O2 AD WR-01 (SEE NOTES 8 AND 12) (C�I�RVE NO WR-02) N 6,811.13 N 6 88 .73 W 953.00 W 45.�0 INVT EL 789.40 PC OAP WR-01 o (C�UF�VE NO WR-02 o cs N , 840.2 --� W 833.29 tO EL 792.15 END SIDE�ING GUARDRAIL (SEE NOTE N 6,798 23 BEGI MP t���N�llel�le�r�a \ W 823.8 W R-01 �.���f•, N 6,784. 4 W 845.17 �9L 792.00 EAL u a \ RPT = 4.00' 0231-79 �,781.48 \0' 38.21 3 8 m J_C FCC F-D� .yoil N 6,784.2 8920o Jul 13 2017 7:26:54 TITLE WATER REDIRECTION PROGRAM F WATER RETENTION BASIN PRELIMINARY - NOT GRADING AND DRAINAGE PLAN SHEET 1 FOR CONSTRUCTION FOR BELEWS CREEK STEAM STATION U1 &2 BURNS SCALE: 1" = 30' CON: 5.8120 N&MMONNELL -fit DUKE DWG TYPE: CVL DFTR: SKN ENERGY® JOB NO: 88673 CHKD: BL 9400 WARD PARKWAY KANSAS CITY, MO 64114 STOKES COUNTY, NC DATE: 08/03/16 ENGR: TMP 816-333-9400 FILENAME: BLC00-CV-C-GR.PL-002.dgn APPD: WEG FIRM LICENSE NO. C-1435 DWG SIZE DRAWING NO. REVISION ARCH E1 30.0"x42.0" �+- BLC00-CVC-GR.PL-OO2 H 9 1 11/2017 sknichols 8:44:07 AM I I -C-1 -E-1 PURM�MONUM� a T. Nssr"e:za 31 N6 3 N BEGIN .� N SPILLWAY m N 6 653.70 W 1,371.65 - Z Z EL 792.00 �G oZ N RETENTION BASI EMERGENCY SPILLWAY (SEE NOTE 2) \\ END SPILLWAY N 6,579.96 \\ W 1,353.24 EL 792.00 i T Y 15 rn � o CO -� c9 N (_0 N Q \ END BERM 2 PI ROAD WR-02 N 6,315.05 W 1,041.79 EL 792.08 \ /7785uo 00 LO -� \ VJ \ \ 5 6 MATCHLINE N 6 683.08 -SEE DWG BLC00-CV-C-GR.PL-002 ` O ` Z\ \ -4 cA \ \1_0 \ \ ` p N do 0 o \ \ END AMP WR-0? \ , \ N 6,512.25 `15 \W 1,039.05 EL 781.00 \ \ \ \ � P CONCRETE ` CUR (TYP) \ \\ RPT = 37.50' N 6,386.81 \` W 940.15 RPT = 37.50' N 6,369.61 `\ `\ W 1,009.03 \ 12� EmD RAMP W R-01 N 6,565.82 W 824.50 _ EL 781.00 \ CONCRETE CURB (TYP) \ \ \ \ \ RPT = 37.50' N 6,425.81 W 783.94 \ RPT = 37.50' N 6,408.61 \ W 852.83 7- a \ W 792 19 79 78 78 END BERM 1 \ PI BERM N 6,354.05 W 885.59 N 6,293.55 EL 792.08 RPT = 37.50' W 940.06 N 6,338.49 \ N 6,287.25 N 6,326.25 \/\/ 762.14 W 965.28 W 809.08 RPT = 37.50' N 6,332.55 N 6,282.29 W 783.85 W 987.23 77B.5 7 80 SEE REFERENCE DWGS FOR EXISTING GRADE i /,7785/ i v O Qv o \o N A do c9 N 6,000 C Rm GR.Ev ,00 Z N o AGO r��Z Zy o \ NOTES: 1. SEE DWG BLC00-CV-C-GR.SD-003 FOR TYPICAL BASIN SECTIONS AND DETAILS. 4. PROTECT BURIED PORTION OF TWO EXIST 12" HDPE PIPES AND TRIM REMAINED EXPOSED PIPES AS NEED TO BE FLUSH WITH 2. SEE DWG BLC00-CV-C-GR.SD-004 FOR RETENTION BASIN EMERGENCY SPILLWAY DETAIL. SURFACE. 3. SEE DWG BLC00-CV-C-GR.SD-002 FOR PERMANENT SETTLEMENT SURVEY MONUMENT 5. SEE DWG BLC00-CV-C-PA.PL-002 FOR PIPE OUTLET PROTECTION. INSPECTION FRAME AND LID DETAIL. D 03/08/17 WEG BL ISSUED FOR PERMITTING C 11/18/16 WEG BL ISSUED FOR PERMITTING B 11/04/16 TMP BL ISSUED FOR REVIEW A 09/19/16 TMP BL ISSUED FOR REVIEW no. I date I by I ckd I description no. date by ckd description Z:\Clients\ENR\DukeEnr\WtrRedirProg\88673_BelewsCreek\Design\Civil\Dwgs\Contract\Dam Perm1t\BLC00-CV-C-GR.PL-003.dgn 4 5 \ LINE N 5,948.73 - B L C00-CV-C-G R. P L-004 STATE PLANE NORTH Angle (39' 59' 56.753460") EC�IN �_-D D\JTCH 1 !N TCH 2 ,4 88? I 4.45 \ \PA� W -0 6,3 0\6 / 79 1q -o Z m I r O 0 PLANT GRID NORTH 0 30' 60' SCALE IN FEET I a i \ Q0 P\ \ E \ CE o N 6 14 .00 L' \A/ GG7 A I1 EXIST 15" HDPE N �T 1 "HDPE L O &5 NC ,0$7. 8 ■ J_C ■ d c9 I C �D� SEAL 0231-79 Mar 10 2017 10:42:18 TITLE WATER REDIRECTION PROGRAM F WATER RETENTION BASIN PRELIMINARY - NOT GRADING AND DRAINAGE PLAN FOR CONSTRUCTION SHEET 2 FOR BELEWS CREEK STEAM STATION U1 &2 BURNS SCALE: 1" = 30' CON: 5.8120 N&MMONNELL DUKE DWG TYPE: CVL DFTR: SKN E N E RGY® JOB NO: 88673 CHKD: BL 9400 WARD PARKWAY KANSAS CITY, MO 64114 STOKES COUNTY, NC DATE: 03/30/16 ENGR: TMP 816-333-9400 FILENAME: BLC00-CV-C-GR.PL-003.dgn APPD: WEG FIRM LICENSE NO. C-1435 DWG SIZE DRAWING NO. REVISION ARCH E1 30.0"x42.0" - BLC00-CVC-GR.PL-003 D 9 1 8/2017 sknichols 2:17:43 PM I I I I I I 1 1 2 3 4 5 6 7 I MATCHLINE N 5 948.73 - SEE DWG BLCOO-CV-C-GR.PL-003 mi CURVE DATA NO. DELTA DEGREE RADIUS TANGENT LENGTH WR-01 39043'04" 127019'26" 45.00' 16.25' 31.19' WR-04 90000'00" 125055'29" 45.50' 45.50' 71.47' WR-05 17030'02" 163042'08" 35.00' 5.39' 10.69' WR-06 17030'02" 163042'08" 35.00' 5.39' 10.69' WR-07 17030'02" 163042'08" 35.00' 5.39' 10.69' WR-08 17030'02" 163042'08" 35.00' 5.39' 10.69' KEY NOTES: BEGIN FENCE DEMO N 5,580.75 W 402.06 -A- PI FENCE DEMO N 5,467.98 W 414.52 END FENCE DEMO 6 N 5,428.79 W 387.16 END FENCE DEMO TIE INTO EXIST FENCE (SEE NOTE 5) N 5,398.43 W 437.61 N 5,750 -C-1 -E-1 N 5,500 0 C:, LO 0 `11 60 0 C, -A mw* LO \�NT N Mg U ('0 W6f M Rio] PC ROAD WR-91 (CURVE NO WR-04 N 5,392.45 W 1,056.76 EL 792.08 PI ROAD WR-01 (CURVE NO WR-04) DETAIL 6 0 10, 20' NOTES: KL�7 SCALE IN FEET 1. SEE DWG BLCOO-CV-C-GR.SD-003 FOR TYPICAL BASIN SECTIONS AND 4. SEE DWG BLCOO-CV-C-GR.SD-002 FOR PERMANENT SETTLEMENT DETAILS. SURVEY MONUMENT INSPECTION FRAME AND LID DETAIL. 2. SEE DWG BLCOO-CV-C-GR.SD-004 FOR CULVERT SCHEDULE. 5. SEE DWG BLCOO-CV-C-GR.SD-002 FOR GATE AND FENCING DETAILS. 3. SEE DWG BLCOO-CV-C-GR.SD-002 FOR TYPICAL SINGLE SIDED 6. SEE DWG BLCOO-CV-C-GR.SD-001 FOR CASING PIPE DETAIL. GUARDRAIL DETAIL. E 06/29/17 WEG BL ISSUED FOR PERMITTING D 03/08/17 WEG BL ISSUED FOR PERMITTING C 11/18/16 WEG BL ISSUED FOR PERMITTING B 11/04/16 TMP BL ISSUED FOR REVIEW A 09/19/16 TMP BL ISSUED FOR REVIEW no. I date lbylckdl description no.1 date lbylckdl Z: \Clients\ E NR \DukeE nr \Wtr Redir Pr og \886 73- BelewsCr eek \Design\Civil\ Dwgs\Con tr act \Dam Permit\BLCOO-CV-C-GR.PL-004.dgn 4 I CP do n--\a -!-a\\ LO do _:�l _0 "0-) 00 Lr BEGIN SINGLL SIDED GUAR RAIL N 5,841.48 W 932.32 RPT = 45.00' N 5,812.95 W 970.55 RPT 45.00' N 5,754.75 W 901.90 00 CP C-0 do 0M."PIOR-0 WIN T R AD R 0 W �0 1 (C U RVE N 0 V R-0�4) N 5 , 359. 32 W 1,001.59 EL 792.08 BEGIN ROAD WR-03\ N 5,366.47 W 1,039.10 EL 792.08----- END SINGLE SIDED GUARDRAIL N 5,845.60 W 915.83 RPT = 45.00' N 5,838.39 W 868.68 END ROAD WR-02 N 5,711.09 W 891.00 EL 792.00 SEE REFERENCE DWGS FOR EXISTING GRADE C. ww 001" STATE PLANE NORTH Angle (39' 59'56.753460") - - - - - - - - PLANT GRID NORTH 0 30' 60' SCALE IN FEET LQ r) VIV vvvvv BEGIN SINGLE SIDED GUARDRAIL N 5,545.44 W 526.53 END SINGLE RPT = 38.00' SIDED GUARDRAIL N 5,517.07 N 5,476.33 - W 568.02 W 557.58 description 5 6 7 8 I I I I 10 co 010 �0 C 1: 3:1 LP P �3 -RPT -45. 0 N 5,�216C 'vV 527�3-8 S "3 EN 'Q-T-E -- i��, Pi ROAD TR-01,,, -VE N WR-01 (CUR R -N�5,479,0--l' I 3. 5 1 3) VV.463 ROA[) W \1 (P\�Ty k V E N6 Ui� 0 1 N ' P,A ' W 497.48 E 7 9�.. �51 �DIT �11 .4� \k 47'4 1 9 EL 788.14 U END RO D R- N 5,486\.92 W 494.i\i L7 7 RPT 45.90. N 5,522.5� 442.47 RIPT = 16.0 495.48 52.91 OAD W 1 U ENO R-0 �,4,6b,79- 8 .4 L 9 .71 RPT .00, N 4 W 387. PI FENC N 5,4 4. W 389.19 64 BEGfN'RqA W 4,0, 1' .\ �\ V �IiL 7 4.� 1-1 CL Ul "-,Sw (�;E N,5 W 41 0'1�q E -01 [Al E C R-1 V D AA 4L .01 V::L/ A- 444 E;0% off 01 Jun 29 2017 15:04:36 TITLE WATER REDIRECTION PROGRAM F- WATER RETENTION BASIN PRELIMINARY - NOT GRADING AND DRAINAGE PLAN FOR CONSTRUCTION SHEET3 *4*k* B U R N S N&MEDONNELL 9400 WARD PARKWAY KANSAS CITY, MO 64114 816-333-9400 FIRM LICENSE NO. C-1435 FOR BELEWS CREEK STEAM STATION U1&2 DUKE rl 110%%/ ENEM%.7 10 STOKES COUNTY, NC SCALE: 1 30' CON: 5.8120 DWG TYPE: CVL DFTR-. SKN JOB NO'. 88673 CHKD-. BL DATE: 08/03/16 ENGR'. TMP FILENAME: BLCOO-CV-C-GR.PL-004.dgn APPD: WEG DWG SIZE DRAWING NO. REVISION ARCH El 30.0"x42.0" BLCOO-CV-C-GR.PL-004 E 9 I 1 29/2017 sknichols 11:23:34 AM I ON �—C �—D �—E T 2 T 3 1. SEE DWG BLC00-CV-C-GR.SD-003 FOR TYPICAL BERM SECTION PRIMARY/HOLDING BASIN AND TYPICAL BERM SECTION SECONDARY BASIN. 2. SEE DWG BLC00-CV-C-PA.PL-004 FOR CONCRETE PAVING JOINTING PLAN. 3. SEE DWG BLC00-CV-C-PA.PL-005 FOR CONCRETE PAVING JOINTING PLAN. D 103/08/171 WEGI BL I ISSUED FOR PERMITTING C 111/18/161 WEGI BL I ISSUED FOR PERMITTING B 111/04/16I TMP I BL I ISSUED FOR REVIEW A �09/19/16�TMP� BL ISSUED FOR REVIEW no. I date I by I ckd I description Z:\Clients\ENR\DukeEnr\WtrRedirProg\88673_BelewsCreek\Design\Civil\Dwgs\Contract\Dam Permit\BLC00-CV-C-PA.PL-001.dgn T 4 T 5 4. ALL AREAS THAT ARE DISTURBED BY CONSTRUCTION AND NOT SHOWN TO BE SURFACED SHALL BE SEEDED. no. I date I by I ckd I description T 6 5"ASPHALT D D D . 8" CONCRETE D D D STATE PLANE NORTH Angle (39' 59' 56.753460") T 7 !�'I �w-;- 4 5 6 7 1 1 1 6" CRUSHED ROCK PLANT GRID NORTH 0 30' 60' SCALE IN FEET I 6" TOPSOIL AND SEEDING T 9 11111111111111111111121 PRELIMINARY - NOT FOR CONSTRUCTION FOR WATER REDIRECTION PROGRAM WATER RETENTION BASIN SURFACING PLAN SHEET 1 I BELEWS CREEK STEAM STATION U1&2 BURNS SCALE: 1" = 30' CON: 5.8120 WISDONNELL DUKE DWG TYPE: CVL DFTR: SKN E N E RGY® JOB NO: 88673 CHKD: BL 9400 WARD PARKWAY KANSAS CITY, MO 64114 STOKES COUNTY, NC DATE: 08/03/16 ENGR: TMP 816-333-9400 FILENAME: BLC00-CV-C-PA.PL-001.dgn APPD: WEG FIRM LICENSE NO. C-1435 DWG SIZE DRAWING NO. REVISION ARCH El BLC00-CV-C-PA.PL-001 D 9 1b8/2017 jmbrunkhor!2t22:16 PM I I FC C--� D--� F--� ■ —C� —E� 2 3 4 N 5,750 N 5,500 0 N 5,250 S.EE NOTE 0 0 LIMITS OF 6" CRUSHED ROCKJ c —LIMITS OF 15" RIPRAP/ 6" CRUSHED ROCK /,--- LIMITS OF 15" RIPRAP/ 6" CRUSHED ROCK (EL 781') \ \ 0 CO 00 c0 N 00 \ \—ice Nv NOTES: 1. SEE DWG BLC00-CV-C-GR.SD-003 FOR TYPICAL BERM SECTION SECONDARY BASIN. 4. SEE DWG BLC00-CV-C-GR.SD-001 FOR TYPICAL CONCRETE PAVEMENT DETAILS. 2. ALL AREAS THAT ARE DISTURBED BY CONSTRUCTION AND NOT SHOWN TO BE SURFACED 5. SEE DWG BLC�00-CV�-C-GRSD�-003FOR TYPICAL SPLASHPAD DETAIL. SHALL BE SEEDED. 3. SEE DWG BLC00-CV-C-GR.SD-001 FOR TYPICAL RIPRAP V-DITCH DETAIL. E 06/29/17 WEG BL ISSUED FOR PERMITTING D 03/08/17 WEG BL ISSUED FOR PERMITTING C 11/18/16 WEG BL ISSUED FOR PERMITTING B 11/04/16 TMP BL ISSUED FOR REVIEW A 09/19/16 TMP BL ISSUED FOR REVIEW no. I date I by I ckd I description no.1 date lbylckdl description Z:\Clients\ENR\DukeEnr\WtrRedirProg\88673_BelewsCreek\Design\Civil\Dwgs\Contract\Dam Permit\BLC00-CV-C-PA.PL-003.dgn 4 5 H LIMITS OF 15" RIPRAP/ 6" CRUSHED ROCK LIMITS OF 15" RIPRAP/ 6" CRUSHED ROCK (EL 781') CP LIMITS OF 8" CONCRETE N 5,482.77 W 690.66 LIMITS OF 8" CONCRETE N 5,480.35 W 700.37 SAW JOINT / 15' X 15' (TYP) ( EE NOTE 4) 8 LEGEND 6" CRUSHED ROCK 15" RIPRAP QCI 6" TOPSOIL AND 8" CONCRETE SEEDING SAW JOINT STATE PLANE NORTH Angle (39' 59' 56.753460") k-�IMITS OF 8" CONCRETE N 5,437.58 W 689.69 LIMITS OF 8" CONCRETE N 5,440.00 �W 679.99 PLANT GRID NORTH 0 30' 60' SCALE IN FEET 15" �lPf N 5, 11. W 616,7 6 7 8 I I I :7 q 1 LIMIT OF 1 r5" �I RAP S F 6" Ry' 'ED RO I O 1Top.. P I II E T 3 I.1 Q A vwv - SM T 0231-79 :+ w . A&V � �* Jun 29 2017 15:09:01 [Al FCC TITLE WATER REDIRECTION PROGRAM F WATER RETENTION BASIN PRELIMINARY - NOT SURFACING PLAN FOR CONSTRUCTION SHEET 3 Nv NOTES: 1. SEE DWG BLC00-CV-C-GR.SD-003 FOR TYPICAL BERM SECTION SECONDARY BASIN. 4. SEE DWG BLC00-CV-C-GR.SD-001 FOR TYPICAL CONCRETE PAVEMENT DETAILS. 2. ALL AREAS THAT ARE DISTURBED BY CONSTRUCTION AND NOT SHOWN TO BE SURFACED 5. SEE DWG BLC�00-CV�-C-GRSD�-003FOR TYPICAL SPLASHPAD DETAIL. SHALL BE SEEDED. 3. SEE DWG BLC00-CV-C-GR.SD-001 FOR TYPICAL RIPRAP V-DITCH DETAIL. E 06/29/17 WEG BL ISSUED FOR PERMITTING D 03/08/17 WEG BL ISSUED FOR PERMITTING C 11/18/16 WEG BL ISSUED FOR PERMITTING B 11/04/16 TMP BL ISSUED FOR REVIEW A 09/19/16 TMP BL ISSUED FOR REVIEW no. I date I by I ckd I description no.1 date lbylckdl description Z:\Clients\ENR\DukeEnr\WtrRedirProg\88673_BelewsCreek\Design\Civil\Dwgs\Contract\Dam Permit\BLC00-CV-C-PA.PL-003.dgn 4 5 H LIMITS OF 15" RIPRAP/ 6" CRUSHED ROCK LIMITS OF 15" RIPRAP/ 6" CRUSHED ROCK (EL 781') CP LIMITS OF 8" CONCRETE N 5,482.77 W 690.66 LIMITS OF 8" CONCRETE N 5,480.35 W 700.37 SAW JOINT / 15' X 15' (TYP) ( EE NOTE 4) 8 LEGEND 6" CRUSHED ROCK 15" RIPRAP QCI 6" TOPSOIL AND 8" CONCRETE SEEDING SAW JOINT STATE PLANE NORTH Angle (39' 59' 56.753460") k-�IMITS OF 8" CONCRETE N 5,437.58 W 689.69 LIMITS OF 8" CONCRETE N 5,440.00 �W 679.99 PLANT GRID NORTH 0 30' 60' SCALE IN FEET 15" �lPf N 5, 11. W 616,7 6 7 8 I I I :7 q 1 LIMIT OF 1 r5" �I RAP S F 6" Ry' 'ED RO I O 1Top.. P I II E T 3 I.1 Q A vwv - SM T 0231-79 :+ w . A&V � �* Jun 29 2017 15:09:01 [Al FCC TITLE WATER REDIRECTION PROGRAM F WATER RETENTION BASIN PRELIMINARY - NOT SURFACING PLAN FOR CONSTRUCTION SHEET 3 B U R N S N&MEDONNELL 9400 WARD PARKWAY KANSAS CITY, MO 64114 816-333-9400 FIRM LICENSE NO. C-1435 FOR BELEWS CREEK STEAM STATION U1 &2 DUKE ENERGY® STOKES COUNTY, NC SCALE: 1"= 30' CON: 5.8120 DWG TYPE: CVL DFTR: SKN JOB NO: 88673 CHKD: BL DATE: 08/03/16 ENGR: TMP FILENAME: BLC00-CV-C-PA.PL-003.dgn APPD: WEG DWG SIZE DRAWING NO. REVISION ARCH E1 30.0"x42.0" BLCOO-CV-C-PA.PL-003 E g I 1 29/2017 sknichols 11:48:16 AM I N 7,250 1 1 2 3 4 5 6 7 0 0 In q —C-1 -E-1 N 7, 7 CONCR�T€ C RB (TYP) 8p (SEE NO E 2 A 10 rod 8p4 1� 8p3 D� DOELED CON RA TION JOINT 60' X 60' (TYP) (SEE' OTE 1) 79 �cbh 1� END CONCRETE URB N 7,�67.60 URB CRE E 1� W 1,15�.73 O 7,0514 �� 7g N� OI 5 96N RE CU B B W 1,448. O 1� -�_ RPT=-21.00' �\ ,152. 2 `b END CONCRETE C B m BEGIN�NCR TE �� TETHER LOCATION N 7,097.82 - w N 7 028.18 8 URB SEE NOT 3 -- W 1,183.89 - o ' 7 0 6.8 78 N 7,107,0 - - \ w W 1.145. .� W 1,229.65 / -`+- -- - SAW JOINT 15' X`15' (TYP) 1 (SEE NOTE 1) -A -- Xx - +- 1 5 5, 15 %RPT = 21.00'------ 8p5 - --� - ; - 15, 1 :'_.-- N 7,018.54 - 15, W 1,166.1Q - - - o C RPT = 41.00'--- 15, , r - '- CP- -N 7 021.06 5 -' -- 15' 1 -_ - TTETHER LOCATIO W 1,465.69 15' SEE NOTE 3 15 _ N .6,--87.4T" - 0 15It -� -- 15' _ \w 15` wIt cr_ OD _ ---� , w o ` RPT - 21.00' -, r - p� w w N 6,943.45 --�8/ \ W 1,466.92-';--- -� BE N CO CRET B 8p� N 7,0 3.93 o W 1,149.77 D -t - 7 80 :+---TA - 7 NOTES: 1. SEE DWG BLC00-CV-C-GR.SD-001 FOR TYPICAL CONCRETE PAVEMENT DETAILS. 2. SEE DWG BLC00-CV-C-GR.SD-003 FOR TYPICAL CONCRETE CURB DETAIL. 3. SEE DWG BLC00-CV-C-GR.SD-003 FOR TYPICAL TETHER DETAIL. D 103/08/171 WEGI BL I ISSUED FOR PERMITTING C 11/18/16 WEG BL ISSUED FOR PERMITTING B 11/04/16 TMP BL ISSUED FOR REVIEW A 09/19/16 TMP BL ISSUED FOR REVIEW no. I date I by I ckd I description LEGEND ------- SAW JOINT DOWELED CONTRACTION JOINT THICKENED EDGE 79 5- S 00 x 7g5 y 9 � 7g2 STATE PLANE NORTH Angle (39' 59' 56.753460") PLANT GRID NORTH 0 20' 40' SCALE IN FEET 7 v' / SEA 0231-79 ��III �• ►kti� PRELIMINARY - NOT FOR CONSTRUCTION BURNS N&MEDONNELL 9400 WARD PARKWAY KANSAS CITY, MO 64114 816-333-9400 FIRM LICENSE NO. C-1435 no. I date I by I ckd I description 4 5 6 7 8 9 i i I I I I f . !l1#111;10N, - Mar 10 2017 10:44:51 TITLE WATER REDIRECTION PROGRAM F WATER RETENTION BASIN CONCRETE PAVEMENT JOINTING PLAN SHEET 1 FOR BELEWS CREEK STEAM STATION U1 &2 DUKE DWG TYPE: CVL DO R: 5SKN0 ENEnmkfl'7'* YO JOB NO: 88673 CHKD: BL STOKES COUNTY, NC DATE: 08/26/16 ENGR: TMP FILENAME: BLC00-CV-C-PA.PL-004.dgn APPD: WEG DWG SIZE DRAWING NO. REVISION ARCH E1 30.0"X42.0" BLC00-CV-C-PA.PL-004 D Z:\Clients\ENR\DukeEnr\WtrRedirProg\88673_BelewsCreek\Design\Civil\Dwgs\Contract\Dam Permit\BLC00-CV-C-PA.PL-004.dgn 1b/8/2017 sknichols 2:30:05 PM I I I I I 1 1 2 3 4 5 6 7 IJ_1 I �C �D �E 7g W 1,000 j W 750 0 0 LO o N LO CO CO ZI Z BEGIN CYRB N 0,37 END CUR[ N 6,3 W 9& 0 LO ti [(i 1 BEGIN CONCRETE 5 CURBco N 6,515.74 15 �$ W 1,03 .68 END NCR 1 / - 5' 15 CU�co N 509.69 _ 15 W 1,045.55 5 / 15, \ -- 1 5' 5' 1 - - 0000 15, � 15, - /�ICRET = - _ 5, 111 N 6,760.8 1,031. 7 15 \ 151v A,/ ' 785 END CONCRET URB�/ N 6,7 _ .87 947.5 ,� 7g > E 7g2 DOWELED CONTRACTION JOINT 60' X 60' (TYP) (SEE NOTE 1) SAW JOINT 15' X 15' (TYP) (SEE NOTE 1) CONCRETE CURB (TYP) (SEE NOTE 2) END CONCRETE CURB N 6,765.66 W 1,043.05 v�0 79 = oa 15, 15 BEGIN CONCRETE CURB N 6,791.37 W 940.08 15 - SAW JOINT �\� N 15' - ` 15' X 15' (TYP) co `O - - 15(SEE NOTE 1) 15 1 CO CRETE CURB TYP / , 1 5, ( ) EE NOTE 2) r DOWELED CONTRACTION JOINT B GI ON E 5, 1 = 60X 60' (TYP) CVRB� - 1 - (SEE NOTE 1) N 6,412.84 15 j W 829.6 -v 15, 15 0 16 ; / — 15' 15' 10' \ \� 15, 151 11 15 N Q0 'A 15 15, - - = 15' 15' 15' 15 15 15' > 15' 15' 15' 10' �` 15 15 _ - %ENJC ONCCgETE CAB i �B / BEG CO RETE N 6,564. \ - N 7BCUR W 3.5 2 / 7� 79 EN � C � N ,566. CURB W 8 .55 N 6,41 .66 7g 7g2� NOTES: 1. SEE DWG BLC00-CV-C-GR.SD-001 FOR TYPICAL CONCRETE PAVEMENT DETAILS. 2. SEE DWG BLC00-CV-C-GR.SD-003 FOR TYPICAL CONCRETE CURB DETAIL. D 103/08/171 WEG I BL I ISSUED FOR PERMITTING C 11/18/16 WEG BL ISSUED FOR PERMITTING B 11/04/16 TMP BL ISSUED FOR REVIEW A 09/19/16 TMP BL ISSUED FOR REVIEW no. I date I by I ckd I description Z:\Clients\ENR\DukeEnr\WtrRedirProg\88673_BelewsCreek\Design\Civil\Dwgs\Contract\Dam Permit\BLC00-CV-C-PA.PL-005.dgn LEGEND ------------------- SAW JOINT DOWELED CONTRACTION JOINT THICKENED EDGE no. I date I by I ckd description 5 i ■ N M STATE PLANE Angle (39' 59' 56.753460") NORTH PLANT GRID NORTH 7 0 20' 40' SCALE IN FEET a 1 TITLE PRELIMINARY - NOT FOR CONSTRUCTION NBURNS &MSDONNELL 9400 WARD PARKWAY KANSAS CITY, MO 64114 816-333-9400 FIRM LICENSE NO. C-1435 9 1 1 1 1 1 �y a SEA 0 2 31-7 9 �oil# 11 ON, Mar 10 2017 10:45:21 WATER REDIRECTION PROGRAM WATER RETENTION BASIN CONCRETE PAVEMENT JOINTING PLAN SHEET 2 FOR BELEWS CREEK STEAM STATION U1 &2 DUKE ENERGY® STOKES COUNTY, NC 5SKNxf 0 DWG TYPE: CVL DO R: JOB NO: 88673 CHKD: BL DATE: 08/26/16 ENGR: TMP FILENAME: BLC00-CV-C-PA.PL-005.dgn APPD: WEG DWG SIZE DRAWING NO. REVISION ARCH E1 30.0"X42.0° BLC00-CV-C-PA.PL-005 D 1 8/2017 1 jmbrunkhor2t14:10 PM A� C� D� F� I I I I I I 1 1 2 3 4 5 6 7 8 9 -C I -E 830 830 1 N C) N C)O, C 1 I = o = N LL 820 820 0 QN m = a m m 0 Q00 QCO O D 1� Q� MM �o rn't U°� oo Q� "too �� Qo �ti Coco ocM�i 6" TOPSOIL AND �CO CD Q05 �M (0 0-) UM 4N LL- "tO �o LLB �o cN� �� M00 MATCH EXIST �ti r` Mr- 1� 810 SEEDING (TYP) �= Uz �w rn �o °p o O_co �� ao 00 � 00 �r- cY'� �w GRADE �` �w m 810 MATCH EXIST J r` T- J O r` ao T J O Uz EL802.00 Uz GRADE Uz �w If J �w if �w Im z EL 802.00 3 co I m z O Q-- -. ` 1 3 -- -- =� rn U M N O r` N O n ' O O H 800 �,\ 1 0~ T O. co co O CO z 800 w w CONCRETE CURB CO (N CID \`, J o J rl- m NM J Ic w BASIN LINER \N, (TYP)(SEE NOTE 3) -SYSTEM(TYP_____--- - `� U z w z w 1> (SEE NOTE 4) -- '-� - \WN I z 790 I 1' MATCH EXIST GRADE 6 CRUSHED ROCK (TYP) 790 I I EL 789.58 ,� EXIST GRADE - I PRAP 16 OZ/SY \\3 FINISH GRADE (TY GEOTEXTILE (TYP) EL 781.00 NOTE 7)780 O 12" GRANULAR --(SEE ''' .' - ANCHOR TRENCH - -- -- -- -~ MATERIAL (TYP) FINISH GRADE (TYP)(SEE NOTE 5) _ - = I I = - -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- EL 785.00 COMPACTED 8" CONCRETE (TYP) SUBGRADE (TYP) I 770 770 0 40' 80' HORIZ: SECTION A SCALE IN FEET LOOKING EAST GR.PL-002 0 10, 20' GR.PL-003 VERT: GR.PL-004 SCALE IN FEET 830 830 1 1 820 820 c� O of =1 � 810 z 0 Imo o°° 810 Q = LOo 1 Q �n r` 4 m Lf�� z1 �� Uz w o w800 z QU rn 16 OZ/SY GEOTEXTILE 800 � J 1 c` CD (SEE NOTE 7) J w uj LO w 1 L 6" TOPSOIL AND SEEDING z w MATCH EXIST GRADE 790 z 3 EL 788.00 790 =1 EXIST GRADE 1� - - --la- - -- -- -- -- -- -- -- -- -- 6" CRUSHED ROCK FINISH GRADE EL 781.00 ANCHOR TRENCH -� -- (TYP) (SEE NOTE 5) L 2i I - -i- BASIN LINER SYSTEM (TYP) 780 - - - (SEE NOTE 4) 780 11=J Lu- _ Ili t - -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -L1 L7� 15" RIPRAP 12" GRANULAR I MATERIAL (TYP) 770 770 0 40' 80, HORIZ: SECTION A SCALE IN FEET LOOKING EAST GR.PL-002 0 10, 20' GR.PL-003 VERT: GR.PL-004 SCALE IN FEET 830 830 rno MATCH EXIST ¢O GRADE X o w�co L6 � �CD o 820 0 N 0 EL815.41 o Jim U-N J w 820 m m N i _ \ U Q� moo Df ' (DO OO Sao L6q w0 m Va�o m_ NO U_ Coo �O UM U_ O 0m �� Ln N°O NO o 007 ~ � 810 �rn inrn orn �nN m OM Ln N Lf! cow 00 OLLo Lf� �� cow oco Lri� -ti r`� co Ln (D In;I-3, i0 . 810 (6i J Uz �w JO J Uz �w JO O J dCD Uz �w F-z 00 �w �z 00 r-- rl- 3: LL] Uz w Uz w 1' - ---- 16 OZ/SY `\ z 800 GEOTEXTILE (TYP) N N (DC)UCO o N COLD UM --I �' ', 800 z O (SEE NOTE 7) N No CM M o0 LL O Noo N LL , � _ _O Lvj MATCH EXIST lt N0000 �j ' �0000 aLO C)00It It �L ti00 :� - - �` Lu GRADE CO �� �w co �� �w OCO -_j OHO 6'� �w �w EXIST GRADE w w EL788.00 - z z F-z F-z _ w 790 3 3 3 3 3 790 __ ' `.\\ �1 1� 1F �1 6" TOPSOIL AND 1� SEEDING (TYP) % 15" RIPRAP \V3 _I - I 6" CRUSHED (TYP)�- 1 _ - ROCK (TYP) 780 - - ' --I BASIN LINER -I -- -- -- -- -- COMPACTED SUBGRADE (TYP) CONCRETE CURB ANCHOR TRENCH FINISH GRADE (TYP) (SEE NOTE 5) 780 ,r�+'' �rr��i++r►r +*'� SYSTEM (TYP) (SEE NOTE 4) 1 FINISH GRADE (TYP)(SEE NOTE 3) EL 781.00 �'- EL 781.00 FINISH GRADE VL EL 781.00 8" CONCRETE (TYP) SEAL 770 12" GRANULAR 770 0231-79 MATERIAL IL m C`�tiY�ky 111+eoi 760 760 0 40' 80' Mar 10 2017 10:46:06 HORIZ: SECTION B SCALE IN FEET LOOKING NORTH GR.PL-003 0 10, 20' `� VERT: NOTES: SCALE IN FEET 1. SEE DWG BLC00-CV-C-GR.SD-003 FOR TYPICAL BERM SECTIONS. 4. SEE DWG BLC00-CV-C-GR.SD-003 FOR GEOTEXTILE, HDPE AND 7. SEE DWG BLC00-CV-C-GR.SD-001 FOR TYPICAL ROAD SECTION TITLE WATER REDIRECTION PROGRAM GCL LINER ARRANGEMENTS. DETAIL. WATER RETENTION BASIN 2. SEE DWGS BLC00-CV-C-PA.PL-001, BLC00-CV-C-PA.PL-002, AND BLC00-CV-C-PA.PL-003 FOR WATER RETENTION BASIN SURFACING 5. SEE DWG BLC00-CV-C-GR.SD-003 FOR TYPICAL ANCHOR TRENCH PRELIMINARY -NOT GRADING SECTIONS PLANS. DETAIL. SHEET 1 FOR CONSTRUCTION 3. SEE DWG BLC00-CV-C-GR.SD-003 FOR CONCRETE CURB DETAIL. 6. SEE REFERENCE DWGS FOR EXIST GRADE. FOR BELEWS CREEK STEAM STATION U1&2 I BURNS N&MMONNELL D 03/08/17 WEG BL ISSUED FOR PERMITTING DUKE SCALE: 1"=40' CON: 5.8120 ENERGY® DWG TYPE: CVL DFTR: SKN C 11/18/16 WEG BL ISSUED FOR PERMITTING JOB NO: 88673 CHKD: BL 9400 WARD PARKWAY STOKES COUNTY, NC DATE: 08/03/16 ENGR: TMP B 11/04/16 WEG BL ISSUED FOR REVIEW KANSAS CITY, MO 64114 816-333-9400 FIRM LICENSE NO. C-1435 FILENAME: BLC00-CV-C-GR.EV-001.dgn APPD: WEG A 09/19/16 WEG BL ISSUED FOR REVIEW DWG SIZE DRAWING NO. REVISION ARCH E1 30.0"x42.0" BLCOO-CV-C-GR.EV-001 D no. I date I by I ckd I description no. date by ckd description �`C EN 0 C- D- F- Z:\Clients\ENR\DukeEnr\WtrRedirProg\88673_BelewsCreek\Design\Civil\Dwgs\Contract\Dam Permit\BLC00-CV-C-GR.EV-001.dgn 4 5 6 7 8 9 1 1 1 1 1 1 10/8/2017 sknichols 2:09:19 PM I T 2 T 3 T 4 T 5 a T 7 T 9 �_C �—D I— E 820 810 800 790 z O 780 W J W 770 760 750 740 NOTES: 1. SEE DWG BLC00-CV-C-GR.SD-003 FOR TYPICAL BERM SECTIONS. 2. SEE DWGS BLC00-CV-C-PA.PL-001, BLC00-CV-C-PA.PL-002, AND BLC00-CV-C-PA.PL-003 FOR WATER RETENTION BASIN SURFACING PLANS. D 103/08/171 WEGI BL I ISSUED FOR PERMITTING C 111/18/161 WEGI BL I ISSUED FOR PERMITTING B 111/04/161 TMP I BL I ISSUED FOR REVIEW MATCH EXIST H0Q0 0 0 o GRADE L Q tiC) o 1 EL814.00 XOo WAN -C) —0000 _ UNZ LO �w ap 0 3 e 0�00 co 00 Brio 0o co 00 do O � �� � � � N o Ir- �� 1� `, co co ----------- Uz W Uz W Uz W Uz W 16 OZ/SY GEOTEXTILE m o o � 0000 o N o o � V) o (TYP) (SEE NOTE 6) 6 o L N o . o CD cam; NT o 6" TOPSOIL Mo 00 ~o 0 00 0 00 oo AND SEEDING (TYP) MATCH EXIST GRADE z w z w z w z w - EL 788.00 3 3 3 3 1� �1 1� 6" CRUSHED ROCK (TYP) FINISH GRADE FINISH GRADE EL 781.00 EL 781.00 = ANCHOR TRENCH (TYP) (SEE NOTE 4) _ (TYP) _ % �- --I -- 11 Ll_ -J -_ -- -- -- -- -- -- -- -- -- -- L LI J L-- - -- -- -- -- -- -- -- 1-11-1-1L.--- -- -- -- -- -- -- -- 1� -- -- -- -- -- H LrLr lT LLI -- = - - —_ — I i 12" GRANULAR MATERIAL (TYP) BASIN LINER SYSTEM (TYP) COMPACTED (SEE NOTE 3) SUBGRADE (TYP) EXIST GRADE 3. SEE DWG BLC00-CV-C-GR.SD-003 FOR GEOTEXTILE, HDPE, AND GCL LINER ARRANGEMENTS. 4. SEE DWG BLC00-CV-C-GR.SD-003 FOR TYPICAL ANCHOR TRENCH DETAIL. 5. SEE REFERENCE DWGS FOR EXIST GRADE. A �09/19/16� TMP BL ISSUED FOR REVIEW no. I date I by I ckd I description /:\Clients\ENR\DukeEnr\WtrRedirProg\88673_BelewsCreek\Design\Civil\Dwgs\Contract\Dam Permit\BLC00-CV-C-GR.EV-002.dgn no. I date I by I ckd 6. SEE DWG BLC00-CV-C-GR.SD-001 FOR TYPICAL ROAD SECTION. description 0 40' 80' HORIZ: mmmml SECTION C SCALE IN FEET LOOKING NORTH GR-PL-003 0 10, 20' `i VERT: SCALE IN FEET 820 810 800 790 z O 780 � W J W 770 760 750 740 11111114 PRELIMINARY - NOT FOR CONSTRUCTION FOR BURNS N&MMONNELL 9400 WARD PARKWAY KANSAS CITY, MO 64114 816-333-9400 FIRM LICENSE NO. C-1435 _ SEAL �I w 0231-79 ��� ��yyttitti� fit tot Mar 10 2017 10:46:37 WATER REDIRECTION PROGRAM WATER RETENTION BASIN GRADING SECTIONS SHEET 2 BELEWS CREEK STEAM STATION U1&2 DUKE DWG TYPE CVL DO R: 5SKN0 Aft ENERGY® JOB NO: 88673 CHKD: BL STOKES COUNTY, NC DATE: 08/03/16 ENGR: TMP FILENAME: BLC00-CV-C-GR.EV-002.dgn APPD: WEG DWG SIZE DRAWING NO. REVISION ARCH El B LC00-CV-C-G R. EV-002 D FC C__� D--� F--� 4 5 6 7 1 1 8 9 1 1 10/8/2017 sknichols 2:10:35 PM I T 2 T 3 T 4 T 5 N T 7 T 9 �-A �—C �-D �E z O > w J w 1 1 :11 790 770 z O a w J w :11 790 Five SECTION LOOKING NORTHEAST GR-PL-002 0 20' 40' HORIZ: SCALE IN FEET VERT: o s' 10' SCALE IN FEET 0 20' 40' HORIZ: SECTION F SCALE IN FEET LOOKING NORTHEAST GR-PL-002 0 5' 10, `000 VERT: SCALE IN FEET We BE :11 790 P) :1 WOE :11 z O > w J w 790 770 z z O O a a w w J J w w NOTES: 1. SEE DWG BLC00-CV-C-GR.SD-003 FOR TYPICAL BERM SECTIONS. 4. SEE DWG BLC00-CV-C-GR.SD-003 FOR GEOTEXTILE, HDPE AND 7. SEE DWG BLC00-CV-C-GR.SD-004 FOR TYPICAL BASIN STRUCTURE/LINER GCL LINER ARRANGEMENTS. CONNECTION DETAIL. 2. SEE DWGS BLC00-CV-C-PA.PL-001, BLC00-CV-C-PA.PL-002, AND BLC00-CV-C-PA.PL-003 FOR WATER RETENTION BASIN SURFACING 5. SEE DWG BLC00-CV-C-GR.SD-003 FOR TYPICAL ANCHOR TRENCH 8. SEE REFERENCE DWGS FOR EXIST GRADE. PLANS. DETAIL. 9. SEE DWG BLC00-CV-C-GR.SD-001 FOR TYPICAL ROAD SECTION. 3. SEE DWG BLC00-CV-C-GR.SD-003 FOR CONCRETE CURB DETAIL. 6. SEE DWG BLC00-CV-C-GR.SD-004 FOR TRENCH SCHEDULE. E 06/29/17 WEG BL ISSUED FOR PERMITTING D 04/04/17 WEG BL ISSUED FOR PERMITTING C 03/08/17 WEG BL ISSUED FOR PERMITTING B 111/18/171WEGI BL I ISSUED FOR PERMITTING z O > w J w :11 790 :1 1 :11 790 770 C) C) MATCH EXIST GRADE 0° N EL 805.03 co U— �� o0 � a� T do N 00 a OLO Opp �� �� cD c0 - - ' �r- Y� O C) >� 00 / [O 0z oo� �w Uz 00 w Uz w Uz w / // EXIST GRADE / / FINISH GRADE 6" CRUSHED / ROCK / / 6" TOPSOIL AND — — SEEDING (TYP) 3 11 16 OZ/SY GEOTEXTILE (TYP) (SEE NOTE 9) o 3— II ANCHOR TRENCH (SEE NOTE 5) BASIN LIN(TYPER SYSTEM 15" RIPRAP (TYP) SEE NOTE 4) � ) " 12 GRANULAR — — — /CONCRETE CURB MATERIAL (TYP) — - — I. (SEE NOTE 3) —111 — 8" CONCRETE (TYP) FINISH GRADE EL 781.00' COMPACTED SUBGRADE (TYP) SECTION LOOKING NORTH GR-PL-002 SECTION G LOOKING NORTHEAST GR-PL-002 10. REFER TO PIPE MATERIAL SPECIFICATIONS. 11. CONTINUATION OF PIPELINE TO RETENTION BASIN PRIMARY INLET STRUCTURE. SEE DWG BLC00-CV-C-GR.PL-002 FOR PIPE ROUTING A �11/04/16�TMPJ BL I ISSUED FOR REVIEW no. I date I by I ckd I description no. I date I by I ckd description Z:\Clients\ENR\DukeEnr\WtrRedirProg\88673_BelewsCreek\Design\Civil\Dwgs\Contract\Dam Permit\BLC00-CV-C-GR.EV-003.dgn 4 5 6 7 8 i i I I I 0 20' 40' HORIZ: SCALE IN FEET VERT: 0 5' 10' SCALE IN FEET 0 20' 40' HORIZ: 00000119 SCALE IN FEET VERT: o s' 10' SCALE IN FEET PRELIMINARY - NOT FOR CONSTRUCTION BURNS S&MSDONNELL 9400 WARD PARKWAY KANSAS CITY, MO 64114 816-333-9400 FIRM LICENSE NO. C-1435 1 1 :11 790 770 :11 790 z O > w J w z O a w J w "L } r7CliL � 4 0231-79 d' m E Jun 29 2017 14:57:08 TITLE WATER REDIRECTION PROGRAM WATER RETENTION BASIN GRADING SECTIONS SHEET 3 FOR BELEWS CREEK STEAM STATION U1&2 DUKE ENERGY® STOKES COUNTY, NC .8120 5SKN DWG TYPE CVL DO R: JOB NO: 88673 CHKD: BL DATE: 08/03/16 ENGR: TMP FILENAME: BLC00-CV-C-GR.EV-003.dgn APPD: WEG DWG SIZE DRAWING NO. REVISION ARCH E1 30.0"x42.0" BLC00—CV—C—GR.EV-003 E A-� C� D--� F� 10/29/2017 sknichols 12:40:04 PM I T 2 T 3 T 4 T 5 N T 7 T 9 �—A �C �—D �E NOTES: 1. SEE DWG BLC00-CV-C-GR.SD-003 FOR TYPICAL BERM SECTIONS 3. SEE DWG BLC00-CV-C-GR.SD-003 FOR GEOTEXTILE, HDPE AND GCL LINER ARRANGEMENTS. 2. SEE DWGS BLC00-CV-C-PA.PL-001, BLC00-CV-C-PA.PL-002, AND 4. SEE DWG BLC00-CV-C-GR.SD-004 FOR TYPICAL BASIN BLC00-CV-C-PA.PL-003 FOR WATER RETENTION BASIN SURFACING STRUCTURE/LINER CONNECTION DETAIL. PLANS. 5. SEE REFERENCE DWGS FOR EXIST GRADE. C 106/29/171 WEGI BL I ISSUED FOR PERMITTING B 103/08/171 WEGI BL I ISSUED FOR PERMITTING A 111/18/161 WEGI BL I ISSUED FOR PERMITTING z O I- Q LU J W :11 r•1 r:l 770 760 z O Q LU J W no. I date I by I ckd I description I no. date by ckd description Z:\Clients\ENR\DukeEnr\WtrRedirProg\88673_BelewsCreek\Design\Civil\Dwgs\Contract\Dam Permit\BLC00-CV-C-GR.EV-004.dgn 4 5 F-1111111 :11, 790 770 SECTION M LOOKING NORTHWEST GR-PL-003 SECTION W LOOKING EAST GR-PL-004 0 20' 40' HORIZ: SCALE IN FEET VERT: o s' 10' SCALE IN FEET :11, :R 770 0 20' 40' HORIZ: 0009 SCALE IN FEET VERT: 0 5' 10' SCALE IN FEET z O Q LU J W :11 790 :1 770 760 z O I- Q LU J W PRELIMINARY - NOT FOR CONSTRUCTION BURNS N&MEDONNELL 9400 WARD PARKWAY KANSAS CITY, MO 64114 816-333-9400 FIRM LICENSE NO. C-1435 ".._ S -.. EAL 0231-79 'Qm • �,,t Jun 29 2017 14:58:24 TITLE WATER REDIRECTION PROGRAM WATER RETENTION BASIN GRADING SECTIONS SHEET 4 FOR BELEWS CREEK STEAM STATION U1 &2 DUKE ENERGY® STOKES COUNTY, NC 5SKN0 DWG TYPE CVL DO R- JOB NO: 88673 CHKD: BL DATE: 11/17/16 ENGR: TMP FILENAME: BLC00-CV-C-GR.EV-004.dgn APPD: WEG DWG SIZE DRAWING NO. REVISION ARCH E1 30.0"x42.0" B LC00-CV-C-G R. EV-004 C A--� C� D--� F� h 7 I h 0 1()/29/2017 sknichols 11:26:28 AM I I I 2 3 4 5'MAXCTor 5 6 4' (MAX) STEEL POST (TYP) WIRE FENCING (IF APPLICABLE) 100' MIN I� I �_C �D I— E 5' MAX (TYP) GEOTEXTILE FABRIC PERSPECTIVE VIEW 44" MIN FENCE POST (5' MAX C TO C) z z GEOTEXTILE FABRIC 7�; 0 0 N N 44" MIN FENCE POSTS DRIVEN 24" INTO GROUND 44" MIN FENCE POST (5' MAX C TO C) GEOTEXTILE FABRIC ASTM D4751 WITH 0-6MM AIDS ASTM D4632 RATED 40ON (90 LB) ASTM D4491 PERMITIVITY 0.05 SEC UNDISTURBED 6" (MIN) 6" (MIN GROUND FLOW II-IIII-III �=1 = II � -IIII=IIII=1111� II-IIII-III �=1 - II IIII=1 11= III z' 1 I=1 I I I=1 I 117 IIII=1 I I- - IIII=- -IIII=III 00 N N '--COMPACTED SOIL EMBED GEOTEXTILE FABRIC INTO GROUND TYPICAL DOUBLE SILT FENCE TRENCH INSTALLATION DETAIL NOT TO SCALE CONSTRUCTION NOTES FOR FABRICATED SILT FENCE 1. GEOTEXTILE FABRIC TO BE FASTENED SECURELY TO TO FENCE POSTS WITH WIRE OR PLASTIC ZIP (50 LB TENSILE). 2. WHEN TWO SECTIONS OF GEOTEXTILE FABRIC ADJOIN EACH OTHER THEY SHALL BE OVER- LAPPED BY 4 FEET TO NEXT POST. 3. MAINTENANCE SHALL BE PERFORMED AS NEEDED AND MATERIAL REPLACED WHEN "BULGES" DEVELOP IN THE SILT FENCE. 4. MAINTENANCE SHALL BE PERFORMED AS REQUIRED BY THE INSPECTION AND MAINTENANCE PLAN IN THE EROSION AND SEDIMENT CONTROL PLAN: - MAINTENANCE SHALL INCLUDE REPLACING TORN, DECOMPOSED, OR OTHERWISE COMPROMISED SILT FENCE AS SOON AS PRACTICABLE UPON IDENTIFICATION. - SEDIMENT DEPOSITS ON THE UPSLOPE SIDE OF SILT FENCE SHALL BE REMOVED PROMPTLY TO PROVIDE ADEQUATED STORAGE VOLUME FOR THE NEXT RAIN EVENT. - CARE SHALL BE TAKEN NOT TO DAMAGE THE SILT FENCE DURING SEDIMENT REMOVAL. - ONCE THE CONTRIBUTING AREA HAS BEEN STABILIZED, INSPECTED, AND APPROVED, REMOVE ALL FENCING MATERIALS, BRING THE DISTURBED AREA TO GRADE, AND STABILIZE. FLOW IIII=IIII=1111� ' 1 I=1 I I I=1 I 11= COMPACTED SOIL EMBED GEOTEXTILE FABRIC INTO GROUND 5. POSTS: STEEL EITHER "T" OR "U" TYPE. 6. INSTALL SAFETY CAPS FOR SILT FENCE STEEL POSTS. 2" OVERLAP (MIN) NOTES: (EROSION CONTROL BLANKET SLOPE INSTALLATION)I—IIII- 1. SLOPE SURFACE SHALL BE SMOOTH BEFORE PLACEMENT FOR PROPER SOIL CONTACT. 2. STAPLING PATTERN AS PER MANUFACTURES RECOMMENDATIONS. 3. DO NOT STRETCH BLANKETS/MATTING TIGHT. ALLOW THE z 00 3" MIN. NC DOT #5 OR #57 WASHED STONE - CLASS I AND II RIPRAP- z N - I IH=WI_ ---:I I I = I - BRING MATERIAL DOWN TO A LEVEL AREA, TURN THE END UNDER 4" AND STAPLE AT 12" INTERVALS N HARDWARE CLOTH -- BETWEEN POSTS AND COVERED BY STONE . elm am... i. vami. .9mm. 2 �C I 'III I �= IIII = IIII = IIII = IIII = IIII = iiii� IIII — I ' ll L ....— = I = j111 —IIII i — — = Ii' III —: _ = I .... WOVEN FILTER .— FABRIC I — ROLLS TO CONFORM TO ANY IRREGULARITIES. TYPICAL EROSION CONTROL BLANKET SLOPE INSTALLATION 4. LIME, FERTILIZE, AND SEED BEFORE INSTALLATION. NOT TO SCALE PLANTING OF SHRUBS, TREES, ETC. SHOULD OCCUR AFTER INSTALLATION. D 1 03/08/171 WEGI BL I ISSUED FOR PERMITTING C 11/18/16 WEG BL ISSUED FOR PERMITTING B 11/04/16 TMP BL ISSUED FOR REVIEW A 09/19/16 TMP BL ISSUED FOR REVIEW no. date by I ckd I description Z:\Clients\ENR\DukeEnr\WtrRedirProg\88673_BelewsCreek\Design\Civil\Dwgs\Contract\Dam Permit\BLC00-CV-C-EC.SD-002.dgn no. date by ckd 4 L FRONT VIEW TYPICAL SILT FENCE OUTLET NOT TO SCALE NOTES: (SILT FENCE OUTLET) 1. HARDWARE CLOTH SHALL BE ANCHORED TO THE STEEL POSTS SECURELY USING APPROPRIATE ANCHORS. HARDWARE CLOTH SHALL BE KEYED IN A MINIMUM OF 12 INCHES IN LENGTH AND BACKFILLED PROPERLY AS SHOWN IN ABOVE DETAIL. HARDWARE CLOTH TO BE SAME AS STD. #30.09 (19 GAUGE, 1/4" SPACING.) 2. SITE OUTLETS AT ANY POINT SMALL CONCENTRATED FLOWS ARE ANTICIPATED AND AT DIRECTION OF THE INSPECTOR. 3. ONE ACRE MAXIMUM DRAINAGE AREA PER OUTLET. DOWNSTREAM SLOPE OF STRUCTURE ROCK SET IN A 4" OR DEEPER TRENCH — SIDE VIEW AlrlT Trl 0f�AI C FRONT VIEW NOT TO SCALE i —M1=11 ANCHOR IN 6"X6" MIN _ _ I TRENCH AND STAPLE AT 12" INTERVALS — 5" STAPLE SPACING OVERLAPS (MIN) TYPICAL ROCK CHECK DAM NOT TO SCALE HARDWARE CLOTH WASHED STONE (NCDOT #5 OR #57) ° 2 ° 00 PtOvv 1 � EXIST ROAD 00 1 W =_ I - ANCHOR SKIRT: 4" EXCAVATE TRENCH AND COMPACT BACKFILL ; STEEL POST (TYP) SECTION PLAN VIEW NOT TO SCALE SEE PLAN FLOWLINE PROFILE NOT TO SCALE PLAN 8" THICKNESS OF 2" TO 3" COARSE AGGREGATE -II 11,1 COMPACTED GEOTEXTILE SUBGRADE SECTION TYPICAL STABILIZED CONSTRUCTION ENTRANCE NOT TO SCALE CONSTRUCTION SPECIFICATIONS (STABILIZED CONSTRUCTION ENTRANCE) 1. STONE SIZE - USE 2"-3" COARSE AGGREGATE, RECLAIMED OR RECYCLED CONCRETE EQUIVALENT. 2. LENGTH - NOT LESS THAN 100 FEET 3. WIDTH - TWELVE (12) FOOT MINIMUM, BUT NOT LESS THAN THE FULL WIDTH AT POINTS WHERE INGRESS OR EGRESS OCCURS. TWENTY -FOUR (24) FOOT IF SINGLE ENTRANCE TO SITE. 4. GEOTEXTILE - SHALL BE PLACED OVER THE ENTIRE AREA PRIOR TO PLACING OF COARSE AGGREGATE. 5. ALL SURFACE WATER FLOWING OR DIVERTED TOWARD CONSTRUCTION ENTRANCES SHALL BE PIPED ACROSS THE ENTRANCE. IF PIPING IS IMPRACTICAL, A MOUNTABLE BERM WITH 5:1 SLOPES WILL BE PERMITTED. 6. THE ENTRANCE SHALL BE MAINTAINED IN A CONDITION WHICH WILL PREVENT TRACKING OR FLOWING OF SEDIMENT OUT OF THE CONSTRUCTION AREA, ALL SEDIMENT SPILLED, DROPPED, WASHED OR TRACTED OUT OF THE CONSTRUCTION AREA SHALL BE REMOVED IMMEDIATELY. 7. WHEN WASHING IS REQUIRED, IT SHALL BE DONE ON AN AREA STABILIZED WITH STONE AND WHICH DRAINS INTO AN APPROVED SEDIMENT TRAPPING DEVICE. 8. PERIODIC INSPECTION AND MAINTENANCE SHALL BE PROVIDED AFTER EACH RAIN EVENT. NU I tJ (KUI►IX l►1'iLUM LJAIVI IN UI I l►H): 1. ROCK CHECK DAM SHALL COMPLY WITH NCDEQ REQUIREMENTS. 2. MAINTENANCE SHALL BE PERFORMED AS REQUIRED BY THE INSPECTION AND MAINTENANCE PLAN IN THE EROSION AND SEDIMENT CONTROL PLAN: - MAINTENANCE SHALL INCLUDE REMOVING SEDIMENT WHEN IT REACHES ONE-HALF OF THE DESIGN VOLUME; FIXING EROSION, PIPING, UNDERCUTTING, OR ROCK DISPLACEMENT; AND ADDING FINE GRAVEL TO THE UPSTREAM FACE OF THE DAM IF THE SEDIMENT POOL DRAINS TOO QUICKLY (LESS THAN 6 HOURS). - ONCE THE CONTRIBUTING AREA HAS BEEN STABILIZED, INSPECTED, AND APPROVED, THE DAM MUST BE REMOVED AND DISPOSED OF IN ACCORDANCE WITH ALL APPLICABLE REGULATIONS. description 5 6 7 8 I I 1 '�,'i��y�y�rr� �i� ��►rar����rri _ 'ter .�1 L SEAL 0231-79 e1 t;oll ky� 1111 Mar 10 2017 10:48:48 TITLE WATER REDIRECTION PROGRAM EROSION CONTROL PRELIMINARY -NOT DETAILS FOR CONSTRUCTION SHEET 1 BURNS N&MMONNELL 9400 WARD PARKWAY KANSAS CITY, MO 64114 816-333-9400 FIRM LICENSE NO. C-1435 9 1 FOR BELEWS CREEK STEAM STATION U1&2 DUKE DWG TYPED: CVL DNE O R: 5SKN0 ® JOB NO: 88673 CHKD: BL ENERGY STOKES COUNTY, NC DATE: 08/26/16 ENGR: TMP FILENAME: BLC00-CV-C-EC.SD-002.dgn APPD: WEG DWG SIZE DRAWING NO. REVISION ll 00� 42.0" BLC00-CV-C-EC.SD-002 D 10/8/2017 sknichols 2:04:43 PM 1 I`T C� D� F� I I 2 3 I I I 1 1 4 5 6 7 8 m I� �_C �D �E 4n A 1IAnrl\AIAnr- PLAN SECTION TYPICAL GRAVEL INLET PROTECTION NOT TO SCALE 3xPIPE OD 4xPIPE OD n ;LASS B ICKENED EDGE RIPRAP (TYP) 1 VL VMILL SEE NOTE 1 FOR DEPTH ELEVATION A► NOTES: (RIPRAPPED RCP END SECTION) 1. TOE WALL SHALL BE 18" BELOW BOTTOM OF END SECTION ON UPSTREAM END AND 24" ON DOWNSTREAM END. 2. WHEN PIPE CL AND DITCH FLOWLINE INTERSECTION IS APPROX PERPENDICULAR, EXTEND RIPRAP UP SIDE SLOPE OPPOSITE PIPE DISCHARGE TO HEIGHT LEVEL WITH TOP OF PIPE. 3. PLACE RIPRAP AT ALL END SECTIONS UNLESS LOCATED IN A CONCRETE LINED DITCH. TYPICAL RIPRAPPED RCP END SECTION NOT TO SCALE FLOW EXIST GRADE F� Olv CROP INLET O 19GA HARDWARE z O LOTH (1/4" OPENING) 2 O 0 0 O 0 VLL 1 L/11Y PLAN 10'-0" MIN. A OCDO 0 0 0 00 A SANDBAGS (TYP) OR STAPLES 1:1 SIDE SLOPE (TYP) 'Il- - - - X oz oQ c0 L � SECTION A -A HIGH UUHE61VE & LUVA FILTRATION SOIL BERN 10 MIL PLASTIC LINING SANDBAGS (TYP) OR STAPLES II 00 = II- 11�,. 6" CLEARLY MARKED SIGNAGE CONCRETE NOTING DEVICE (18"X24" MIN.) WASHOUT NOTES 1. ACTUAL LOCATION DETERMINED IN FIELD. 2. THE CONCRETE WASHOUT STRUCTURES SHALL BE PLAN MAINTAINED WHEN THE LIQUID AND/OR SOLID REACHES 75% OF THE STRUCTURES CAPACITY. 3. CONCRETE WASHOUT STRUCTURE NEEDS TO BE CLEARLY MARKED WITH SIGNAGE NOTING DEVICE. BELOW GRADE WASHOUT STRUCTURE NOT TO SCALE EXIST GRADE rrI - RIPR) HEAD lj ' - _ —CLASS B RIPRAP I FILTER BERM NCDOT #5 OR #57 _ WASHED STONE I--- CL OF FBD RIPRAP HEADWALL 1' 3' 1' MIN HEIGHT FROM ROAD SHOULDER — PIPE INVERT \—CLASS B RIPRAP NCDOT #5 OR #57 WASHED STONE ELEVATION TYPICAL CULVERT INLET PROTECTION NOT TO SCALE EXIST GRADE Inv nvl KAIAI SANDBAGS (TYP) OR STAPLES 2'-0" SANDBAGS (TYP) 10 MIL PLASTIC HIGH COHESIVE & LOW OR STAPLES LINING (TYP) FILTRATION SOIL BERM 1:1 SIDE SLIPE (TYP) ao Oz_ OQ 611 C 7 ZO SECTION B-B u CLEARLY MARKED SIGNAGE CONCRETE NOTING DEVICE (18"X24" MIN.) WASHOUT PLAN NOTES 1. ACTUAL LOCATION DETERMINED IN FIELD. 2. THE CONCRETE WASHOUT STRUCTURES SHALL BE MAINTAINED WHEN THE LIQUID AND/OR SOLID REACHES 75% OF THE STRUCTURES CAPACITY TO PROVIDE ADEQUATE HOLDING CPACITY WITH A MINIMUM 12 INCHES OF FREEBOARD. 3. CONCRETE WASHOUT STRUCTURE NEEDS TO BE CLEARLY MARKED WITH SIGNAGE NOTING DEVICE. ABOVE GRADE WASHOUT STRUCTURE NOT TO SCALE r~ L 11L SEAL 0231-79 fit tot Mar 10 2017 10:49:23 TITLE WATER REDIRECTION PROGRAM EROSION CONTROL PRELIMINARY -NOT DETAILS FOR CONSTRUCTION SHEET 2 FOR BELEWS CREEK STEAM STATION U1&2 D 03/08/17 WEG BL ISSUED FOR PERMITTING � BURNS 4C SCALE: NONE CON: 5.8120 N&MMONNELL DUKE DWG TYPE: CVL DFTR: SKN C 11/18/16 WEG BL ISSUED FOR PERMITTING ENERGY® JOB NO: 88673 CHKD: BL 9400 WARD PARKWAY DATE: 08/26/16 ENGR: TMP B 11/04/16 TMP BL ISSUED FOR REVIEW KANSAS CITY, MO 64114 STOKES COUNTY, NC U 816-333-9400 FILENAME: BLC00-CV-C-EC.SD-003.dgn APPD: WEG DWG SIZE DRAWING NO. REVISION FIRM LICENSE NO. C-1435 A 09/19/16 TMP BL ISSUED FOR REVIEW ARCH E1 BLCOO-CV-C-EC.SD-003 D no. I date I by I ckd I description no. date by ckd description 30.0"X42.0" Z:\Clients\ENR\DukeEnr\WtrRedirProg\88673_BelewsCreek\Design\Civil\Dwgs\Contract\Dam Permit\BLC00-CV-C-EC.SD-003.dgn 4 5 6 7 8 9 10/8/2017 sknichols 2:06:04 PM I I I I I c� D--� F� 2 3 4 5 TOP OF BERM FINISHED 6 7 8 9 I I TOP OF RAMP SEE PLAN FOR EL SLOPE GCL CONCRETE THICKENED EDGE GRADE INTERNAL — 3 a SLOPE 3.1 =� SLP - 1.0 /o (SEE DETAIL ON THIS DWG) 111111 OVER BUILD LAYERS 4' TYPICAL THREADED CONCRETE EXTERNAL Leff AND TRIM TO DESIGN LAPPING BOTTOM GCL a D RAMP DETAIL (SEE DETAIL THIS DWG) TOP OF EXISTING SLOPE 3:1 GRADE AS INDICATED Q� � O � � Q� � O SLP O D D D co V BERM SUBGRADE FOR RIPRAP = — —I (See pLR�ES #4 REBAR @ 12" OC. EW. n—rriT— - I : ' ° o D 8" CONCRETE - 00 BOT OF BASIN APPROX 25' TYPICAL GCL SLOPE TO BOTTOM LAPPING 16 OZ/SY GEOTEXTILE _ D Q ° D D Q SEE PLAN FOR EL ..:: .: ... ... : .. D D � D D ° ° � COMPACTED / \ EXIST GRADE SUBGRADE D D D o D D D D D D C / EXISTING GRADE N W D Q D Q D Q D REMOVE 2 FEET OF �.� °0 DETAIL NOT APPLICABLE -AEXISTING MATERIAL � z J ' . ,....' .. ' .. .. • . .. ; ,; .. < PREPARE LAYER TO DAM SAFETY REPORT AS SPECIFIED _ 5, 12" GRANULAR MATERIAL SEE TRENCH ICALAIN HOR DWG 16 OZ/SY GEOTEXTILE OVEREXCAVATE MIN 4 OR UNTIL BLC00-CV-C-GR.SD-003 16 OZ/SY GEOTEXTILE NOTES: (BERM SUBGRADE CONSTRUCTION) SUITABLE MATERIAL IS REACHED 3 1. EXISTING SUITABLE POND MATERIAL MAY AND COMPACT SUBGRADE a 1 HDPE 6" BE REUSED FOR POND CONSTRUCTION. (TYP) GCL � -II TYPICAL BERM SUBGRADE CONSTRUCTION — CL NOT TO SCALE -I - I EXIST GRADE U_TYPICAL CONCRETE RAMP DETAIL - 12 -6 12 -6 - COMPACTED TOPSOIL AND EXISTING GRADE J NOT TO SCALE - - SUBGRADE SEEDING EXISTING GRADE EXISTING GRADE PROFILE EL TOPSOIL & SEED OR SOD AS 1�� 1�4�T SPECIFIED ° -B 1 _ 3-- 16 OZ/SY - 1 GEOTEXTILE 3 COMPACTED7 EL VARIES EMBANKMENT SEE PLAN STRIP AS SPECIFIE WIDTH VARIES CUT FILL SEE PLAN TYPICAL ROAD SECTION NOT TO SCALE 1 6" CRUSHED ROCK SURFACING EXISTING GRADE 1L 1 3 3 EL VARIES SEE PLAN WIDTH VARIES SEE PLAN MAX 111777111% A11777KI-r C-I IME77A/-11777 2" SURFACE COARSE SF 9.5A (SEE NOTE 1) 3" BASE COARSE 1 19.013 (SEE NOTE 1) 8" CRUSHED ROCK 16 OZ/SY GEOTEXTILE COMPACTED SUBGRADI TYPICAL 5" ASPHALT PAVING SECTION NOT TO SCALE NOTES: (5" ASPHALT PAVING SECTION) SOLID STEEL EPDXY COATED DOWEL 1. FOR ASPHALT PAVEMENT REFER TO NORTH CAROLINA DOT 1" DIA X 1'-10" LONG SPACED AT ASPHALT QUALITY MANAGEMENT SYSTEM: MATERIALS AND 18-20" OC. BAR CLEARANCE AT EDGE TESTS UNIT (2015) AND NORTH CAROLINA DOT STANDARD -C OF PANEL SHALL BE A MIN OF 1/2 TO 7" 7" PAVEMENT SPECIFICATIONS FOR ROADS AND STRUCTURES (2012), SECTION MAX OF 3/4 OF THE BAR SPACING SURFACE 610- ASPHALT CONCRETE PLANT MIX PAVEMENTS. " D D PAVEMENT SURFACE00 2 0 0 C D a d.'. #4 @ 12" OC EW LUBRICATE ONE HALF OF DOWEL 00 OR INSTALL DOWEL BAR EXPANSION CAP AND SLEEVE NOTES: (DOWELED CONTRACTION JOINT) 1. VERIFY THE SPACING OF BARS AT EDGE OF PANEL. MAXIMUM SPACE IS 1/2 OF THE JOINT SPACING TO 3/4 OF THE JOINT #4 @ 12" OC EW -D SPACING. DOWELED CONTRACTION JOINT SAWED JOINT -E-1 3/8" ± 1/16" p . Q a 00 v c� JOINT o' SEALER a : EXPANSION JOINT CAP NOT TO SCALE I_UTAIMA1211►111111 SURFACE 1 /4"R _ (TYP) N r D d. " D or����j�o NON -EXTRUDING v PREFORMED COMPRESSIBLE MATERIAL DETAIL / NOT TO SCALE TYPICAL CONCRETE PAVEMENT DETAILS NOT TO SCALE NOTES: (GENERAL) 1. CONCRETE SHALL HAVE 4,000 PSI COMPRESSIVE STRENGTH AT 28 DAYS. 2. REFER TO SPECIFICATIONS FOR CONCRETE INSTALLATION DETAILS. NOT TO SCALE 3/8" ± 1 /16" PAVEMENT SURFACE 00 co 0 � p. JOINT z SEALER D. O d 'o I C. BACKER ROD JOINT BOTTOM DETAIL 2 NOT TO SCALE NOTES: (SAWED JOINT) 1. FOR IRREGULAR JOINT SPACING, THE SLAB PANEL ASPECT RATIO MUST BE 1.5 OR LESS. L AND T SHAPED PANELS SHALL BE AVOIDED. 2. SPACING BETWEEN JOINTS SHALL NOT EXCEED 15 FEET. E 06/29/17 WEG BL ISSUED FOR PERMITTING D 03/08/17 WEG BL ISSUED FOR PERMITTING C 11/18/16 WEG BL ISSUED FOR PERMITTING B 11/04/16 TMP BL ISSUED FOR REVIEW A 09/19/16 TMP BL ISSUED FOR REVIEW no. I date I by I ckd I description Z:\Clients\ENR\DukeEnr\WtrRedirProg\88673_BelewsCreek\Design\Civil\Dwgs\Contract\Dam Permit\BLC00-CV-C-GR.SD-001.dgn U 6" TOPSOIL AND I SEEDING (TYP) i 6" TYPICAL 5' BERM SECTION 2" 3 3 (TYP = 0- #4 REBAR @ 12" OC. EW. NOT TO SCALE IJ VL/"�L7 L7 U I\Ir I\/"lr TYPICAL RIPRAP V-DITCH NOT TO SCALE -11 = —Ilia III = ° 6" TOPSOIL AND SEEDING JMPACTED FILL 8" CONCRETE 6" CRUSHED ROCK INSTALL SAWED JOINT EVERY 15'-/ OTEXTILE ALONG BOTTOM OF 2' FBD f m w ILL �0 00 o0 U U U IIVJ I 11LL J/1VVL.L/ J\JIIV I LV Lr\ 1 IJ DETAIL NOT APPLICABLE ALONG BOTTOM OF 8' FBD TO DAM SAFETY REPORT TYPICAL 6' FBD AND 8' FBD SECTION NOT TO SCALE 1 CONCRETE I D' 2' W z W Q U) J 8" (TYP) ° a D D ° ° I _ I I #4 REBAR @ 12" OC EW SAWED JOINT (TYP) (SEE DETAIL THIS DWG) COMPACTED SUBGRADE (TYP) TYPICAL 2' FBD SECTION (TYP) > 80 D Q D D D TYPICAL THREADED CONCRETE RAMP DETAIL NOT TO SCALE "ABLE 6" CRUSHED ROCK CONCRETE :PORT 16 OZ/SY GEOTEXTILE #4 REBAR @ 12" OC. EW. 00 = 1 ao COMPACTED SUBGRADE 1 1 12" 16 OZ/SY GEOTEXTILE 12" GRANULAR MATERIAL 16 OZ/SY GEOTEXTILE G GRADE TYPICAL THICKENED CONCRETE EDGE DETAIL EXISTING GRADE z J � � 1 � � 3 'EW �1 1) 6" TOPSOIL AND = )WG) SEEDING (TYP) I— D 8' COMPACTED I—IH—8" (TYP) SUBGRADE (TYP)—� EXISTING GRADE 3 1� w WQ �az o 8" CONCRETE ° � � ° o � �_ I #4 @ 18" EW ALL AROUND 6" CRUSHED — #4 REBAR @ 12" OC EW (MIN 3" CONCRETE COVER TOP OF RAMP ROCK SAWED JOINT (TYP) (SEE DETAIL THIS DWG) 6" CRUSHED ROCK Hill LL CD Z co D16 1 1' 1111- INVT EL — _ \ (SEE PLAN) -- --- - - - - - - - - --- - - - - ----- -- - - -- --- - - - - -- - - -- CASING PIPE DETAIL TOP OF PROJECTED NOT TO SCALE BERM SUBGRADE 6" TOPSOIL AND SEEDING (TYP) 3 1 4' 3 1� 15" RIPRAP — v 16 OZ/SY GEOTEXTILE - —� COMPACTED SUBGRADE (TYP) TYPICAL 4' FBD SECTION � r 31AL 09 14M It fell tot;0 Jun 29 2017 15:05:45 NOT TO SCALE TITLE WATER REDIRECTION PROGRAM MISCELLANEOUS DETAILS PRELIMINARY - NOT SHEET 1 FOR CONSTRUCTION BURNS N&MEDONNELL 9400 WARD PARKWAY KANSAS CITY, MO 64114 816-333-9400 FIRM LICENSE NO. C-1435 no. date by ckd description I I 4 5 6 7 8 9 i i I I I I 1 1-C- 1 FOR BELEWS CREEK STEAM STATION U1&2 SCALE: NONE DUKE DWG TYPE:: CVL DO R- 5SKN0 ENERGY® JOB NO: 88673 CHKD: BL STOKES COUNTY, NC DATE: 08/03/16 ENGR: TMP FILENAME: BLC00-CV-C-GR.SD-001.dgn APPD: WEG DWG SIZE DRAWING NO. REVISION ARCH Ell BLC00-CV-C-GR.SD-001 E 10/29/2017 sknichols 12:31:29 PM I S� GATE POST T 2 GATE OPENING BETWEEN POSTS 1 3 4 5 6 7 8 END BAY n 10'-0" (MAXIMUM) MULTIPLES OF GATE POST 9 SURVEY MONUMENT INSPECTION FRAME W/ SOLID LID (TRAFFIC RATED/HEAVY DUTY) NEENAH FOUNDRY MODEL #R-1978-A2, OR APPROVED EQUAL CRUSHED ROCK ROAD SURFACE/CREST OF BERM CHAIN AS INDICATED ON PLANS BARBED WIRE AGATE FRAME ANGLE OR CORNER POST Mich Mr, MESA, OWN RWA 101100 OWN 00 ow, —C-1 —E-1 BARBED WIRE �I CHAIN LINK FABRIC — Q BRACE TRUSS TRUSS TRUSS ROD ROD O FINISH GRADE ROD —I N PLUNGER ROD CATCH CONCRETE GRADE III�' II—II1�,1 L I I'�III— II o co (TYP) I �o 1 � TYP .I M CONCRETE 9" MIN c� M 1 1 1 1 1-' (TYP) I I 1 I 1 '-0" MIN 1'-0" MIN co 8" MIN 8" 9" MAX 811 3/4" DIA HOLE FINISH GRADE =I .I �I—III' n 11" MAX SECTION 3/4" DIA HOLE 8" MIN 8" 9" MAX ti 6"X8"X 1 '-2" o� ROUGH N WOOD BLOCK FINISH GRADE 1- 11" MAX SECTION NOT TO SCALE TYPICAL DOUBLE SIDED GUARDRAIL DETAIL NOT TO SCALE 6'-3" FRONT 10'-0" MAXIMUM TOP RAIL 0 LINE POST 1 I =dill- 1 1 _ N III �'rlll_ - BOTTOM III o m TENSION WIRE 11: 1 cr) M II' Q 1 �I 2 10" MIN C-0 CHAIN LINK FENCE DETAILS NOT TO SCALE END SECTION (TYP) —7 6'-3" END SECTION (TYP) CORNER POST TO LINE POST & LINE POST TO LINE POST UNLESS OTHERWISE NOTED GALV STEEL GUARDRAIL 0 0 61PX8"X1'-2" ROUGH WOOD BLOCK TOP OF FINISHED GRADE TYPICAL SINGLE SIDED GUARDRAIL DETAIL NOT TO SCALE FRONT 0 0 o, o vi--uwL—v vviiXL— FENCE CORNER PLAN NOT TO SCALE LOCATION POINT GATE POST 2" SQL ALUM FRAME SECTION P NOT TO SCALE C? IIII—II o — - cd COMPACTED _ I� ; ' SUBGRADE & BACKFILL- -- Jill 1 1/2" DIA PVC SLEEVE I 3/4" DIA GALV STEEL PIPE 6 5/8' SQUARE PERMANENT SETTLEMENT SURVEY MONUMENT INSPECTION FRAME & LID NOT TO SCALE GATE OPERATOR LOCATION POINT 29'-911 GATE POST 12'-0" GATE POST PLAN 30'-0" BALLAST LENGTH FRONT STOP 2" SQUARE GATE POST NO FABRIC THIS PORTION OF GATE GATE GATE POST_ ALUMINUM (TYP) BARBED WIR SUPPORT BRACKET POST ASSEMBLY X X X X X X X X X, X X x X X X X X X X X X X X X X X X X X X X X x- v vX X X X X X X X X X X X x- X X X r LATCH ASSEMBLY --,,,BRACE 0 ti BRACE CHAIN LINK BRACE FABRIC (TYP GATE OPERATOR AND CONCRETE PAD. o LOCATE AND INSTALL -;�>< >< r, -- -- - -- -I AS RECOMMENDED BY N ' 5" MIN I MANUFACTURER.N b — 11I ; 111- I +I 2"x4" ALUMINUM 3/8" DIA GALVV = I I p . °� ' 'd 3" MIN = 1 11= o I I I� I — co TUBE BOTTOM TRUSS RODS (TYP) _ o II j l� 6„ 11 I I� �— _ _ I I —I ALL JOINTS #5 REBAR @ 8 EW ~=1 I ' o WELDED (TYP) M 1 I I I TOP & BOTTOM 1 11 -1 1 CONCRETE (TYP) I _� I 1 1 1 I I ROLLER GUIDE I 1 -- J ASSEMBLY (TYP) FINISH GRADE I —_ J P CANTILEVER SLIDING GATE DETAIL NOT TO SCALE 0 r` VL SEAL 0231-79 MIN t ofllfe>Ii�t Mar 10 2017 10:50:47 ■ FCC �D� TITLE WATER REDIRECTION PROGRAM F MISCELLANEOUS DETAILS PRELIMINARY - NOT SHEET 2 FOR CONSTRUCTION FOR BELEWS CREEK STEAM STATION U1&2 D 03/08/17 WEG BL ISSUED FOR PERMITTING BURNS SCALE: NONE CON: 5.8120 N&MMONNELL DUKE DWG TYPE: CVL DFTR: SKN C 11/18/16 WEG BL ISSUED FOR PERMITTING ENERGY® JOB NO: 88673 CHKD: BL 9400 WARD PARKWAY DATE: 09/14/16 ENGR: TMP B 11/04/16 TMP BL ISSUED FOR REVIEW KANSAS CITY, MO 64114 STOKES COUNTY, NC U 816-333-9400 FILENAME: BLC00-CV-C-GR.SD-002.dgn APPD: WEG A 09/19/16 TMP BL ISSUED FOR REVIEW FIRM LICENSE NO. C-1435 DWG SIZE DRAWING NO. - - REVISION ARCH E1 BLCOOCVC-CV-002 D no. I date I by I ckd I description no. date by ckd description 3o.o��X42.o�� �+ V �+ Z:\Clients\ENR\DukeEnr\WtrRedirProg\88673_BelewsCreek\Design\Civil\Dwgs\Contract\Dam Permit\BLC00-CV-C-GR.SD-002.dgn 4 5 6 7 8 9 1(3/8/2017 sknichols 2:21:46 PM I I I I I I 1 1 2 3 4 5 8 �-A �-C �-D �E CONCRETE CURB Ole 811 I ° I1III CRUSHED ROCK 6" ° --- � / 6" CRUSHED I TOP OF BERM ROCK S=1.0�16 OZ/SY GEOTEXTILE 15" NCDOT 3 I I — 1 6" TOPSOIL AND SEEDING CLASS B RIPRAP p - I=- _� p = I --III 3 COMPACTED - _ SUBGRADE 1 0° 16 OZ/SY GEOTEXTILE OD ANCHOR TRENCH (SEE DETAIL THIS DWG) / 16 OZ/SY GEOTEXTILE HDPE _ — — G C L- 12" GRANULAR _ — — — EXISTING GRADE MATERIAL TYPICAL BERM PRIMARY/ SOUTH COAL PILE RUNOFF/ HOLDING BASIN SECTION NOT TO SCALE 75 IY LU m J U I 15' 6" CRUSHED I TOP OF BERM ROCK S=1.0�16 OZ/SY GEOTEXTILE � ; 3 15" NCDOT CLASS B RIPRAP 1 O0 - — ___ 6 TOPSOIL AND SEEDING 3 ° _-- COMPACTED —� 11 SUBGRADE � 16 OZ/SY GEOTEXTILE ANCHOR TRENCH 1 O (SEE DETAIL THIS DWG) 16 OZ/SY GEOTEXTILE � HDP"- GCL � ----- —' — EXISTING GRADE 12" GRANULAR MATERIAL CONCRETE CURB (SEE DETAIL THIS DWG) 2" PVC SCH 40 WEEP HOLE @ 30' O.C. MAX SPACING 12" GRANULAR D V D D ° . D• . D D D D ' D ° D ° 15" NCDOT CLASS B RIPRAP, 16 OZ/SY GEOTEXTILE 16 OZ/SY GEOTEXTILE HDPE 51 GCL SEE NOTE 1 NOTES: DETAIL 3 1. SPACING IS SHOWN FOR CLARITY. NOT TO SCALE NOTES: DETAIL 4 3Y GEOTEXTILE TILE TYPICAL BERM SECONDARY BASIN SECTION 1. SPACING IS SHOWN FOR CLARITY. NOT TO SCALE LU NOT TO SCALE m J U 15" NCDOT CLASS TOP OF BERM (778') B RIPRAP CONCRETE CURB 5' 16 OZ/SY GEOTEXTILE (SEE DETAIL THIS D ° DWG) 6" CRUSHED 5 � `_ 15" NCDOT ROCK g�OQ D D - CLASS B RIPRAP 2" PVC SCH 40 WEEP HOLE 15 NCDOT � � a� � 3 SO — ° CLASS B RIPRAP o� v- p' ' o @ 30' O.C. MAX SPACING / ♦ 1 �� °�\ CONCRETE CURB `� oG�VO`� oQ " o ° 12 GRANULAR v - - ` �� OO ° ° ° MATERIAL 0 COMPACTED i v ♦ o o O O O D �0°p� v SUBGRADE 16 OZ/SY GEOTEXTILE ° '8" CONCRETE CC) 0 0 I 16 OZ/SY GEOTEXTILE I I 16 OZ/SY GEOTEXTILE / °p � / ' • . x D ° • ° ° • ° • HDPE ° 8" ' GCL 1 / EXISTING GRADE / ANCHOR TRENCH 12" GRANULAR `♦ / (SEE DETAIL THIS DWG) MATERIAL ♦� �/ NORTH COAL PILE RUNOFF BASIN BERM SECTION 16 OZ/SY GEOTEXTILE DETAIL NOT APPLICABLE 16 OZ/SY GEOTEXTILE SEE TYPICAL 4' FBD NOT TO SCALE TO DAM SAFETY REPORT SECTION ON DWG HDPE BLC00-CV-C-GR.SD-001 GCL SEE NOTE 1 75 LU m J U I 14' 16' TOP OF BERM DRIVING PIPE 6" TOPSOIL LANE CORRIDOR AND SEEDING 6" CRUSHED S=1.00% to 3 ROCK C 3 15" NCDOT CLASS B RIPRAP CONCRETE CURBp ��-- `♦ °�p -III = I' ♦� ♦ o0° — 16 OZ/SY GEOTEXTILE, — — OO 16 OZ/SY GEOTEXTILE 16 OZ/SY GEOTEXTILE 811 I ° ' pD °� HDPE EXISTING GRADE ANCHOR TRENCH / GCL (SEE DETAIL THIS DWG) 12" GRANULAR , MATERIAL i i _ WATFR RFTGAITlnK] RAQlKl FACT RGRM Ql=rTlr%M NOT TO SCALE E 106/29/171 WEG I BL I ISSUED FOR PERMITTING D 03/08/17 WEG BL ISSUED FOR PERMITTING C 11/18/17 WEG BL ISSUED FOR PERMITTING B 11/04/16 TMP BL ISSUED FOR REVIEW A 09/19/16 TMP BL ISSUED FOR REVIEW no. I date I by I ckd I description no. date I by I ckd Z:\Clients\ENR\DukeEnr\WtrRedirProg\88673—BelewsCreek\Design\Civil\Dwgs\Contract\Dam Permit\BLC00-CV-C-GR.SD-003.dgn 4 6" THICK CRUSHED ROCK SURFACING 16 OZ/SY GEOTEXTILE COMPACTED FILL NOTES: 1. SPACING IS SHOWN FOR CLARITY. RHINO TRIVIEW MARKER POST OR APPROVED EQUAL (66" POST, ORANGE COLOR) TOP OF SLOPE 16 OZ/SY GEOTEXTILE 16 OZ/SY GEOTEXTILE HDPE GCL 1..J 1 \ 1 1 I \!11 12" GRANULAR MATERIAL TYPICAL ANCHOR TRENCH DETAIL NOT TO SCALE NOTES (TYPICAL ANCHOR TRENCH DETAIL: 1. INSTALL MARKERS AT EVERY 50' ALONG EDGE OF LINER ANCHOR TRENCH. 2. STICKER ON MARKERS TO INDICATE "EDGE OF LINER". description I 5 6 i I 5' • �_11 _ •: 2' CONTINUOUS - #4 BARS bo t3 TIES @ 24" - N ?" PVC SCH 40 WEEP HOLE �P 30' O.C. MAX SPACING rr-r %,W, I L TYPICAL CONCRETE CURB NOT TO SCALE 7 8 I I 1" DIA X 16" LG GALV GRAINGER EYE BOLT (MODEL #N2010-12) CONCRETE CURB (SEE DETAIL THIS O DWG) PL 1 /2X2X0'-2 D ° 3/16 3 PTS D ° DAMAGE LAST THREAD D TO PREVENT REMOVAL TYPICAL TETHER DETAIL NOT TO SCALE TITLE PRELIMINARY - NOT FOR CONSTRUCTION BURNS N&MMONNELL 9400 WARD PARKWAY KANSAS CITY, MO 64114 816-333-9400 FIRM LICENSE NO. C-1435 rSlEa r Q� Q231-79 f Jun 29 2017 15:06:27 WATER REDIRECTION PROGRAM MISCELLANEOUS DETAILS SHEET 3 FOR BELEWS CREEK STEAM STATION U1 &2 DUKE W ENERGY® STOKES COUNTY, NC SCALE: NONE 5SKN0 DWG TYPE: CVL DO R: JOB NO: 88673 CHKD: BL DATE: 08/03/16 ENGR: TMP FILENAME: BLC00-CV-C-GR.SD-003.dgn APPD: WEG DWG SIZE DRAWING NO. REVISION ARCH El BLC00-CV-C-GR.SD-003 E 10/29/2017 sknichols 12:35:12 PM I GT C— F— I I I 2 3 4 5 6 7 8 0 �-A �-C �-D �E CULVERT SCHEDULE LINE LENGTH INVERT ELEV. INVERT LOCATION SLOPE IN END NO. FT. PERCENT SIZE TYPE CLASS SECT. QTY. UPPER LOWER UPPER LOWER ST-1 189 793.50 792.55 N 7 203.07 W 805.63 N 7,361.89 W 908.71 0.5 24" RCP IV 2 789.09 788.76ST-2 N 6,905.82 N 6,881.23106 0.3 24" RCP IV 2 W 975.94 W 1,078.56 ST-3 96 788.14 787.85 N N 5 0.3 18" RCP IV 2 W 474.91 474.91 W 515.83 15.830 ST-4 95 779.45 774.88 3 768. 0 N 3,859.58 4.8 30" RCP IV 2 E 864.47 E 837.04 ST-5 149 782.48 777.00 N 3,697.10 N 3,841.69 3.7 36" RCP IV EI E 908.66 E 945.86 J J MI SPILLWAY LO THICKENED EDGE U (SEE THIS DWG EL 778.00 FOR DETAIL) 50, 1 31 i EL 778.00 (TYP) / 12'-6'I / \ (TYP) 3 CIO NOT APPLICABLE DAM SAFETY REPORT #4@12"OCEW - EL 774.50 TRENCH SCHEDULE TRENCH ID LENGTH FT. TRENCH FLOOR ELEV. CL TRENCH LOCATION SIZE REMARKS UPPER LOWER UPPER LOWER WIDTH (X) DEPTH (Y) A 27 801.46' 801.29' N 6,942.90 W 1,538.34 N 6,936.36 W 1,564.53 30" 24" TRENWA XL B 33 801.33' 801.25' N 7,081.39 W 1,075.75 N 7,073.38 W 1,107.83 60" 24" TRENWA XL C NOT USED D SEE PLAN E NOT USED F 46 787.67' 787.67' N 6,884.31 W 1,015.34 N 6,839.96 W 1,004.27 72" 48" TRENWA XL G NOT USED H NOT USED I NOT USED J NOT USED Q J J I CI SPILLWAY THICKENED EDGE U (SEE THIS DWG EL 792.00 FOR DETAIL) 50' - - I 3' i "N EL 792.00 (TYP) / 12'-6" / \ (TYP) 10 1� D � D #4@12"OCEW - EL 791.00 SAWED JOINT (TYP) (SEE DWG BLC00-CV-C-GR.SD-001 FOR DETAIL) SECTION Q NOT TO SCALE EL 790.00 Q TOP OF BERM EL 790.00 SAWED JOINT (TYP) (SEE DETAIL ON DWG BLC00-CV-C-GR.SD-001) SECTION S NOT TO SCALE DETAIL NOT APPLICABLE TO DAM SAFETY REPORT H COMPACTED SUBGRADE \-8" CONCRETE (SEE NOTE 1 & 2) EL 774.50 SEE PLAN FOR LIMIT OF RIPRAP EL 773.50 BASIN STRUCTURE LINER CONNECTION (SEE DETAIL THIS DWG) OVO�voO O�` ' vo�o U�`�Ug�a EXTERIOR TOE °OpO�o° pO� 15" RIPRAP �� 08(0 0 EL 773.50 EL 773.50 0 0 0 0 J O E32 O ° ° 6" TOPSOIL �°O 0 �o °0 0 AND SEEDING S EL 774.50 EL774.50 _____ EL778.00-+----- IF-. -F D- -I- --�011------I EL778.00 i� 1 - I ----------- �� ---.- 1--art- -I-- -li EL 778.00 I . ° TOP OF BERM 1 1 D I I I j' ° 1 ° EL 778.00 -'-7------ EL 774.50 -- ---=1-�-- EL774.50 �- EL 773.50 w �V - - ' EL 773.50 15" RIPRAP INTERIOR TOE SAWED JOINT (TYP) (SEE DWG BLC00-CV-C-GR.SD-001 DETAIL NOT APPLICABLE FOR DETAIL) TO DAM SAFETY RE NORTH COAL PILE RUNOFF BASIN EMERGENCY SPILLWAY NOT TO SCALE EL 774.50- 3 1F 26' BATTEN STRIP EL 774.50 #4@12"OCEW 3 1 EL 773.50 HH - - 8" CONCRETE _ (SEE NOTE 1 & 2) - IIII .,I 00 COMPACTED OIL SUBGRADE STAINLESS STEEL O EXPANSION ANCHOR ' ° .. 16 OZ/SY GEOTEXTILE 15 RIPRAP 3/8" X 3-1/2" LONG ° D, o 16 OZ/SY GEOTEXTILE CONCRETE 16 OZ/SY GEOTEXTILE STRUCTURE HDPE ° GCL BATTEN STRIP SECTION rT NOT TO SCALE 16 OZ/SY GEOTEXTILE DETAIL NOT APPLICABLE HDPE TO DAM SAFETY REPORT 3" NEOPRENE GASKET CAULK BEAD OR COATING o ° 1/4" X 3" STAINLESS D 3" NEOPRENE GASKET o STEEL BATTEN STRIP ' D ' o ° STAINLESS STEEL WASHER STAINLESS STEEL ° EXPANSION ANCHOR (TYPE 304 AND 316) TYPICAL BASIN STRUCTURE/LINER CORNER DETAIL 3/8" X 3-1/2" LONG @ 6" OC NOT TO SCALE D D D ° D CONCRETE p ° STRUCTURE /° ° D . D ° D.. D O O D• BENTONITE W HDPE co 0 EL 774.00 EL 774.00 #4@12"OCEW 3 EL 773.00 1 11 _-_-%NHI, 1 III EL 773.00 8" CONCRETE O (SEE NOTE 1 & 2) BUILT IN SLACK oo n0 IIII COMPACTED I O� �°pO SUBGRADE -'� TYPICAL BASIN STRUCTURE/LINER CONNECTION DETAIL �O 16 OZ/SY GEOTEXTILE 15 RIPRAP O NOT TO SCALE NUT Iz � HDPE 16 OZ/SY GEOTEXTILE GCL BASIN STRUCTURE 16 OZ/SY GEOTEXTILE LINER CONNECTION 16 OZ/SY GEOTEXTILE (SEE DETAIL THIS DWG) HDPE GCL SECTION ry NOT TO SCALE Q J DETAIL NOT APPLICABLE 1 TO DAM SAFETY REPORT = 0 U SPILLWAY COMPACTED c� cn EL 774.00 _ _ _ EL - - - -1- _ _ _ THICKENED EDGE r - - - - _ _ D D - - - - - J SUBGRADE 1 = EL 775.00 D D I EL 775.00 U EL 775.00 w (SEE THIS DWG \-8" CONCRETE TRENCH FLOOR EL LU ° ° ° ✓ . DI. I.. D . ID. ° FOR DETAIL) 50' (SEE NOTE 1&2) CARIES (SEE SCHEDULE 1__._I___ ___________I 1 31 THIS DWG)EL 791.00 i -D_D - - � - , p- I D � pl I i i � _ _ � EL 775 00 (TYP) SEE PLAN FOR LIMIT OF RIPRAP Jv°Qo V� 18" NCDOT CLASS ,�u�O�O�u�O�� �OO�OO°00�, �OO OUP 1 RIPRAP > �oc>o O 0oc °ovOuO Q°OO� k (Oa O EL 791.00 EL 791.00 EL 792.00 D D I EL 792.00 COMPACTED SUBGRADE 16 OZ/SY GEOTEXTILE (TYP) CL TRENCH FINISH GRADE (SEE NOTE 1, 2, & 3) (SEE PLAN) HH I EL 773.00 o�w 41 SEE PLAN FOR LIMIT OF RIPRAP o oo OBK 15" RIPRAP O�o�o �C�o- nr�°n�� nr�°n�� ------ �n0� o 0� o °o ou � °o ou �00� EXTERIOR TOE -EL 773.00 -6" TOPSOIL AND SEEDING 12'-6" E775.00 I I EL 775.0 6" CRUSHED / \(TYP)10 o °o O A -� A ROCK TOP OF BERM °O EL 774.00 EL 774.00 _ 1 D 6" GRANULAR MATERIAL��,-- �.J SEE SCHEDULE THIS DWG EL 773.00 � EL 773.00 , _ - #4 @ 12" OC EW - _ 15" RIPRAP INTERIOR TOE SAWED JOINT (TYP) (SEE BLC00-CV-C-GR.SD-001 EL 774.00 EXTERIOR TOE TYPICAL PRECAST TRENWA TRENCH SECTION DETAIL NOT APPLICABLE FOR DETAIL) SAWED JOINT (TYP) -EL 790.00 NOT TO SCALE TO DAM SAFETY REPORT (SEE DWG BLC00-CV-C-GR.SD-001 -6" TOPSOIL NOTES: (PRECAST TRENWA TRENCH SECTION) SOUTH COAL PILE BASIN EMERGENCY SPILLWAY FOR DETAIL) SECTION U AND SEEDING NOT TO SCALE NOT TO SCALE 1. TRENCH CONCRETE SHALL BE TRENWA - TYPE AS INDICATED ON SCHEDULE - RATED FOR HS20 (32,000 LBS/AXLE) OR ENGINEER APPROVED EQUAL. ALL TRENCHES TO BE FURNISHED WITH REMOVABLE TOP EXISTING OR EXISTING OR CONCRETE SLABS FURNISHED BY TRENWA, INC. OR ENGINEER APPROVED EQUAL. INTERNAL WIDTH FINISH GRADE FINISH GRADE • I. I .. I . o,�° "X" AND INTERNAL HEIGHT "Y". END WALLS TO BE LOCATED AT EACH END OF TRENCH UNLESS _ _ _'L ° I _ _ _I_ - - - - - - - - _ _ _ _ _i ° OTHERWISE NOTED. TRENCH TO BE SEALED AND INSTALLED PER MANUFACTURER'S = _ _ _ _ _ _ = I = _ _ _ = I I- - - - D D D I D DI 1 RECOMMENDATION. - ----=i - I - i D . D � D I � I'�'- LU EIL 792.00 I ° I EL 792.�0 6" CRUSHED 2. SEE DWG BLC00-CV-C-GR.PL-002 FOR LOCATION. BACKFILL AS SPECIFIED o -IIII I BACKFILL AS SPECIFIED i - ROCK w w w EL 791.00 EL 791.00 _ 00 O° ° cy�C vl� O�O0 oO O0 ° 3. FOR SIDE BY SIDE TRENCHES WITH CLEARANCE LESS COMPACTED BACKFILL. THAN 2 -0 USE FLOWABLE FILL INSTEAD OF Q > Q > U r, O°i ° ° � ° 6 4 6 w TRENCH WIDTH EL 790.00 w cn AS SPECIFIED INTERIOR TOE 15" RIPRAP 21' SAWED JOINT (TYP) (SEE BLC00-CV-C-GR.SD-001 EL 791.00 EL 791.00 ° D , p FULLY ENCASE THE _ _ FOR DETAIL) #4 @ 12" OC EW D. o.' D 4" HDPE PIPE N - __ METALLIC TRACING TAPE 3 3 ° ° D ° 4" DIA HDPE (NOT APPLICABLE FOR CULVERTS) RETENTION BASIN EMERGENCY SPILLWAY EL 790.00 1 I I=1 I I 1 EL 790.00 _ HAND TAMPED PROTECTIVE NOT TO SCALE 15" RIPRAP - OBEDDING o p BACKFILL. EARTH OR NOTES) Uj - MATERIAL GRANULAR BEDDING 6" CRUSHED ROCK CONCRETE - 8" CONCRETE = RIPRAP - d GRANULAR BEDDING 16 OZ/SY GEOTEXTILE #4 REBAR @ 12" OC. EW. O IIII- (SEE NOTE 1 & 2) - O D.. D , D.. D o ° �° COMPACTED ° MATERIAL °pO SUBGRADE OB�o _ I I i0 � 04 COMPACTED SUBGRADE 0 16 OZ/SY GEOTEXTILE 8 I IIII ° . j- . °�1 =- ; _ III - � 16 OZ/SY GEOTEXTILE -- 1 BASIN STRUCTURE E TRENCH �`b CONCRETE ENCASED PIPE TRENCH NOTES: (PIPE TRENCH) NOT TO SCALE COMPACTED 16 OZ/SY GEOTEXTILE SUBGRADE (TYP) LINER CONNECTION 12" SPILLWAY THICKENED CONCRETE EDGE DETAIL NOT TO SCALE NOTES: (GENERAL) 1. CONCRETE SHALL HAVE 4,000 PSI COMPRESSIVE STRENGTH AT 28 DAYS. 2. REFER TO SPECIFICATIONS FOR CONCRETE INSTALLATION DETAILS. E 104/04/171 WEGI BL I ISSUED FOR PERMITTING D 03/08/17 WEG BL ISSUED FOR PERMITTING C 11/18/17 WEG BL ISSUED FOR PERMITTING B 11/04/16 TMP BL ISSUED FOR REVIEW A 09/19/16 TMP BL ISSUED FOR REVIEW no. I date I by I ckd I description Z:\Clients\ENR\DukeEnr\WtrRedirProg\88673_BelewsCreek\Design\Civil\Dwgs\Contract\Dam Permit\BLC00-CV-C-GR.SD-004.dgn (SEE DETAIL THIS DWG) HDPE NOT TO SCALE GCL 1. NOT APPLICABLE FOR PIPE INSTALLED THROUGH EMBANKMENT AND BERMS. SECTION rR NOTES: (CONCRETE ENCASED PIPE TRENCH) NOT TO SCALE 1. CONCRETE BEDDING SHALL HAVE A MIN COMPRESSIVE STRENGTH OF 4000 PSI. BACK FILLING OF TRENCH WILL NOT COMMENCE UNTIL CONCRETE HAS CURED A MIN OF 2 DAYS (48 HOURS). 2. PROVIDE CONCRETE BLOCKS EVERY 10' ALONG THE LENGTH OF PIPE TO SUPPORT PIPE AT REQUIRED ELEVATION AND SLOPE BEFORE POURING CONCRETE. 3. PROVIDE INTERMEDIATE PIPE ANCHORING TO PREVENT PIPE FROM FLOATING WHILE POURING CONCRETE. 4. CONCRETE SHALL BE RODDED BY HAND DURING PLACEMENT. F �06/29/17�WEG� BL ISSUED FOR PERMITTING no. date by I ckd description 4 5 6 7 8 i i I I I TITLE PRELIMINARY - NOT FOR CONSTRUCTION BURNS N&MEDONNELL 9400 WARD PARKWAY KANSAS CITY, MO 64114 816-333-9400 FIRM LICENSE NO. C-1435 0 COMPACTED SUBGRADE `8" CONCRETE (SEE NOTE 1 & 2) EL 774.00 itit1+1rfI.Ire. • '. -, ww v SEAL 0 2 317 $dP VVV s 40 Jun 29 2017 15 : 07: 3 8 WATER REDIRECTION PROGRAM MISCELLANEOUS DETAILS SHEET 4 FOR BELEWS CREEK STEAM STATION U1&2 DUKE ENEKGY® STOKES COUNTY, INC SCALE: NONE 5SKN0 DWG TYPE:: CVL DO R- JOB NO: 88673 CHKD: BL DATE: 03/30/16 ENGR: TMP FILENAME: BLC00-CV-C-GR.SD-004.dgn APPD: WEG DWG SIZE DRAWING NO. REVISION ARCH El BLC00-CV-C-GR.SD-004 F 10/29/2017 sknichols 12:37:11 PM GT C- F- T 2 T 3 T 4 T 5 a T 7 T 9 ON �_C �—D �—E �� BASIN PIPE PENETRATION ISOMETRIC DETAIL vu° 15" RIPRAP (TYP) NOT TO SCALE 3 oo� 1 12" GRANULAR MATERIAL TYP GCL HDPE LINER EXTRUSION WELD 16 OZ/SY GEOTEXTILE (SEE BASIN PIPE PENETRATION ISOMETRIC THIS DWG) o♦ D ♦ EXTRUSION WELD 1= _ — — D♦♦ PIPE 8" THICK REINFORCED ♦♦ CONCRETE SLAB (SEE NOTE 2) 1/2" STAINLESS STEEL BANDING � /— HDPE PIPE BOOT NEOPRENE GASKET PIPE WALL EXTRUSION WELD PIPE OUTLET GCL —/ HDPE LINER _-,— 8" CONCRETE (TYP) 3 1 D D 12" GRANULAR MATERIAL (TYP) EXTRUSION WELD 16 OZ/SY GEOTEXTILE (SEE BASIN PIPE PENETRATION ISOMETRIC THIS DWG) EXTRUSION WELD HH=HH PIPE %i 8" THICK REINFORCED ♦♦ ���Ii CONCRETE SLAB (SEE NOTE 2) 1/2" STAINLESS STEEL BANDING k /— HDPE PIPE BOOT NEOPRENE GASKET PIPE WALL EXTRUSION WELD PIPE OUTLET NOTES: (TYPICAL BASIN PIPE PENETRATION) NOTES: (PIPE PENETRATION OF 8" CONCRETE SPLASH PAD DETAIL) 1. STEEL TROWEL ALL CONCRETE SURFACES WITH ROUND CONCRETE CURB 1. STEEL TROWEL ALL CONCRETE SURFACES WITH ROUND AND SMOOTH EDGES. i I= oO AND SMOOTH EDGES. i I= _ D 2. REINFORCE CONCRETE SLAB WITH #4 REBAR @ 12" OC EW. ° a 2. REINFORCE CONCRETE SLAB WITH #4 REBAR @ 12" OC EW. ° BOTTOM OF BASIN BOTTOM OF BASIN 3. SEE PLAN DWG BLC00-CV-C-GR.PL-002. �^ �.. 3. SEE DWG BLC00-CV-C-GR.SD-003 FOR SLOPE LININGS. voo 4. SEE DWG BLC00-CV-C-GR.SD-003 FOR SLOPE LININGS. TYPICAL BASIN PIPE PENETRATION DETAIL PIPE PENETRATION OF 8" CONCRETE SPLASH PAD DETAIL ��'� f►If. NOT TO SCALE NOT TO SCALE 0- SEma i 0231-7 9 �f1l1i» Apr 13 2017 12:20:17 TITLE WATER REDIRECTION PROGRAM MISCELLANEOUS DETAILS PRELIMINARY -NOT SHEET 5 FOR CONSTRUCTION FOR BELEWS CREEK STEAM STATION U1&2 BURNS SCALE: NONE CON: 5.8120 �MEDONNELL DUKE DWG TYPE: CVL DFTR: SKN ENERGY® JOB NO: 88673 CHKD: BL 9400 WARD PARKWAY DATE: 02/15/17 ENGR: TMP B 04/13/17 WEG BL ISSUED FOR PERMITTING KANSAS CITY, MO 64114 STOKES COUNTY, NC U 816-333-9400 FILENAME: BLC00-CV-C-GR.SD-005.dgn APPD: WEG A 03/08/17 WEG BL ISSUED FOR PERMITTING FIRM LICENSE NO. C-1435 DWG SIZE DRAWING NO. + REVISION ARCH E1 BL�'+���C\/�i+�GR.�7D�OO5 B no. I date I by I ckd I description no. date by ckd description 30.0"x42.0" v V v Z:\Clients\ENR\DukeEnr\WtrRedirProg\88673_BelewsCreek\Design\Civil\Dwgs\Contract\Dam Perm1t\BLC00-CV-C-CR.SD-005.dgn 4 5 6 7 8 9 1®/13/2017 sknichols 10:06:10 AM i i I I I I I FC C__� D--� F--� 2 3 4 5 6 7 8 9 WE .0 14 SU TRAFFIC RATED STEEL PROTECTIVE COVER LOCKING WATERTIGHT CAP —\ A MIN 4" PIEZOMETER BOREH fREINFORCED CONCRETE PAD FACE O Z w w N — — — — PIEZOMETER CEMENT -BEN — GROUT — — 3.0' (MIN) BEN — FILTER PACK — 1.5' ABOVE S( — — 1.0' BELOW Si — — SCREEN SEE — INSTALLATIOI (10-SLOT 0.01 __ — — -- — — — — — — -- 1" (MIN) TYPICAL FLUSH. -MOUNT CONSTRUCTION DIAGRAM (TYPE A) NOTES: NOT TO SCALE 1. MINIMUM DEPTH AS REQUIRED TO MAINTAIN TOP OF SCREEN ELEVATION AT ELEVATION ACCORDING TO INSTALLATION TABLE AND MINIMUM SEAL ABOVE SCREEN; WHICHEVER IS LOWER. BOLLARD (TYP)--\ STEEL PROTECTIVE COVER LOCKING WATERTIGHT CAP SURFACE p REINFORCED — — CONCRETE P) N P P D D MIN 4" PIEZON — _ BOREHOLE — — — 1" (MIN) PIEZ( — p — — — — CEMENT -BE Z GROUT — w - — — U) — — — — — — — — — 3.0' (MIN) BI -- — FILTER PAC — — — 1.5' ABOVE — — — — 1.0' BELOW — — — SCREEN (S INSTALLATI — (10-SLOT 0. TYPICAL CONSTRUCTION DIAGRAM (TYPE B) NOT TO SCALE A 104/17/171WEG� BL I ISSUED FOR PERMITTING no. I date I by I ckd description NOTES: 1. COORDINATES BASED ON NORTH CAROLINA STATE PLANE NAD83. VERTICAL DATUM BASED ON PLANT DATUM. no. I date I by I ckd description PLANT GRID STATE PLANE NORTH NORTH Angle (390 59' 56.753460") 0 100, 200' NORTH SCALE IN FEET TITLE PRELIMINARY - NOT FOR CONSTRUCTION FOR BURNS &MEDONNELL 9400 WARD PARKWAY KANSAS CITY, MO 64114 816-333-9400 FIRM LICENSE NO. C-1435 IF WATER REDIRECTION PROGRAM WATER RETENTION BASIN PIEZOMETER PLAN STATE PLANE BELEWS CREEK A-011 ft� i DUKE w ENE RGY, 1 STOKES COUNTY, NC SCALE: 1" = 100' CON: WEG DWG TYPE: CVL DFTR: SKN JOB NO: 88673 CHKD: BL DATE: 03/23/16 ENGR: WEG FILENAME: 88673SKC008.DGN APPD: DWG SIZE DRAWING NO. REVISION ARCH E1 30.0"x42.0" S KC 008 A . m i4-7 inn-1-7 i, ti i 7-n-7 A F oke RAM I_=3i C- F- T 2 T 3 T 4 T 5 T 6 T 7 T 9 I1 C•? f�7 E U z E 12/27/17 1 ZSC I JAB IISSUED FOR PRICING D 1 1/30/17 1 ZSC I JAB IISSUED WITH ADDENDUM NO. 1 C 1 12/9/16 1 ZSC I JAB IISSUED FOR BID B 1 11 /4/16 I ZSC A 1 9/19/16 1 ZSC ISSUED FOR OWNER REVIEW ISSUED FOR OWNER REVIEW RETENTION BASIN AND HOLDING BASIN SITE PLAN NOT TO SCALE TRUE NORTH 39°59'46" PLANT NORTH COAL PILE RUNOFF BASIN NOT TO SCALE TRUE NORTH 39°59'46" PLANT NORTH ORETENTION BASIN INTERMEDIATE WEIR STRUCTURE - SEE DWG BLC00-CD-K-YM.00.PL-002 OPRIMARY BASIN INLET STRUCTURE - SEE DWG BLC00-CD-K-YM.00.PL-003 ORETENTION BASIN EFFLUENT STRUCTURE - SEE DWG BLC00-CD-K-YM.00.PL-004 OHOLDING BASIN OVERFLOW STRUCTURE - SEE DWG BLC00-CD-K-YM.00.PL-005 OHOLDING BASIN CHEMICAL FEED BUILDING, PCM, AND TRANSFORMER - SEE DWG BLC00-CD-K-YM.00.PL-006 0 OCAUSTIC STORAGE TANK - SEE DWG BLC00-CD-K-YM.00.PL-007 OHOLDING BASIN VACUUM TRUCK UNLOADING PAD - SEE DWG BLC00-CD-K-YM.00.PL-008 OHOLDING FLOATING SUCTION PUMPS - SEE DWG BLC00-CD-K-YM.00.PL-009 OCOAL PILE RUNOFF SUMP - SEE DWG BLC00-CD-K-YM.00.PL-015 OWATER REDIRECTION SUMP - SEE DWG BLC00-CD-K-YM.00.PL-016 OSOUTH COAL PILE RUNOFF SUMP - SEE DWG BLC00-CD-K-YM.00.PL-017 0 (L) HOLDING BASIN INLET TRENCH - SEE DWG BLC00-CD-K-YM.00.PL-010 r ( EAST HOLDING BASIN TRENCH END BOX AND END WALL - SEE DWG BLC00-CD-K-YM.00.PL-011 0 ON WEST HOLDING BASIN TRENCH END BOX - SEE DWG BLC00-CD-K-YM.00.PL-011 OP INLET STRUCTURE TRENCH END BOXES - SEE DWG BLC00-CD-K-YM.00.SD-015 TRUE NORTH 39°59'46" SOUTH COAL PILE RUNOFF BASIN NOT TO SCALE PLANT NORTH NOTES: 1. SEE DRAWINGS BLC00-CD-K-YM.00.SD-001 THROUGH BLC00-CD-K-YM.00.SD-007 FOR STANDARD CONCRETE DETAILS AND GENERAL NOTES. 2. SEE CIVIL DRAWINGS FOR FINAL GRADE DETAILS AND ELEVATIONS. 3. SEE CIVIL DRAWING BLC00-CV-C-GR.PL-002 FOR PRECAST TRENCH LOCATIONS. FOR BID - NOT FOR CONSTRUCTION BURNS �MSDONNELL 9400 WARD PARKWAY KANSAS CITY, MO 64114 816-333-9400 FIRM LICENSE NO. C-1435 Mar 8 2017 TITLE WATER REDIRECTION PROGRAM RETENTION AND HOLDING BASIN FOUNDATIONS SITE PLAN FOR BELEWS CREEK STEAM STATION U 1 & 2 SCALE: AS DUKE DWG TYPE: FDONWN DFOTR: 5.8120 KRH 4� ENERGY® JOB NO: 88673 CHKD: JAB STOKES COUNTY, NC DATE: 9/19/16 ENGR: ZSC FILENAME: BLC00-CD-K-YM.00.PL-001.dwg APPD: DWG SIZE DRAWING NO. REVISION A� C� D� F no. I date by I ckd description no. date by ckd 4 description 5 i 6 1 7 1 9 1 ARCH El BLC00-CD-K-YM.00.PL-001 10 E C 0 E 4 5 6 7 8 9 10 Z:\CLIENTS\ENR\DUKEENR\WTRREDIRPROG\88673_BELEWSCREEK\DESIGN\STRUC\CAD\8120-RETENTION BASINS\BLC00-CD-K-YM.00.PL-002.DWG 1/27/2017 4:24 PM ERCACIA i i I L C 0 E 4 5 6 7 8 9 10 ZACLIENTS\ENR\DUKEEN R\WTRREDIRPROG\88673_BELEWSCREEK\DESIGN\STRUC\CAD\8120-RETENTION BASINS\BLC00-CD-K-YM.00.PL-003.DWG 2/27/2017 9:34 AM KHAMPEL i i I L C 0 E 4 5 6 7 8 9 10 Z:\CLIENTS\ENR\DUKEENR\WTRREDIRPROG\88673_BELEWSCREEK\DESIGN\STRUC\CAD\8120-RETENTION BASINS\BLC00-CD-K-YM.00.PL-004.DWG 2/23/2017 11:06 AM KHAMPEL i i I L C 0 E 4 5 6 7 8 9 10 ZACLIENTS\ENR\DUKEEN R\WTRREDIRPROG\88673_BELEWSCREEK\DESIGN\STRUC\CAD\8120-RETENTION BASINS\BLC00-CD-K-YM.00.PL-005.DWG 2/24/2017 3:21 PM RWILCOX i i I L C 0 E 4 5 6 7 8 9 10 ZACLIENTS\ENR\DUKEEN R\WTRREDIRPROG\88673_BELEWSCREEK\DESIGN\STRUC\CAD\8120-RETENTION BASINS\BLC00-CD-K-YM.00.PL-008.DWG 1/25/2017 9:15 AM KHAMPEL i i I L C 0 E 4 5 6 7 8 9 10 ZACLIENTS\ENR\DUKEEN R\WTRREDIRPROG\88673_BELEWSCREEK\DESIGN\STRUC\CAD\8120-RETENTION BASINS\BLC00-CD-K-YM.00.PL-009.DWG 1/25/2017 8:48 AM KHAMPEL i i I C 0 E 4 5 6 7 8 9 10 Z:\CLIENTS\ENR\DUKEENR\WTRREDIRPROG\88673_BELEWSCREEK\DESIGN\STRUC\CAD\8120-RETENTION BASINS\BLC00-CD-K-YM.00.PL-010.DWG 2/27/2017 11:02 AM KHAMPEL i i I C 0 E 4 5 6 7 8 9 10 Z:\CLIENTS\ENR\DUKEENR\WTRREDIRPROG\88673_BELEWSCREEK\DESIGN\STRUC\CAD\8120-RETENTION BASINS\BLC00-CD-K-YM.00.PL-011.DWG 2/27/2017 8:40 AM KHAMPEL i i I r`1 LZI C E 2 3 4 5 6 7 8 9 GENERAL NOTES AND ABBREVIATIONS: (APPLICABLE TO ALL DRAWINGS) 1. ITEMS WHICH ARE TO BE FURNISHED AND INSTALLED BY SEPARATE TYPICAL REINFORCING NOTES: TYPICAL REINFORCING NOTES: CONTRACTS ARE IDENTIFIED AND LABELED FOR EACH CONTRACT. 1. REINFORCING BAR DEVELOPMENT AND LAP SPLICE LENGTHS SHALL 1. REINFORCING BAR DEVELOPMENT AND LAP SPLICE LENGTHS SHALL 2. SPLICES AT FLOOR SLAB (UNLESS NOTED OTHERWISE): BE AS SHOWN IN THESE TABLES UNLESS NOTED OTHERWISE ON BE AS SHOWN IN THESE TABLES UNLESS NOTED OTHERWISE ON TOP BARS NEAR MID SPAN THE DRAWINGS THE DRAWINGS BOTTOM BARS - OVER SUPPORTS 2 THE LENGTHS SHOWN IN THE TABLE ARE BASED ON THE FOLLOWING 3. CONCRETE COVER FOR REINFORCING (UNLESS NOTED OTHERWISE): A. CAST AGAINST AND PERMANENTLY EXPOSED TO EARTH = 3" B. EXPOSED TO EARTH OR WEATHER: #6 THRU #18 BARS = 2" #5 BARS, 5/8" WIRE AND SMALLER = 1 1/2" C. NOT EXPOSED TO EARTH OR WEATHER: I. SLABS, WALLS, AND JOISTS: #8 AND LARGER BARS = 1 1/2" #6 AND #7 BARS = 1" #5 AND SMALLER BARS = 3/4" II. BEAMS, GIRDERS, AND COLUMNS: PRIMARY REINFORCEMENT, TIES, STIRRUPS AND SPIRALS = 1 1/2" 4. MINIMUM CLEAR SPACING BETWEEN PARALLEL BARS IN A LAYER INCLUDING SPLICE BARS, SHALL NOT BE LESS THAN: 2. THE LENGTHS SHOWN IN THE TABLE ARE BASED ON CONCRETE COVERAGE >_ 1 1/2" AND REINFORCING C-C SPACING >_ 4". 3. TOP BARS ARE DEFINED AS HORIZONTAL REINFORCEMENT PLACED SUCH THAT MORE THAN 12" OF FRESH CONCRETE IS CAST IN THE MEMBER BELOW THE DEVELOPMENT LENGTH OR SPLICE. 4. THE DEVELOPMENT AND SPLICE LENGTHS SHOWN SHALL NOT APPLY IF ANY OF THE FOLLOWING CONDITIONS OCCUR: A. f'c < 5000 psi B. fy > 60,000 psi C. THE COVER OR C-C BAR SPACING IS NOT AS LISTED ABOVE. D. LIGHT WEIGHT CONCRETE IS USED. 5. WHERE BAR SPLICES ARE STAGGERED SUCH THAT ONE-HALF OR -A - LESS OF TOTAL REINFORCEMENT IS SPLICED WITHIN REQUIRED LAP LENGTH, SPLICE LENGTH MAY EQUAL DEVELOPMENT LENGTH. 6. CENTER TO CENTER SPACING (S) IS DEFINED AS BELOW A. FOR COLUMNS AND PEDESTALS: E. LIGHT WEIGHT CONCRETE IS USED. I. THE DIAMETER OF THE BAR TIMES 1.5 5. WHERE BAR SPLICES ARE STAGGERED SUCH THAT ONE-HALF OR 40 lisil • MAIN REINFORCING II. 1 1/2" LESS OF TOTAL REINFORCEMENT IS SPLICED WITHIN REQUIRED o • o LAPPED REINFORCING LAP LENGTH, SPLICE LENGTH MAY EQUAL DEVELOPMENT LENGTH. III. 1.33 TIMES THE MAXIMUM AGGREGATE SIZE 6. CENTER TO CENTER SPACING (S) IS DEFINED AS BELOW • • B. FOR ALL OTHER BARS: I. THE DIAMETER OF THE BAR VIS11 • MAIN REINFORCING II. 1" III. 1.33 TIMES THE MAXIMUM AGGREGATE SIZE O • o LAPPED REINFORCING 5. CONCRETE REINFORCING DEVELOPMENT AND LAP SPLICE LENGTHS, • • HOOKED BAR EMBEDMENT LENGTHS, AND CONCRETE REINFORCING DETAILS FOR WALL CORNERS AND INTERSECTIONS AS SHOWN ON THIS DRAWING ARE APPLICABLE TO ALL DRAWINGS UNLESS OTHERWISE INDICATED. 6. ALLOWABLE BEARING PRESSURE OF 1500 PSF. GENERAL NOTES: (APPLICABLE TO THIS DRAWING) REINFORCING DEVELOPMENT AND SPLICES f'c = 4000psi BAR SIZE DEVELOPMENT LENGTH SPLICE LENGTH OTHER TOP OTHER TOP #3 1'-3" 1'-7" 1'-7" 2'-0" #4 1'-7" 2'-1" 2'-1" 2'-8" #5 2'-0" 2'-7" 2'-7" 3'-4" #6 2'-5" 3'-1" 3'-1" 4'-0" #7 3'-6" 4'-6" 4'-6" 5'-10" #8 4'-0" 5'-2" 5'-2" 6'-8" #9 4'-6" 51- 1 0" 51- 1 0" 7'-7" #10 51- 1 " 6'-7" 6'-7" 8'-6" #11 5'-7" 7'-3" 7'-3" 9'-511 ALL DETAILS AND NOTES ON THIS DRAWING ARE BURNS & McDONNELL STANDARDS WITHOUT RESPECT TO CONTRACTS. USE ONLY THOSE DETAILS AS CALLED FOR ON PLANS, SPECIFIED, OR AS REQUIRED TO ACCOMPLISH THE WORK. ABBREVIATIONS: AA - ALUMINUM ASSOCIATION FAB - FABRICATE PED - PEDESTAL AB - ANCHOR BOLT FD - FLOOR DRAIN PEN - PENETRATE ABT - ABOUT FDN - FOUNDATION PERP - PERPENDICULAR ACI - AMERICAN CONCRETE FF - FAR FACE PJTN - PROJECTION INSTITUTE FL - FLOOR PL - PLATE ADH - ADHESIVE FLG - FLANGE PREFAB - PREFABRICATED DEVELOPMENT LENGTHS HOOKED BARS (f'c = 4000psi) BAR SIZE LENGTH OR MIN EMBEDMENT #3 7" #4 10" #5 1 '-0" #6 1 '-3" #7 1 '-5" #8 1 '-7" #9 1'-10" #10 2'-0" #11 2'-3" CONCRETE COVERAGE AND REINFORCING C-C SPACING: BEAMS OR COLUMNS: COVER = 1.0bd (BAR DIAMETER) CENTER TO CENTER (C-C) SPACING = 2.Obd ALL OTHERS: COVER = 1.0bd CENTER TO CENTER (C-C) SPACING >_ 3.Obd 3. TOP BARS ARE DEFINED AS HORIZONTAL REINFORCEMENT PLACED SUCH THAT MORE THAN 12" OF FRESH CONCRETE IS CAST IN THE MEMBER BELOW THE DEVELOPMENT LENGTH OR SPLICE. 4. THE DEVELOPMENT AND SPLICE LENGTHS SHOWN SHALL NOT APPLY IF ANY OF THE FOLLOWING CONDITIONS OCCUR: A. f'c < 4000 psi B. fy > 60,000 psi C. THE COVER OR C-C BAR SPACING IS NOT AS LISTED ABOVE. D. THE REINFORCING STEEL IS EPDXY COATED. EPDXY COATED REINFORCING DEVELOPMENT AND SPLICES f'c = 5000psi BAR SIZE DEVELOPMENT LENGTH SPLICE LENGTH OTHER TOP OTHER TOP #3 1'-0" 1'-1 " 1'-3" 1'-5" #4 1'-4" 1'-6" 1'-8" 1'-11" #5 1'-8" 1'-10" 2'-1" 2'-4" #6 1 '- 1 1 " 2'-2" 2'-6" 21- 1 0" #7 3'-2" 3'-7" 4'-2" 4'-8" #8 4'-0" 4'-6" 5'-3" 5'-10" #9 5'-1" 5'-9" 6'-7" 7'-5" #10 6'-5" 7'-311 1 8'-511 1 9'-511 #11 7'-11" 8'-1111 1 10'-4" 1 11'-6" z w 0 co 2 w HOOKED BAR w w a U a z - Q J J a _U Q J J a � U) a ° ° w w a w I- d ° ° d u) O_� ° ° z a a d 0 � 7t� DETAIL 1 DETAIL 2 EPDXY COATED DEVELOPMENT LENGTHS HOOKED BARS (f'c = 5000psi) BAR SIZE LENGTH OR MIN EMBEDMENT #3 8" #4 lift #5 1'-1 " #6 1 '-4" #7 1'-6" #8 1'-9" #9 1'-11" #10 2'-2" #11 2'-5" B z w 0 w HOOKED BAR w w a a U z - _U Q J J a Q J J a U) co a a w � ° co O d ° ° z Q 4 • DETAIL 1 DETAIL 2 AGGR - AGGREGATE FNSH - FINISH PSF POUNDS PER SQUARE AHR - ANCHOR FS - FAR SIDE FOOT AISC - AMERICAN INSTITUTE OF FT - FEET PSI - POUNDS PER SQUARE STEEL CONSTRUCTION FUT - FUTURE INCH m m 2 DEVELOPMENT LENGTH NOTES: C AISI - AMERICAN IRON AND GA - GAGE PVC - POLYVINYL CHLORIDE O L� DEVELOPMENT LENGTH NOTES: O w STEEL INSTITUTE CRITICAL O N z CRITICAL O N GALV - GALVANIZE R - RISER w SECTION Q 1. WHERE DRAWINGS ARE DETAILED SIMILAR TO DETAIL 2, EXTEND w SECTION Q T_ 1. WHERE DRAWINGS ARE DETAILED SIMILAR TO DETAIL 2, EXTEND AL - ALUMINUM J J ALTN - ALTERNATE GND - GROUND RAD - RADIUS � cv THE EMBEDMENT LENGTH SUCH THAT THE HOOKED BAR 0 N THE EMBEDMENT LENGTH SUCH THAT THE HOOKED BAR GR - GUARDRAIL RD - ROOF DRAIN X Q� CONTACTS THE LAYER OF MAIN REINFORCING SHOWN. X � CONTACTS THE LAYER OF MAIN REINFORCING SHOWN. ANSI - AMERICAN NATIONAL GRTG - GRATING REF - REFERENCE O O O O STANDARD INSTITUTE z 2. EMBEDMENT LENGTHS IN CHART ARE TYPICAL EXCEPT AS NOTED z 2. EMBEDMENT LENGTHS IN CHART ARE TYPICAL EXCEPT AS NOTED APPROX - APPROXIMATE H - HIGH REINF - REINFORCE J IN DETAIL 2, OR AS INDICATED ON DRAWINGS. uj IN DETAIL 2, OR AS INDICATED ON DRAWINGS. ARCH - ARCHITECT HEX - HEXAGON READ - REQUIRED ASTM - AMERICAN SOCIETY FOR HK - HOOK REV - REVISION TESTING OF MATERIALS HORIZ - HORIZONTAL RM - ROOM HPT - HIGH POINT S - SOUTH 12 x DIA OF BAR RADIUS OF HOOK: 12 x DIA OF BAR RADIUS OF HOOK: AWS - AMERICAN WELDING HR - HANDRAIL SC - SLIP CRITICAL 4 x DIA OF BAR - #3 TO #8 BARS 4 x DIA OF BAR - #3 TO #8 BARS SOCIETY HS - HIGH STRENGTH SCHED - SCHEDULE 5 x DIA OF BAR - #9 TO #11 BARS 5 x DIA OF BAR - #9 TO #11 BARS BC - BOLT CIRCLE IBC - INTERNATIONAL SE - SOUTHEAST 6 x DIA OF BAR - #14 & #18 BARS 6 x DIA OF BAR - #14 & #18 BARS BETW - BETWEEN SECT - SECTION BLDG - BUILDING BUILDING CODE SH - SHEET BM - BEAM ID - INSIDE DIAMETER BOS - BOTTOM OF STEEL IF - INSIDE FACE SIM - SIMILAR INTR - INTERIOR SLP - SLOPE TYPICAL REINFORCING DEVELOPMENT AND SPLICES TYPICAL REINFORCING DEVELOPMENT AND SPLICES BOT - BOTTOM INVT - INVERT SLV - SLEEVE (UNCOATED) (EPDXY COATED) BRG - BEARING SP - SPACE BRKT - BRACKET JT - JOINT SPEC - SPECIFICATION C/C - CENTER TO CENTER KB - KNEE BRACE SQ - SQUARE CAP - CAPACITY KPL - KICK PLATE SST - STAINLESS STEEL CF - CUBIC FEET KSI - KIPS PER STD - STANDARD D CHKR - CHECKER SQUARE INCH STIF - STIFFENER STD 90 DEG STD 90 DEG CIR - CIRCLE STIR - STIRRUP LAP SPLICE LAP SPLICE STD 90 DEG CJ - CONSTRUCTION JOINT L - LONG STL - STEEL HOOK (UNO) HOOK (UNO) DOWEL LAP SPLICE HOOK (UNO) DOWEL TYP LAD - LADDER CORNER REINFORCEMENT NOTES: CL - CENTER LINE LB - POUND STR STRAIGHT �1 L T CLJ - CONTROL JOINT LL - LIVE LOAD STRL - STRUCTURAL ° ° d ° d ° d 1. UNLESS OTHERWISE INDICATED, THE CONTRACTOR HAS d �d ° d ° THE OPTION OF REINFORCING CORNERS IN ACCORDANCE CLR - CLEAR LLH - LONG LEG HORIZONTAL STRUC - STRUCTURE ° ° d ° d d d ° CMU - CONCRETE MASONRY LLV - LONG LEG VERTICAL SW - SOUTHWEST d d d w ° d d a ° WITH OPTION #1 OR OPTION #2. UNIT LLV - LINTEL SYMM - SYMMETRICAL ° a U d d d ° ° d 2. UNLESS OTHERWISE INDICATED, THE CONTRACTOR HAS CO - CONCRETE OPENING LONG - LONGITUDINAL T - TREAD ° J a w THE OPTION OF CONSTRUCTING INTERSECTIONS WITH COL - COLUMN LPT - LOW POINT T&B - TOP & BOTTOM d 7__ZVERT REINF ° a U ° d JT Uw OR WITHOUT CONSTRUCTION JOINTS. REINFORCE PER CONC - CONCRETE LS - LAP SPLICE TEMP - TEMPORARY NOTSHOWN d J aQ APPLICABLE DETAIL. CONN - CONNECTION MATL - MATERIALTHD - THREAD ° cn ° HORIZ REINFU) J a 3. 4, INDICATES CONTRACTOR OPTION: WITH OR WITHOUT CONT - CONTINUOUS THK - THICK ° VERT REINF NOT SHOWN °° CONTR - CONTRACT MAX - MAXIMUM d VERT REINF VERT REINF HORIZ REINF LAP SPLICE AT THESE LOCATIONS. COORD - COORDINATE MECH - MECHANICAL THRU - THROUGH NOT SHOWN NOT SHOWN NOT SHOWN NOT SHOWN COR - CORNER MEZZ - MEZZANINE TOB - TOP OF BOLT MFR - MANUFACTURER TOC - TOP OF CONCRETE PLAN PLAN CRSI - CONCRETE REINFORCING MH - MANHOLE TOG - TOP OF GRATING OPTION #1 OPTION #2 PLAN PLANELEVATIONELEVATION STEEL INSTITUTE CTR CENTER MIN - MINIMUM TOS - TOP OF STEEL WITHOUT CJ WITH CJ - MISC - MISCELLANEOUS TRD - TREAD STD 90 DEG CY - CUBIC YARD TYP - TYPICAL STD 90 DEG LAP STD 90 DEG DBL - DOUBLE MK - MARK LAP SPLICE LAP SPLICE HOOK (UNO) HOOK (UNO) DOWEL TYP DET - DETAIL N - NORTH UNO - UNLESS NOTED OTHERWISE CORNER BAR SPLICE HOOK (UNO) DOWEL NA - NOT APPLICABLE VAR - VARIESI r L DIA - DIAMETER ° a a L < DIAG - DIAGONAL NE - NORTHEAST VERT - VERTICAL d d ° ° t/4- °w°d°°DIM - DIMENSION NF - NEAR FACE �/ - WESTDK - DECKING NIC - NOT IN CONTRACT W - WIDE ° ° ° a d ° ° d �i I a FloDL - DEAD LOAD NO - NUMBER W/ - WITH c�DN - DOWN W/O - WITHOUT ° NOM - NOMINAL a w STD 90 STD 90 Q a w wDWG - DRAWING NS - NEAR SIDE Wp - WIDTH aDWL - DOWEL NTS - NOT TO SCALE�/P - WORK POINTWHERE JWHERE a Q J DEG HOOK DEG HOOK J ° Q d a U a U tl� E - EAST NW - NORTHWEST WT - WEIGHT ND CATED ND CATED d ° VERT REINF �J�J�� OC - ON CENTER WWF - WELDED WIRE FABRIC ° VERT REINF NOT SHOWN VERT REINF HORIZ REINF srzALEA - EACH d VERT REINF dED - EQUIPMENT DRAIN OD - OUTSIDE DIAMETER NOT SHOWN NOT SHOWN NOT SHOWN NOTSHOWN HORIZ REINF F ; EF - EACH FACE OF _ OUTSIDE FACE NOTSHOWNdh ++.. + ; EJ - EXPANSION JOINT OPNG OPENING PLAN PLAN PLAN PLAN04. OPP - OPPOSITE ELEVATION ELEVATION * i l �* R� EL - ELEVATION OPTION #1 OPTION #2 WITHOUT CJ WITH CJ ELEC - ELECTRICAL OSHA - OCCUPATIONAL to# y 5.%k% ELEV - ELEVATOR SAFETY AND HEALTH P EMBED - EMBEDMENT ADMINISTRATION HORIZONTAL WALL REINFORCEMENT DETAILS HORIZONTAL WALL REINFORCEMENT DETAILS VERTICAL WALL TO SLAB CORNER, EQ - EQUAL OZ - OUNCE CORNERS INTERSECTIONS AND INTERSECTION REINFORCEMENT DETAILS z EQ SP - EQUALLY SPACED SEE CORNER REINFORCEMENT NOTE 1 SEE CORNER REINFORCEMENT NOTE 2 SEE CORNER REINFORCEMENT NOTE 3 } EQUIP - EQUIPMENT Mar 8 2017 z EQUIV - EQUIVALENT EXIST - EXISTING F TITLE EXP EXPANSION WATER REDIRECTION PROGRAM _ z EXT FOR BID -NOT EXTERIOR STANDARD REINFORCEMENT DETAILS RETENTION AND HOLDING BASIN EW - EACH WAY w FOR CONSTRUCTION FOUNDATIONS w z STANDARD DETAILS w SHEET 1 J z FOR z BELEWS CREEK STEAM STATION U1 &2 O BURNS SCALE: AS SHOWN CON: 5.8120 06 ` M c DO N N E L L DUKE DWG TYPE: FDN DFTR: KRH ENEW(m.7" YF C 12/9/16 ZSC JAB ISSUED FOR BID JOB NO: 88673 CHKD: JAB co9400 WARD PARKWAY STOKES COUNTY, NC DATE: 9/19/16 ENGR: ZSC o B 11/4/16 ZSC - ISSUED FOR OWNER REVIEW KANSAS CITY, MO 64114 APPD: 0 816-333-9400 FILENAME: BL 00- D-K-YM.00. D-001.dwg A 9/19/16 ZSC - ISSUED FOR OWNER REVIEW FIRM LICENSE NO. C-1435 DWG SIZE DRAWING NO. REVISION ARCH El o no. I date I by I ckd I description no. I date I by I ckd I description 300"42.0" BLC00-CD-K-YM.00.SD-001 C U 4 5 6 7 8 9 10 Z:\CLIENTS\ENR\DUKEENR\WTRREDIRPROG\88673_BELEWSCREEK\DESIGN\STRUC\CAD\8120-RETENTION BASINS\BLC00-CD-K-YM.00.SD-001.DWG 11/30/2016 10:11 AM KHAMPEL i i r`1 LZI C E 2 3 4 5 6 7 8 9 GENERAL NOTES: 1. ALL DETAILS AND NOTES ON THIS DRAWING ARE BURNS & McDONNELL STANDARDS WITH OUT RESPECT TO CONTRACTS. USE ONLY THOSE DETAILS AS CALLED FOR ON PLANS, SPECIFIED OR AS REQUIRED TO ACCOMPLISH THE WORK. 2. ITEMS WHICH ARE TO BE FURNISHED AND INSTALLED BY SEPARATE CONTRACTS ARE IDENTIFIED AND LABELED FOR EACH CONTRACT. 3. REFER TO GUARDRAIL DETAILS ON OTHER DRAWINGS. EDGES WITH GUARDRAIL DEFINED AS FOLLOWS: EDGE TYPE W/ GR-GUARDRAIL TYPE 1 1/2" 1411 z Cl) 3'-0" 1 /2" DIA x 4" LG O 1/4" BAR ALL < z 1 /4" 6" 1'-0" 1'-6" HEADED STUDS @ 18" OC z CO co 1/4 GAP SEE NOTE 2 AROUND FRAME TYP p U SEE NOTE 2 L3x3x1/4 Q z PL 1/4"x"T" ~ A SLAB N 0� Y - 1/4" GRATING OR CHECKERED PLATEL ° I O c� = 3/16 2-12° ° z ~ N ° 1/2" DIA x 4" HEADED wp p �Xr47�_Z STUDS AT 18" OC o z LJ7 L2x2x1/4 ANGLE FRAME J 06 PL 1/4" a 1/2" DIA x 4" ~ L2x2x1/4 ° 1-6 ° = I c� 1/2" DIA x 4" L2x2x1/4 v HEADEDA1"OCSTUDS DIMS ON PLANS ARE TO _ HEADED STUDS 1/2 12 DIMS ON PLANS ARE TO 1/2 DIA x 4 HEADED INSIDE FACE OF CONCRETE c� (OMIT LOWER STUDS AT 18" OC N - - - STUDS AT 18" OC FOR "T" LESS THAN 8") PL 1/4" INSIDE FACE OF CONCRETE CE-7 DIMS ON PLANS ARE TO N*40 INSIDE FACE OF CONCRETE 1/2" DIA x 4" HEADED CE-6 NOTES: C STUDS AT 18" OC C_ WITH KICK PLATE (OMIT LOWER STUDS N_ 1. MITER, WELD AND GRIND SMOOTH ANGLE CE-2 WITHOUT KICK PLATE C_ FOR 'IT" LESS THAN 8") 1. PLATE SECTION NOT TO EXCEED 8 SQ FT IN SIZE. FRAME AT CORNERS. PROVIDE TWO 3/4" DIA LIFTING HOLES IN EACH 2. WELD CONTINUOUS BAR TO ANGLE AS SHOWN PLAN COPE 3/8" AT STAIR LOCATIONS CE-3 NOTE: PLATE SECTION. WHEN NECESSARY TO BRING GRATING UP FLUSH TYPICAL LADDER LANDING CE-5 2. DRILL AND TAP EACH CORNER OF EACH WITH CURB ANGLE FRAME. WITH ABRASIVE NOSING (CE-2) MITER, WELD AND GRIND SMOOTH ANGLES AT ALL CORNERS. PLATE SECTION AND FRAME FOR 1/4" OPTION: DELETE CONTINUOUS BAR, TRIM ANGLE NOTE: DIA STAINLESS STEEL SCREWS. AT TOP AS REQUIRED. g SEE EQUIPMENT LAYOUT DRAWINGS FOR LOCATIONS. 3" 3" 3" 3" 1 1/4"x1" RUBATEX #R-451-N #4 @ 12" EW 6" UNO REMOVABLE HEAT AND CEMENT SPLICES CTR OF SLAB—\ GUARDRAIL POST GUARDRAIL POST REMOVABLE 1" (±1/16") ( ) CHAMFER EDGES CURB IF REQUIRED CURB IF REQUIRED KICK PL 1/4x4 GUARDRAIL POST KICK PL 1/4x4 GUARDRAIL POST (1) #4 CONT (PER CE-8) I (PER CE-8) I I I 1 4" THICK ANGLE � 4" UNO 4" UNO 4" UNO - Nt L o o cn z w 6" GRANULAR FILL z z III - z I � BAR 1/2"x1/4" � a U -4 #4 DOWELS AT 18" #4 TYP AT 2" NOM STD WT PIPE O = OC SEE NOTE. #4 TYP AT POST PROVIDE 3" DIA OPENING. POST LOCATIONS SLEEVE (10" LONG _ _ SECTION rc LOCATIONS GROUT GUARDRAIL IN PLACE WITH CURB) 00 00 CE-8 WITH NON -SHRINK GROUT. 1'-0" 77 PL 1/4x3x0'-3 #4 TYP AT POST #4 TYP AT POST /2" DIA NOM STD ° o ° PROVIDE 3 DIA OPENING 3/16 3-12 NOTE: 1,-0„ LOCATIONS _ GROUT GUARDRAIL IN PLACE LOCATIONS WT PIPE SLEEVE 1/2 12 AT CONTRACTOR'S OPTION, DRILL AND WITH NON -SHRINK GROUT (0 PL 1/4x3xO'-3 EXIST ANGLE 4'-0" SET DOWELS IN NON -SHRINK GROUT EXIST PLATE C WITH 4" MINIMUM DEPTH. L STAIR 6" 1 '-6" 1 '-6" 6" CE-9 WITH CURB CE-11 WITH CURB CE-10 WITHOUT CURB CE-12 WITHOUT CURB STEEL STAIR CE-13 C_ C_ SEE STEEL DRAWINGS I I I I 51/4„----I ---I CL GUARDRAIL POST 2 1/2"* HANDRAIL POST GUARDRAIL POST 1/4 EJ-4 EJ-4 co 5/8" DIA A325 SET _ PL 3/8 x7 1 /2 x0 -7 1 /2 _ BOLT w/ NUT WELDED L C)STOP LUGS 2 ° TO PIPE SLEEVE SIDES OF POST ° SLAB EDGE ° °N. 6" MIN co �, III I I ° (4) 5/8" DIA GALV THREADED UNO 2" DIA PIPE SLEEVE ROD @ 90°, EMBED 6" MIN ° CONNECT TO FLOOR IN EPDXY ADHESIVE �'� III OR PLATFORM PER CE-18 ° III APPLICABLE EDGE I * SPACING AS SHOWN AND IN III DETAIL PERPENDICULAR DIRECTION c� EDGE EDGE OF SLAB OF SLAB CURB p ROUGH Izz z 4" MIN UNO OPENING 1'-4" MIN D D PER PLANS UNO PLAN tY w II g w TYPICAL STAIR LANDING PAD BROOM FINISH CAP END OF POST 4„ 4„ A BROOM FINISH STEEL STAIR, SEE (4) 1 1/4 DIA HOLES O O STEEL DRAWINGS FOR 1" DIA POST INSTALLED O � io i PLAN PLAN PLAN w p @ PLAN � ANCHOR BOLTS � O #4 12" EW T&B USE WHERE GUARDRAIL IS INDICATED AS I W/ 8 1/4" MIN EMBED _j C) "REMOVABLE" ON PLANS. — — AND 3 1/2" PROJECTION TYPICAL APPROACH SLAB TYPICAL DOOR STOOP z STD GUARDRAI 1 1/4" DIA VENT HOLE NOT TO SCALE NOT TO SCALE 00 u� o C) a a REMOVABLE GUARDRAIL CONNECTION _ _ IN BASE PLATE NOT TO SCALE - SLOPE 1/2" PER FOOT ° KICK PL 1/4x4 KICK PL 1/4x4 _ PL1x11xO'-11 #4 @ 12" EW GROUND FLOOR SLOPE 1/4" PER FOOT REMOVABLE GUARDRAIL BASE PLATE TOP & BOT #4 @ 12" EW N 6" GRANULAR FILL POST SEE REMOVABLE ROUNDED ° CTR OF SLAB SECTION D GUARDRAIL CONNECTION CONCRETE TOP PLAN o ° o 0 „ SLAB MOUNTED GUARD POST °���� co 6 STD WT STEEL I II PIPE CONCRETE 1 FILLED FINISH COLOR „ ° 6 GRANULAR FILL SAFETY YELLOW 6" GRANULAR FILL ° = 6" DIA x 3'-6" TALL ° � A co .; a ° II I II e ° III _, I I GALV AND PAINTED PAVEMENT OR _ `o I YELLOW GUARD POST GRADE LINE - FILLED w/ CONCRETE SECTION A SECTION B w/ ROUNDED TOP ; ;SEAL � f � PL 3/8" \ \ / / USE 3/4" GROUT FOR LEVELING IF REQUIRED i (2) 1/2" DIA ADHESIVE PL 3/8" \\�/j j\\5/16 TO PLUMB POST, BACK OF DOOR JAMB AND F. OINe +w TYPE CONIC ANCHORS \//�\\\/ ER ROUGHEN o CONCRETEBUSH-HAMER GROUT BEGINNING OF NOTCH * �Ry F5�� (2) 1/2 DIA ADHESIVE # TYPE CONIC ANCHORS CONCRETE / I� EMBEDMENT SECTION SECTION v SECTION z i0 NOTE: p ° z CE-16 CE-17 Mar 8 2017 AT CONTRACTOR'S OPTION A HEAVY-DUTY MANUFACTURED STATIONARY GUARDRAIL REMOVABLE GUARDRAIL11-611 PIPE BOLLARD MAY BE SUBSTITUTED FOR THIS FABRICATED F o DIA SURFACE MOUNTED GUARD POST. MANUFACTURED PIPE TITLE WATER REDIRECTION PROGRAM U DE_ DE_ DETAIL 1 FOR BID - NOT z BOLLARD SHALL BE SIMILAR TO THIS FABRICATED GUARD POST RETENTION AND HOLDING BASIN GUARD POST DETAIL FILLED WITH CONCRETE AND SHALL BE EITHER GALVANIZED FOR CONSTRUCTION FOUNDATIONS w CONSTRUCTION AND PAINTED SAFETY YELLOW OR WITH z HDPE SAFETY YELLOW COVER. SUBMIT MANUFACTURED STANDARD DETAILS w PIPE BOLLARDS FOR ENGINEER/OWNER APPROVAL. SHEET 2 J z FOR z BELEWS CREEK STEAM STATION U1 &2 O BURNS SCALE: AS SHOWN CON: 5.8120 o5 ` M c DO N N E L L DUKE DWG TYPE: FDN DFTR: KRH EN E Wflm.7'YFC 12/9/16 ZSC JAB ISSUED FOR BIDJOB NO: 88673 CHKD: JAB co9400 WARD PARKWAY STOKES COUNTY, NC DATE: 9/19/16 ENGR: ZSC o B 11/4/16 ZSC - ISSUED FOR OWNER REVIEW KANSAS CITY, MO 64114 APPD: 0 816-333-9400 FILENAME: BL 00- D-K-YM.00. D-002.dwg A 9/19/16 ZSC - ISSUED FOR OWNER REVIEW FIRM LICENSE NO. C-1435 DWG SIZE DRAWING NO. REVISION ARCH El o no. I date I by I ckd I description no. I date I by I ckd I description 300"42.0° BLC00-CD-K-YM.00.SD-002 C U 4 5 6 7 8 9 10 Z:\CLIENTS\ENR\DUKEENR\WTRREDIRPROG\88673_BELEWSCREEK\DESIGN\STRUC\CAD\8120-RETENTION BASINS\BLC00-CD-K-YM.00.SD-002.DWG 11/30/2016 10:11 AM KHAMPEL i i I I ROUGH OPENING 6" MIN PER PLANS UNO 0 C 0 E 4 5 6 7 8 9 10 Z:\CLIENTS\ENR\DUKEENR\WTRREDIRPROG\88673_BELEWSCREEK\DESIGN\STRUC\CAD\8120-RETENTION BASINS\BLC00-CD-K-YM.00.SD-003.DWG 11/30/2016 10:12 AM KHAMPEL i i I r`1 LZI C E 2 3 4 5 6 7 8 9 GENERAL NOTES: I. ALL DETAILS AND NOTES ON THIS DRAWING ARE BURNS & MCDONNELL STANDARDS WITH OUT RESPECT TO CONTRACTS USE ONLY THOSE DETAILS AS CALLED FOR ON PLANS, SPECIFIED OR AS REQUIRED TO ACCOMPLISH THE WORK. 2. ITEMS WHICH ARE TO BE FURNISHED AND INSTALLED BY SEPARATE CONTRACTS ARE IDENTIFIED AND LABELED FOR EACH CONTRACT. 3. REFER TO GUARDRAIL DETAILS ON OTHER DRAWINGS. EDGES WITH GUARDRAIL DEFINED AS FOLLOWS: EDGE TYPE GUARDRAIL TYPE �W/GR KICK PL SEE GUARDRAIL POST IF READ KICK PL SEE SEE PLANS 1/4" GAP SEE KICK PL (IF REQD) PLANS (IF REQD) 1/2" DIA x 4" LG HEADED PLANS PLANS PL 1/4 A STUDS AT 2'-0" CTRS 1/2" PLANS 3" 2" STD WEIGHT PIPE 1/2" METAL CLOSURE PL 1/2" DIA x 4" LG HEADED METAL CLOSURE PL 1/4" AS SHOWN, 0" 1/2" SLEEVE AT DK-8 ONLY STUDS AT 2'-0" CTRS w/ DECK SPANNING FINISHED FLOOR GRATING OR METAL CLOSURE PL FINISHED FLOOR j\ FINISHED FLOOR - PERPENDICULAR TO WT CHECKERED PL - FINISHED FLOOR FINISHED FLOOR FINISHED FLOOR ril 11 I I 1 b a - 11 co 17 BENT PL 1/4" — M SEE NOTE 3/16 1 BENT PL 1/4" — ---- —------- L2x2x5/16 2-6 1/2" DIA x 4" LG METAL DECK 1/2 12 DK PER PLANS —1/ METAL DECK 3/16 2-6 1/2 DIA x 4 LG METAL DECK 3/16 METAL DECK HEADED STUDS METAL DECK HEADED STUDS 3/4" DIA BOLT w/ 13/16" DIA 1/2" DIA x 4" LG 3/16 AT 2 -0 CTRS HEADED STUDS METAL DECK AT 2'-0" CTRS x 2" SLOTTED HOLES 7 r-77--177 3/16 2-6 AT 2'-0" CTRS AT 2'-0" CTRS NOTE: BENT PL 1 /4" WT7x11 @ 7'-0" CTRS (MAX) w/ STD 3 ROW CONN TACK BENT PL 1/4" WELD FOR GUARDRAIL AT DK-7. 3/16 2-6 WELD FOR PIPE SLEEVE AT DK-8. DK-9 WITH KICK PLATE DK-1 WITH KICK PLATE DK-3 WITH KICK PLATE DK-5 DK-6 D_ FIXED GUARDRAIL DK-10 WITHOUT KICK PLATE DK-2 WITHOUT KICK PLATE DK-4 WITHOUT KICK PLATE DK-8 REMOVABLE GUARDRAIL —B — SEE PLAN KICK PL SEE CL COLUMN (IF REQD) PLANS �3/116N2-12 1/2" DIA x 4" LG HEADED CL COLUMN BENT PL 1/4" 1/2" DIA x 4" LG HEADED STUDS AT 2'-0" CTRS METAL CLOSURE PL 3/16 2-12 STUDS AT 2'-0" CTRS METAL CLOSURE PL FINISHED FLOOR 3/16 FLOOR DECK = FINISHED FLOOR 3/16 FINISHED FLOOR — ° 3/16 ROOF DECK %w z — ❑ w Q a METAL DECK METAL DECK :7 BENT PL 1/4" SHIM USING 3/16 4 GIRT ANGLE (SEE NOTE) 3"1METAL DECK STRUCTURAL TUBE METAL CLOSURE PL BENT PL 1/4 OR ANGLE AS REQD 1/4 APPLICABLE DECK DETAIL TYPICAL 1/4" BENT PLATE RETURN 3/16 2-6 NOTE: FLOOR BEAM C TO COLUMN. (SAME HEIGHT AS ROOF BEAM SEE ADJACENT BENT PLATE). L3x3x1/4 w/ 3/4" DIA BOLTS FLOOR BEAM DK-13 PLANS AT 36" CTRS. USE 7/8" DIA DK-16 DK-11 SLOTTED HOLES IN ANGLE. DK-14 WITH KICK PLATE DK-12 TIGHTEN BOLTS PRIOR TO PLACING CONCRETE. DK-15 WITHOUT KICK PLATE 8" GROUT POCKET 1" 3/4" SEE NOTE D 2" MIN TO EDGE OF it 1 FRONT METALCLAD SWITCHGEAR EQUIPMENT BASE #4 @ 12" EW TOP EQUIPMENT WITH FRONT ADD #4 TIES @ 12" ROLLOUT AIP CIRCUIT FOR PADS > 1'-0" CAST BRONZE FLOOR LIVE LOAD #4 DOWELS PLATES LIVERS BRONZE BREAKERS OR STARTERS - BUSH -HAMMER ROUGH 1'-6" SEE NOTE E UNDER AREA OF OR APPROVED EQUAL D , ° FOUNDATION AND APPLY 400 00 co 1/8" ABOVE HIGH FLOOR BONDING COMPOUND POINT OF FLOOR LC-2 — SLAB VARIES D PSF D LC-1 XQ FLOOR LINE c� ' I SECTION SEAL AT ENDS WITH NUMBER OF CHANNELS AS CAULKING COMPOUND REQUIRED BY EQUIPMENT 1 EP-1 ALL LETTERING TO BE 1" DIA ENGRAVED PL1/4" TYP EQUIPMENT PAD FOUNDATION GROUT HOLE TYP PLAN SETTING DETAILS NOTES: DESIGN LIVE LOAD FLOOR A. PROVIDE EP-1 EQUIPMENT PAD FOUNDATION FOR EQUIPMENT WHEN PLATE SWITCHGEAR WITH OTHER FOUNDATIONS HAVE NOT BEEN INDICATED. NOTE: ROLLOUT BREAKERS SECTION rA B. PROVIDE ANCHOR BOLTS AND GROUT AS REQUIRED BY EQUIPMENT MANUFACTURER. SEE FLOOR PLANS FOR LIVE LOADS AND PLATE LOCATIONS. C. EQUIPMENT PAD FOUNDATIONS SHALL CONFORM TO THIS DETAIL, EQUIPMENT MANUFACTURER'S REQUIREMENTS, AND THE FOLLOWING: 6" 6" 1. REINFORCE PAD TO CONFORM WITH THIS DETAIL. IF THE FLOOR SET FLOOR PL IS CONSTRUCTED BEFORE THE DOWELS ARE PLACED, THE DOWELS FLUSH WITH i0 FRONT OF CABINET 1/8 SHALL BE INSTALLED USING ADHESIVE ANCHORS INTO THE FLOOR FINISHED FLOOR SLAB. co 1'-6" 6" 1/8 2. EQUIPMENT SHALL BE GROUTED IN PLACE WITH NON -SHRINK ° a o a o a NON -SHRINK GROUT o a.` o a. o o 1/8 C3x4.1 UNLESS = _ GROUT UNLESS OTHERWISE RECOMMENDED BY THE EQUIPMENT ° a o a. o ° a a. o ° THIS AREA AFTER C3x4.1 UNLESS ` a . o ` a o ' a . ' 1/8 NOTED OTHERWISE � O C� O MANUFACTURER. � � ° � � ° � _ OJ EQUIPMENT IS SET NOTED OTHERWISE = O BUSH -HAMMER ROUGH AND ON PLANS w w ON PLANS w 3. EQUIPMENT ANCHOR BOLTS SHALL BE STANDARD TYPE II ANCHOR THREAD LUG WITH , APPLY BONDING COMPOUND > w 3/8 DIA HEX DBL BOLTS UNLESS OTHERWISE RECOMMENDED BY THE EQUIPMENT SPLIT STUD 00 NUT FOR LEVELING O O MANUFACTURER. ANCHOR O -A NON -SHRINK GROUT CO � CO � r THIS AREA AFTER Q z POCKET FORMED Q z D. DIMENSION SHALL BE 4-INCHES MINIMUM FOR PADS WITH ANCHOR EQUIPMENT IS SET 000 BY 2x12 TEMPLATE 00 O BOLTS 1-INCH DIAMETER OR LESS, AND 6-INCHES MINIMUM FOR PADS SECTION ;SEAL F WITH ANCHOR BOLTS GREATER THAN 1-INCH DIAMETER. ; 1L L E. PROVIDE DOWELS AT 12-INCHES MINIMUM CENTER TO CENTER OR ; PROVIDE NUMBER OF DOWELS EQUAL TO TOTAL CROSS SECTIONAL.,'i+• ° a ° a q a° , °° AREA OF ANCHOR BOLTS OF PAD, EQUALLY SPACED AROUND PAD.* qo. 0 . 00 0 . o � v4 . oo °pa oo pa oo va oo va oo N od oo va o0 od 4 0o Zv # �jil �iM 3/8" DIA x 4" LONG 3/8" DIA x 4" LONG BUSH -HAMMER z CONCRETE ANCHOR CONCREATE ANCHOR BROUGH AND APPLY ONDING COMPOUND Mar 8 2017 z Q 0 L_ LC-2TITLE WATER REDIRECTION PROGRAM F z FOUNDATION DETAILS FOR BID - NOT RETENTION AND HOLDING BASIN w SWITCHGEAR WITH ROLLOUT BREAKERS FOR CONSTRUCTION FOUNDATIONS z STANDARD DETAILS w SHEET 4 J z FOR z BELEWS CREEK STEAM STATION U1 &2 O BURNS SCALE: AS SHOWN CON: 5.8120 o6 ` M c DO N N E L L DUKE DWG TYPE: FDN DFTR: KRH ENEINC7 IF C 12/9/16 ZSC JAB ISSUED FOR BID JOB NO: 88673 CHKD: JAB co9400 WARD PARKWAY (0 1 STOKES COUNTY, NC DATE: 9/19/16 ENGR: ZSC o B 11/4/16 ZSC - ISSUED FOR OWNER REVIEW MO 64114 KANSAS CITY, 0 816-333-9400 FILENAME: BL 00- D-K-YM.00. D-004.dwg APPD: A 9/19/16 ZSC - ISSUED FOR OWNER REVIEW FIRM LICENSE NO. C-1435 DWG SIZE DRAWING NO. REVISION ARCH El o no. I date I by I ckd I description no. I date I by I ckd I description 300"42.0° B1LC00-CD-K-YM.00.SD-004 C uL. 4 5 6 7 8 9 10 Z:\CLIENTS\ENR\DUKEENR\WTRREDIRPROG\88673_BELEWSCREEK\DESIGN\STRUC\CAD\8120-RETENTION BASINS\BLC00-CD-K-YM.00.SD-004.DWG 11/30/2016 10:12 AM KHAMPEL i i C 0 E 4 5 6 7 8 9 10 Z:\CLIENTS\ENR\DUKEENR\WTRREDIRPROG\88673_BELEWSCREEK\DESIGN\STRUC\CAD\8120-RETENTION BASINS\BLC00-CD-K-YM.00.SD-005.DWG 11/30/2016 10:13 AM KHAMPEL i i I r`1 LZI C E 2 3 4 5 6 7 8 9 GENERAL NOTES: 1. ALL DETAILS AND NOTES ON THIS DRAWING ARE BURNS & McDONNELL STANDARDS WITH OUT RESPECT TO CONTRACTS. USE ONLY THOSE DETAILS AS CALLED FOR ON PLANS, SPECIFIED OR AS REQUIRED TO ACCOMPLISH THE WORK. 2. ITEMS WHICH ARE TO BE FURNISHED AND INSTALLED BY SEPARATE CONTRACTS ARE IDENTIFIED AND LABELED FOR EACH CONTRACT. CO EXAMPLES: HOW OPENING THRU WALLS OR FLOORS ARE INDICATED ON PLANS FOR TYPE "CO" DETAILS AS FOLLOWS: O~ 6" DIA CO-3 4" LINE G-2 18"x12" CO-6 2" TYP (1) #5 x 4'-0" LONG, EF (TYP) 10" LINE K-3 & LINE B (1) #5 EF (TYP) FOR 6" THICK CONCRETE A a FOR 6" THICK CONCRETE AND LESS USE: 18"x12" CO-6 AND LESS USE: (1) #5 CENTER FOR WALLS c� (1) #5 CENTER FOR WALLS m (1) #5 TOP FOR SLABS LINE K-3 & K-7 (1) #5 TOP FOR SLABS J „ Il co W U- o ADD BARS SIZE & IDENTIFICATION Q ADD BARS a = AS NOTED ON PLANS J IN FLOOR SLABS: U) IN FLOOR SLABS: SIZE & IDENTIFICATION 'IT" WALL (1) #5 EF U- I-_ (1) #5 EF Or_ AS NOTED ON PLANS THICKNESS O z IN WALLS: Q (11WALLS: T_ ) #5 FOR "D" LESS THAN 24" C/) (1) #5 FOR "L" LESS THAN 24" T/2 a_ (1) #6 FOR "D" = 24" TO 36" (1) #6 FOR "L" = 24" TO 36" PLAN PLAN SEE NOTES o „ = ADD BARS (TYP ALL OPENINGS): C_ WITH 4 PROJECTION CO-5 WITH 4" PROJECTION ADD BARS (TYP ALL OPENINGS): CO-4 WITHOUT 4" PROJECTION ° 1/2" DIA x 4" HEADED SEE NOTES 1 PRESSURE 1 (1) #5 EF FOR "D" LESS THAN 24" 1 �� �� _ �� � C_ WITHOUT 4" PROJECTION a STUDS @ 16" CTRS SIDE (1) #6 EF FOR D - 24 TO 36 (1) #5 EF FOR W LESS THAN 24 (1) #6 EF FOR "W" = 24" TO 36" NOTES: NOTES: 2 (4 STUDS MIN) COC 2 1. METAL DECKING HOLES AND OPENINGS SHALL NOT BE CUT 1. METAL DECKING HOLES AND OPENINGS SHALL NOT BE CUT g UNTIL IMMEDIATELY PRIOR TO BEING PERMANENTLY FILLED UNTIL IMMEDIATELY PRIOR TO BEING PERMANENTLY FILLED a N UNSLEEVED OPENING UNSLEEVED OPENING WITH THE EQUIPMENT OR STRUCTURE INTENDED TO WITH THE EQUIPMENT OR STRUCTURE INTENDED TO — — INTERIOR ° FULFILL ITS SPECIFIC USE OR SHALL BE IMMEDIATELY FULFILL ITS SPECIFIC USE OR SHALL BE IMMEDIATELY SIDE NOTES: NOTES: COVERED. SEE OSHA SECTION 29CFR1926 SUBPART R. COVERED. SEE OSHA SECTION 29CFR1926 SUBPART R. 3/4" 3/4" 1. MINIMUM LENGTH OF ALL BARS SHALL BE "D" + 3'-6" WITH BARS 1. ALL MINIMUM LENGTHS TO BE (L OR W) + 3'-6" WITH BARS CENTERED CENTERED ON OPENING. ON OPENING. a 2. FOR OPENINGS LESS THAN 12" DIAMETER, THE ADD BARS ARE NOT 2. FOR OPENING (W, L) LESS THAN 12" DIAMETER, THE ADD BARS ARE PL 1/4" ALL AROUND OR 2 PL'S ° STD WT PIPE SLEEVE REQUIRED IF NO REINFORCING IS CUT BY THE OPENING. NOT REQUIRED IF NO REINFORCING IS CUT BY THE OPENING. 1/2" DIA x 4" HEADED AND SPLIT PIPE ON ENDS OR 1/4" PL 3. SHORT SPAN OF SLAB = LESSER DISTANCE BETWEEN SUPPORT 3. SHORT SPAN OF SLAB = LESSER DISTANCE BETWEEN SUPPORT - STUDS 16' CTRS _ DIA x 4" HEADED REINFORCE PER MEMBERS. MEMBERS. � (4 STUDSS MIN) � STUDS @ 16" CTRS (4 STUDS MIN) 1" MIN CO-1 OR CO-2 (UNO) 4. REINFORCE OPENINGS WITH "D" LARGER THAN 3'-0" AS INDICATED 4. REINFORCE OPENINGS WITH "L" OR "W" LARGER THAN 3'-0" AS a WS-1 ON THE DRAWINGS. IF NOT INDICATED, CONTACT THE ENGINEER. INDICATED ON THE DRAWINGS. IF NOT INDICATED, CONTACT THE4 5. FOR CONCRETE OPENINGS THROUGH STEEL DECKING, BLOCK OUT ENGINEER. ° WATERSTOP CONCRETE WITHIN OPENING WITH STYROFOAM OR OTHER APPROVED 5. FOR CONCRETE OPENINGS THROUGH STEEL DECKING, BLOCK OUT CO-7 MATERIAL AND SEAL WITH DUCT TAPE. CUT DECK TO MATCH INSIDE CONCRETE WITHIN OPENING WITH STYROFOAM OR OTHER APPROVED NOTES: DIMENSIONS OF OPENING AFTER CONCRETE HAS SET FOR 7 DAYS. MATERIAL AND SEAL WITH DUCT TAPE. CUT DECK TO MATCH INSIDE STD WT PIPE 6. METAL DECKING HOLES AND OPENINGS SHALL NOT BE CUT UNTIL DIMENSIONS OF OPENING AFTER CONCRETE HAS SET FOR 7 DAYS. 1. WATERSTOP "SIKADUR 31" AS MANUFACTURED IMMEDIATELY PRIOR TO BEING PERMANENTLY FILLED WITH THE 6. METAL DECKING HOLES AND OPENINGS SHALL NOT BE CUT UNTIL TYPICAL SECTION TYPICAL SECTION BY SIKA CORPORATION OR APPROVED EQUAL. EQUIPMENT OR STRUCTURE INTENDED TO FULFILL ITS SPECIFIC IMMEDIATELY PRIOR TO BEING PERMANENTLY FILLED WITH THE USE OR SHALL BE IMMEDIATELY COVERED. SEE OSHA SECTION EQUIPMENT OR STRUCTURE INTENDED TO FULFILL ITS SPECIFIC REINFORCE PER CO-1 (UNO) REINFORCE PER CO-1 (UNO) 29CFR1926 SUBPART R. USE OR SHALL BE IMMEDIATELY COVERED. SEE OSHA SECTION C 7. REINFORCING SHOWN REPRESENTS THE MINIMUM REQUIRED AT 29CFR1926 SUBPART R. ALL CO-1 OPENINGS UNLESS NOTED OTHERWISE. 7. REINFORCING SHOWN REPRESENTS THE MINIMUM REQUIRED AT ALL CO-2 OPENINGS UNLESS NOTED OTHERWISE. GROUT NECK (SEE NOTE 2) PIPE FLANGE CLEARANCE SIZE & IDENTIFICATION AS NOTED ON PLANS SIZE & IDENTIFICATION AS NOTED ON PLANS — - - STD WEIGHT PIPE I SLEEVE OR PL 1/4" � 1 SIZE & IDENTIFICATION D \ I SIZE & IDENTIFICATION \� �/ AS NOTED ON PLANS AS NOTED ON PLANS D- PLAN PLAN CO-8 WITH 4" PROJECTION PLAN PLAN CO-10 WITHOUT WS-1 JOINTS CO-9 WITHOUT 4" PROJECTION CO-11 WITH WS-1 JOINTS CO-12 WITH 4" PROJECTION CO-14 WITH 4" PROJECTION REINFORCE PER CO-1 (UNO) CO-13 WITHOUT 4" PROJECTION CO-15 WITHOUT 4" PROJECTION NOTES: NOTES: NOTES: NOTES: 1. METAL DECKING HOLES AND OPENINGS SHALL NOT BE CUT 1. * DIA = FLANGE OR BELL DIAMETER WHERE APPLICABLE 1. BLOCK OUT CONCRETE WITHIN OPENING WITH STYROFOAM 1. BLOCK OUT CONCRETE WITHIN OPENING WITH STYROFOAM UNTIL IMMEDIATELY PRIOR TO BEING PERMANENTLY FILLED OR PIPE OD FOR PLAIN END PIPE. OR OTHER APPROVED MATERIAL AND SEAL WITH DUCT TAPE. OR OTHER APPROVED MATERIAL AND SEAL WITH DUCT TAPE. WITH THE EQUIPMENT OR STRUCTURE INTENDED TO 2. APPLY BONDING COMPOUND TO ALL SURFACES PRIOR TO CUT DECK TO MATCH INSIDE DIMENSIONS OF OPENING AFTER CUT DECK TO MATCH INSIDE DIMENSIONS OF OPENING AFTER FULFILL ITS SPECIFIC USE OR SHALL BE IMMEDIATELY PLACING GROUT. CONCRETE HAS SET FOR 7 DAYS. CONCRETE HAS SET FOR 7 DAYS. COVERED. SEE OSHA SECTION 29CFR1926 SUBPART R. 2. METAL DECKING HOLES AND OPENINGS SHALL NOT BE CUT 2. METAL DECKING HOLES AND OPENINGS SHALL NOT BE CUT UNTIL IMMEDIATELY PRIOR TO BEING PERMANENTLY FILLED UNTIL IMMEDIATELY PRIOR TO BEING PERMANENTLY FILLED T/3 WITH THE EQUIPMENT OR STRUCTURE INTENDED TO FULFILL WITH THE EQUIPMENT OR STRUCTURE INTENDED TO FULFILL ITS SPECIFIC USE OR SHALL BE IMMEDIATELY COVERED. SEE ITS SPECIFIC USE OR SHALL BE IMMEDIATELY COVERED. SEE OSHA SECTION 29CFR1926 SUBPART R. OSHA SECTION 29CFR1926 SUBPART R. WATER PL 1/4" 4 SIDES OR SEEPAGE RING PRESSURE ° o - 2 PLATES AND SPLIT; PL 3/8 x 2 WS_1 30 STD WT PIPE ALL AROUND SLEEVE OR PL 1/4" 1/2" DIA x 4" HEADED PIPE AT ENDS 1/2" DIA x 4" HEADED• 0�•+ STUDS @ 16' CTRS STUDS @ 16CTRS++ (4 STUDS MIN) (4 STUDS MIN)�L F #,' •• 3/16 � NON -SHRINK 3/16 GROUT (SEE NOTE 2) z L DECK TYPICAL SECTION T/3 T/3 METAL DECK SEEMETANOTES) Mar 8 2017 z REINFORCE PER CO-1 (UNO) T/3 (SEE NOTES) TYPICAL SECTION TYPICAL SECTION F REINFORCE PER CO-1 (UNO) REINFORCE PER CO-2 (UNO) TITLE WATER REDIRECTION PROGRAM FOR BID -NOT TYPICAL SECTION RETENTION AND HOLDING BASIN z w w FOR CONSTRUCTION FOUNDATIONS z STANDARD DETAILS w SHEET 6 J z FOR z BELEWS CREEK STEAM STATION U1 &2 O BURNS SCALE: AS SHOWN CON: 5.8120 06 ` M c DO N N E L L DUKE DWG TYPE: FDN DFTR: KRH E N E RGYF C 12/9/16 ZSC JAB ISSUED FOR BID JOB NO: 88673 CHKD: JAB co9400 WARD PARKWAY STOKES COUNTY, NC DATE: 9/19/16 ENGR: ZSC o B 11/4/16 ZSC - ISSUED FOR OWNER REVIEW KANSAS CITY, MO 64114 APPD: 0 816-333-9400 FILENAME: BL 00- D-K-YM.00. D-006.dwg A 9/19/16 ZSC - ISSUED FOR OWNER REVIEW FIRM LICENSE NO. C-1435 DWG SIZE DRAWING NO. REVISION ARCH E1 no. date by ckd description no. date by ckd description 30.0°X42.0° BLC00-CD-K-YM.00.SD-006 C oU 4 5 6 7 8 9 10 Z:\CLIENTS\ENR\DUKEENR\WTRREDIRPROG\88673_BELEWSCREEK\DESIGN\STRUC\CAD\8120-RETENTION BASINS\BLC00-CD-K-YM.00.SD-006.DWG 11/30/2016 10:13 AM KHAMPEL i i 2 3 4 5 6 7 8 9 n LZI C E GENERAL NOTES: ANCHOR BOLT EXAMPLES MINIMUM EMBEDMENT FOR 1. ALL DETAILS AND NOTES ON THIS DRAWING ARE BURNS & WEDGE -TYPE ANCHORS McDONNELL STANDARDS, WITHOUT RESPECT TO CONTRACT. STANDARD DESIGNATION: WHEN DOUBLE NUTS ARE REQUIRED: USE ONLY THOSE TYPES CALLED FOR ON PLANS, OR AS DIA TYPE II AB (2) 1" 11 DIA TYPE II AB w/ DBL SIZE EMBEDMENT (2) 1" REQUIRED TO ACCOMPLISH THE WORK. �� �� w/ TOB EL 123'-4" NUTS AND TOB EL 123-4 � 1/4" 1 1/8" 2. ITEMS WHICH AREA TO BE FURNISHED AND INSTALLED BY Q 3/8" 1 3/4" SEPARATE CONTRACTS ARE IDENTIFIED AND LABELED FOR m 1/2" 2 1/4" EACH CONTRACT. WHEN "B" IS DIFFERENT THAN WHEN AB HAS ALL THE EXCEPTIONS 3. FOR MATERIAL PROPERTIES OF VARIOUS BOLT TYPES, SEE INDICATED ON SCHEDULE: TO THE STANDARD DESIGNATION: z 5/8" 2 3/4" w 3/4" 3 3/8" SPECIFICATIONS AND EXAMPLES, THIS DRAWING. �� (2)1"DIA TYPE II AB w/ �� (2) 1" DIA TYPE II STAINLESS , 0 7/8" 3 7/8" 4. ALL BOLTS TO HAVE "UNC" - CLASS 2A THREADS, STANDARD B,—5,& TOB EL 123,-4 STEEL AB w/ DBL NUTS B =5 w CUT WASHERS AND HEAVY HEX NUTS UNLESS NOTED "K"=8" AND TOB EL 123'-4" 1" 4 1/2" OTHERWISE. w 1 1 1/4" 5 5/8" MINIMUM EMBEDMENT FOR ADHESIVE ANCHORS (UNO) CARBON STEEL HIGH STRENGTH STEEL STAINLESS STEEL SIZE HILTI HY150 SIMPSON ACRYLIC HILTI HVA HILTI HY150 SIMPSON ACRYLIC ITW RAMSET/RED A7 HILTI HVA HILTI HY150 SIMPSON ACRYLIC ITW RAMSET/RED A7 HILTI HVA 3/8" 1 3/4" 3 1/2" 5 1/4" 5 1/4" 3 1/2" 3 1/2" 1/2" 2 1/8" 4 1/4" 6 3/8" 6 3/8" 4 1/2" 4 1/4" 5/8" 2 1/2" 5" 7 1/2" 7 1/2" 5 5/8" 5" 3/4" 3 3/8" 6 5/8" 10" 10" 6 3/4" 6 5/8" 7/8" 3 7/8" 6 5/8" 11 1/4" 10" 7 7/8" 6 5/8" 1" 4 1/2" 8 1/4" 12 3/8" 12 3/8" 9" 8 1/4" 1 1/4 " 6" 12" 1 15" 15" 1 12" 12" —A— DETAIL TYPICAL ANCHOR BOLT PLATE WASHERS NOT TO SCALE B = SLEEVE LENGTH D = BOLT DIAMETER D = BOLT DIAMETER B = SLEEVE LENGTH D = BOLT DIAMETER K = THREADS (2D+3" SINGLE NUT) K = THREADS (2D+3" SINGLE NUT) D = BOLT DIAMETER K = THREADS (2D+3" SINGLE NUT) D THREADS (3D+3" DOUBLE NUTS) D THREADS (3D+3" DOUBLE NUTS) D K = THREADS (2D+3" SINGLE NUT) D THREADS (3D+3" DOUBLE NUTS) TOB ELEVATION AS P = BOLT PROJECTION TOB ELEVATION AS P = BOLT PROJECTION AND TOB ELEVATION THREADS (3D+3" DOUBLE NUTS) TOB ELEVATION AS S = SLEEVE DIA (NOM) NOTED ON PLANS NOTED ON PLANS AS NOTED ON PLANS S = SLEEVE DIA (NOM) NOTED ON PLANS P = BOLT PROJECTION F r P = BOLT PROJECTION II I ��l I //m I F TOC ELEVATION AS TOC ELEVATION AS TOC ELEVATION AS TOC ELEVATION AS NOTED ON PLANS NOTED ON PLANS NOTED ON PLANS I NOTED ON PLANS a a (S) STD WT (S) STD WT IIII —B— PIPE SLEEVE m m m PIPE SLEEVE--,IIII m IIIIIIII EMBEDDED SQUARE PL IIII EMBEDDED SQUARE PL I EMBEDDED SQUARE PL I EMBEDDED SQUARE PL IIII I a a a a WELD 3 PTS DAMAGE LAST THREAD TO WELD 3 PTS DAMAGE LAST THREAD TO WELD 3 PTS DAMAGE LAST THREAD TO WELD 3 PTS DAMAGE LAST THREAD TO PREVENT REMOVAL OF BOLT PREVENT REMOVAL OF BOLT PREVENT REMOVAL OF BOLT PREVENT REMOVAL OF BOLT COLUMN PLATE WASHER PER SCHEDULE TYP AT EACH ANCHOR BOLT ANCHOR BOLT CHAIR PLATE OR BASE PLATE 5. WELDING TO ANCHOR BOLTS WILL NOT BE PERMITTED. WHEN K IS DIFFERENT THAN WHEN AB IS INSTALLED PERPENDICULAR LL 6. IF ANCHOR BOLT SPACING IS LESS THAN SIZE OF EMBEDDED INDICATED ON SCHEDULE: TO VERTICAL CONCRETE SURFACE: = MINIMUM EMBEDMENT FOR EPDXY ADHESIVE ANCHORS (UNO) SQUARE PLATE USE COMMON EMBEDDED SQUARE PLATE. �� (2) 1 ' DIA TYPE II AB w/ (2) 1" DIA TYPE II AB Z SIZE CARBON STEEL HIGH STRENGTH STEEL STAINLESS STEEL CONTRACTOR TO CHECK AND COORDINATE. SURFACE ARE K —8 & TOB EL 123 -4 �� 6" PJTN AND CL EL 123'-4" w 3/8" 1 3/4" 4 1/2" 3 1/2" OF COMMON EMBEDDED SQUARE PLATE TO BE EQUAL TO OR GREATER THAN THE SUM OF THE AREAS OF THE w 1/2" 2 1/8" 6" 4 1/2" INDIVIDUAL EMBEDDED SQUARE PLATES. WHEN BOLT AND NUT ARE v 5/8" 2 7/8" 7 1/2" 5 5/8" 7. FOR SLEEVED BOLTS (TYPES I, IV, & VIII) USED IN EQUIPMENT MADE OF SPECIAL MATERIAL 0 3/4" 3 3/8" 9" 6 3/4" FOUNDATIONS, THE SLEEVE SHALL EXTEND TO TOP OF (BRASS OR STAINLESS STEEL): v 7/8" 4" 10 1/2" 7 7/8" FOUNDATIONS. " " �� (2) 1" DIA TYPE II 14 1/2" 12" 9 8. FOR ANCHOR BOLT TYPES I AND IV, ANCHOR BOLT SLEEVES STAINLESS STEEL AB 1 1/4" 5 5/8" 15" 11 1/4" SHALL BE FILLED WITH GROUT WHEN BASE PLATE / w/ TOB EL 123'-4" EQUIPMENT IS GROUTED IN ITS FINAL LOCATION. SCHEDULE D A B S EMBEDDED SQUARE PL REMARKS 5/8" 2" 8" 1 1/2" PL 1 /2x2 1/2" SQ 3/4" 2" 10" 1 1/2" PL 1 /2x3" SQ 7/8" 3" 1'-0" 2" PL 5/8x3 1/2" SQ 1" 3" 1'-2" 2" PL 5/8x3 1/2" SQ 1 1/8" 3" 1'-4" 2" PL 3/4x4" SQ 1 1/4" 3" 1'-6" 2 1/2" PL 3/4x4 1/2" SQ 1 3/8" 4" 1'-8" 2 1/2" PL 7/8x5" SQ 1 1/2" 4" V-10" 2 1/2" PL 7/8x5 1/2" SQ 1 3/4" 4" 2'-0" 3" PL 1x6" SQ 2" 4" 2'-2" 3" PL 1 1 /4x7" SQ 2 1/4" 5" 2'-4" 3 1/2" PL 1 1 /2x7 1/2" SQ 2 1/2" 6" 2'-6" 3 1/2" PL 1 3/4x8 1/2" SQ 2 3/4" 6" 2'-9" 4" PL 2x9 1/2" SQ 3" 7" 3'-0" 4" PL 2 1/4x10" SQ SCHEDULE D A B EMBEDDED SQUARE PL REMARKS 5/8" 2" 8" PL 1 /2x2 1/2" SQ 3/4" 2" 10" PL 1 /2x3" SQ 7/8" 3" 1'-0" PL 5/8x3 1/2" SQ 1" 3" 1'-2" PL 5/8x3 1/2" SQ 1 1/8" 3" 1'-4" PL 3/4x4" SQ 1 1/4" 3" 1'-6" PL 3/4x4 1/2" SQ 1 3/8" 4" 1'-8" PL 7/8x5" SQ 1 1/2" 4" 1'-10" PL 7/8x5 1/2" SQ 1 3/4" 4" 2'-0" PL 1x6" SQ 2" 4" 2'-2" PL 1 1 /4x7" SQ 2 1/4" 5" 2'-4" PL 1 1 /2x7 1/2" SQ 2 1/2" 6" 2'-6" PL 1 3/4x8 1/2" SQ 2 3/4" 6" 2'-9" PL 2x9 1/2" SQ 3" 7" 3'-0" PL 2 1 /4x10" SQ MINIMUM EMBEDMENT FOR UNDERCUT ANCHORS W 0 LU m w SIZE METRIC (EQUIV) DRILLCO MAXI -BOLT HILTI HDA-P 1/4" N.A. 2" N.A. 3/8" M 10 3 1/2" 4" 1/2" M 12 6" 5" 5/8" M 16 7 1/2" 7 1/2" 3/4" M20 9 1/4" 9 7/8" 7/8" N.A. N.A. N.A. 1" N.A. 12 1/2" N.A. 11 1/4" N.A. 1 16" 1 N.A. SCHEDULE D A B EMBEDDED SQUARE PL REMARKS 5/8" 2" 1'-0" PL 1/2x3 1/2" SQ 3/4" 2" 1'-2" PL 5/8x4" SQ 7/8" 3" 1'-4" PL 3/4x4 1/2" SQ 1" 3" 1'-6" PL 3/4x5" SQ 1 1/8" 3" 1'-8" PL 1 x5 1/2" SQ 1 1/4" 3" 1'-11" PL 1x6" SQ 1 3/8" 4" 2'-1 " PL 1 1 /4x6 1/2" SQ 1 1 /2" 4" 2'-3" PL 1 1 /4x7 1/2" SQ 1 3/4" 4" 2'-6" PL 1 1 /2x9" SQ 2" 5" 3'-0" PL 1 3/4x10" SQ 2 1/4" 5" 3'-4" PL 2x11" SQ 2 1/2" 5" 3'-11" PL 2x12" SQ 2 3/4" 6" 4'-2" PL 2 1/4x13" SQ 3" 6" 1 4'-6" PL 2 1/2x14" SQ PLATE WASHER SCHEDULE ANCHOR BOLT DIAMETER PLATE WASHER 3/4" PL1/4x2" SQ 7/8" PL5/16x2 1/2" SQ 1" PL3/8x3" SQ 1 1/4" PL1/2x3" SQ 1 1/2" PL1/2x3 1/2" SQ 1 3/4" PL5/8x4" SQ 2" PL3/4x5" SQ 2 1/2" PL7/8x5 1/2" SQ 3" PL1x6" SQ SCHEDULE D A B S EMBEDDED SQUARE PL REMARKS 5/8" 2" 1'-0" 1 1/2" PL 1 /2x3 1/2" SQ 3/4" 2" 1'-2" 1 1/2" PL 5/8x4" SQ 7/8" 3" 1'-4" 2" PL 3/4x4 1/2" SQ 1" 3" 1'-6" 2" PL 3/4x5" SQ 1 1 /8" 3" 1'-8" 2" PL 1 x5 1/2" SQ 1 1/4" 3" V-11" 2 1/2" PL 1x6" SQ 1 3/8" 4" 2'-1 " 2 1/2" PL 1 1 /4x6 1/2" SQ 1 1 /2" 4" 2'-3" 2 1 /2" PL 1 1 /4x7 1/2" SQ 1 3/4" 4" 2'-6" 3" PL 1 1 /2x9" SQ 2" 5" 3'-0" 3" PL 1 3/4x10" SQ 2 1 /4" 5" 3'-4" 3 1/2" PL 2x11 " SQ 2 1/2" 5" 3'-11" 3 1/2" PL 2x12" SQ 2 3/4" 6" 4'-2" 4" PL 2 1/4x13" SQ 3" 6" 4'-6" 4" PL 2 1 /2x14" SQ C TYPE I ANCHOR BOLT TYPE II ANCHOR BOLT TYPE III ANCHOR BOLT TYPE IV ANCHOR BOLT SLEEVED BOLT UNSLEEVED BOLT HIGH STRENGTH HIGH STRENGTH UNSLEEVED BOLT SLEEVED BOLT D = BOLT DIAMETER D = BOLT DIAMETER B = SLEEVE LENGTH E = HOOK LENGTH K = THREADS (2D+3" SINGLE NUT) D = BOLT DIAMETER K = THREADS (2D+3" SINGLE NUT) D THREADS (3D+3" DOUBLE NUTS) K = THREADS (2D+3" SINGLE NUT) —D— THREADS (3D+3" DOUBLE NUTS) AND TOB ELEVATION P = BOLT PROJECTION D AND TOB ELEVATION THREADS (3D+3" DOUBLE NUTS) D AND TOB ELEVATION P = BOLT PROJECTION AS NOTED ON PLANS~ AS NOTED ON PLANS P = BOLT PROJECTION~ AS NO ON PLANS S = SLEEVE DIA (NOM) Y TOC ELEVATION AS Y a TOC ELEVATION AS Y a TOC ELEVATION AS NOTED ON PLANS NOTED ON PLANS NOTED ON PLANS o.a. a. � o pa oo °oa° o0 �.a, a. � o 04 o0 oa°•oo (S) STD WT RADIUS = 3D m _ m PIPE SLEEVE m a a N va EMBEDDED SQUARE PL I I I . a o.a.o.a. a a E X N a DAMAGE LAST THREAD TO PREVENT REMOVAL OF BOLT METAL CAP COVER SCHEDULE D B E REMARKS 3/8" 5" 5" 1/2" 6" 6" 5/8" 8" 7" 3/4" 10" 9" 7/8" 1'-0" 11" 1" 1'-2" 1'-1" SCHEDULE D B E REMARKS 3/8" 7" 3" 1/2" 9" 3" 5/8" 11" 4" 3/4" 1'-2" 5" 7/8" 1'-4" 7" ill 1 '-7" 8" SCHEDULE D A* B REMARKS 3/8" 2" 6" 1/2" 2" 7" 5/8" 2" 10" 3/4" 2" 1'-0" 7/8" 3" 1'-2" 1" 3" 1'-4" SCHEDULE D A* B REMARKS 1 1/8" 3" 1'-6" 1 1/4" 3" 1'-8" 13/8" 4" V-10" 1 1/2" 4" 2'-0" 1 3/4" 4" 2'-5" 2" 4" 21- 1 0" TYPE VII ANCHOR BOLT TYPE V ANCHOR BOLT TYPE VI ANCHOR BOLT THREADED ROD OR MACHINE BOLT HOOKED BOLT HOOKED BOLT NOTES: z 1. * NOT REQUIRED FOR MACHINE BOLTS z 2. CONTRACTOR HAS THE OPTION OF USING HEADED MACHINE BOLTS IN LIEU OF THREADED RODS. r� + SM dh # �# Ry 5 , Mar 82017 F 3. FULLY THREADED RODS ARE NOT PERMITTED FOR BID -NOT TITLE WATER REDIRECTION PROGRAM 0 4. MACHINE BOLTS SHALL CONFORM TO ASTM F1 554, GRADE 36. RETENTION AND HOLDING BASIN z TYPE VIII ANCHOR BOLT w REMOVABLE BOLT FOR CONSTRUCTION FOUNDATIONS z STANDARD DETAILS w J SHEET 7 J z FOR z BELEWS CREEK STEAM STATION U1 &2 O BURNS SCALE: AS SHOWN CON: 5.8120 06 ` M c DO N N E L L DUKE DWG TYPE: FDN DFTR: KRH 0 0 --� E N E RGYF C 12/9/16 ZSC JAB ISSUED FOR BID JOB NO: 88673 CHKD: JAB m 9400 WARD PARKWAY STOKES COUNTY, NC DATE: 9/19/16 ENGR: ZSC o B 11/4/16 ZSC - ISSUED FOR OWNER REVIEW KANSAS CITY, MO 64114 APPD: 0 816-333-9400 FILENAME: BL 00- D-K-YM.00. D-007.dwg A 9/19/16 ZSC - ISSUED FOR OWNER REVIEW FIRM LICENSE NO. C-1435 DWG SIZE DRAWING NO. REVISION 30.0"x42.0" BLC00-CD-K-YM.00.SD-007 C o no. I date I by I ckd I description no. I date I by I ckd I description ARCH E1 U 4 5 6 7 8 9 10 Z:\CLIENTS\ENR\DUKEENR\WTRREDIRPROG\88673_BELEWSCREEK\DESIGN\STRUC\CAD\8120-RETENTION BASINS\BLC00-CD-K-YM.00.SD-007.DWG 11/30/2016 10:13 AM KHAMPEL i i SCHEDULE D A B S EMBEDDED SQUARE PL REMARKS 5/8" 2" 8" 1 1/2" PL 1 /2x2 1/2" SQ 3/4" 2" 10" 1 1/2" PL 1 /2x3" SQ 7/8" 3" 1'-0" 2" PL 5/8x3 1/2" SQ 1" 3" 1'-2" 2" PL 5/8x3 1/2" SQ 1 1/8" 3" 1'-4" 2" PL 3/4x4" SQ 1 1/4" 3" 1'-6" 2 1/2" PL 3/4x4 1/2" SQ 1 3/8" 4" 1'-8" 2 1/2" PL 7/8x5" SQ 1 1/2" 4" V-10" 2 1/2" PL 7/8x5 1/2" SQ 1 3/4" 4" 1 2'-0" 3" PL 1x6" SQ 2" 4" 2'-2" 3" PL 1 1 /4x7" SQ 2 1/4" 5" 2'-4" 3 1/2" PL 1 1 /2x7 1/2" SQ 2 1/2" 6" 2'-6" 3 1/2" PL 1 3/4x8 1/2" SQ 2 3/4" 6" 2'-9" 4" PL 2x9 1/2" SQ 3" 7" 3'-0" 4" PL 2 1/4x10" SQ r`1 LZI C E 2 3 4 5 6 7 8 9 GENERAL NOTES: 1. ALL DETAILS AND NOTES ON THIS DRAWINGS ARE BURNS & 4. REFER TO GUARDRAIL DETAILS ON OTHER DRAWINGS. EDGES McDONNELL STANDARDS WITHOUT RESPECT TO CONTRACTS. USE WITH GUARDRAIL DEFINED AS FOLLOWS: ONLY THOSE DETAILS AS CALLED FOR ON PLANS, SPECIFIED OR AS REQUIRED TO ACCOMPLISH THE WORK. EDGE TYPE GUARDRAIL TYPE 2. ITEMS WHICH ARE TO BE FURNISHED AND INSTALLED BY SEPARATE w/ GR- CONTRACTS ARE IDENTIFIED AND LABELED FOR EACH CONTRACT. 3. DETAIL "SE-9" WHEN INDICATED IS TO BE PROVIDED AT ALL COLUMN LOCATIONS SUPPORTING GRATING, CHECKERED PLATE OR METAL DECK. GUARDRAIL POST REMOVABLE GUARDRAIL POST GUARDRAIL POST GUARDRAIL POST A PL 1/4" KICK PL GUARDRAIL POST 1/4" KICK 1/4KICK PL I " I I I I I I I _ I 3/16 II I 1 /4" KICK PL ~ 3/16 3/16 3/16 3/16 II _ II ADD PL 1/4" IF _ PL 1 /2x2 1 /2x0'-6 1/2" N FLANGE THICKNESS p _ IS LESS THAN 3/8" N (2) 5/8" DIA A325 BOLTS WT4x7.5x0'-3" = _ GRATING OR GRATING OR CHECKERED PLATE GRATING OR 3/16 CHECKERED PLATE TYP AT EACH GR POST GRATING OR GRATING OR 3/16 CHECKERED PLATE 3/16 1/2 12 CHECKERED CHECKERED PLATE L2x2x5/16 CONT WT FLANGE TO LPLATE 3/16 ADD PL 1/4" IF CHANNEL TYP 3/16 1/2 12 L2x2x5/16 CONT FLANGE THICKNESS IS LESS THAN 3/8" WT STEM TO 3/16 SE-1 SE-2 SE-3 CHANNEL 3/16 SE-4 SE-5 B 1/4" CANTILEVER DIMENSIONS SEE PLANS 3/16 2-24 1/4" KICK PL SHOWN ON PLANS ARE TO 3/16 2-24 FACE OF KICK PLATE. GRATING OR SEE NOTE CHECKERED PLATE ALTERNATE REMOVABLE 1/4" STIFFENER PLATES AT "7" + 4" LOCATION EVERY OTHER BAR GUARDRAIL POST 3/16 STAIR STRINGERS ONLY = TYP 3/16 1 PLATE K 3/16 PL 1 /2x2 1 /2x0'-6 1/2" ~ - - II ~ I + (2) 5/8" DIA A325 BOLTS � WF LOCATIONS I — w/ BEVELED WASHERS BENT PL 1/4" I GRATING 3/16 2-24 1/4" _ _ _ _ — THICKNESS 3/16 GRATING OR 71 3/16 3-12 3/16 2-24 GRATING OR CHECKERED PLATE CHECKERED PLATE T+ 4LOCATE L2x2x1/4 AND WELD TO COLUMN. SPAN TO NEXT 1/2 12 L2x2x5/16 CONT COPE 3/8" WHERE STAIRS GO DOWN USE AS REQUIRED TO SUPPORT GRATING, SUPPORT BEAM CHECKERED PLATE OR METAL DECK C AND ABRASIVE NOSING OCCURS. SE-7 SE-10 SE-6 SE-9 NOTE: CHANNEL LOCATIONS CANTILEVER IS NOT TO EXCEED 1/3 OF SPAN TO NEXT SUPPORT BEAM UNLESS NOTED OTHERWISE. SE-8 REMOVABLE 3/16 3/16 REMOVABLE GUARDRAIL POST 3/16 3/16 GUARDRAIL POST L GUARDRAIL POST SEE REMOVABLE SEE REMOVABLE GUARDRAIL CONN GUARDRAIL POST GUARDRAIL CONN GUARDRAIL POST GUARDRAIL POST 5/8"DIA A325 SET t BOLT w/ NUT WELDED � TO PIPE SLEEVE STOP LUGS 2 SIDES OF POST 3/16 3/16 D SECTION SECTION SECTION II III 2" DIA PIPE SLEEVE EVERY 3/16 3/16 WELDED WELDED WELDED WELDED II CONNECT TO FLOOR OR OTHER II PLATFORM PER BAR 3/16 3/16 3/16 II I APPLICABLE EDGE DETAIL PLAN REMOVABLE 3/16 3/16 REMOVABLE II GUARDRAIL POST GUARDRAIL POST II GO-1 WITH KICK PLATE SEE REMOVABLE SEE REMOVABLE II GUARDRAIL CONN GUARDRAIL POST II GO-2 WITHOUT KICK PLATE GUARDRAIL CONN GUARDRAIL POST I 4"4" 2 1 /2" 3 1/2" 2 1 /2" 4" 2 1/2" 2 1/2" _ _ _ _ — CAP END OF 2 1 /2" 3 1 /2" 2 1 /2" 4„ 2 1/2" 4„ 2 1/2" 4„ GUARDRAIL POST SEE PLANS 1/4 1/4 1/4 1/4 KICK PLATE REMOVABLE GUARDRAIL CONNECTION PL 3/8"' PL 3/8" PL 3/8" PL 3/8" NOT TO SCALE IF READ SECTION SECTION SECTION BOLTED NOTE: BOLTED BOLTED BOLTED USE WHERE GUARDRAIL IS INDICATED AS "REMOVABLE" ON PLANS. GRATING PL 1/4" THICKNESS SECTION REMOVABLE GUARDRAIL POST REMOVABLE GUARDRAIL POST GUARDRAIL POST GUARDRAIL POST A III 1/4" KICK PL I 1/4" KICK PL � 1/4" KICK PL � 1/4" KICK PL � COVERALL OPENINGS DURING CONSTRUCTION.; CO I M FI GRATING OR co N4__ I M GRATING OR CO M —T GRATING OR CO M GRATING OR i i F CHECKERED PLATE CHECKERED PLATE L CHECKERED CHECKERED *. ; 4 BOLT CONNECTION PLATE PLATE FOR BOLTED CONN FOR BOLTED CONN * F • +`�� PL 3/8 WIDE FLANGE OR PL 3/8 WIDE FLANGE OR 7 4 BOLT CONNECTION 4 BOLT CONNECTION ���# �jRy 5%� CHANNEL CHANNEL FOR BOLTED CONN PL 3/8"' FOR BOLTED CONN WIDE FLANGE OR WIDE FLANGE OR SE-11 SE-12 CHANNEL CHANNEL z REMOVABLE GUARDRAIL MIN NOMINAL BEAM DEPTH = 811 SE13 - Mar 8 2017 } MIN NOMINAL BEAM DEPTH = 8 SE-14 Q REMOVABLE GUARDRAIL MIN CHANNEL DEPTH - 8" o MIN CHANNEL DEPTH = 8" TITLE F FOR BI NOT WATER REDIRECTION PROGRAM z RETENTION AND HOLDING BASIN w w FOR CONSTRUCTION FOUNDATIONS z STANDARD DETAILS w J SHEET 8 J z FOR z BELEWS CREEK STEAM STATION U1 &2 O BURNS SCALE: AS SHOWN CON: 5.8120 o6 ` M c DO N N E L L DUKE DWG TYPE: FDN DFTR: KRH JOB NO: 88673 CHKD: JAB m 9400 WARD PARKWAY 1111116w, E N E R YF STOKES COUNTY, NC DATE: 11/2/16 ENGR: ZSC o B 12/9/16 ZSC JAB ISSUED FOR BID KANSAS CITY, MO 64114 APPD: 0 816-333-9400 FILENAME: BL 00- D-K-YM.00. D-008.dwg A 11/4/16 ZSC - ISSUED FOR OWNER REVIEW FIRM LICENSE NO. C-1435 DWG SIZE DRAWING NO. REVISION ARCH El o no. I date I by I ckd I description no. I date I by I ckd I description 300"42.0" BLC00-CD-K-YM.00.SD-008 B U 4 5 6 7 8 9 10 Z:\CLIENTS\ENR\DUKEENR\WTRREDIRPROG\88673_BELEWSCREEK\DESIGN\STRUC\CAD\8120-RETENTION BASINS\BLC00-CD-K-YM.00.SD-008.DWG 11/30/2016 10:13 AM KHAMPEL i i 2 3 4 5 6 7 TOP OF WALL EL 799'-0 7/8" 0 0 N TOC I:111101.11:1Ix•30 co C #4 TIES #4 DOWELS w/ STD HK AT BOT, TYP SEE SECTION ON THIS DWG FOR REINF SECTION 0 1' 2' 4' YM.00.PL-003 mmmml v SCALE IN FEET 1LA Tl r[+ (4) #4 DOWELS w/ STD HK AT BOT SECTION rE 0 1' 2' 3' SCALE IN FEET (3) #9 VERT EC E EF W/ STD HK SECTION A 0 1' 2' 4' YM.00.PL-003 v SCALE IN FEET DETAIL 2 0 1' 2' 3' YM.00.PL-003 mmmmi SCALE IN FEET PL3/8x4 1 /2x0'-6" w/ (2) 3/4" DIA A325 TOP OF WALL EL 797'-0 7/8" Tn(' TYPICAL SCALE IN INCHES BOLTS IN STD HOLES N 1'-0" 1/2" 1/4 1/4 N W8 (TOP FLANGE NOT a ° a° ° a s o SHOWN FOR CLARITY) ° SEE TYPICAL O a a CONC WALL EMBEDDED PLATE ° DETAIL ON THIS DWG ° a a 1 /4 5116 ° a °a SEE TYPICAL EMBEDDED ° PLATE DETAIL ON THIS DWG a a ° DETAIL 3 0 1/2' 1' 11/2' YM.00.PL-003 v SCALE IN FEET SEE SECTION "A" ON THIS DWG FOR REINF SEE SECTION "C" ON THIS DWG FOR REINF L PROVIDE 3'-0"x3'-0" OPENING FOR RODNEY HUNT SERIES L (204) UPWARD OPENING STAINLESS STEEL SLUICE ' ATE (REINF PER CO-2). CONTRACT 5.8120 TO PROVIDE' ND INSTALL SLUICE GATE USING 316 SS ADHESIVENCHORS PER MANUFACTURER'S INSTRUCTIONS SECTION �1 0 1' 2' 4' YM.00.PL-003 v SCALE IN FEET (4) 1/4" DIA NAIL HOLES TOP OF WALL EL 799'-0 7/8" (4) HILTI 1/2" DIA TOP OF WELDED HEADED STUD EO79 BOLO$,K ANCHORS (EMBED-4") (4) #9 HORIZ - PL1/2" #9 VERT EF W/ STD HK SEE SECTION H BOT OF PIPE EL 793'-3" TOC EL 792'-0 7/8" 1 1/2" SERRATED GRTG PER PLAN SEE TYP PIPE PENETRATION `- REINF DETAIL FOR ADD BARS /'1 TOG EL 799'-0 7/8" ROUGHEN SURFACE CJ-1 TOS EL 4*j SEE SECTION A W8 798'-11 3/8" 1 FOR REINF a, 1 LU I— O #5 @ 10" W/ STD Iw HK, TYP UNO U) 2'-0" 1'-0" 4'-0" 6" SEE SECTION J D SEE SECTION A -6 FOR REINF PROVIDE REINF PER STD DIET CO-1 (SIM) FILL CONCRETE (GROUT) 1 1-011 77777 c� 00 PL3/8x4 1/2x0'-5" w/ (2) 3/4" DIA A325 ° BOLTS IN STD HOLES a � a CONC WALL SECTION F 0 1/2' 1' 11/2' YM.00.PL-003 v SCALE IN FEET (3) #9 VERT EQ SP, EF W/ STD HK SEE SECTION A FOR REINF - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - SECTION rH 0 1' 2' 3' SCALE IN FEET D 1 2/27/17 1 ASK I JAB I ISSUED FOR PRICING C 12/9/16 ASK JAB ISSUED FOR BID B 11/4/16 ASK - ISSUED FOR OWNER REVIEW A 9/19/16 ASK - ISSUED FOR OWNER REVIEW no. date by ckd description no. date by ckd 4 Z:\CLIENTS\ENR\DUKEENR\WTRREDIRPROG\88673_BELEWSCREEK\DESIGN\STRUC\CAD\8120-RETENTION BASINS\BLC00-CD-K-YM.00.SD-010.DWG 2/27/2017 9:33 AM KHAMPE 0 SEE SECTION G FOR REINF I #5 @ 10" EF, D TYP UNO 2'-0" 1 SEE NOTE 9 SECTION G 0 1' 2' 4' SCALE IN FEET 7" rl R ►A Lcz:)) CL CON BLOCK -' o - SECTION �1 0 12' 4' YM.00.PL-003 v SCALE IN FEET MJ END " CL 36" DIP I CL 12" HDPE CL 30" HDPE 1 DR 11 PIPE I DR 11 PIPE z O U) I= O� = z z m O I SEE NOTE 7 i TOP OF GRADE CL WALL — — ISCO 4710 RESIN ISFFWA30111PS WALL ANCHOR (SEE NOTE 7 & 8) N D CLASS 53 DUCTILE IRON VOLCLAY WATERSTOP PLAIN END BY MECHANICAL CENTER IN WALL JOINT WALL PIPE WITH ISCO 4710 RESIN (TYP 3 PLACES) SEEP RING (SEE NOTE 8) ISFFWA12111PS WALL ANCHOR (SEE NOTE 7 & 8)� SEEP RING CENTER IN BLOCK SECTION J 0 2' 4' 6' SCALE IN FEET NOTES: ����i��+'x���� 1. SEE DRAWING BLC00 CD K-YM.00.PL-001 FOR SITE ARRANGEMENT PLAN. � , C�L SEE DRAWINGS BLC00-CD-K-YM.00.SD-001 THROUGH BLC00-CD-K-YM.00.SD-008 AND BLC00-ST-S-YM.00.SD-001 FOR STANDARD DETAILS AND GENERAL NOTES. 3. SEE CIVIL DRAWING BLC00-CV-C-GR.PL-002 FOR LOCATION, ORIENTATION, AND FINAL b& FM GRADE ELEVATION. Z srzAL f 4. MAXIMUM RATED LIVE LOAD ON GRATING OF 100PSF.$ 5. PROVIDE 3" CLEAR COVER MIN TO FOOTING AND 2" CLEAR COVER AT WALLS.dh VIL AND FOR PIPE MECHANIC NGS 7. WELD A. SEE C(SECTIONS OF HDPE APIPETOITHE CORRESPOND NG WALL ANCHOR PRIOR TO i F . + o # C *+ PLACEMENT IN THE CONCRETE WALL AND CONCRETE BLOCK. ��� P� �8. CONTRACTOR TO ENSURE ADEQUATE PLACEMENT TO CONSOLIDATE THE CONCRETE' AROUND THE PIPE PENETRATIONS. 9 BOX SSEEDRAWING BL 00-CD BOTTOM LAB. FOOTING KHTHE YM 0SD 0BOTTOM ELEVATION OF THE TRENCH END Mar 8 2017 TITLE WATER REDIRECTION PROGRAM FOR BID -NOT RETENTION AND HOLDING BASIN FOR CONSTRUCTION FOUNDATIONS PRIMARY BASIN INLET STRUCTURE SECTIONS AND DETAILS BURNS N&ME-DONNELL 9400 WARD PARKWAY KANSAS CITY, MO 64114 816-333-9400 FIRM LICENSE NO. C-1435 description 5 6 7 8 9 i FOR BELEWS CREEK STEAM STATION U1 &2 fDUKE 11111116., F ENEIR GY STOKES COUNTY, NC SCALE: AS SHOWN 5.8120ft� DWG TYPE: FDN DO R: TJW JOB NO: 88673 CHKD: JAB DATE: 9/19/16 ENGR: ASK FILENAME: BLC00-CD-K-YM.00.SD-010.dw9 APPD: DWG SIZE DRAWING NO. REVISION ARCH El BLC00-CD-K-YM.00.SD-010 D 10 LET L C 0 E 4 5 6 7 8 9 10 Z:\CLIENTS\ENR\DUKEENR\WTRREDIRPROG\88673_BELEWSCREEK\DESIGN\STRUC\CAD\8120-RETENTION BASINS\BLC00-CD-K-YM.00.SD-015.DWG 2/27/2017 1:29 PM KHAMPEL i i I 01 LZI C E 2 3 4 5 6 7 8 9 GENERAL NOTES: STANDARD FRAMED BEAM HEAVY FRAMED BEAM SPEIAL FRAMED BEAM 1. ALL DETAILS AND NOTES ON THIS DRAWING ARE BURNS & McDONNELL CONNECTION SYMBOL CONNECTION SYMBOL CONNECION SYMBOL STANDARDS WITHOUT RESPECT TO CONTRACT. USE ONLY THOSE SEE NOTES BELOW SEE NOTES 1 AND 2 BELOW E NOTES 1 AND 2 BELOW TYPES CALLED FOR ON PLANS OR AS REQUIRED TO ACCOMPLISH 5 5 ALsEwl'8x5oT WORK. H 2. ITEMS WHICH ARE TO BE FURNISHED AND INSTALLED BY SEPARATE W18x50 W18x50 CONTRACTS ARE IDENTIFIED AND LABELED FOR EACH CONTRACT. 3. CONNECTIONS FOR BEAMS SHOWN ON OTHER DRAWINGS SHALL 1 CONFORM TO THE REQUIREMENTS DEFINED BELOW UNLESS NOTED STEEL BEAM SIZE STEEL BEAM SIZE STEEL BEAM SIZE OTHERWISE. STANDARD FRAMED BEAM CONNECTIONS HEAVY FRAMED BEAM CONNECTIONS SPECIAL FRAMED BEAM CONNECTIONS NOTES. 1. UNLESS NOTED OTHERWISE ALL BEAM CONNECTIONS SHALL BE PER TABLE 10-2 CASE I OF AISC STEEL CONSTRUCTION MANUAL 13TH EDITION WITH SHOP WELDS. NOTES: 1. HEAVY FRAMED BEAM CONNECTION SYMBOL AS NOTED ON PLANS: 2. THE NUMBER INDICATES THE MINIMUM NUMBER OF ROWS OF THE NUMBER INDICATES THE MINIMUM NUMBER OF ABBREVIATIONS: HIGH -STRENGTH BOLTS FOR THAT END CONNECTION. END 5 ROWS OF HIGH -STRENGTH BOLTS FOR THAT END AA - ALUMINUM ASSOCIATION JT - JOINT CONNECTIONS SHALL BE STANDARD FRAMED BEAM BEARING CONNECTION. SEE DETAILS BELOW, AB - ANCHOR BOLT KB - KNEE BRACE TYPE CONNECTIONS PER TABLE 10-2 CASE I OF AISC STEEL 2. WELD SIZE TO BE ONE-HALF THE WEB THICKNESS AND NOT ABT - ABOUT KPL - KICK PLATE CONSTRUCTION MANUAL 13TH EDITION. TO EXCEED THE FOLLOWING: A - AMERICAN CONCRETE A MINIMUM CLIP ANGLE THICKNESS: INSTITUTE KSI - KIPS PER SQUARE INCH BEAM -TO -COLUMN CONNECTION: 3/8" ADH - ADHESIVE AGGR - AGGREGATE L - LONG BEAM -TO -BEAM CONNECTION: 3/8" AHR - ANCHOR LAD - LADDER LB - POUND B. TABLE 10-2 CASE I WELDS TO BE 3/16" AISC - AMERICAN INSTITUTE OF STEEL CONSTRUCTION LL - LIVE LOAD 3. ROWS OF BOLTS: THE NUMBER OF FASTENERS IN A VERTICAL AISI - AMERICAN IRON AND LLH - LONG LEG HORIZONTAL ROW. STEEL INSTITUTE LLV - LONG LEG VERTICAL 4 WHERE NO STANDARD FRAMED BEAM CONNECTION SYMBOL OX -A- NOTES: AL - ALUMINUM LNTL - LINTEL ALTN - ALTERNATE LONG - LONGITUDINAL IS INDICATED, THE BEAM END CONNECTION SHALL BE IN 3. SEE ALSO STANDARD FRAMED BEAM CONNECTION NOTES 3 1. SPECIAL FRAMED BEAM CONNECTION SYMBOL AS NOTED ANSI - AMERICAN NATIONAL LPT - LOW POINT ACCORDANCE WITH THESE NOTES AND WITH THE FOLLOWING AND 5. ON PLANS. STANDARD INSTITUTE LS - LAP SPLICE MINIMUM NUMBER OF HIGH -STRENGTH BOLTS: THE LETTER INDICATES THE CONNECTION APPROX - APPROXIMATE MATL - MATERIAL C6, W6, OR LESS = 1 ROW OF 2 BOLTS ON WEB DESIGNATION PER THE SPECIAL FRAMED BEAM ARCH - ARCHITECT MAX - MAXIMUM C8 OR W8 = 2 ROWS A5 CONNECTION SCHEDULE ASTM - AMERICAN SOCIETY FOR MECH - MECHANICAL -B - TESTING OF MATERIALS MEZZ - MEZZANINE C10 OR W10 = 2 ROWS 3 ROWS 4 ROWS THE NUMBER INDICATES THE MINIMUM NUMBER OF AWS - AMERICAN WELDING MFR - MANUFACTURER C12 OR W12 = 3 ROWS ROWS OF HIGH -STRENGTH BOLTS FOR THAT END SOCIETY MH - MANHOLE C15 OR W14 = 3 ROWS NOTE 2 NOTE 2 CONNECTION BC - BOLT CIRCLE MISC - MISCELLANEOUS ANEOUS W16 = 4 ROWS ABOVE ABOVE 2. CONNECTION TYPES: BETW - BETWEEN MK - MARK W18 = 4 ROWS - STD SIMILAR TO STANDARD FRAMED BEAM BLDG - BUILDING CY) CONNECTIONS PER THIS DRAWING USING AISC BM - BEAM N - NORTH W21 = 5 ROWS TABLE 10-2 CONNECTIONS EXCEPT AS NOTED IN BOS - BOTTOM OF STEEL NA - NOT APPLICABLE W24 = 6 ROWS I I THIS SCHEDULE BOT - BOTTOM NE - NORTHEAST W27 = 7 ROWS • HEAVY SIMILAR TO HEAVY FRAMED BEAM CONNECTIONS BRG - BEARING NF - NEAR FACE PER THIS DRAWING EXCEPT AS NOTED IN THIS Ir BRKT - BRACKET NIC - NOT IN CONTRACT W30 = 8 ROWS 2 1/2" 2 1/2" C/C - CENTER TO CENTER NO - NUMBER W33 = 9 ROWS 5 1/2" 2 1/2" 2 1/2" SCHEDULE. CAP - CAPACITY NOM - NOMINAL SPECIAL CONNECTION PER DETAIL NOTED IN THIS CF - CUBIC FEET NS - NEAR SIDE W36 = 9 ROWS 5 1/2" SCHEDULE. CHKR - CHECKER NTS - NOT TO SCALE 5. THE NUMBER OF BOLTS OR THE NUMBER OF ROWS OF BOLTS FOR 3/4" DIA BOLTS USE 2L6x3 1/2x3/8x0'-8 1/2" FOR 3/4" DIA BLOTS USE 2L6x3 1/2x5/16x0'-11 1/2" 3. SEE ALSO STANDARD FRAMED BEAM CONNECTION NOTES 1 CIR - CIRCLE NW - NORTHWEST INDICATED IS THE MINIMUM. PROVIDE ADDITIONAL BOLTS THRU 9. CJ - CONSTRUCTION JOINT OC - ON CENTER AND/OR CONNECTION DEVICES AS REQUIRED TO COMPLY CL - CENTER LINE OD - OUTSIDE DIAMETER WITH OSHA REGULATION 29CFR1926 SUBPART R-STEEL CLJ - CONTROL JOINT OF - OUTSIDE FACE ERECTION. CLR - CLEAR OPNG - OPENING 6. UNLESS NOTED OTHERWISE, BOLT HOLES FOR BEAM WELD SIZE CMU - CONCRETE MASONRY OPP - OPPOSITE CONNECTIONS SHALL BE STANDARD HOLES FOR BEARING 5 ROWS 6 ROWS PER SCHEDULE C UNIT OSHA - OCCUPATIONAL TYPE CONNECTIONS. OVERSIZED, OR SHORT SLOTTED HOLES CO - CONCRETE OPENING SAFETY AND HEALTH FOR SLIP -CRITICAL CONNECTIONS SHALL BE USED WHERE COL - COLUMN ADMINISTRATION NOTE NOTE BOLT SIZE CONC - CONCRETE OZ - OUNCE INDICATED, OR WHEN APPROVED BY THE ENGINEER. LONG -SLOTTED BOLT HOLES ARE NOT PERMITTED. 2 2 SUPPORT MEMBER PER SCHEDULE CONN - CONNECTION PED - PEDESTAL ABOVE ABOVE FLANGE OR WEB CONT - CONTINUOUS PEN - PENETRATE 7. CONNECTION BOLTS SHALL COMPLY WITH ASTM A325 WITH CONTR - CONTRACT THREADS INTERCEPTED. ALL BOLTS SHALL BE 3/4 INCH _ _ COORD - COORDINATE PERP - PERPENDICULAR DIAMETER UNLESS NOTED OTHERWISE. �'� 1 I I PJTN - PROJECTION �,., �,., ROWS OF COR - CORNER PL - PLATE 8. BEAM CONNECTIONS TO EXISTING BEAMS OR COLUMNS CRSI - CONCRETE REINFORCING PREFAB - PREFABRICATED SHALL BE ALL -WELDED DOUBLE ANGLE CONNECTIONS WITH O BOLTS PER STEEL INSTITUTE PSF - POUNDS PER SQUARE FIELD WELDED CLIP ANGLES TO BOTH MEMBERS, UNLESS SCHEDULE CTR - CENTER FOOT NOTED OTHERWISE. ANGLES SIZES SHALL BE L4X4X3/8 CY - CUBIC YARD PSI - POUNDS PER SQUARE (MINIMUM). LENGTH OF ANGLES SHALL BE EQUIVALENT TO 2 1/2" 2 1/2" DBL - DOUBLE INCH "STANDARD CONNECTION" REQUIREMENTS FOR BOLTED 0.1 T DET - DETAIL PVC - POLYVINYL CHLORIDE CONNECTIONS BASED ON MEMBER SIZE. WELD SIZES FOR LIL5 1/2" 2 1/2" 2 1/2" DIA - DIAMETER WELD A AND B SHALL BE THE MINIMUM SIZES AS SPECIFIED IN 5 1/2" SINGLE TAB PLATE, DIAG - DIAGONAL R - RISER TABLE 10-3 OF AISC MANUAL 13th EDITION. THICKNESS PER RAD - RADIUS CONNECTION SCHEDULE DIM - DIMENSION 9. MAXIMUM BEAM CONNECTION GAGE SHALL BE 5 1/2". AT FOR 3/4" DIA BOLTS USE 2L6x3 1/2x3/8x1'-2 1/2" FOR 3/4" DIA BOLTS USE 2L6x3 1/2x3/8x1'-5 1/2" DK - DECKING RD - ROOF DRAIN CONTRACTOR'S OPTION, GAGE MAY BE REDUCED. DL - DEAD LOAD REF - REFERENCE DN - DOWN REINF - REINFORCE SINGLE TAB PLATE READ - REQUIRED DETAIL 1 DWG - DRAWING REV - REVISION DWL - DOWEL RM - ROOM 7 ROWS 8 ROWS -D- E - EAST S - SOUTH SINGLE PLATE EA - EACH SC - SLIP -CRITICAL BACKING BACKING NOTE NOTE SHEAR CONNECTION BOLT SIZE PER ED - EQUIPMENT DRAIN SCHED - SCHEDULE BAR (TYP) BAR (TYP) 2 2 EF - EACH FACE SE - SOUTHEAST ABOVE ABOVE SCHEDULE EJ - EXPANSION JOINT SECT - SECTION EL - ELEVATION _ _ BEAM PER PLAN ELEC - ELECTRICAL Sim - SIMILAR t • ELEV - ELEVATOR SLP - SLOPE I I EMBED - EMBEDMENT SLV - SLEEVE COLUMN PER EQ _ EQUAL SP - SPACE �-, �-, p u O 1 SCHEDULE EQ SP EQUALLY SPACED SPEC - SPECIFICATION - - U) coo O 1 EQUIP - EQUIPMENT SQ - SQUARE BACKING LU O 1 EQUIV - EQUIVALENT SST - STAINLESS STEEL BAR (TYP) TYP TYP + � I I O -J U O EXIST - EXISTING STD - STANDARD 772 0° W O 1 EXP - EXPANSIONSTIF - STIFFENER STD BEAM CONN 2 1/2" 4-2 1/2" EXT - EXTERIOR STIR - STIRRUPEW - EACH WAY STL - STEEL STD BEAM CONN BACKING BAR (TYP) 5 1/2" 2 1/2" 1/2" FAB - FABRICATE STR STRAIGHT 5 1/2' FULL DEPTH STIFFENER FD - FLOOR DRAIN STRL - STRUCTURAL TYPICAL FIELD WELDED BEAM -TO -BEAM THICKNESS PER SCHEDULE (T&B) FDN - FOUNDATION STRUC - STRUCTURE FOR 3/4" DIA BOLTS USE 2L6x3 1/2x5/16x1'-8 1/2" FOR 3/4" DIA BOLTS USE 2L6x3 1/2x3/8x1'-11 1/2" I MOMENT CONNECTIONS FF - FAR FACE SW - SOUTHWEST SCH FL - FLOOR SYMM - SYMMETRICAL 3 SIDES SCH FLG - FLANGE T&B - TOP & BOTTOM FNSH - FINISH TEMP - TEMPORARY FS - FAR SIDE THD - THREAD BUILDING CODE AND DESIGN LOAD INFORMATION 9 ROWS 10 ROWS FT - FEET THK - THICK Flo FUT - FUTURE THRU - THROUGH 1. 2012 NORTH CAROLINA STATE BUILDING CODE. g. IMPORTANCE FACTOR: 1 = 1.25 NOTE NOTE GA - GAGE TOB - TOP OF BOLT 2. INTERNATIONAL BUILDING CODE (IBC 2009). h. SEISMIC DESIGN CATEGORY B 2 2 `•� GALV - GALVANIZE TOC _ TOP OF CONCRETE 3. AISC 360-05, SPECIFICATIONS FOR 7. SNOW LOAD ABOVE • ABOVE0�0., GND - GROUND TOG TOP OF GRATING STRUCTURAL STEEL BUILDINGS. GR - GUARDRAIL TOS - TOP OF STEEL a. GROUND SNOW LOAD: PG = 20 PSF GRTG - GRATING TRD - TREAD 4. AISC MANUAL OF STEEL CONSTRUCTION, b. OCCUPANCY CATEGORY 111 - - 3 SIDES�� F SCH Z TYP - TYPICAL ALLOWABLE STRESS DESIGN, 13TH EDITION SCH i ~ H - HIGH AND AISC CODE OF STANDARD PRACTICE FOR c. IMPORTANCE FACTOR: I = 1.10 - I - HEX - HEXAGON UNO - UNLESS NOTED OTHERWISE STEEL BUILDINGS AND BRIDGES. d. EXPOSURE CATEGORY: CE = 0.9 �,� �,�0'''. HK - HOOK VAR - VARIES 5. WIND DESIGN 8. LIVE LOAD - _ * i `' ' F' + R� HORIZ - HORIZONTAL VERT - VERTICAL �1) M � CRY 5, s HPT - HIGH POINT a. BASIC WIND SPEED: V = 90MPH, 3 SECOND a. ROOF = 20 PSF - - # �ji I�` HR - HANDRAIL W _ WEST GUST STIFFENED TAB PLATE HS - HIGH STRENGTH b. PLATFORMS AND STAIRS = 100 PSF PP � W/ - WITH b. OCCUPANCY CATEGORY III - DETAIL 2 IBC - INTERNATIONAL W/O - WITHOUT c. EXPOSURE CATEGORY C BUILDING CODE wD - WIDTH 6. SEISMIC DESIGN 2 1/2" 2 1/2" Mar 8 2017 ID - INSIDE DIAMETER WP - WORK POINT IF - INSIDE FACE WT - WEIGHT a. SITE CLASS: D 5 1/2" 2 1/2" 2 1/2" F b INTR - INTERIOR 51/2" TITLE WATER REDIRECTION PROGRAM E: WWF - WELDED WIRE FABRIC b. Fa = 1.6 INVT - INVERT c. Fv = 2.4 FOR BID - NOT FOR 3/4" DIA BOLTS USE 2L6x3 1/2x3/8x2'-2 1/2" FOR 3/4" DIA BOLTS USE 2L6x3 1/2x3/8x2'-5 1/2" STRUCTURAL STEEL d. Ss (0.2) = 0.224g FOR CONSTRUCTION STANDARD DETAILS D e. S1 (1.0) = 0.083g SHEET 1 o f. OCCUPANCY CATEGORY III U J J z FOR z BELEWS CREEK STEAM STATION U1 &2 O BURNS SCALE: AS SHOWN CON: 5.8120 06 ` M c DO N N E L L DUKE DWG TYPE: ST DFTR: KRH W JOB NO: 88673 CHKD: TMH m 9400 WARD PARKWAY 11111116w, E N E R YF STOKES COUNTY, NC DATE: 2/27/17 ENGR: JJK 0 KANSAS CITY, MO 64114 APPD: 0 816-333-9400 FILENAME: BL 00- T--YM.00. D-001.dwg M A 2/27/17 ZSC TMH ISSUED FOR PRICING FIRM LICENSE NO. C-1435 DWG SIZE DRAWING NO. REVISION ARCH El o no. I date I by I ckd I description no. I date I by I ckd I description 30 0"42.0" BLCOO-ST-S-YM.003D-001 A uL. 4 5 6 7 8 9 10 Z:\CLIENTS\ENR\DUKEENR\WTRREDIRPROG\88673_BELEWSCREEK\DESIGN\STRUC\CAD\8120-RETENTION BASINS\BLC00-ST-S-YM.00.SD-001.DWG 2/27/2017 9:36 AM KHAMPEL i i CLIP ANGLE THICKNESS MAX WELD SIZE 5/16" 1/4" 3/8" 5/16" 1/2" 7/16" SPECIAL CONNECTION SCHEDULE CONNECTION DESIGNATION CONNECTION TYPE CLIP ANGLE OR PL THICKNESS WELD SIZE BOLT DIAMETER REFERENCE DETAIL AND DRAWINGS A STD 1/2 1/4 3/4 B STD 5/8 1/4 3/4 C STD 3/4 5/16 3/4 D SPECIAL 1/2 1/4 3/4 DETAIL 1 E SPECIAL 1/2 1/4 3/4 DETAIL 2 I C 0 4 5 6 7 8 9 10 Z:\CLIENTS\ENR\DUKEENR\WTRREDIRPROG\88673_BELEWSCREEK\DESIGN\STRUC\CAD\8320-MECHANICAL CONSTRUCTION\SK-001.DWG 3/9/2017 8:16 AM EAQUICK i i I n IV FBI 4 5 6 7 8 9 10 Z:\CLIENTS\ENR\DUKEENR\WTRREDIRPROG\88673_BELEWSCREEK\DESIGN\STRUC\CAD\8120-RETENTION BASINS\BLC00-CD-K-YM.00.PL-006.DWG 4/3/2017 10:49 AM KHAMPEL i I n IV FBI 4 5 6 7 8 9 10 Z:\CLIENTS\ENR\DUKEENR\WTRREDIRPROG\88673_BELEWSCREEK\DESIGN\STRUC\CAD\8120-RETENTION BASINS\BLC00-CD-K-YM.00.PL-007.DWG 4/3/2017 10:50 AM KHAMPEL i I 2 3 4 5 6 7 8 BILL OF MATERIALS N NO. DESCRIPTION SIZE in QTY PIPE 1 Pipe , ASTM D3350 , Fusion Plain End , IPS , 4 247.9' Cell Cl of 445574C (PE4710) DR 11 , Per ASTM F714 FITTINGS 2 45' elbow, molded , HDPE Fittings , Fusion 4 4 Plain End , ASTM D3350 , Cell CL of 445574C (PE4710) DR 11, Molded per ASTM D3261 3 450 elbow, trimmable , HDPE Fittings , Fusion 4 1 Plain End , ASTM D3350 , Cell CL of 445574C A (PE4710) , DR 11 W 1043'-8 1 /4" N 7024'-6 1 /8" BOP EL +795'-10 3/8" 2 45° 76.3° 5„ r_5 118„ 4"NPD 3/16'' 170 2.1 0 12 ' 1.00 2 5/8' ❑ 2 W 1013'-1 1 /4" 6'-4 3/8" 45° N 6902'-0 5/16" 4"-OOWY-2001 O-OOPDH08-NI--N BOP EL +790'-7 1 /2" W 954'-8 9/16" 4 7/8' W 1050'-0 5/8" N 6817'-11 11/16" 3'-9 7/8' N 7028'-3 15/16" -1 ,_ BOP BOP EL +796 -0 11/16�� 5811 9�-4 1 3/16" N 6844' 4 3 4" EL +789'-5 5/8" BOP 6'-3 11/16" 1 3/16 EL +790'-0" 2 3 511-315/16" 450 1.8° 13/16' 1 C CONN TO 0.6 0.6 4 NPD BLC00-IS-P-WY.20010 SHT 2 2 1 W 953'-2 3/16" 450 0.6 N 6811'-10 1 /4" 76.0° 31.0° EL +789'-7 1 /8" DISCHARGE TO A PRIMARY BASIN 0\�6 6'-1 7/16' W 953'-2 3/16" 6 7/16' , p�A' 26'S N 6811'-10 1 /4" j 7 ..0° 71764 r6�� 18 5/16" EL +789'-7 1 /8" 80; 6 o�\ 8 p�' ----------------------------------- ����4,'G A Rr0 ; SE Jz 043 GENERAL NOTES: TITLE 1. PIPING DEFINED SHOWS THE CENTERLINE LOCATIONS AND END CONNECTION y ,��rrf H4`�ti WATER REDIRECTION PROGRAM REQUIREMENTS. CONTRACTOR/SUPPLIER SHALL DESIGN INTERMEDIATE PIPING JOINTS FOR PROPER SYSTEM OPERATION AND INSTALLATION. PIPING FOR BID - NOT F REQUIREMENTS ARE DEFINED WITHIN THE TECHNICAL SPECIFICATIONS. CONTRACTOR/SUPPLIER SHALL PREPARE DETAILED DESIGN DRAWINGS. FOR CONSTRUCTION .This document has been digitally sealed. ISOMETRIC 04I17/17 YARD DRAINING J J W FOR BELEWS CREEK STEAM STATION U1 & 2 TRAC E BELL/SPIGOT BURNS DUKE SCALE: SCALE AS SHOWN CON: 5.8120 U) z - � MSDONNELL z — 4 �9400 DWG TYPE: IS DFTR: SBP THREADED PIPE SUPPORT/PENETRATION E N E RGY® JOB NO: 88673 CHKD: WARD PARKWAY KANSAS CITY, MO 64114 STOKES COUNTY, NC DATE: 12/09/16 ENGR: B 01/30/17 HAS ZLB ISSUED FOR ADDENDUM 1 O 816-333-9400 FILENAME: BLC00-IS-P-WY.20010.dwg APPD: A 12/13/16 HAS ZLB ISSUED FORBID BUTT WELD FIELD WELD SOCKETWELD FIRM LICENSE NO. C-1435 DWG SIZE DRAWING NO. REVISION ANSI D 22.0"X34.0" (r ��A00_I�-�-■�oo� 0 it } ISOMETRIC LEGEND sHT 1 OF 3 no. date by ckd description no. date by ckd description 1 1 /27/2017 9:17:41 AM 2 3 4 5 6 7 8 BILL OF MATERIALS N 2 9/16' CONN TO BLC00-IS-P-WY.20010 SHT 3 NO. DESCRIPTION SIZE in QTY PIPE 1 /16' W 1012'-2 13/16" 1 Pipe , ASTM D3350 , Fusion Plain End , IPS , 4 110.3' ' ', 0.70 2'-8 3/4" N 7096'-7 5/8" Cell Cl of 445574C (PE4710) DR 11 , Per ASTM BOP 4"NPD �� 8'-9 11/16" EL +798'-7 7/16" F714 FITTINGS 1 1/8, 30.70 2 45° elbow, molded , HDPE Fittings , Fusion 4 5 5„ 45° W 1014'-11 9/16" Plain End , ASTM D3350 , Cell CL of 445574C N 7092'-1" (PE4710) DR 11, Molded per ASTM D3261 4 5/16' 0.6° w BOP W 1014'-4 7/16" ❑2 EL +798'-6 13/16" A N 7105-2 5/16" 45° ❑ BOP ❑2 EL +798'-8 9/16" 76.00 450 2'-15/8' 31.00 00 0.6 4'-6 9/16' 8'-6 11/16' 76"70 73/76,, B �a ❑2 14.0° 1� �i 4500.60 �3;1 3'-3 3/16' W 1058'-7 1 /2" 13/16' 0.60 C N 7081'-2 1 /4" BOP EL +798'-1 3/16" ❑ 6'-4 1 /8" 31.0° S'S 48'-5 15/)6„ r/fit-, 1 23 7/16' 4 "NpD W 1061'-10 11/16" N 7075-8 15/16" ❑ BOP 450 2.30 EL +798'-0 1/2" 76.0° \CONNTO BLC00-IS-P-WY.20010 SHT 1 -1( 4j \ '0 1 $ 0 ------------------- ����4 G A Rr0 ; SE Jz 043 GENERAL NOTES: TITLE 1. PIPING DEFINED SHOWS THE CENTERLINE LOCATIONS AND END CONNECTION y ,��rrf H4`�ti WATER REDIRECTION PROGRAM REQUIREMENTS. CONTRACTOR/SUPPLIER SHALL DESIGN INTERMEDIATE PIPING JOINTS FOR PROPER SYSTEM OPERATION AND INSTALLATION. PIPING FOR BID - NOT F REQUIREMENTS ARE DEFINED WITHIN THE TECHNICAL SPECIFICATIONS. CONTRACTOR/SUPPLIER SHALL PREPARE DETAILED DESIGN DRAWINGS. FOR CONSTRUCTION .This document has been digitally sealed. ISOMETRIC 04I17/17 YARD DRAINING J J W FOR BELEWS CREEK STEAM STATION U1 & 2 TRAC E BELL/SPIGOT BURNS DUKE SCALE: SCALE AS SHOWN CON: 5.8120 U) z - � MSDONNELL z — 4 �9400 DWG TYPE: IS DFTR: SBP THREADED PIPE SUPPORT/PENETRATION E N E RGY® JOB NO: 88673 CHKD: WARD PARKWAY KANSAS CITY, MO 64114 STOKES COUNTY, NC DATE: 12/09/16 ENGR: B 01/30/17 HAS ZLB ISSUED FOR ADDENDUM 1 O 816-333-9400 FILENAME: BLC00-IS-P-WY.20010.dwg APPD: A 12/13/16 HAS ZLB ISSUED FOR BID BUTT WELD FIELD WELD SOCKETWELD FIRM LICENSE NO. C-1435 DWG SIZE DRAWING NO. REVISION ANSI D 22.0"X34.0" (r ��A00_I�-�-■�oo� 0 it } ISOMETRIC LEGEND SHT 2 OF 3 no. date by ckd description no. date by ckd description 1 1 0 1 /27/2017 9:17:41 AM 2 3 4 5 6 7 8 BILL OF MATERIALS N NO. DESCRIPTION SIZE in QTY PIPE 76.0° PIPE SPEC: 1 Pipe , ASTM D3350 , Fusion Plain End , IPS , 4 68.0' S10 10 9/16' 01 NTS01 PIPE SPEC: Cell Cl of 445574C (PE4710) DR 11 , Per ASTM OOPDHO8 F714 CONTAINMENT PENETRATIO F7 G8 B9 2 Pipe, S-40S, ASME-1336.19M , BE, ASTM B729 4 1.5' 0 OPEN TO CAUSTIC TANK CONTAINMENT PD 2'-0 /3/16 N 7125'-9" FITTINGS W 950'-0 11/16" 8„ 121 15118, BOP 3 45' elbow, molded , HDPE Fittings , Fusion 4 Plain End D3350, 445574C 3 N 7129'-10 1 /16" � ❑3 EL +799'-5 5/16"—A ,ASTM Cell CL of — EL +799'-8 1 /8" ° 1 (PE4710) DR 11, Molded per ASTM D3261 FLANGES F7 G8 B9 4 Convoluted Backup ring , Ductile Iron , 200 4 1 0.60 W 949'-10 3/16" PSIG rated with ASME B16.5 CL 150 bolt 4"-OOWY-20010-01 NTS01-NI-N \ N 7124'-4 11/16" pattern , FFLFE x FPE 9 3/4 2 30 9° BOP 5 Flange adapter, IPS Fittings , FFLFE x FPE , 4 1 EL +799'-5 3/16" ASTM D3350 ,Cell CL of 445574C (PE4710) DR 4; J 11 , ASTM D3261 7/y6% 3 6 WN Flg. , S-40S, ASME B16.5 , CL 150, FF , 4 1 N2 0 6 co 450 ASTM B462 (UNS N08020) 11 7 WN Flg. , S-40S, ASME B16.5 , CL 150 , RF , 4 2 STEM HOR 166 DEG VOR 0.6 DE 16 5/16' F4 L5 °O ASTM B462 (UNS N08020) OOWY-V-2011 GASKETS B 8 Sp. Wound Gskt , ASME B16.20, Spiral Wound 4 2 Gaskets for ASME B16.5 Flanges, CL 150 , RF ❑ , Flexitallic CGI, 304 SS, Flex Graph Filler, CS -OR, 304-IR , THK 1/8" (3.2 mm) BOLTS 75;63�� 9 Std Blt & 2 Hex Nut, Gen manu , ASTM A193 5/8 16 Grade B7 , Full Thread, Heavy Hex Nuts ASTM A194 2H PIPE SUPPORTS 10 CONTAINMENT PENETRATION 4 1 4"-OOWY-20010-OOPDH08-NI-N VALVES & IN -LINE ITEMS 11 Gate Valve, Handwheel Operator, GA01 NT600 4 1 C 6`L,tk ❑3 45° 0.6° 14.0° 23 5/8' 7/16' W 1012'-2 1 /4" N 7108'-9 15/16" 0.50 T-9 15/16" BOP EL +798'-9 1/16" 31.00 ' 1 4"NPD 3'-3 5/16' CONN TO BLC00-IS-P-WY.20010 SHT 2 ----------------------------------- ����4 G A Rr0 ; 04o,�r�ssaQ�!y�` _ SE 1 043 GENERAL NOTES: TITLE 1. PIPING DEFINED SHOWS THE CENTERLINE LOCATIONS AND END CONNECTIONy �rrf H4`�ti' WATER REDIRECTION PROGRAM REQUIREMENTS. CONTRACTOR/SUPPLIER SHALL DESIGN INTERMEDIATE JOINTS FOR PROPER SYSTEM OPERATION AND INSTALLATION. PIPING PIPING FOR BID - NOT F REQUIREMENTS ARE DEFINED WITHIN THE TECHNICAL SPECIFICATIONS. CONTRACTOR/SUPPLIER SHALL PREPARE DETAILED DESIGN DRAWINGS. FOR CONSTRUCTION ;Phis document has been digitally sealed. -this c ISOMETRIC YARD DRAINING J J W FOR BELEWS CREEK STEAM STATION U1 & 2 TRAC E BELL/SPIGOT BURNS DUKE SCALE: SCALE AS SHOWN CON: 5.8120 U) z - � MSDONNELL z — 4 �9400 DWG TYPE: IS DFTR: SBP THREADED PIPE SUPPORT/PENETRATION E N E RGY® JOB NO: 88673 CHKD: WARD PARKWAY KANSAS CITY, MO 64114 STOKES COUNTY, NC DATE: 12/09/16 ENGR: B 01/30/17 HAS ZLB ISSUED FOR ADDENDUM 1 O 816-333-9400 FILENAME: BLC00-IS-P-WY.20010.dwg APPD: A 12/13/16 HAS ZLB ISSUED FOR BID BUTT WELD FIELD WELD SOCKETWELD FIRM LICENSE NO. C-1435 DWG SIZE DRAWING NO. REVISION ANSI D 22.0"X34.0" ��(rA00_I�-�-■�oo� 0 it } ISOMETRIC LEGEND sHT 3 OF 3 no. date by ckd description no. date by ckd description 1 1 0 1 /27/2017 9:17:41 AM T 2 T 3 T 4 T 5 T 6 T 7 T 9 �—A �_C �—D �—E A �06/28/17� RDV ZLB ISSUED FOR PERMITTING no. I date I by I ckd I description ZAClients\ENR\DukeEnr\WtrRedirProg\88673_BelewsCreek\Design\Mech\CADD\Sketches\88673SKM005.dgn no. date by I ckd 4 STATE PLANE NORTH Angle (39' 59' 56.753460") PLANT GRID NORTH 0 30' 60' 00019 SCALE IN FEET description I 5 6 7 8 i I I I PRELIMINARY - NOT FOR CONSTRUCTION BURNS N&MEDONNELL 9400 WARD PARKWAY KANSAS CITY, MO 64114 816-333-9400 FIRM LICENSE NO. C-1435 a_xN`�o CARO"P/ 4469 r � ., C '61 , /40 t• �ti ��f�1�1111}tip 06/29/ 17 TITLE WATER REDIRECTION PROGRAM RB/HB FLOW SCHEMATIC FOR BELEWS CREEK STEAM STATION U1 &2 -Ibb- DUKE ENERGY® STOKES COUNTY, NC SCALE: 1 30 N: 5.8320 DWG TYPE: DO R-. KMM JOB NO: 88673 CHKD: DATE: 06/28/17 ENGR: RDV FILENAME: 88673SKM005.dgn APPD: DWG SIZE DRAWING NO. REVISION ARCH E1 30.0"x42.0" SKM005 A A--� C__� D--� F--� 0 1CO/29/2017 SUSERNAMESTIMES I