Loading...
HomeMy WebLinkAbout0403_AnsonLF_SiteStudy_20220715SITE STUDY APPLICATION ANSON COUNTY LANDFILL PHASE 5 ANSON COUNTY, NORTH CAROLINA Prepared For: CHAMBERS DEVELOPMENT OF NORTH CAROLINA, INC., A WHOLLY OWNED SUBSIDIARY OF WASTE CONNECTIONS, INC. Prepared By: CIVIL & ENVIRONMENTAL CONSULTANTS, INC. CHARLOTTE, NC SEAL _ 039114 February 7, 2022 Nathan Bivins, P.E. Project Manager CEC Project 165-276 NOVEMBER 2020 REVISED SEPTEMBER 2021 REVISED DECEMBER 2021 North Carolina Board of Examiners for Engineers and Surveyors License No. C-3035 REVISED FEBRUARY 2022 0, eovl�� Todd Whittle Principal AV Jff AW Civil & Environmental Consultants, Inc. + 3i01 Arco Corporate Drive.5vire 4013 1 Charlotte, NC 25773 1 p- 4&4-337-0323 f 994-337-0372 1 www_cecinc.com TABLE OF CONTENTS Page 1.0 INTRODUCTION.............................................................................................................. I 1.1 Project Description.................................................................................................. 1 1.2 Compliance with State and County Solid Waste Management Plans .................... 1 1.3 Purpose and Scope.................................................................................................. 2 2.0 REGIONAL CHARACTERIZATION STUDY 15a NCAC 13B .1618C(1) ................3 2.1 Topography and Features(.1618(c)(1)(A))............................................................. 3 2.2 Proposed Landfill Facility Location (.1618(c)(1)(B))............................................ 4 2.3 Public Water Supply Wells, Surface Water Intakes, and Service Areas (.1618(c)(1)(C))...................................................................................................... 4 2.4 Residential Subdivisions(.1618(c)(1)(D)).............................................................. 5 2.5 Waste Transportation Routes (.1618(c)(1)(E))....................................................... 5 2.6 Public Use Airports and Runways (.1618(c)(1)(F))............................................... 6 3.0 LOCAL CHARACTERIZATION STUDY 15a NCAC 13B.1618C(2)........................7 3.1 Disposal Site (.1618(c)(2)(A))................................................................................ 7 3.2 Existing Land Use and Zoning (.1618(c)(2)(B)).................................................... 7 3.3 Location of Private Residences and Schools (.1618(c)(2)(C)) ............................... 7 3.4 Location of Commercial and Industrial Buildings (.1618(c)(2)(D)) ...................... 8 3.5 Location of Potable Wells(.1618(c)(2)(E))............................................................ 8 3.6 Historic Site(.1618(c)(2)(F)).................................................................................. 8 3.7 Existing Topography Features(.1618(c)(2)(G))..................................................... 8 3.8 Site Hydrogeologic Report (.1618(c)(3))................................................................ 9 4.0 LOCATION RESTRICTIONS(.1618(c)(4)).................................................................10 4.1 Compliance with Rule .1622 (2)(a) - F1oodPlains................................................ 10 4.2 Compliance with Rule .1622 (3)(a)(iii) - Wetlands .............................................. 10 4.3 Compliance with Rule .1622 (4)(a) - Fault Areas ................................................ 11 4.4 Compliance with Rule .1622 (5)(a) - Seismic Impact Zones ............................... 11 4.5 Compliance with Rule .1622 (6)(a) - Unstable Areas .......................................... 11 4.6 Compliance with Rule .1622 (8) - state nature and historic preserve .................. 12 4.7 Compliance with Rule .1622 (9) - water supply watersheds ................................ 12 4.8 Compliance with Rule .1622 (10) - Endangered and THREATENED Species.................................................................................................................. 13 5.0 GOVERNMENT APPROVALS.....................................................................................14 6.0 PROPOSED FACILITY PLAN.....................................................................................15 6' 1 Purpose and Scope................................................................................................ 15 6.1.1 Introduction and Facility Information........................................................15 6.2 Waste Stream -15A NCAC RULE .1626 (1) &(9)............................................... 15 6.2.1 Types of Wastes.........................................................................................15 6.2.2 Disposal Rates............................................................................................17 6.2.3 Service Area...............................................................................................17 Civil & Environmental Consultants, Inc. -i- Site Study Application - Anson County Landfill Phase 5 November 2020 6.2.4 Waste Segregation.....................................................................................17 6.2.4.1 Types of Waste........................................................................18 6.2.4.2 Weighing and Control of Waste Volumes...............................20 6.2.4.3 Inspection.................................................................................20 6.2.4.4 Equipment and Staffing...........................................................21 6.3 Containment And Environmental Controls - 15A NCAC RULE .1619(E) (3).......................................................................................................................... 21 6.3.1 Leachate Migration....................................................................................21 6.3.2 Landfill Gas Management..........................................................................21 6.3.3 Soil Resources............................................................................................22 7.0 TRAFFIC STUDY...........................................................................................................23 8.0 ENVIRONMENTAL IMPACT STUDY.......................................................................24 APPENDICES Appendix A — Figures and Characterization Study Exhibits Figure 1 — Vicinity Map Figure 2 — USGS Topography Map Figure 3 — Wetlands Map Exhibit 1 — Regional Characterization Map Exhibit 2 — Local Characterization Map Appendix B — Engineering Drawings Appendix C — Design Hydrogeologic Investigation Report Appendix D — Jurisdictional Delineation Report Appendix E — Cultural Resources Report Appendix F — Protected Species Assessment Report Appendix G — Government Approvals Appendix H — NCDOT Certification on Highway Traffic Appendix I — Environmental Impact Study Appendix J — Other Related Documents Civil & Environmental Consultants, Inc. -ii- Site Study Application — Anson County Landfill Phase 5 November 2020 1.0 INTRODUCTION 1.1 PROJECT DESCRIPTION Civil & Environmental Consultants, Inc. (CEC) is submitting this Site Study Application for Phase 5 of the Anson County Landfill (Landfill) on behalf of Chambers Development of North Carolina, Inc., a wholly owned subsidiary of Waste Connections, Inc. (WCN) to the North Carolina Department of Environment Quality (NCDEQ). 1.2 COMPLIANCE WITH STATE AND COUNTY SOLID WASTE MANAGEMENT PLANS This report demonstrates compliance with the rules and regulations 15A NCAC 13B .1618 Site Study for MSWLF Facilities set forth by the NCDEQ. The findings and conclusions of this report are supported by technical studies which are included as Appendices in this report. ' Report 15A NCAC 13B. 1618 (a)- Purpose Section 1.3 15A NCAC 13B .1618 (b)- Scope Section 1.3 15A NCAC 13B. 1618 (c)(1)- Regional Section 2.0 Characterization Study Exhibit I 15A NCAC 13B. 1618 (c)(2)- Local Section 3.0 Characterization Study Exhibit 2 15A NCAC 13B. 1618 (c)(3)- Site Hydrogeologic Appendix C Report 15A NCAC 13B .1618 (c)(4)- Location Restrictions Section 4.0 15A NCAC 13B. 1618 (c)(5)- Local government Section 5.0 approvals 15A NCAC 13B. 1618 (c)(6)- Proposed Facility Section 6.0 Plan Civil & Environmental Consultants, Inc. -1- Anson Landfill Phase 5 Site Study November 2020 1.3 PURPOSE AND SCOPE This site study is to demonstrate that the portion of land, within the landfill property, chosen for Phase 5 is suitable. The proposed expansion will be built adjacent to (the west of) the existing landfill. The said portion of land is currently mostly wooded and an existing stream originates from this area as shown on Figure 1 (Vicinity Map). Using field survey, desktop review, and previously approved site study for this property, this report will show that the proposed expansion area will not impact public health and welfare and the environment. The author of this report is a qualified environmental professional and has sealed and signed this report. Civil & Environmental Consultants, Inc. -2- Anson Landfill Phase 5 Site Study November 2020 2.0 REGIONAL CHARACTERIZATION STUDY 15A NCAC 13B .1618C(1) The regional characterization study area includes the landfill facility and a two mile perimeter measured from the proposed boundary of the landfill facility. A regional map is presented as Exhibit 1 in Appendix A. 2.1 TOPOGRAPHY AND FEATURES (.1618(C)(1)(A)) The general vicinity and topography of Anson County Landfill (Landfill) is shown on Figure 2 (USGS Topography Map). The figure shows that the existing landfill is situated on a ridge that is bounded on the west by Brown Creek and on the east by Pinch Gut Creek. The CSX Railroad bounds the property to the immediate south and US Highway 74 further south. Features within two (2) miles of the property are shown on Exhibit 1 in Appendix A. Within this buffer, the surrounding area is rural and primarily wooded. The Town of Polkton is located within this buffer to the west. A portion of the Town of Wadesboro is also located within this buffer to the east. Residential, commercial, and industrial properties are scattered throughout the remaining 2-mile buffer area. The topographic features of the site and the immediate adjacent areas as shown in Figure 2 depict series of rolling hills that reach the heights of almost 350 feet above sea level. The lowest elevation is 250 feet above sea level before water drains to Brown Creek and Pinch Gut Creek. For a complete discussion of site topography and surface drainage, the reader is referred to the Design Hydrogeologic Investigation Report, prepared by Civil & Environmental Consultants, Inc. (dated March 2018). A copy of this report (excluding appendices) is presented in Appendix C. Civil & Environmental Consultants, Inc. -3- Anson Landfill Phase 5 Site Study November 2020 2.2 PROPOSED LANDFILL FACILITY LOCATION (.1618(C)(1)(B)) The Landfill is situated in the south-central portion of Anson County, North Carolina, north of US Highway 74. Entrance is at the southern end of the landfill on Dozer Drive, which is accessible from US Highway 74. The Landfill is currently comprised of four phases with a combined area of approximately 133 acres. The proposed expansion, Phase 5, will add approximately 66.90 acres over an area that is presently hilly and wooded southwest of the existing phases. The existing Landfill has been developed incrementally in phases. Within each phase, smaller cells were developed where the timing of construction were dictated by the owner and waste capacity. Phases 1 and 2 were permitted to construct in 2000 and 2008, respectively. Both are currently operational. Phases 3 and 4 were permitted to construct in 2018. Cell 2 of Phase 3, adjacent to Phase 4 (see Engineering Drawing C100 in Appendix B), is most recently constructed and is actively accepting waste. This site study is part of the permit to construct the proposed Phase 5 portion of the Landfill. Phasing and timing of Phase 5 construction will be established as has previously been upheld. Engineering drawings, provided in Appendix B, show the proposed design and progression of the landfill including the expansion area. The drawings depict floor grades, leachate conveyance, waste and final cover grades, erosion and sedimentation control measures, and stormwater management system. The projected life of Phase 5 is approximately 11.61 years based on the anticipated average incoming waste rate of 3,000 tons per day. 2.3 PUBLIC WATER SUPPLY WELLS, SURFACE WATER INTAKES, AND SERVICE AREAS (.1618(C)(1)(C)) Based on the Preliminary Siting Criteria map prepared by GZA Environmental in 1992 for the initial permitting and the GIS data from Anson County website*, public water supply wells, waterlines and fire hydrants are shown within two (2) miles of the property. They are Civil & Environmental Consultants, Inc. 4- Anson Landfill Phase 5 Site Study November 2020 represented as blue dots, black dashed lines, and red open circles, respectively, on Exhibit 1 in Appendix A. *(http://www.co.anson.nc.us/252/GIS-Data-Downloads) The nearest water supply wells are located within the Landfill property. Other water supply wells near the landfill are located outside of the landfill property lines, a minimum 1200 feet distance. 2A RESIDENTIAL SUBDIVISIONS (.1618(C)(1)(D)) Residential subdivisions are identified within 2 miles of the property but are scattered within the two mile buffer. Tighter clusters of residences are located within the Town of Polkton and Wadesboro closer to the outermost limit of the 2-mile buffer. 2.5 WASTE TRANSPORTATION ROUTES (.1618(C)(1)(E)) Waste materials are transported to the site using trucks and other suitable waste transport vehicles. Access to the site is directly from US Highway 74. The site access road is approximately 2,500 feet in length from the intersection of US Highway 74 to the scale area. This provides staging distance for waste transport vehicles arriving simultaneously. Waste loads contained in open top containers are inspected prior to reaching the scale area. If hazardous or other unacceptable waste is detected or observed, the load will be rejected and directed to leave the site without being allowed to deposit the waste material. Waste vehicles transporting acceptable waste will be weighed and allowed to pass the scales. The recycling building, tire processing area, yard waste composting area, and sanitary landfill are accessible from the main road, beyond the scale area. Vehicles will be directed to the appropriate waste processing area by site personnel and informational signs. After waste transport vehicles deposit their loads, they will exit the site using the main access road. All vehicles must pass by the scale area and be logged out. If necessary, vehicles can pass through a tire - Civil & Environmental Consultants, Inc. -5- Anson Landfill Phase 5 Site Study November 2020 wash area to remove mud or dirt prior to reaching US Highway 74. Any mud that reaches the public road will be promptly removed. 2.6 PUBLIC USE AIRPORTS AND RUNWAYS (.1618(C)(1)(F)) The nearest airport to the Anson County Landfill Solid Waste Management Facility is the Anson County Airport which is located approximately 4 miles northeast of the site. The proposed expansion will not affect public use of airport and runway as it is beyond the 10,000 foot setback requirements for turbine powered aircraft and 5,000 foot setback for the piston powered type aircraft. Civil & Environmental Consultants, Inc. -6- Anson Landfill Phase 5 Site Study November 2020 3.0 LOCAL CHARACTERIZATION STUDY 15A NCAC 13B .1618C(2) Local characterization study includes the landfill facility and a 2,000 feet perimeter from property boundary of the landfill facility. Exhibit 2 in Appendix A presents the 2,000-ft perimeter and an aerial photo as background. 3.1 DISPOSAL SITE (.1618(C)(2)(A)) The limit of waste within the property is shown on Exhibit 2 (Local Characterization Map). It shows the 2,000 foot perimeter as measured from the property boundary as well as the aerial photo which was taken from NCONE Map aerial imagery data, dated 2019. There are no on -site easements identified at the time of study. 3.2 EXISTING LAND USE AND ZONING (.1618(C)(2)(B)) Land use and zoning of the site and surrounding area of the Landfill have not been zoned in local zoning classification systems (Anson County GIS). The original permit included a letter from the Anson County Board of Commissioners stating this fact and is included in this report in Appendix J. However, since the original permit was approved in 2000, the site has been developed as a sanitary landfill. A portion of the site and areas located along US Highway 74 are zoned for light industry, commercial and residential purposes (Anson County GIS). Zoning areas, residences, commercial buildings, utilities, roads, wells, and water courses are shown on Exhibits 1 and 2. 3.3 LOCATION OF PRIVATE RESIDENCES AND SCHOOLS (.1618(C)(2)(C)) Private residences are located within 2,000 feet of the perimeter offset. They are represented as green dots on Exhibits 1 and 2. Local schools are not located within the 2,000 feet perimeter offset. They are represented as red diamonds on Exhibit 1. Civil & Environmental Consultants, Inc. -7- Anson Landfill Phase 5 Site Study November 2020 The expansion is designed to be, at minimum, 500 feet away from all residences and occupied buildings as required by Rule .1624 (b)(3)(B). 3A LOCATION OF COMMERCIAL AND INDUSTRIAL BUILDINGS (.1618(C)(2)(D)) There are no commercial or industrial buildings located within the 2,000 feet perimeter offset. Commercial buildings are shown, as pink dots, outside of this buffer on Exhibit 1. The expansion is designed to be, at minimum, 500 feet away from all residences and occupied buildings as required by Rule .1624 (b)(3)(B) which applies for this condition as well. 3.5 LOCATION OF POTABLE WELLS (.1618(C)(2)(E)) Locations of potable wells are shown on Exhibits 1 and 2 (blue dots). Historical locations were taken from a preliminary siting criteria map prepared by Riley, Park, Hayden & Associates, Inc. for Chambers Development of North Carolina, Inc. in January 1992. The map is presented in this report as a reference in Appendix J. 16 HISTORIC SITE (.1618(C)(2)(F)) A Cultural Resources report is presented in Appendix E. It describes the history of investigations at the site and provides an updated assessment of the sites in the proposed project area. 3.7 EXISTING TOPOGRAPHY FEATURES (.1618(C)(2)(G)) Existing topography of the Landfill is partially developed into the now operational Phases 1, 2, and 3. Surface water runoff from these developed areas are collected by temporary diversion ditches and perimeter channels that flow to existing basins before draining to surface water Civil & Environmental Consultants, Inc. -$- Anson Landfill Phase 5 Site Study November 2020 tributaries to Pinch Gut Creek. The portion of land where the proposed expansion development is currently wooded and drains to tributaries to Brown Creek. The 100-year floodplain is shown on Exhibit 1 and wetland areas as depicted in National Wetlands Inventory is shown on Figure 3. On August 2, 2016, Carolina Wetland Service (CWS) performed a site visit to delineate jurisdictional waters of the US. Wetlands and streams were identified in the project area. Of the jurisdictional streams, Stream A will be impacted by this project, consisting of approximately 1,466 linear feet and 0.08 acres of stream impact. This Stream A is shown on figures in the Jurisdictional Delineation Report in Appendix D. Streams B and C, and the wetlands identified in the CWS report will not be impacted by this project. Based on this proposed impact on Stream A, the Owner is currently preparing permitting documents for an Individual Permit with the United States Army Corps of Engineers (USACE), in accordance with Section 404 of the Clean Water Act. This Permit Application is submitted contingent on the Owner obtaining an Individual Permit for the stream impact area. 3.8 SITE HYDROGEOLOGIC REPORT (.1618(C)(3)) The site Hydrogeologic Report is presented in Appendix C and fulfills the requirements set forth in Rule .1623 (a). Civil & Environmental Consultants, Inc. -9- Anson Landfill Phase 5 Site Study November 2020 4.0 LOCATION RESTRICTIONS (.1618(C)(4)) 4.1 COMPLIANCE WITH RULE .1622 (2)(A) - FLOODPLAINS The proposed expansion is not located in the 100-year floodplain. The limit of waste versus the 100-year floodplain limit are shown on Exhibit 1 in Appendix A. Grading in the proposed expansion maintains positive drainage to stormwater treatment BMPs and then to existing tributaries. All waste materials will be contained within the Landfill by means of cell berms and proper waste compaction. 4.2 COMPLIANCE WITH RULE .1622 (3)(A)(III) - WETLANDS Carolina Wetland Services, Inc (CWS) provided a Jurisdictional Delineation Report on August 10, 2016. This report included the results of the on -site field investigations for jurisdictional waters located within the Anson County Landfill project limits. From this investigation CWS determined there were six jurisdictional waters of the U.S. located within the project limit. The determined waters of the U.S. located consist of three jurisdictional stream channels, two jurisdictional wetland areas, and one jurisdictional pond. The on -Site jurisdictional waters drain to Brown Creek and Pinch Gut Creek. Brown Creek and Pinch Gut Creek are part of the Yadkin Pee Dee River Basin (HUC 03040104) and are classified as "Class C Waters" by the NCDEQ. Class C waters are defined as: "Waters protected for uses such as secondary recreation, fishing, wildlife, fish consumption, aquatic life including propagation, survival and maintenance of biological integrity, and agriculture. Please see Jurisdictional wetlands study presented in Appendix D for full study. The Anson County Landfill permitted the placement of fill material in 1,177 linear feet of jurisdictional stream and 0.125 acre of jurisdictional wetlands to provide solid waste disposal services to Anson County customers. Approval from the U.S. Army Corp was received in a letter dated May 13, 2020 giving Waste Connections permission to place fill material in the above mentioned proposed impacted areas. The Landfill also received 401 Water Quality Certification approval from NCDEQ April 28, 2020 for the same impacts as listed above. Please see Jurisdictional wetlands study presented in Appendix D for full study. Please see U.S. Army Corp Civil & Environmental Consultants, Inc. -10- Anson Landfill Phase 5 Site Study November 2020 Approval and 401 Water Quality Certification approval letters presented in Appendix D for full approval conditions. 4.3 COMPLIANCE WITH RULE .1622 (4)(A) — FAULT AREAS Per Regulation Rule .1622(4)(a): "MSWLF units shall not be located within 200 feet (60 meters) of a fault that has had displacement in Holocene time unless the owner or operator demonstrates to the Division that an alternative setback distance of less than 200 feet (60 meters) will prevent damage to the structural integrity of the MSWLF unit and will be protective of human health and the environment." That region in which the Anson County Landfill is located is not known to be seismically active. A review of the Preliminary Map of Young Faults in the United States As a Guide to Possible Fault Activity (Howard, et al, 1978) suggests the age of the youngest known displacement on the only regional fault noted occurred more than 15 million years ago. In addition, this fault is located a significant distance from the Anson County Landfill. 4.4 COMPLIANCE WITH RULE .1622 (5)(A) — SEISMIC IMPACT ZONES The Anson County Landfill is located in a seismic impact zone as defined in Subpart B of the EPA's MSW Landfill Criteria Technical Manual: "...an area with a ten percent or greater probability that the maximum horizontal acceleration in lithified earth material, expressed as a percentage of earth's gravitational pull (g), will exceed 0.10g in 250 years." The structural components including liners, leachate collection and removal systems, surface water control systems will be designed to resist the maximum horizontal acceleration. The seismic design for landfill components will be presented in the Permit to Construct Application. 4.5 COMPLIANCE WITH RULE .1622 (6)(A) — UNSTABLE AREAS Geotechnical investigations at the Anson County Landfill have demonstrated that site soils are stable. In addition, cell design drawings typically specific that soils are stripped to, or close to, the underlying bedrock, after which structural fill is placed to construct the base grades of new Civil & Environmental Consultants, Inc. -11- Anson Landfill Phase 5 Site Study November 2020 cells. As such, landfill foundations are sound. Further, the area in which the Anson County Landfill is located is not susceptible to mass movement, and is not underlain by karst terrain. 4.6 COMPLIANCE WITH RULE .1622 (8) — STATE NATURE AND HISTORIC PRESERVE Brockingham and Associates, Inc. completed a background literature review of the Anson County Regional Landfill tract located in Anson County, in October 2020. Brockingham and Associates, Inc requested background documents and site records from the Research Center Collections Manager at the Office of State Archaeology (OAR) in Raleigh, NC to identify all previously documented cultural resources and to assess the potential for any historic properties to be impacted by the current expansion and future land use of the landfill. All work was in compliance with Section 106 of the National Historic Preservation Act as administered through regulatory programs of the NC State Historic Preservation Office (SHPO) and USACE. From this review, Brockingham and Associates, Inc found that the Anson County Landfill will not have an adverse impact on any lands included in the State Nature and Historic Preserve. Please see Cultural Resources Literature Review report in Appendix Appendix J for full review. 4.7 COMPLIANCE WITH RULE .1622 (9) — WATER SUPPLY WATERSHEDS The Anson County Landfill will not be located within in the critical area of a water supply watershed or in the watershed for a stream segment classified as WS-I, in accordance with the rules codified at 15A NCAC 2B .0200 - "Classifications and Water Quality Standards Applicable To Surface Waters Of North Carolina." Brown Creek and Pinch Gut Creek are part of the Yadkin Pee Dee River Basin (HUC 03040104) and are classified as "Class C Waters" by the NCDEQ. Class C waters are defined as: "Waters protected for uses such as secondary recreation, fishing, wildlife, fish consumption, aquatic life including propagation, survival and maintenance of biological integrity, and agriculture. The Anson County Landfill with obtain a National Pollution Discharge Elimination System (NPDES) Permit from the Division of Environmental Management pursuant to Section 402 of the United States Clean Water Act prior to discharging Civil & Environmental Consultants, Inc. -12- Anson Landfill Phase 5 Site Study November 2020 II or WS-III, in accordance with the rules codified at 15A NCAC 2B .0200 - "Classifications and Water Quality Standards Applicable To Surface Waters Of North Carolina." 4.8 COMPLIANCE WITH RULE .1622 (10) — ENDANGERED AND THREATENED SPECIES A Protected Species Assessment was conducted by Carolina Wetland Services (CWS) in August 2016. CWS used North Carolina Natural Heritage Program (NCNHP) to determine if any record occurrences of federally -listed, candidate endangered, threatened species, or critical habitat are located within the project area. Based on this review, there are no current records of federally - protected species within the project limits or within a mile of the project site. CWS also conducted an on -site assessment for federally -protected endangered, threatened, and candidate species, it was determined that there was no suitable habitat for Schweinitz's sunflower, red - cockaded woodpecker, and shortnose sturgeon within the project limits. According to the literature search and on -site assessment performed by CWS the Anson Landfill does not jeopardize the continued existence of endangered or threatened species or result in the destruction or adverse modification of a critical habitat, protected under the Federal Endangered Species Act of 1973. See Protected Species Assessment Report presented in Appendix F for full study. Civil & Environmental Consultants, Inc. -13- Anson Landfill Phase 5 Site Study November 2020 5.0 GOVERNMENT APPROVALS Per the requirement of 15 NCAC 13B .1618 (5), a Franchise Agreement is presented in Appendix G which shows the agreement between Chambers Development of North Carolina with Anson County and provides information regarding public hearings held prior to obtaining said agreement. Civil & Environmental Consultants, Inc. -14- Anson Landfill Phase 5 Site Study November 2020 6.0 PROPOSED FACILITY PLAN 6.1 PURPOSE AND SCOPE 6.1.1 Introduction and Facility Information Anson County Landfill (Landfill) is located in Anson County between Polkton and Wadesboro on US Highway 74. The site is bordered to the northwest by Brown Creek, the east by Pinch Gut Creek, and the south by the CSX railroad. The facility location is presented on Figure 1 Vicinity Map. The Landfill currently operates under Solid Waste Facility Permit Number 0403. 6.2 WASTE STREAM -15A NCAC RULE. 1626 (1) & (9) 6.2.1 Types of Wastes The Landfill will not accept types of waste prohibited by 15A NCAC 13B, which include: • Hazardous wastes as defined within 15A NCAC 13A to include hazardous wastes from conditionally exempt small quantity generators; • Polychlorinated biphenyls (PCBs) wastes as defined in 40 CFR 761; • Liquid wastes except as provided by 15A NCAC 13B .1626(9); • Untreated regulated medical wastes; and • Petroleum contaminated soils. The following waste types will not be accepted for landfilling, but may be accepted at a drop-off for alternative processing: • White goods; • Used oil; • Lead -acid batteries; • Petroleum contaminated waste; Civil & Environmental Consultants, Inc. -15- Anson Landfill Phase 5 Site Study November 2020 • Whole scrap tires; • ABC Container Recycling; • Electronics; • Fluorescent Lights; • Mercury Containing Thermostats; • Oil Filters; • Plastic Bottles; • Wood Pallets; and • Yard waste. The Landfill will accept all types of municipal solid waste (MSW) and special wastes, to include: • Spoiled foods, animal carcasses, abattoir waste, hatchery and other animal wastes; • Asbestos waste; • Treated medical wastes which are not hazardous, liquid, infectious or radioactive; • Wastewater treatment sludges; • Construction/ demolition wastes; • Ash (non -medical); Coal ash may be accepted for disposal after approval of Anson County and the Solid Waste Section; • Industrial process waste; • Off -specification, outdated commercial products; • Barrels and drums which are empty and have been perforated sufficiently to ensure that no liquid or hazardous waste is contained therein, except for fiber drums containing asbestos; • Laboratory waste (non -hazardous); and • Other non-MSW wastes not excluded above. Acceptance of special wastes will be subject to provisions of 15A NCAC 13B, the special waste acceptance procedures defined in the Operations Plan included in this application. Civil & Environmental Consultants, Inc. -16- Anson Landfill Phase 5 Site Study November 2020 The landfill operator shall be responsible for screening wastes to ensure that hazardous or unacceptable wastes are not disposed in the landfill. Screening of special wastes shall be performed in accordance with the Operations Plan. Landfill management reserves the right to establish acceptance criteria and procedures for certain non -municipal solid wastes. These may be more restrictive than required by law based on quantities and characteristics of the waste stream, current operating status of the Landfill, and characteristics of waste streams previously received. Acceptability will be based on judgment of the landfill operator's technical personnel with respect to regulatory requirements, physical and chemical qualities and other technical considerations. 6.2.2 Disposal Rates A March, 2018 Franchise Agreement limited waste acceptance of 6,000 tons per day. The facility will accept only those items listed in 15A NCAC RULE .1626 (1) & (9) that have not come in contact with hazardous constituents, petroleum products, or lead based paints or waste determined as acceptable by the Department based on the submittal of a waste characterization report and will screen the incoming waste in accordance with 1 SA NCAC RULE .1626 (1) & (9). 6.2.3 Service Area In accordance with the agreement between Anson County and WCN, the Landfill will serve Anson County and other parts of North Carolina and South Carolina. 6.2.4 Waste Segregation Incoming waste will be observed to verify it is acceptable in content and origin. Accurate and current records will be maintained for all accepted waste and all Landfill operations. Waste handling procedures and normal operating procedures will be implemented to prevent disposal of unauthorized waste. Civil & Environmental Consultants, Inc. -17- Anson Landfill Phase 5 Site Study November 2020 6.2.4.1 Types of Waste The Landfill will only accept solid waste as described in 1 SA NCAC 13B and will not accept wastes as described in Section 2.2.1. The Landfill may accept special wastes and handling procedures will be implemented by waste type. The special wastes that may be accepted include: o Bulky Waste- Bulky waste such as furniture, appliances, and other over -sized items will be handled such that compaction is maximized and management at the working face is prompt. Bulky wastes will typically be crushed on the ground prior to disposal. If crushing or other size reduction is not possible, bulky wastes will be placed at the base of the working face and run over with the landfill compactor to reduce their size. The bulky waste will then be placed at the toe of the working face and covered with other waste. o Low -Density Wastes- Waste types such as agricultural wastes, loose plastic film, foam rubber, plastic scraps, and plastic shavings require special handling. These materials present problems because they rebound after being compacted by the equipment. In order to achieve maximum densities, light -weight materials should be spread into layers between one (1) and two (2) feet deep before being covered with regular waste and compacted as usual into the base of the cell. o Powdery Waste- The Landfill may accept powdery waste such as ash, sawdust or exhaust trappings. Since these wastes are dry and powdery, they require special management to minimize dusting and blowing. The principal means of controlling these wastes will be wetting or quickly covering with other waste. If conditions warrant, landfill workers managing these wastes will wear protective clothing and respirators as determined by the site safety officer. o Sludges -The Landfill will accept neither municipal sewer sludge nor sludges containing free liquids, as determined by the Paint Filter Liquids test. The Landfill will accept all other sludges subject to the requirement of the Operations Plan's Special Waste Quality Assurance Plan. Sludges that are determined to be acceptable will be mixed/ bulked with municipal solid waste or other solid waste at the working face. Sludges will be stabilized, digested, or heat treated prior to disposal. Civil & Environmental Consultants, Inc. -18- Anson Landfill Phase 5 Site Study November 2020 The amount of sludge managed on a daily basis will be dictated by operating conditions. A maximum ratio of one (1) ton of sludge to five (5) tons of solid waste for daily intake of sludges will be employed. o Free Liquids- The Landfill will not accept solid wastes that contain free liquids as determined by the Paint Filter Liquids Test. However, liquid waste may be treated by solidification, or thickening, to make the waste suitable for landfill disposal. Solidification of liquid waste will be conducted in leak -resistant containers or steel tanks partially buried within an active landfill cell. Incoming liquid waste will be deposited directly into the containers with a solidification agent. Solidification may be accomplished using soil, mulch, wood chips, etc. The liquid waste will be mixed with the solidifying agent in the tanks using a backhoe or other appropriate equipment until free liquid is no longer observed. The solidified waste will then be removed from the tanks and disposed at the working face. The number and location of mixing tanks will be dictated by the Landfill operations. The requirements of this section do not apply to leachate recirculation or landfill gas condensate management. o Putrescible Waste- Animal carcasses, in small volumes, may be managed at the Landfill. If a large volume is delivered to the Landfill, they will be accepted in a designated area away from the working face and promptly covered. o Asbestos Containing Material- The Landfill will contain areas designated for the management of asbestos waste. The management of asbestos waste will follow the procedures described in Appendix D and Appendix E of the Operations Plan. o Tires- The Landfill will not accept whole tires for disposal. Tires pulled from waste loads delivered to the landfill will be temporarily stockpiled in piles not exceeding five (5) feet high, or in trailers. Proper management of collected tires will be arranged as needed. Civil & Environmental Consultants, Inc. -19- Anson Landfill Phase 5 Site Study November 2020 6.2.4.2 Weighing and Control of Waste Volumes All landfill users entering the disposal area must stop on the scales at the entrance gate for security check -in. The load weight, customer, and charges will be recorded for all trucks delivering waste to the disposal area. The Landfill will promptly repair any malfunctioning scales. Vehicles will be directed to the appropriate disposal area by signs. However, verbal or other instructions may be given if necessary. All open topped waste loads will be inspected for hazardous or otherwise unacceptable wastes by the gatekeeper from the observation platform above the gate house. All other waste loads will be inspected at the active face by the equipment operators 6.2.4.3 Inspection A plan will be implemented by the Site Manager to prevent the onsite disposal of unauthorized hazardous wastes. The plan will contain an inspection program to be staffed by personnel who have been trained to recognize unauthorized hazardous wastes. At a minimum, the following shall be included in the inspection program: • Periodic vehicle inspection of loads at the gate and at the landfill face that document all suspicious materials, the hauler, and if possible, the generator; • Random monitoring of organic vapors from open top loads using suitable instruments; • Thorough inspection of suspicious loads; • Training of personnel to recognize regulated hazardous wastes; and • Establishment of specific procedures for notification of proper authorities if a regulated hazardous waste is discovered. Civil & Environmental Consultants, Inc. -20- Anson Landfill Phase 5 Site Study November 2020 6.2.4.4 Equipment and Staffing The Landfill will provide the appropriate level of equipment and staff to address the needs of a landfill that accepts a maximum of 6,000 tons per day. If waste acceptance changes, the equipment and staff levels will change accordingly. All employees associated with the waste management operations will be properly trained for their respective duties. Additional geotechnical testing and analysis throughout construction and operations will confirm the quantities and types of materials required as construction commences and operations continue. 6.3 CONTAINMENT AND ENVIRONMENTAL CONTROLS - 15A NCAC RULE .1619(E) (3) 6.3.1 Leachate Migration Leachate migration will be controlled by a base liner system, leachate collection system (LCS), and final cover system. Daily and intermediate cover may be removed to the extent possible prior to placing additional refuse vertically during operation of the landfill to promote percolation downward to the LCS. Downward migration of leachate into natural ground will be prevented by the base liner system and LCS. The base liner system complies with the requirements of I5A NCAC Rule .1624(b) (1) (A), comprising of a composite liner system and an LCS. 6.3.2 Landfill Gas Management A LFG management system minimizes gas pressure exerted on the closure cap system, eliminates uncontrolled emissions, reduces the potential for odor conditions to develop, and reduces the potential for subsurface migration of landfill gas. The Landfill's LFG management is based on a Landfill Gas Master Plan prepared by SCS Engineers dated November 20, 2007 and revised by Civil & Environmental Consultants, Inc. for this Permit Application. The Landfill Civil & Environmental Consultants, Inc. -21- Anson Landfill Phase 5 Site Study November 2020 Gas Master Plan has been updated for the entire Landfill facility, Phases 1 through 5. LFG management will use an active gas extraction and collection system with auxiliary gas management features. The LFG will be collected using vertical extraction wells installed in the waste which will be connected to collection piping under a constant vacuum generated by a dedicated blower system. Collected LFG will be combusted in the onsite landfill gas flare(s), which will consume the hydrocarbons present in the LFG, reducing hydrocarbon emissions and global warming potential. Vertical extraction well installation will begin once the closure cap is constructed. However, wells may be installed prior to final grades, if the operator determines they will provide effective gas collection capability. Gas migration monitoring is required at the perimeter of the Landfill property line and must be performed in accordance with the requirements of 15A NCAC 13B .1626. 6.3.3 Soil Resources Cut and fill soil volumes were calculated for construction, operations, and closure for Phase 5. The cut and fill soil volumes include construction of base grades, compacted soil liner, protective cover, daily and intermediate cover, perimeter roads, and closure final cover. Approximately 5,415,641 cubic yards of soil fill material will be needed to complete the construction, operations, and closure of the Landfill. An existing onsite soil borrow area and other areas that could be used as borrow areas are available for production of the required soils. Chambers Development of North Carolina, Inc. has recently purchased an adjoining parcel of approximately 300 acres that could be utilized for soil resources in the future. Alternatively, alternate daily cover approved by DEQ may be used to reduce the amount of daily intermediate cover required. Civil & Environmental Consultants, Inc. -22- Anson Landfill Phase 5 Site Study November 2020 7.0 TRAFFIC STUDY The Anson County Landfill is not proposing or anticipating any increase in daily tonnage coming to the site, therefore no traffic increase is anticipated. This site study is for an expansion to increase the total capacity for the landfill and daily volumes will not change. CEC coordinated with NCDOT with the above information and per the attached electronic correspondence letter from the Division Engineer of the North Carolina Department of Transportation located in Appendix H, NCDOT will not be requiring a new driveway permit or any roadway improvements from the expansion. With this documentation the landfill meets the requirements in accordance to NCGS 130A-295.5 (a) and (b). Civil & Environmental Consultants, Inc. -23- Anson Landfill Phase 5 Site Study November 2020 8.0 ENVIRONMENTAL IMPACT STUDY An Environmental Impact Study is presented in Appendix I of this application. Civil & Environmental Consultants, Inc. -24- Anson Landfill Phase 5 Site Study November 2020 APPENDIX A FIGURES AND CHARACTERIZATION STUDY EXHIBITS 8 7 1 1 3 1 Div ,'NORTH I I a \ `4 0 / I I I I D I o/ m i o/ 11 °\\\ i// / I LEGEND i EXISTING PROPERTY LINE ° - ADJACENT PARCEL o D 2-MILE PERIMETER OFFSET 2,000-FT PERIMETER OFFSET — — — — — — — — 200-FT PERIMETER SETBACK — — — — — — — — PROPOSED LIMIT OF WASTE PROPOSED EXPANSION AREA \\ RESIDENCE (WITHIN -2,000 FEET) \ WATER SUPPLY WELLS \ 0 HYDRANTS \ • SEPTIC WELL \ • COMMERCIAL BUILDING O\ \ ♦ SCHOOL 1 RAILROADS - - - - - - - - - - - - EXISTING WATER LINE EXISTING WASTEWATER LINE / 100-YEAR FEMA FLOODPLAIN / EXISTING STREAM LINE TOWN LIMITS I 5,000-FT PERIMETER SETBACK I 10,000-FT PERIMETER SETBACK I � SURFACE WATER FLOW DIRECTION LIGHT INDUSTRIAL (LI) ZONING (ANSON CO GIS) — HIGHWAY BUSINESS (HB) ZONING (ANSON CO GIS) i RESIDENTIAL (R-20) ZONING 1 (ANSON CO GIS) I RESIDENTIAL - AGRICULTURAL (RA) ZONING (ANSON CO GIS) ANSON COUNTY AIRPORT I I I '�F - II �� II II \ I \ �I \ I \ II \ III \\ II ° ° \ O o ° > ° o ° �� ° \\ >' O O L O _ 00 O O�0 O ° O 0 0 O ° 0 0 O 0 0 0 0 O 0 O 0 0 0_ O c TOWN OF WADESBORO LIMITS 00 o p o O p O O O o O 0 0 0 0 0 0 O O p 0 0 0 c 0 n 0 0 REFERENCE 1. DATA FOR PARCELS, CITY LIMITS, FIRE HYDRANT LOCATIONS, COUNTY ZONING LINES, COUNTY WATER LINES, COUNTY WASTEWATER LINES, AND RAILROADS WERE TAKEN FROM ANSON COUNTY PUBLIC RECORDS (GIS DATA DOWNLOADS), ACCESSED OCTOBER 5, 2020. 2. STREAM LINES AND 100-YEAR FEMA FLOODPLAIN TAKEN FROM FEMA NATIONAL FLOOD HAZARD LAYER VIEWER, ACCESSED OCTOBER 5, 2020. 3. WATER WELLS WERE TAKEN FROM PRELIMINARY SITING CRITERIA PREPARED FOR CHAMBERS DEVELOPMENT OF NORTH CAROLINA, INC. BY RILEY, PARK, HAYDEN & ASSOCIATES, INC. OF ATLANTA GEORGIA IN JANUARY 1992, AERIAL PHOTOGRAPHY WAS FLOWN OCTOBER 1991. 4. SCHOOL LOCATIONS WERE VERIFIED VISUALLY USING GOOGLE MAPS. cc O W o oC CL Z M U OC/) w fn ❑ W cc a roll. 0 z CU cf) ti �..� N co N L) Z O ce) i O C) N ci 1 V O 00 0) E o 1 �--i O x 1 1 LL .s U N co 1 1 ,> o � i c) O d N .>O Q a) c a W U o 2 'r~l l~ V Z O Q LV Z O Qa.1 I,-'=voOC zva� wz J as a V 0 _a= O Z LL F- wOz Ja(�CC O W J Z Q cn ♦^ cc V Z O r Mcc0VO �Ov0v Q Z Z � Z v cn2cn Z CC Z Qa W Q a r 5 \/ Z m O r m Q M r N V � a W U P Z Q ul r W Q J U °C J O Q CC O a a W cch cc Z G NORTH CAROLINA BOARD OF EXAMINERS EXHIBIT: SCALE IN FEET FOR ENGINEERS AND SURVEYORS LICENSE 0 2000 4000 NO. C-3035 mm m m a z � z } m z Y w 0 U N a o W cV ~ � O U z O cn a w o m W U 0 0 fr CL ❑ ❑ a G 8 1 1 5 1 3 8 I 7 I 6 3 IF E VFW ED I N ti, B sop ft**%ft 7— ft-ft n- EXISTING PHASE J -mown ammum LEGEND EXISTING PROPERTY LINE ADJACENT PARCEL Am 2-MILE PERIMETER OFFSET 2,000-FT PERIMETER OFFSET 200-FT PERIMETER SETBACK PROPOSED LIMIT OF WASTE PROPOSED EXPANSION AREA • RESIDENCE (WITHIN -2,000 FEET) • WATER SUPPLY WELLS 0 HYDRANTS 0 SEPTIC WELL COMMERCIAL BUILDING ♦ SCHOOL RAILROADS P, - - - - - - - - - - - - EXISTING WATER LINE - - - EXISTING WASTEWATER LINE - - - - - - -- 1 00-YEAR FEMA FLOODPLAIN EXISTING STREAM LINE LIGHT INDUSTRIAL (LI) ZONING (ANSON CO GIS) HIGHWAY BUSINESS (HB) ZONING (ANSON CO GIS) RESIDENTIAL (R-20) ZONING (ANSON CO GIS) RESIDENTIAL - AGRICULTURAL (RA) ZONING )PERTY LINE SETBACK. (ANSON CO GIS) 4 �ALiL, -All -At ROPERTY LINE: V 'A A n e ;y t EXISTING I PHASE 4 2 4k, 000 00,00 '144 CEMETERY. EXISTING PHASE 5 EXISTING TING] PHASE I w '4ka 40M 6ANWAVAIAMWAM"MM"Als 4Mft soft olft Clsx 4FAIVA Ono j 0 z CU cv) CM co C14 z 6 C'4 4j 3, ir�- 0 cv) C-4 c; 00 COTO) E R:t . . 0 (D x y LL U) m ti Q C) C#) c) O 0 00 a) a 0 0 >O c') Lf) z 0 LU — Z LL U) 0 < J 0 C.) 0 ZZaaQ Lu REFERENCE 2 j 1. DATA FOR PARCELS, CITY LIMITS, FIRE HYDRANT LOCATIONS, COUNTY a. 04 — ZONING LINES, COUNTY WATER LINES, COUNTY WASTEWATER LINES, 0 Z U. AND RAILROADS WERE TAKEN FROM ANSON COUNTY PUBLIC W RECORDS (GIS DATA DOWNLOADS), ACCESSED OCTOBER 5, 2020. j2. STREAM LINES AND 100-YEAR FEMA FLOODPLAIN TAKEN FROM FEMA o z NATIONAL FLOOD HAZARD LAYER VIEWER, ACCESSED OCTOBER 5, > < uj j 2020. 3. WATER WELLS WERE TAKEN FROM PRELIMINARY SITING CRITERIA U>- PREPARED FOR CHAMBERS DEVELOPMENT OF NORTH CAROLINA, INC. (n BY RILEY, PARK, HAYDEN & ASSOCIATES, INC. OF ATLANTA GEORGIA = Z 0 Z :) IN1991uj JANUARY 1992, AERIAL PHOTOGRAPHY WAS FLOWN OCTOBER m M . U in 0 0 4. SCHOOL LOCATIONS WERE VERIFIED VISUALLY USING GOOGLE MAPS. 0 0 0 5. AERIAL PHOTO WAS TAKEN FROM NCONEMAP, DATED 2019, Z F_ z ACCESSED OCTOBER 5, 2020. Z e��'��� ����fyt�,.� ��"=� sdl'fp� u•f�ss �+S � P Y }�,;,.. �J C/) Lu m (D wN Not's - LL LL c� CC CC gi Lo �z 2,� (D '4 a. � co to z 2 c1l) L) N LLJ L) Z Z 3: y < Lu LLI F_ < cr m: 0 0 04 Lu 0 cc 04 L) II LL () 0 0 F- L) a. 0 a. 00 Zi LLJ 0 _j N< ui 0 C) > z U) w 0 NORTH CAROLINA 0 CL < BOARD OF EXAMINERS EXHIBIT: SCALE IN FEET FOR ENGINEERS AND 2 SURVEYORS LICENSE 0 400 800 NO. C-3035 2 NORTH K A EXISTING PHASE .3 VAR"r". -PHASE 4 EXISTING PHASE 2 PHASE 5 EXISTING PHASE I 300' OFFICE , . EXISTING ENTRANCE FACILITY US y� ENTRANCE �4 SCALE IN FEET i REFERENCE o 1000 2000 1. AERIAL PHOTO TAKEN FROM NCONEMAP, DATED 2019, ACCESSED OCTOBER 5, 2020 i AV Aw I AA 7 Civil & Environmental Consultants, Inc. 3701 Arco Corporate Drive - Suite 400 - Charlotte, NC 28273 Ph:980.237.0373 Fax:980.237.0372 www.cecinc.com DRAWN BY: PAT CHECKED BY: DATE: OCTOBER 20201 DWG SCALE: NTB I APPROVED BY 1 "=1000 PROJECT NO: LEGEND PROPERTY LINE CURRENT PHASE BOUNDARIES 100—YEAR FEMA EXPANSION AREA CHAMBERS DEVELOPMENT OF NORTH CAROLINA, INC. ANSON COUNTY LANDFILL - PHASE 5 PERMIT TO CONSTRUCT APPLICATION ANSON COUNTY, NORTH CAROLINA VICINITY MAP NTB I FIGURE NO.: 165-276 1 o --NORTH, -- -- - _ CAMERO RD U o ��Q O `r ` `\ o CAMEROAP RD o O �y 35I PROPERTY �z50 4 LL ry> LINE POLK N PROPOSED � LIMIT OF WASTE Richmond _ — -uc Sturdivant — - _ -1 Cem xPINCH CREEK GUT f \f.0.gn a C, a 1\ RUSSELLVILLE400 - REFERENCE SCALE IN FEET 1. U.S.G.S. 7.5' TOPOGRAPHIC MAPS: 0. POLKTON QUADRANGLE, NC DATED: 2019; 0 2000 4000 b. RUSSELLVILLE QUANDRANGLE, NC DATED: 2019. [I—A AF CHAMBERS DEVELOPMENT OF NORTH CAROLINA, INC. ANSON COUNTY LANDFILL - PHASE 5 PERMIT TO CONSTRUCT APPLICATION Civil & Environmental Consultants, Inc. ANSON COUNTY, NORTH CAROLINA 3701 Arco Corporate Drive - Suite 400 - Charlotte, NC 28273 Ph: 980.237.0373 - Fax: 980.237.0372 USGS SITE LOCATION MAP www.cecinc.com DRAWN BY: PAB I CHECKED BY: NTB APPROVED BY: NTB FIGURE NO.: DATE: OCT 20201 DWG SCALE: 1 "=2,000 PROJECT NO: 165-276 2 NORTH 1:29,338 a 0 0.25 0.5 1 mi o 11 0 0.4 0.8 1.6 km oil October 6, 2020 This map i Service is Wetlands Freshwater Emergent Wetland Lake base data be used in j Estuarine and Marine Deepwater ® Freshwater Forested/Shrub Wetland Other Wetlands I Estuarine and Marine Wetland Freshwater Pond ❑ Riverine SCALE IN FEET REFERENCE 0 2000 4000 1. WETLANDS DATA TAKEN FROM NWI WETLANDS VIEWER, ACCESSED OCTOBER 5, 2020. AV Aw I AA 7 Civil & Environmental Consultants, Inc. 3701 Arco Corporate Drive - Suite 400 - Charlotte, NC 28273 Ph:980.237.0373 Fax:980.237.0372 www.cecinc.com DRAWN BY: PAB CHECKED BY: DATE: OCTOBER 20201 DWG SCALE: LEGEND PROPERTY LINE CURRENT PHASE BOUNDARIES EXPANSION AREA CHAMBERS DEVELOPMENT OF NORTH CAROLINA, INC ANSON COUNTY LANDFILL - PHASE 5 PERMIT TO CONSTRUCT APPLICATION ANSON COUNTY, NORTH CAROLINA NTB I APPROVED BY 1 "=2,000 PROJECT NO: WETLANDS MAP NTB I FIGURE NO.: 165-276 APPENDIX B ENGINEERING DRAWINGS 7 5 4 PHASE 5 PERMIT APPLICATION FOR CHAMBERS DEVELOPMENT OF NORTH CAROLINA, INC. ANSON COUNTY MSW LANDFILL (PERMIT No. 0403=MSWLF=2010) ANSON COUNTY, NORTH CAROLINA T pal pig 01 REFERENCE 1. U.S.G.S. 7.5' TOPOGRAPHIC MAP, POLKTON QUADRANGLE, NC DATED: 2013. 2. U.S.G.S. 7.5' TOPOGRAPHIC MAP, RUSSELVILLE QUADRANGLE, NC DATED: 2013. VICINITY MAP SCALE: 1'= 1,000' DECEMBER ❑0❑❑ LIST OF DRAWINGS: C000 COVER SHEET C100 OVERALL SITE PLAN C300-C301 TOP OF SUBGRADE PLAN C302-C303 TOP OF CLAY LINER PLAN C304-C305 TOP OF PROTECTIVE COVER PLAN C400 LEACHATE CONVEYANCE PLAN C401 BORROW AREA PLAN C500 FINAL COVER PLAN C501 STORMWATER DRAINAGE PLAN C502-0503 LANDFILL OPERATION FILL PROGRESSION PLAN C600-C606 CONSTRUCTION DETAILS C700-C702 LEACHATE DETAILS G100 GENERALIZED TOP -OF -BEDROCK CONTOUR MAP G200 SEASONAL HIGH GROUNDWATER CONTOUR MAP G201-G204 HYDROGEOLOGIC CROSS -SECTIONS BEFORE YOU DIGI CALL 1-800-632-4949 N.C. ONE -CALL CENTER IT'S THE LAWI 0 U Z W o CL Z m U 0 C/) w � p W w :0 • U r 04 O N � Z ti � � o 0 ti m N t U Q �a ) E o LL ._ �y U N M U M {til .L M 0 N O • I..r � O E a � o O •~ O 1� r z Lc) Q Lu ch QUO � J zaa� 0 c- Q QJ J = V t�Oz� azo0 z ~ ~ m z z Lu O W �Lu 0 5 0�0 z (1) °° z QaQ U m W W ; Z p Y 2 Q W NORTH CAROLINA U) 0 BOARD OF EXAMINERS FOR ENGINEERS AND � c SURVEYORS LICENSE 0 m 0 NO. C-3035 V F_ z 0LU z 1141'If11111/6t e " �}f�' AIIe" r `�•r4 • AaLu Q ZZ p :::_ cn w O 3.1 SEAL 039n4 o o a Q e '�p DRAWING NO.: C000111 {1L 5 EET 1 OF 30 7 5 4 3 \ \ /�� j��j� ���— -, \ \ \ \ v� 1 \\\ w270\� \ \ I ) / \ \\ \ \� \ \\ \ \\\\ / /�////// _� i _= I I /ice_— - I I \l� rl / ) I I \ I 1 \ \\ �_ \�\ - / ,/��,,,/�/ /_ /,---� I 1 / /_ ( (- r�-� �� �� \ 0 60 / I o I 1 J \ \ ) 1\ \ \ /--\ _ 1/ 1%// T1, r� / .'� I 1 I , /)1 �� I / / \\ \� \� l -, __11 \\ \ `�2 / / / h / I \ O 1 \ \✓ \\ \ �/ /i/� iii / i �'; _ l �/ 1 \\ �\ \ / l l / I ✓ w / 1//�i/ / � \\ 1 I II . \\\\\ \ \/ /�/ '��ol \\\� �\� \ \\ \�\\ // // , �/ /ice - �- I PHASE 4 , v I / 1() \ / /� -�\ / G \\\\\IIII ��0� ��i ��� \ CELL 1 \ \ \ \ v l/ / / ///28 \\ <\ \ \\ ( 1 \ -`} �� // / / / / / �' ��� NORTH _�,\\,,,, I/ / / , I I I 4.98 ACRES \ 1 //, \ \\ I / ) 1 f '^ J - _ \\ / / �p� SEDIMENT �� I '�// fV 0 / I I I \ \ \ \ / / / (� \\� \\ SEDIMENT / // // / �- \ ���' F BASIN / _ - I II I I IIII IIII I \ \ \ I /p/1 �r \\\\\\\\ �� \ ( \ BASIN /` / �\ \\ \ IIII I I / ) I // , ^� 12 _- � J I �o I I I I 11 N l o- I I I � ,\ ) /� %/% � -\ `3 I I 1 1 o I I �I 1100 1 I I 1 \ I (., � �\\� ( �\ ` I \ \ \ , - / / �/ c� / i �% / / // - `\� I olllloll \o \ J I 1 l I / \�\\\\ \ I I\ 1 \ \ / \ \ / / / \\ \ \ ( I I"'I I I I I I I I \ I I I I IIII �i _/ I \\\\\\ \ 1 I I \ I \ f I,- 1 `\ \\\ I I // / / ) / � ( F- �_ / / ;/ \ I /I/ \ \ `� _ \ I � // �i// "' / , / �\ -\\\ \\� \-) 1 I I I I I I \ \ \ \ \ \ ) I v / l I l I // /�/ / \� \\\ \ ) / /III \ I (/� 1 I) \ ^ �/, / / -/ / (\ I\ - J,- /� I / \\\ \\ \ I I I I I I \ \ \ I I / / �/ / / \ I �\ \\\\ \ I / f I I I I �� / // _� l \\\ \ I I I \ 1 i l) l/-1 �l �_- / >\\\\ I I I \ I// 0 1\ 4 \ / \ , j / �'=�' / \\, L> \ I \ \ l II 1 1 \ \ 1 1 1 I (I J� )//- / \)\\ \\\ I I I III 1 /y /\\ /-_ \I (�\ / % /,/ii ���\\�\ - __,�� \ 1 I \ /�I 1 I 1 II \ \ \ I l I 1 I I \�/ /�j/_ �-JJ/ // jlll II> ,/ // % \\ \\ Il I I �® /) \ _ / � / !/ \\\\ .--\\ )\I \ / /I I \ I / I / I I - /11 �I / �j1 1 / / ��//� _ ���\\ )\ / l//l/ I) ) ( ( \ iii J \-/ / / �' / / / / \ la / � -� , \ \ / /_ _ 1 I N\\ \� \t / / ,/ / / 1 ` 1 �/ �// - i ) / / / /I/ i� / \kill 1 I I\ \ \ ��~-v Ir \ / / ///�/ - ` �_ PHASE 4 _��_'/ / / / // � I 1 I / /'/ / ( '_ / / / \ f I \ 0 �IC��` \ \ _ _ _ / / �/ / - I / / / / /// / / \ \ \ N-r- \ \ /p,// // - ) �� \ CELL 2 / ////_ PHASE 3 / I J ��/_ \ // // / ,- , / // / /� / / \ \ -, (�r \ \ 6 p i / L - 7.05 ACRES / (✓ / - CELL 2 / / / / / �% / / ) / / �_ /\ I r1�/ , / / / \ \ � ,, G /s ���� /°�' tit �o o' / - \ I I\ I \ \ �\ I / / / / / �- \ \ 0 `: ( _ //i� ti/i 0 0 \ _ 1 1 \ � ' \ / / / / /' I 1I II \ \ r/ / / / / / 1 > l ) 1/, V J 4 , �2 /// / // �/ o \ I \ I / I J �\_-- L U� /ice II (( I Ito - (I ) 1 J lvl( I 1 \ / / I \ \ / J /�j l / (/ ( l J \ \ / \�\\ ' -� -�__ / > / / - 1 III \ �( \ 1 1�' \I `will/'\I�til I \ �� J(- \ l %I� ` \� �\ / \ o �\\ - I 1 / 1 1 I \ 1 ) �% \ \ 1 - /I \ \ \ �� 1 \ ��.5 \�\ \ / / 1 /�//= \ \ \Il�),�,, 1 \ / \ �\ /l 11 ( \ 2 \�\\ - -� / \ Q //, \\ \\ /�ti ��� O ��� \ i- / l l \ ��d� ll1- \ \ �ii9� EX/ST/NG \\ I J( // ��60;,// /��;� J� ` \\ \\\\�\\ \ \ / �9 ►oo< �/ \ \ l I \ \ \ �1 %�„ f I BASIN 3 �� \� \ \ �� \ /i� �� /ice _ I I I II II, I I `\ \ o \ �� , ?��� ��.\ \ I // AI l ) I N l \ / J II 1 IIII I 1 1 I , I���3 z� J''= �� \ l , / / , l / ( /� , \\\l f�-�\�� ( �� �i ,I� y ; I `\ /�/' \�� `\ \ // // /// 1 11 II 1 1 �\\� ( / \� �_ Il / \ �� / 1 l (/ ) �// // / 90 - \\ 11 11 I 1 I I \\ �`�- / --"- \ \ l ( ( ( PHASE 3 1 I \- l - ! \ \ 1 `� Ic I ` // / I \ // %% ti ��\\\ \ I III 1 I �\ \- . �/ s , /� 1 ) \ I ( I 1 \\ ,_ / � (// , 1 Illl \ / I /i/ /�'/ 00 I�11111 I1111 I\ \\ � j` ��'/ / (ram �L\ I\ I \ , \ l \ \ 1 1 CELL 1 / I \����� 1%�%= j 1 �j I III 1 1 \ I III�IIIr j I / j/ // // "- ` - /� I // ,'i���/,/ /&� ll III\\IIII, \I 1 \\ C\L`� c, s / /� I(l )\ J\\ ' \-/ � ) ) \ \�\\\\ I \ 1 1\ \ %'ram „�'=�j�1�I IIII'\lill ( \ (- I1111 W \ 'I / / J/ _ 1 / ,% ////,i- , , // ` \\\ \ \\\ \\ PHASE 4 j/ �>>/� l /r\✓ \ / / / \ \\ \ \\ I \ ? ) , _, �11 1 I III) \ /1I 1 I / / / / / / < _ \ // / \ \ \\\ \ \ 1 \ \ \ \ l \\ I - �1 I IIII \ I I 1 I / �� \ 1 / ///j/ /j \ \�i \\ \\\\\ \ CELL 3 f�/, i� /� � / \\ j I I ) \ \\\\ \ \ \ �i 1_- I I \ II I I� 1 ` \ I \�� // / ///// / //'/ \\\\\\\ \ \ \ 11.15 ACRES / c //( / I �� \ \ \ ) )�� 'I' r, :�Y� r - III 1 \� _- \ \ III l // / / // \ \ _ / �� (l� �l�i/�// //i� / / \ \ \ r �� /� \ , ��'/_� --_�\\ �II III U �I �� �) \ 1,- / I►II I I / // ( T I(\ 1\(( I ((I(I I (( 1 \ \\\� I I \ v ( �" ` \ X �-1i _ --` \ �I II'�I i hi / 01 I I �/ / -.� \ / '-\ I /%�\1,I \1L 111 I l l L \ \\ 1 1 1( q� / \ l // / ��\ - ��_ _--- - �\ I 1 2 /1 \_-/� till I / �%� \ //� /�_ O \ \ \ \\ \ \ \ - / ` // 'o� \ 1 \ \ --�-- � 1 - v ---%' i/�\\��� 11� \ ll I \ \ / III I �% / -� \ /� \ \\\�\\\� \ \ -J / i y x - \ r- / '/i % /_ � \ 1 ` \\ '32 _ _/ / X / , ,_�_ -�\ '// /�\\ \ \ II III \\ `-/ \ `/� f� / / _ \ ////// z� \ t �-_ _ \ / /Ci / -- // \ \ I \ \ / / //i/ // / \\ 7�,1 \� \\ \ / % �/ - \ / ( / \ I 11 \ I III \ J/ / / L ( �\ �- %%/�/ //// � \\ l\\A\ I \ �- \ \ �/ /3�0- c, ,i �/ // r �' � / i j� %%'/�� / CELL 20 /� ' �\ \\ \ III II 11111 �� \\ \�1/'�� /� / I // / \\ // / �/ / / \ \ Z ;�� \� �//!� � I ) \ / ,% �r \ / \ I �' I I ' �\ / \\ LI I I Il II \ � _ �, 1 / ( -J � / _ / \ \ N\ �" , //i �/i /�i/� \\\ \\\, \\�;� \ \ //�/� I - _i io , - // / 1 / ,, / \l \ // 1- \ 1\ 1 ll 1 ` 1 \ -�--- ,/ // 1 \ / \ \ �,� //////� 1 1 \ 11/ /��� /�\ � f \ - ( 1 l� I I I i�1 ( ) / I / \ \ o \ / / / /i/� \ _ I 1 \ / / / _iii ,_ �^'� l - \ \ ����� \ 1 I I I 1 \ \ \ ` / % \ // , // �, r \\ ,„„ , ;\�, �I/ I I 1 /IIII l ^ , , �� l))) J /Y , / y �' , , �) v /� 11 I III T \ I/��_ / / /, ��� / \ i \ �i /j/�i/ ///i/�/i, \"`\^`\\ice/i/ I) I ! / 0� l l \ \ /i 1 I I I� I \ \ J\ // / / / / /-�� / - \\ �\ / /i///%i�////�j/� \\\\ /i//�j///1/ 1 I \\�� �l/ 11/� �31�,� �/ l ( (I (I I / �1 /� �� \ \ -__�i \ \ I I I I n 1 / / / // , , // /^ \ \� \\\ / / /ii \ \ l /I 1Q'�\ //� \ I l \I \\ \ _ \ 1\II I I Illll l I \/� /�/ \ \ / \ ��„ / %"// ii /ii/ /ii /" \ /� / / l i ll / �ry ���� �Jcf '> / ( \ /� \ III I I II I I I I \ \ , /^'\ / \ ( / \ /� \\ ( ((/ / / / �- /ii �\ ^� r�Lr� (� I I / // / \\ \ I \ �i i \ 1 I I I I I`I I \ I / �\ / %i/ \ / \ 1 \ /�/ o (,// ////��/, \III 111 \11/` /( ( / I - - �Ir//1 1 / PHASE 4 W,�L � �� l� I�1 JJ`l I \\\�I 11 °\fir\\l \ �j 1 II) I I I11I� II I I �/ / /( �/�\ \ /mil 250__ �/// / \ \ \' / / _\ \ I I _/// �i/// /� / \ \\\\ \` \ \ � --� / / II ?\Ib CELL 4 T\ �J I� �o r I / , , \ \ \\ 1 \ / -� \ II III\ III 1 III \ r� ( / \ \ \ / / I I //%/�^� /////// ��\, �_— - ii l \ i� L_-_- � \ 1 III I III I J/ ( / / \ / \ \ J / \ \\\1\1 \\\ \ ��OI 111 / I\ ✓10.04 ACRES` I �J (// I \\\ j \\\ \ _ \III IIII I I I ' \/��' \ \ ////,i//�� N�o /, ///� ,� 1 \\\ \\\\\ \ = ll \ 1 (/\ \ < >> / / I I Y \ �\ 11 �� _-=�� II I l � I IIII / / llf%� / �/ \ \ \ X" // �\ \\ \ \ / \ I I /� /// ti o/ / / \\ \\\\\\\ /= \\ _ I� \ �I l �=� \ \ \ I I I I \ N / / / I I /iii/ /%i `VvZ 0� -\ �\ �\ \ \ �� /ice ( \ \ \\ _�1�\_� �� )l �i� �� I I , I ( I I r , // / �/ 0 / \ o\�/ I I 1 '///i/��//�i /�/�i 9 / �� �Q\\ \ �\�\\ _�i/�i�, l \ \\\\ \ 1/ , ` �o�� I ( �\ \ III ,�_ �� __�� �\( ) (IIII II �I�J 11 1 / \\ 6 ' °' // \\ 111 -1 \� \\\��/ Di%%�' \ \ \ \ V ��_ II II �_�� �_\-\\\\\1 / (I III I ( �I / /-��� iii2 / �- \ �i / �i / ti, �/ \\ \ \, \ \; �% / \ \ \�� \ �\ -r/) I CELL 2C __ - \\ \ I I I n.� / v�\ / // \ ` \ \. ///// /// //// / SEDIMENT - _ /i / y X� _ � - - \\ \\\ \\ I I I I I J ( / ( \ \� // / / \ \ \ \ l�l /// //i i/��//// /, BASIN \��� \ \` // / \ \ \ \ \ --- � I I \ %- _ _ =ice_= - \ \ \ 1 I I �\ ! / \ / i'- \ j /�i��/i /ii/�/ ii% \ \ _;/ \ \ \\ \ \\ \ \\ _ __ \\�� ��l I y iJJ� _ �\\ \\\\\\\\\ III III \ IIII/"/ // 1 / 1 \ ---/ / // ///j //�///j/, �i/ / \ \\\\ \ \ C \\ \ \ \ \ \ \ \ ----- � I� \ I =1 _ = \\\ \ I I ( �\ (/ J �\\ / / // /` \/ / ,/ /,// ////�,, /,/ �,//, ���\\ `\\\\\`,, I ` \`` �\\\\ \\ \ \ \\� _ _ / , /) \ 1 %_�_ ; - - ��\\\\�\\\\\ \\�\C�l I o' \� 111 I I 1 - - r \ ,( 1\ ,-/ __ I I l \ l�„i /�/�i o \ \ I I I) >l `\\ \ \ I - ��_/ - _��__ \\ \\ 1 \\�\ w I o\ 0 I I �I(` \ �/ - / �// ////// rx \ \ 1 1 I I/ J/ IJ /Jl IIII% \\\ \\\\ \ \--- I I I ` \ ) / / 0! _ �� _- \ \ \\\, \c., i I . �� II \ \ \ I \�/ _/ /i / ,� / I 1 Jl l llll�, \�\ \ _ > 1 - 1 I I I \ I I 1 I I 1 I 1 V 1 I / / //� \ \ -_ - \ -- \1 ` 1 01 I I III I I I I �i// ////// / / I I I I l �/ /,l�j/��\\I \-_ ---- / / J I 1 \ / / / (1 'o., EX/SnNG �� _=�___ 1 . Iwllo I it I) II I I ll I III I I I I // �/ /i / I II /� -_ ~���\\\ 1 I \ _ �/� / / ) ) \ �� /' 1 �,i o�� PHASE 2 %'�- _ --�\\ \ I,, 4►1 01 Illl I\� I I JIo► IIII \\ \ 1 �/ 1 �/ I \ //i//// // �� / /,;/�/ /III 1 I ✓ ��—�\\\ \ 1 1 / I / r �� / I u o_ 1 I, i\ \\ \` \ !\ �I ^ll \ \ f \ \ \ I - // l r /= _ \ 11 �, o. \ \ 1 1) I I I °011o „ ` ` I / \ I ` I I 1 l/�//�// /�(, / III \�\� a\ \\ / PHASE 5 ! I I J / / �/ //` f l I 1 " 1 6 - _�\\\\\I Iw11 cn o\ \\ \ \\ 1 IN \ \ / / / \ ( / /ll I l _;�� --_ \,\ . \\ \ - , I I I _ �� _\\\ \ o, ,oll"I \� \ \\\1'(1 \r I,Il 1 �. I , , \, \ \ / / / \\ -�330_ // (:_; ;_= =\\\\ \\ ) \ \\ \� ) II CELL 3 \ / / / /� �/f / 1 1 // I I I / o� _,! = �_ 1\\\\w 11 , I1 \\\\ \ 11 I I N 1\ /j /\\ I \ /-\ I / / / / \ \ / I \ \\. \ \ / \ / I I I i` -- _�-_'__: __- ��\\\Ilw o1\� \ I11 11 \ \.IIII \1 I I '\ (� / , 11 1 (/(/ ((\ \� \ \ /- I - --\ \\\ \\ \ / \ \ 13.87 ACRES I 1 / / / ?/ 1 / I ` I I $0: Doll IIII,\\ 1\\\\`\\ 1\11\\\ \ (IIIII �I IIII I I / I I ( �/• / \� I I ( \ /,�// I I(I(I (IIII( \ \ / /- / 1\�_ \ \ \\\ \� / I 1 I, 1 II I qs� �- =r= 1\�1'c.,\�,... 11 1\ \ \1 11 I I' Ex/ST/NG i I k / ` \ \ / , l I O;, I \ \�\\ \\ \\ _ _ > > \ \\ \ N� I , \_ //// l/ /I/ \\/� ti (��j 1/ I I III \�I\IIIIII IIIII 9� _ = =_ \ ;CELL 2B III \ 1\ I \ II11'� IIII 1 aasiN 2�1 11 , I1 / // \1 \ 1 \ \ \ 1 //l IIII I \ \ \\\\ \ \\ \ /� i-' •320 _ \ \ \ // - / / / / \ / l // N, IIII 1 \\\\ IIII II 11 _ _ -- - _ I 1 1 1 I / / I / / \ / / / llll I IIII \ \ \��\ \\ �// � �K-_ \-, / r I I I Il \\ \ \� \ ) / � \� -� I I I I I I = •_IIv� \ ���II IIIII\\ 111\ \ \\ 11 II 111 II I I �_ 1 / / / \ \ (/// l(�I1'\1 \\\ \��\\\, \-il) 1\ �i%�i�� \� f / / //ll I , \\\\\_� /�t/ / � ^/ ////� \ \ \\ / �� Illllllllll, I, I\\\\\ \`� o �J I / I / / / / , �__- -_\10\\�\\\\\,IIII Iil 111 111\\\\ IIII IIII III III II' Zso/l l \\ l / / /� 1 ) I 1 ( //� \_- \ // %) -/f1� /� \ \ \ \ I / / I I \ \ /�/ / / / //i // ��\ J I I I \ 1 1 \ \\\ \\\\\ \ \�� \ 1 I1 1 1 1 \\\ 11 1 III I, I I / l / / ) I / / ) l / -j/�� r \ \ ) 1 // /� )�\ . / ( / ( / / / �, // /// , ��_ \I 1111 I II\ \\\\\\\\\\�\\\\,\, , \ ( (- \ \ \\\\ \ 1 1 I�11 �\ 111 IIII (IIIII IIII III'', \\I 1 I i 11 1 \ (I / / / / // r/� -- \II/, \ 7 / ///r/ ����)� \ \ / / //" / /�� / /\ --� I I l 11 1 11 \ \\ \ \ \ \ \ 1 \\1 I I11 I III 1 I I II 11 I \ 1 / ,/ / \ ( ( / l \ )Ill /i, /%�/ //�\ J) r��\ \�\ \\ \ ( ( (/ PHASE 5 I I / /,- , /,,// , - ,/ I 1 II\ II I \\\ \\\�\\\�\�� I \ \ \\\\\ \\ I I� I I I I II I II III \ I I / / / // /� I � _ )1 / 1 / I l I ) /l ///' ///� /� % /i ;^'�_ , �� \\\\\\\ �) I I 1 1 / / l CELL 4 _III / �// �� / / /�_ I I l II I 111\\I�\\\\\� �\\\\\\\\\�\ �\\ I \\\\ \\ \ \ IIIII \II III I� I,I,1 I I 11� \ // \ 1�/, / / -/ \�i - / I l / //l l �ii/i/ �i /i/� \ \ \ l I I / (l I / / / / / /�� / o / I 1 I II \ \ \ \ \ \ \ \ \ III 1 I / // / / ( �/ // PHASE 5 \\\ \ \ \ \ \\ \ \ \\ \\\ \\11 1 \\\ \ \ i I I \\\ I I ) \� /I \ . I/�^"JI //// �/ / // I �\ / \ ' / / I / // - ///�///I //// / /��// /�/ 1 ( _ %� -��>\ \ 10.13 ACRES // / //� -_/ \ / / ( l \ \ \ \\ \\ \\\\\\\\\\ \ \I I _ \\\ \ 111\ \\ 1 1 \ I I / l \ / O(/ - I _ / CELL 6 / I 1 1 I I I I I I I I 1)l/ // / / I\`\\\\ \ \\\\\\�\\\\\\\\ \ \ \ \ \\ \\\ \1 \ 1 \\ I I� 1 \ I / / / \ / ///l ll I (I l // / l l I ( // / --- I 1 ) I ///- / I // ( \\\\\\\ \\\ �\\\\ \\\\\\\\ \�I\ \ \ \ 1\\\ \ ll\\\ \ \\ \\\\\ 1 II I II I II II IIII( nor, \\\ / / / 1 / ( / / / /�// I / // // ( __%%///. .6.15 ACRES - ) I , I I I I i l /�i/i /�-� / / / ) / I 1 \ \ \\\ \\ \ \\\ \ \ i�\\ III \ 1 \ \ 1 \\1 I I III 1 111\ 1 111 l I N 6 / / ( 111 \ I I 1 / /// / ///// I ( ( / /�/�( ///� ,� -- -3 I I I 1 ' ( 1 I I l (I ��� //,�/ // I' 1( //// ( I \�\�\\�\�, ,�\ \\\\\ \\\\\�\\\\1� 1 II� \\\�111 �\\\\\\\\\\\\I1111111111 I i1\IIII IIII \jll I �111\\1\ � /� / \ U`� '/ / /^\� I \ ��///� / / lrllltl l \� - _ _/ /��/ / \ 1 \ V( / 1 �� �/ //\ \ ( / 1 / / / \ �\�\ \\\\ \ \\ \ \\\\\\\\ \\\� I I IIII 1 \\\\\\ \\\\\ 1 I II IIII 11��, III I \\\ 1\ \�_� / /� ///10 / -\f \ / \ ( // I III II \ \\\� t =,/ //f//�/ / �- - 1 \ \1�I1// lam/ ��/�/, - �21 / �� 1 \\ ��\\\\ \\ IIII,\\\1 \`V,\It��-�11111 111\\\\\\ \1 111 II\� II 11\,--1 c , �1 /ti � \ l/ \ I IIII 1 I \� %�°////ll/11(ll j 1 t r /j \� \ \\ \ \III I I 1 /,,�� /�� ,� / e // / / _ \ \\�\ 1 \ 11 III 111 IIII{ 111\I��1� IIII,,\\\\\\\\� \\\\\III IIIIWIII\\\\ I III \I \ r//�% �/ \I �o -\ I► / \�/l I \ \J 1 (/ �/ l I r II I I I I \ \ __/ //// I ( l ) \ \\ \I ` ///�� /�� ( s�� �/ / / / 1 III 11(( \ a, \ III\ \ \ \ \\III IIII \ \\\ \\\ 11\ \ \ \ \ 1 / / // LI \ I / I / J 1 / / I III I I _ r/// ' I I 1 I I \ \ �` \ \ \\ \I 1 \�\/ / - / � a \� / - // I II f I1 (!/Iljl) II I Ir I I'1 � 1 1 \ I III\ 11 I II 11 \ , 1 11 \\ \ � 1 \ // , -_ ", I (� // I I ( / / l\II \ _-� / I ) \\ a =� \ \\ \\�� -- 11 'i--,\ < v- / l i,Ci I II Il/I II I / / 111 IIII,,, II I I �IIS�( ��1 I IIII IIII,, 1111111III11\\\\\ 11 \\\ )1 \ 1 ( \- 1 // / �\\\ I ( /i I / l l l /,/ /, J ► I I I 1 \ ,� \ ,r - \ ) I ) I I 111 I I \ 1\ \ I I \ \ \ // / 270: \ ) \ l J ,/ , I I \ l I �o - \ _ i �< <} ,�� ( \ / / ll l I l I ) 11 I I 1\ \ \ %���\\\\ / 1 \ \)1 SEDIMENT /_/ 111 III I I \ \\ \� =_ // ) ,\ff�) �� � _ I I ll�llll llll/l l llI /l l/ll 'IIII/ ll I I/ d(� IIII IIII I1 \ 1111 �11�1 \ \\\ ll \\\\I\\ \1\ 1 I\�/%/ / //// I �\',\\ I \ I\ I�/ J I I (// V \ 11111� BASIN (I I (I / / / ' / / \ \ \\� -- -_ (/ ���_?� i/ �\) I �`// /j / I I( l/// l/// / Il/ l//l lIl / �lllll�jl/ll l l ��� III 111 \\\\ \\� 1\i'111\\ \1 \) \ / /ii / /�i� \ \\\\ J I \ I J \ / / I \ ( / 1 I �, IIIII 14 (Ill I I C \_`3�0 \ \_-_-- 1J/��\/1 L` �(�, / / (( //l/ /�l //Illl/lI/ l I II l , I /i) II' I CELL 2A \\\\ \\\\\\\\\�\\\\\\I11\\ Its, �\ \,I' �/ // /� \\\\\�\ ( ��/ ) / / i 1 \ ) I I ( _ \ _ - --- \ �-�J S -'/ ^� / / / I I/ I 1 / / / // / / / / I'll / 1 \, / I \ \__\\ /-;---_ �\ ,,�� �.v (���� J� / / l l//j , l Ill/ 1111 11 )IIII II II I ii II \\\ 111 111 \\ \ 1\ \\ I\I\IIII �/ / // /% ��� \ 1 ) 1 \ I I I l / //� p / l(1( // ( l l \ \ / )_ �` \,, \l)/N / /� / 11 Ill / �// /ll llll�ll l/l//l X / /,1Z/l I ) l Ia1 I I II\�\ )\ IIII �llJI�' \\\\\ \ 1\) 101\\1\ / / /// // // \\\ \\ \ - \ l l III ( , / / , \\ \ II \\ \ \ \ __-_--__ \ - , _�wl>l/ l / , // /, IIII l l Il I �. I I I II , I II \ \ 1 / �`\ , / I ------ \ \ I / \�� / / / / / / / / / / I / l l I I III III I I Ill \ \\ \\\ \ \\� IIII,, / / d/� \ \\ \ I \ 1 / / \ I1 \ \ _ ( \ \\\ \\ \ - -- \ 1 / �� l�r ��ff� ��fr / / / / //// /////rll 111 I /� / /I �/ / IIII I I I I I I I ill I11 ii l I1\\ �\\ \ \\ 1111 Illl /7` I/ j /// \\\ \ I \ / 1 I / \ \ \ \ \ \\\ \, -so0 ) \ ► I - /- � o � ���� ( / /cj / /, , /J ((, ,l l / / // / Il llllll J lI 1 l �, ,� l 11 I I I 1111 1 '/ / �,, 1\ ) r \ \ \ \ �- PHASE 5 �/ //) I / J �1 \ // 1/ II \\\1 I) / ) / �/ // / / / ( \ \ �\ / 1 I I \ �l \ 1 / / I ��ll l ,III // / I// / / r\ \ I , ((I I . I I I III \ I III / // / / l I I ( J \ \\� \-�/)11\\\\\\��= CELL 5 /� /i/i / l I 1 , �� . \ji �� l ' l 11 IIII l % l I \CELL 1E 11 I / I 1 IIII I I / / /� IIII ) / - l \ ( �/) \/ /i \ /` l ////l/ 11 / li J I l I I I / � \ �� I \ \ \__ -2s , // / / J I / \ % �- i/ \-J / ?�\ /r/ / /� 1 II / / /// / /I / / / // / II l IIII III �%�/ /�/ ExrsriNc / / S, 1 / / I��� C r , \ /�l I, - — 10.68 ACRES / / / / /If, i r r\ o )III / I l �(///�' llj l / I �� 1Jl//���1/Illy �ll lj�lllj�l l�l/l� 111 II I I I l / / , / // BAs/N 1 / ,�o/ I I / I , \ \ / I J I l 1 / / / / ���_ � /, / // / �� //� / 1 (/// (i ) /// / / / I I I �'j j/// �ll /l 11 /l l/ l/ /� /// l/ l / lj ll IIIII //// l/ ry/i %/ / / ( 1 J \ I \ \ \ \ �I / / // � /1(> ' / / /�� / / / / - (1 � 1 /, / I l / / // l//��/ l/l l / / / /// //�lll// // )J) IIII / \ / !/ /// // �i// / / I J l / ' / ( \ i \ / / 1 /l / // /�///�/ir///,/,�/ //// / / �L,�ll Il \ �J��/( �l �ii/ I l I //� ! /�°,I,o rl, l/ll// //IIIII / / / ///////�/� //%'// J / %,/,/// /// III )\I r / / / r \ 1 / \I I \ \ �_= J� 1 J II (( / 1 (III I 1 / , /, /i //-/ // //-////) / r // / // / / 4% h ,y0/ 00/% ' /,/// // /' j�1i / //�/ / / / // / j \ 1 �> / / /�/IIII/ / (/� _ \// / \ \ \\ I I /J ll \ I I I I / /// /� ///% ((If / >/ /�� --��/ �%/ // / / ��////,Y.// / lil��li/�� �/ ////////////M.�/�//// / !/ /� �� \% /��✓/� / / \ I , /// > J) I I / I� �/ / //�" ../ v /( _,/ \ /o fi// // / /� / /i�///�f- i / o , ( i/// //i/�/�// / // / / /// // 1 �/ i �l \Y\ Jh \ //ice//// ��, �'/ 210 / , 1 � / \ ? / / / / / // / ) f 1 ( ( / / _ - / i/ / A / l l� r�/ / /// /i� /i/ / / / / / / l// / // / i ii• ! / ///� �'�\\ \ �j/iii / �� l `� //// / / I ► I , \ / ` �/ /� I , , \ / / / // // /// �// 1' / , . // //� �,,,,,/ /,// /,// /��,� 1 \\ 1 / -/� ( /A- I /;/ � \ '/ \ / � / u , 0 / / / ' �� • /ii a c �//// 2 �/ /// /// / / ////, /, / / \ ` ) \ ,l //////,�/ //r/ �-�( // /L I- �f j/ ///% // ,/ / / / (l I \ \\�\\�, '/i /l 1) i� / // / /�, i �/ /i ,`/� s�ZO///. //// // / // // / i / /// /// \%\ \ ram ////// j> / // / \ � /i \ \ \ Jl i / / / /�/// / // /// / / \ \ \ \ \ \ \\\ \ PHASE 5 ///// �� / Cn 'S/ J/ // !�/ / /;ii�� i /�/ /"� ��/ 1 / / //� / / l / f ll / / / /// I/II ^�� �\ \�_- I ��` // // //% 260 >,,\ / / / ` / / \ CELL 2 \� /�, /�f /I /���� /��/ / / / / ��\�/. It / Oii/i�/ /7�/ 11 l /, /� / / J i I r I / / \ \ \ \ \ \ \ 9.97 ACRES / // / �� �\ i/i iii // /// // 9 / // // / / / /// / // 1 / /// / / \ \ i \� // / / / / / �/ �/i / �V,\ rri j/ / IrI Il, 1 / / 1 \ / //\\\ /% PERIMETER ROAD ( \ \ \ \ \� ---' / ��� // /�� /� /i j/ y// / / // /// / ////,/��'% 0 0�� �/ � /7 ////////�/ j / /� / /� l \ \ \ I ( I // /�i ` / \I I \ \\ \ \� -\�- / / - 3� _ / / // � �/ / � '"'/ / / /��//� Z�� 1 / / / , �. � y 0 //./ � // // // // / / I %,� \ �\ / / / I I I ( / // c \ \ '� -- I I I, /�-� \\ \ \ �� /__ �// // O� - / �i/ - �/� / / �' ,1 / //i -� I \ //CELL 10 % S6 p// �, /// /, / / /J / // / -/j/ / /I / r//( )l��\ �\_ �� \\� \ 1 \ I I \ \ \\ \ \ ���,���/�/// // ( / / I' - \h PHASE 5 / /� , /// , / i /ii I� ///// /, / h0/i �0//�% /// // /, / � / \ _ / % / // / \�,,// / ( 4 \) \( � / ���. I \� \ \ \ I I 1 \ \ \ \ // / �/ �� /CELL 1C / // / // / / // / /%i ///�/,/// / - \ __ \� 1 j/ / / / // �I \✓ / S ) \ �� \ \ / -� \\ \ \_-_ /- / / / / ��- / CELL 1 i / / /i 7 / /// // // I / ll / / ;4 //// / / / i- / / \ / / / I \ \\ \\ \ \ \ \ \ \ / \ \ \ \\\�- - J //////�/ /� , / / /� _-- /� -iii/ ///-� J' 1/� �// / / // /�� l / / / // / p/ / / / - � Z \\ -� -% ,/ ) � (_ /// / �( 5 1 ( / \ �\ ///J \� `\ \ \\ \ \ 8 i'� \ \ - // //, /j - / // - 16.10 ACRES // �i /����- �i -7 l l l / 'h/ / / / ) // 1 �/ h \� / \ �, I 1 / \ \\\ \ \���\ \\ / \ \\ \ \; ----�/ /�////�/ ,`/f/ / �/ / —_--- �- ///�/ // p"S7 /l �l l l�l / // /I /y // _-) �r�_--T �?_!\ ( t \ "' - \-� \ \\\� \\\ \ ) I --- ,/ ///�j/ /i/% I / / ///��- I I / /��, �- � �%�/�� �,/, /,// // �/ //� / / //// / /// %/�// 1, , //%%%%�h`� gip" /I( // I //, ��l f/�/�- 1L \�� // \ l (\ \ \ (� i u:, ,� �� \ ( s�� cr \ \ \ // I \ \� N �\ \ 1 \_- ) r / / �� /� ,// / / i�yl' / (�>����/ �l (r(I l�/// 111/�ll //j / �f!(f f(//fl/i��%lo/ l( I / / / /ii% )) \ \ \ ) \� \ 1 ) \ \�// \ i \ \ \ \ 1 �� //� /j% %%/ ///%/ II' ///%/� I 111 '(� ` //l��5 S li/j/�i/��i'%/iii/i,,j / _�i // I/I ll/ //ll l // /// /l 1 t '/ o %l/ / ////j///�� /� \ \ \ \ \ \\ \ //� / \ \ - _ -_\ \ =-�-1 / / / / / //i� / Il II / l�l / l 1� / > \ \l / (,- \ --� I \l \\\\ \�� / \-- \\�\ / \-� �J�%/�i/i///�// / '/ ///�/// ,, _ \ �/, / /III /Ill �'��\�\(�\\�C �� �//r //j�//"��-, / /, EX/sT/Nc ///j// //// ////IIII'/ /��// /�/ /j//��%�///�///�//f l/ I / / /// ////�/, )�//// --� �-i / \ 1 I �\\ �1..\I((� \\� �� \ �\ o I I \\\\_ / \ ) 1 I I I 1 `\ \ \ _ / // /// / / / / / // - f / . I II \\ \� \ \ /�/ I ((( \ \ < < `\ / ( PHASE 1 �-�/ /11 Ill/ / l/ 11 /l/ // l / l/ / / J �/ // /�/// ///�,✓ % I / \\.�1� )/ \ I \ \ \ - 1\ ��( �Jrl I I I \ \ \ _ 1 ( / / /�/// / /�/ // I I(f �\\\\\\� \\\(/(I 111 1\\ \\\\� J �j �/ �/ /////�//// // �// ////- //////// 6/ /// /////�/ /////// '\/ ��� \ / I\ I /�)/I / ' �.o� \ l �J I \/ \-� 1 \\\ \ \ 1 �_ \\II 1 \ ///�// / / / / / / / I \ \\\\\ \ \ l \\\ \ \ / / / / //� ////�/ / /�///� / 1 / // \ I /(/ \� 1 \�� �\ \ \ \ . \ \ \ �, , / / / / /� / / /� // / / \ \ ��`� \\�\ �� \\ \ \\\ \ \\\\�� \\\ \ \\ \\ //IIII / //// //l/ l l/ / / // / / / / //////�j/j // / \ r / /� cif// ( I ) \_l r\ T ) \\\\tea \` _% (/ // / / // // \ \\\\ \\\\\�\�\ \\ \\\\� \\ \ Ill/ lI / l // /f/ // l / \ \\\ \\ \ r \ \\\-=--/I / //�// // / / / \ \� U� \\\ \\ \ \\\\\\\ \\\ \\ \ I \ // //,, ,%/'�1)I I IIIII // /I ��/ J�// /9p /���/� ///j// / I I l l /j��� / / I �r-1 /I// �� ) > \\ \\ \�\ \ � )\\\\\�_ �� //fl //// //// /// / / // \\\\ �1\ \11 \\\\\\\\\\ \\\\\\\ \ 1 ////CELL 1B / / �I( (ll /// l / / �,////// ////// / // EXISTING IIII 1 7,,� / / J /j// -1 / i \\\ \�\ \ \\ \_ )/ /(// //j/,/ `,f /// , / l/ // / - \ \�\ \ \ \\\\\\ \\\\ \\\\ \ \\\\ i/ / (i ,,., /f/%//J/jl . (//// /// ,(�' /�/� / //%0 ///// / CEMETERY I l l ///J�/ / j/ // - \\\ \\ \\ / \ \�--\ / 1 1 //� / / l / ////// / / \ \\ \\� \ \\\\\� a \\\ \\\\ \ \ \ \ \ / 1/l / �l �/ /i� / /// //� i (IIIII �I" `� \ // / /i,h� �� %// \\ .(l//1 / �- / /� \ \\ \ \ , , \ , (( I X ,(� , , \ \\\ \ \ \ \ \ \\\\ \\,\ \\ \ , Ill/ (// / � 1) ((l / / // // 0 /% / / , _/, I > ) IIf� ( l , ( /, _ ,,- ,-/ \\\\\ \ \\�\ l \ \<\\11 /llllllrl I/ I l I (, \,\ _ J� /ii/�/i/, ( --,_\ \���\\\`\ \\��\���\�\�\� \\\�\ \�\ \ \ \ j �l//////// j, /�l� 5/////�/// , I/) JII (ti // /��// //,��3�, p�ri , -_�/ I I\ / `\ (/11/ \/ // /_ /- \ �\ ���� \\ \ \\ \\���-� \\-\ \ \ \ \I I III I ((l\ �\` J///// /r 1 \ ` \ \ \ \\` \\\ \\\\` \\ \- / / �i // / r / /� / I _ ,0 �/ I/� \ \\ \ s \ \ \ I I(1(\ \\ / \ \\\�\) \\\\\\\� \�\\\ \ \�\ \\\ \ \ /l/ll/ / // 11 Il l / / / ///� o,✓ / I 1 \ \ / , 1i (( \-��\ \ \-� 1 \\\\\\\l II \\\\\\ `\\��___%��//i \ \\ �� \\\ \ \\�\ \\\ \\\\�\\\, \�/� / /////� /� / /�///// /, //%' /// /�//// / 'h �/ I1 I I ��l) I)j))�\ \�( ///��� / ( // \ \ / // ////, // / ///// \ // / \\\ _ - _/ /� \\ \ \\\ \\\\\ \\\\\� \\\\ ,ii //ll///l /l///l / �' 1 /// /�////// /ij�// / / €--ly 111 1 1 / ///Il / �/ J �/i / /^\�� 6� \="� o� 1 �` \\\— �� /�—� �\ �\ __ �igi \ \\ \ \\\\\\\�� ��\���\\\\\\\\\\\\�� \�\��//// /%/ IIII %///�/ ////'l / / _ I / / N 0= �i/�\\ \\ \ - 1 I I SEDIMENT \ \ \\\\ \ \\\�\\\\\\\ \\\\ \\\\ \\ \ / / / / / / / // 1 I \ 1 1 / / / //< / \, / / /' /�-_. \ - --_ _� ;_ \��\\\\ -� -_ _ BASIN 1 / \ \ \ \\ , \\�\\ \\\\\\ \\\\\\ \\✓ ///�// / // /// // / /� l l / / �/ / / I I J ll ! /, ti / / I // ) l // / / \\ \ \ / / // / �, // //// / / 1 f \ _�-� - _ _ ---- - - \\\� - _ 15 \ \ \\\\ \ \ \�\\\�\\\\\\\\�\\\\\\� �� ///�///J /j/ /�,� /l /l /' '/ //// l/ / �✓ / \ \ 1 \ \ \ I �„ /�-\t/>� ) // //, l( �// \ \ -- - ? -- > 1 \\\ \ \\\- ��� \N�, �\\\\\ \ �\��-J //// ////Jjl // l /�/// IIII/ / //// /j/ / / \ I I I 1 \ I OJl /(llr \ \ ) �l ( )/ /l //�(/// l /�_� \ \ \ \ ;� -__ - _ \ -_ <,- --�\ \ \ I \\\\ \\� - \\\ \ ��`,�// / �// // /// / // �/ // / / 1 / 1 I I \ \ (l)ll/ll / \\( I p / J �/ i/-) // / /-- \ \ _ /_,--- - r - - \ 1 \ \ \ \\\ \� ��\�,\ \\�� / ///// / , / / /// /// a I /// // /i// 1� \ ( I I 11 ////r 1 \ l (/ /// \ \ �/_ / /----\� _ --_- \\\ \ \ ( 1 \ \ \\ \` �\ \�_/// l // 11/,// /// / // /l %/// /�//// /j /j / /\ \ \ I , l 1 / \ S )O 1 -Jj/ /� /(/ / \\ \\ o \ \ \\\_/ // �' --%// �\ \\ - - _ `�� I ) J \ �\\�\\`� \ ,�\� CELL fA ,�\�/j / ll l�ll�/l ///�j/�///` /C/ ////j /////(/\,/// \ //� ) \ \ I 1 \I / 1 �I�/(l�\\ \\ ii �/ =/ l/G/i//� , I I� �\ -� \\ \ \ / ///// , / / \ / I,- ___ � / \ ) \ \ \\\\�\\\��\\§\\^ �\.J/ /Zl/ 11 // / j / l / l//// ( /� / / / I \ \ i� I lI 1 _ r \ \\ \ - f \ _ / _� \��\\ = 1 I I \\\ \ \\� \\ \\\� ///j// //y ,// %/%�/ I//�////'//////��,// �(r r>� : / / / \ 1 1 \ IIIII \I \ ( /// I\ \ / �` \\ \ \�^ \ / ) / ///�- \ �__/ - ��\ �\ \�\� 11' \ \ \\\\\ \\\\\\\�\�\\�\\\�////// //�/ / ///////I� //) C— \\ -1 \ \ \ \ III Iil� 1 I / \ \\\\\ J��/� \\ % ll / �// ////'� \ \ ------ �� // i-��`� \� \ \ \\\ \\\\ \�\�\\\\ \\\\\���Jl //'� ////��/ /////// /II l�////�/ \\\\ / / _ \ -c \\ I \,gyp IIII II �� I 1 \ I \ N \\� �/ �1/ /// / / / //// \\ \ \ // / �/ \ \ \ \ \\\ \ \ / / / / \ / � \\ _ / / / //�j /// / \ \ \ \ / -- / \\ \ \ \\\ \\ \\ \\\\\\\��/�(//' /// ///////� 1l\\�/// \\\\\ � / --/- \ z o \ ����IIIII)l l� 1 > I / / \ \ \ \\ \\\ \\\\ \�/ / J / ���ii \\ \ / / / I \ I )1 Oh`\ �{f I \ / /Y � \� _� \ �� // / /�// // //////j// \\ \ 'ii — _ / —� , c \\ \_/ / / ///// J \�\ — , i17 \ I / I,l I \ r� I \ / / I 1 // �� �__i \ \ \ \\ \\ \ \ // \ a \ \ / EXIST/NG ACCESS ROAD' \ 1 �\ \ �\\ / / � / u///r C, /� // \ \�\ \\ / / / > I o J �� I I w /(((ti \= //� ( / ✓ \ iii I Ill ( / / /// �j////j//I \� \ �� �� - � /' -_ ------/� \\ �� \ / i \\\ \� \�\\\\��� f ' // / ,- // / 1 \\\\� 1 I / / o -f-� 11� - / /j1 /i)) 1 J ) --_ ) �/� ) l / III, I ( r//f II( ( II \\\ �\ \ - \' _ ) _,_\ \\\_ /// / \\1� o(/ o l 1 o Il /(// /�-/ ` \ i \ IIIII IIII, I 11 I I IIII III \ \\ \\ �\ \ / �/ \ \ \�' \ \\ // ( �\ \\� �\\�� ,/� ///�i, l /l > ) w c., \"-_ i C� I I _ �o \ 1 ���-� \ / 1 \ I I \I\ \ \ �� \ / \ \. // / /// �\ \-,< // / / / \ ` / 10 �l l )�\( o`I l \� ��\ f\ l / \ \ / \ 11I I 1 \ \1 f > > ( / / \ \\ \, r / / / � \ 1 \, , \ I I 1 1 /1 / / I / �'\ \� , \ \\-- ,\ �/ / / \\ \ \\_// / %//// I / o \ \ / \ \ ,_ -, / 1 111 1 \ 11\ I 1 ( / , ) 1 I, - /� \ / \\\ , // `j \ \ // o i \_/ / / �? X\\� \\ \\\ \ I / \ \ I 1I I 1 1 1I \ / II\ \ / /�� � _ � \\\�� �/ /j) \\�� //// / /l// \1 \` \\\ _, J /� // I / / / / \ _ - - EX/ST/NG RA/LROAD ((/ O I \ 1 I I r / / / \ / \\ \\ \ o ' ' / GAS TREATMENT AREA S \ \ \ r \ \ \\ J ��Q// \II I I I�\ \\ \\\\\ Ill 11/(�/ \ \ _ J �� , /�J/ ( O \\ // EX/ST/NG LANOF/LL/Illnl 1 / // / / l\\ f- \1 \\\\1 ) �--�// \ l l / / / I I l ( ' / EX/ST/NG MA/NTENANCE / \ \ \ \ \ / f \ \ / 7 1 \ \\ \ 1 I III I \ /_ - �; I / / \ I --- �� ��, i� \ ; \ - \ L "\ \� \ \ \ �,\\ �� �/ �__/�\(l o , ) \Ilir \\ ll 1 1( �/ �/i 1 111 / 1 \ \ J // � \ �__i\ \ z /-- REFERENCE � \ \ • 1 \ I, �I \- 1 I 1 I / / \ I / /- \s---- f- / \\ \- 11) ( �\ _> 1 / _/ \\ \ \ ,�j� \ \ l �` I / � �\-- \ \ 3 1. EXISTING TOPOGRAPHY WITHIN WASTE CONNECTIONS PROPERTY WAS PROVIDED � - ---- ' / / J / - \ \ \ \ \� Jar -, �) III I Illk -/ / / / \/ \ \ \ \ ( r/�'�.LL \\ v -( -� / ) \ ~ � _ o AT 2-FT CONTOUR INTERVALS BY GPI (JOB N0. 18-006); DATE OF AERIAL I \ / / \ \ \ \ / / \ i _ f ) \ \ �-- ��'c� \ / > o /- \ I \ 1 \ \ 0 / / \\ / -_ \\ I I %\ \ \\ �- \ \�\\ (��( r e PHOTOGRAPHY JANUARY 15, 2018. // ( � _- _\ \ \ \ \', _ 2. LIDAR TOPOGRAPHY OUTSIDE WASTE CONNECTIONS PROPERTY WAS ACQUIRED l ( I �_--� \ \ \ \\� - ^ \� ��� // \��� / I r �� I \ \/) ) / )) 1 I 1 I I I I I �� ��\�� \ \ / � / /� 1 (I ' I I 1 \ _��, \� ` \ \\�� \ \���// ) / C > IIII 1 / / /r I l �( /> / / I I (I ► / 1 1 I \ \) 1 ti FROM NC DOT GIS. __ I 1 ``-- � - \ f- \ \ �\ \`/ \ \_,_ i \ \ / / / I / I I ✓ \ �\� � ,/ 11 I I l I \ \// \ % h IIII / ( ( / I \ / I I l \\� \ / I 3. WETLANDS INFORMATION PROVIDED BY CWS ON AUGUST 8, 2016. / 1 I \ \--- \ `-- \ -� \ - \ \ \ \ EX/STING LEACHATE I IIII \ \\ I \\� / / I I / l ll \ \ \ // \ \ \ \ I \\ I \ �3- - �\ III I ( \ \�---- /--�\ I \ \� �\ �. STORAGE AREA IIII ) ) 1 r ' I \�\_ ��- , / / I I I _ 0 4. FEMA FLOODPLAIN INFORMATION FROM NCFLOODMAPS. MAP NUMBERS: \ I (I / I I L„� \\___ -\ i � / // _ _ -11 ) � ( \\, \ \ ��� I I I (( \\_-----� / I I I \\ - \ `\ 3710644500J, 3710644600J, 3710645500J, 3710645600J. � I l l 1 11 \ \---_-��_ _� \ \)\\ I / / /- \ �\ l �\_ \ I / \\ \ ( -J � �� \ I Ill I 1 \ (\ \ \\ \ 1 i 1\�_ -- i—`- 1 II � / I \\ \ � \ 7 6 5 4 3 LEGEND PROPERTY LINE — — 300' PROPERTY BUFFER EXISTING STREAMS 50' STREAM BUFFER EXISTING WETLANDS 50' WETLANDS BUFFER -, EXISTING MAJOR CONTOUR -- EXISTING MINOR CONTOUR EXISTING LEACHATE FORCEMAIN — 100-YEAR FLOODPLAIN PHASE LIMIT/EDGE OF LINER INTERCELL LIMIT PERIMETER ROAD NORTH CAROLINA BOARD OF EXAMINERS SCALE IN FEET FOR ENGINEERS AND SURVEYORS LICENSE 0 200 400 NO. C-3035 BEFORE YOU DIGI CALL 1-800-632-4949 N.C. ONE -CALL CENTER IT'S THE LAWI 0 w O Nw o W d z If O U Lu wo W 0 U Z 0 1 W 2 m = Q ❑ , U ICI ti ^ N � N Z � ti � C w o ti 0, M �4 M N 1 C � o 1 U aoi E 1 1 1 r--1 Q +� K o Li .E C5 Vi M c� y � 1 1 � M m O � .L � M 0 0 N � i O . � m a 00 c" ,,� d s W � a o 0 o .� Q CU o Z a WaZ < _j J =CC0 Z a v OJ�U a aJpC= .0MW azo0 Z a J � Q >. W ~ ~ a Z Z_ W = W O WOwU a V 0 ZoNcO Z O °° Q Q Z Q U m , U Z � N co Q J r a W` m0 Z Y r Q W m = '^ U) ❑ U 00 �o C Lu w 0 N ,I J J w W 00 w O a `"Ittloo111+1, y?S, } ;' 3EAL ' Ir 's 039i4 = o o a �Z-Z1'Ir ` "'� IN DRAWING NO.: C100 . T. a %O �11 {i . SHEET 2 OF 30 7 4 3 2 U1 cp 5r_ l PZ5-18S 60 \ �\ 280 26p �(o NORTH31)OUTLET A - \ PERIMETER DITCH 14 28 29 30 C604 C604 CULVERT 7 28 29 PERIMETER DITCH 16 Z 0, `�-° �� �L�o C604 \ C604 C604 0Fn o \ INSTALL EROSION CONTROL 33 J /%j/�// �/�//�90 \ \270 \ �hry W MATTING AT 3H.1V C605 ' PERIMETER DITCH 13 / PERIMETER SLOPES (TYP.) I 1 Ij I \ \S o ZPZ5-17S \ I \ I 1 /III ( / ti / ' '/// I I I \ \ \\ \ \I I ° \ / CULVERT 6 30 \ \ \ \ \ I 1 ( / / / I ( I i 0 Lu o PHASE 4, I \ I 6O \ C604 — _� \�\`�\\\�\ I I / / / / 0 �/-� � I CELL 1 28 29 PERIMETER DITCH 15 OUTLET B 3 25TY IHECK DAM 34 ti 300 I I I I I 1 \ \ \ \ \\ / /C604 C604 60CALI // w .E _ C605 I I I I I \\ \\ \\ l\ / (I / \ < OUTLET D 31 MW-13S o C604 o BASIN 12 23 280 ► 70 �V \ / 2�0 2$ PZ5-16D 90 PZ5-15S oo C.i N co N / MW-14D 1\ \ / / \ \ �j N \- - o \ / / PERIMETER DITCH 12 28 29 / PHASE 4 \\ \ 1 t(� / 1 rn E C604 C604 O Oo CELL 2 \\ Q .. o CIS Lo ///300 li . o - \ M PREVIOUSLY PERMITTED PHASE 3 / LEGEND //p�///�/ii�//ice/ r \ \ - - / PROPERTY LINE N �', AV/////�// / / 10 / � �.lo,�� CD 00 — S�° / 300' PROPERTY BUFFER a 0) ` PERIMETER DITCH 11 28 29 EXISTING STREAMS d 11 l I 0604 C604 / / �- i �\ 1 \ / / 50' STREAM BUFFER PIP a)a 1111�1(I I \\�� v\��A� / j' / U 33A PZ5 MW-15D PZ5-27D 300-- EXISTING MAJOR CONTOUR SEEDING SCHEDULE 31S CD CD 5-14D\I II PEXISTING MINOR CONTOUR / > r I i� j�// j/�� ti^ �� \ I I ( � •!���`/ / �p0 � FM - EXISTING LEACHATE FORCEMAIN 100 YEAR FLOODPLAIN )/ //��r o \� \ � � � � LIMIT/EDGE OF LINER � MAJOR CONTOUR 1 CULVERT 5 30 / I /�/j////- 0$ \ \ \\�(I / ((�� \ _ \ \ I I C.) C604 / j280///� PZ5-21S - \ \\ (\//��1\\(\�\� J 1� MINOR CONTOUR I\ LZ I I I J�// _ \\ \\ Y/ // PERIMETER ROAD W a Q - \ PERIMETER DITCH v+ J J C604 do do O N� IPERIMETER 28 29 15 INTERCELL LIMIT DITCH 9 C604 C604 \ \ % / ��- \ �J l \ \ / i �i ST CULVERT Y�/////PERIMETER PHASE 4CELL 3 i��\ / \ � i RIPRAP APRON O_�/j 28 29 �p �� \ \ / �\ /i / N J V /1WIf'//, DITCH 10 C604 C604 \\ \ \ _ \ ®PZ5-2S PHASE 5 SHALLOW PIEZOMETER J o \\ v PZ5-26D �/ I/ / I / \ \� �� ®PZ5-6D PHASE 5 DEEP PIEZOMETER Q0 F_ PERIMETER DITCH 8 28 29 \ \ \� \ / \�/�� / \/ \\ �\ =_ SHALLOW MONITORING WELL INSTALL EROSION CONTROL 33 C604 C604 �� -/� - -- ®MW-19S FOR PHASES 3 AND 4 J Z O `\ \ /nl )IJ // - DEEP MONITORING WELL Z MATTING AT 3H:1V C605 \ \ \ I ` PZ5-13D ° / \ _ _ -/'/�- _ ®MW-15D FOR PHASES 3 AND 4 a ~ a W _ /-- Z PERIMETER SLOPES (TYP.) �\\�\\\ \ \ \\ -50 ./ / \ �� / 310 / - � \� —/ .� /�— 1 /—_--------- NOTES am 300 MW-16S/---------- \\ ~ Z 0 �� o-/ 1. THE PHASE DIVISION LINES SHOWN ARE APPROXIMATE AND MAY VARY O CULVERT 4 30 60 \ \ �32 I I 0 / l r--J _=_J / / \\ IN SIZE AND LOCATION TO SUIT FIELD CONDITIONS AND TIMING OF Z �° o \ \ \ �0� / / = - / -- \ / % WASTE ACCEPTANCE. TEMPORARY INTERCELL BERMS MAY BE = LJJ �O �604`ti / / ------\ �� \ \ // j/ J( CONSTRUCTED TO DIVIDE PHASES INTO SMALLER CELLS. THESE WILL O OUTLET A 31 / J \ / �- / / ///\� ��� \ , BE INSTALLED AT THE DISCRETION OF ANSON COUNTY LANDFILL. W O / Lu C i,310� / / 1 /��7/C \ice \\ a V 2g I / /310 - ) / /i f Cv I �� \f 2. REFER TO DRAWINGS C502-0503 FOR THE LANDFILL OPERATION -7 PLAN. Z � Z (/ 3. REFER TO DRAWING C500 FOR THE FINAL COVER PLAN. W vi 4. REFER TO DRAWINGS C304-C305 & C400 FOR THE LEACHATE Z CTRANSMISSION PLAN OUTSIDE LINED AREAS. OLLECTION PIPING PLAN INSIDE LINED AREAS AND LEACHATE Zmoi- =/hII Q 5. REFER TO DRAWING C500 FOR THE LANDFILL GAS SYSTEM PLAN. a ra PERIMETER DITCH 7 2829 C2609 \\\I I / I \\\\I /\1 if 6. REFER TO DRAWINGS C501 FOR THE PERMANENT EROSION, SEDIMENT PHASE 4 / ca AND STORMWATER CONTROL SYSTEM PLAN. F_ N CELL 4 \ \ \ / z cn 7. MONITORING WELL LOCATION INFORMATION PROVIDED BY CIVIL & Lo o /� OO �4J� �\ \\\ \ \ \ \ \ —�// /�/// J�{II `=ill l—> / \ �11 l\ \ \ �� ENVIRONMENTAL CONSULTANTS, INC IN THE DESIGN HYDROGEOLOGIC J I \ \ II \ \ \ / \ REPORT DATED 2018. 8. EXISTING MONITORING WELLS AND PIEZOMETERS LOCATED WITHIN THE 01( ��� I I \ \ 1\ I ( I\ \ ----- ��--- GRADING AREAS SHOWN THIS SHEET SHALL BE ABANDONED \-- -� �- ACCORDING TO THE PROCEDURE LISTED IN THE DESIGN \/ .:� �- \ I I I / %- =-% HYDROGEOLOGIC REPORT 2018 BY CIVIL & ENVIRONMENTAL I PHASE 2 \ -/ a _ CONSULTANTS, INC. Lu MW-17S \ oo _ �� \ \ I I I I I \ % -/J) / Lu — — / �� I -%- _ � PROTECTIVE (OPERATIONAL) COVER MAi -/ _ o U o I I NE SEE SHEET NORTH CAROLINA SITE_� o o MOCD 01 F NTI \ \ I / �_ � / _ DRAINGEOCAGELAYER m N o PZ5-11D \\�\\ oRco \ \ I I - — =i ���— —' i BOARD OF EXAMINERS r PZ5-10D-R - 50 \ \ \ 11 , \\\,\ \� —_� \ \ \ \ I 1 ` - / //- / w I \ \\ \ NUgT10N \ ( \ I ,'� /� i SCALE IN FEETji �/� FOR ENGINEERS AND LA 0 100 200 SURVEYORS LICENSE 00 o -- - / �� ` i% - �� � -_;�� j // / // // / // // NO. C-3035 a v // / / CLAY LINER // // Q p \ \ MATCHLINE SEE SHEET C301 FOR CONTINUATION / 1 1 \K �� i_ ~��t'--� _ i / / / / / ' N 0 / '� 1 I I / - _ _ — , _ _ _ I1 'AR Sv\ PHASE 5 CONTOURS REFERE«p,%+ THIS PLAN �° CELL 3 1. EXISTING TOPOGRAPHY WITHIN WASTE CONNECTIONS PROPERTY WAS PROVIDED �0_ v > KAL w oAT 2-FT CONTOUR INTERVALS BY GPI (JOB NO. 18-006); DATE OF AERIAL QPHOTOGRAPHY JANUARY 15, 2018. o a ¢\ 039114 ro 2. LIDAR TOPOGRAPHY OUTSIDE WASTE CONNECTIONS PROPERTY WAS ACQUIRED A �/ / / / / / / / / / �$ = / / / / / / / / / ; DRAWING NO.: N FROM NC DOT GIS.'+y'•����IE,��' •���` BEFORE YOU DIG! C300 3. WETLANDS INFORMATION PROVIDED BY CWS ON AUGUST 8, 2016. '•,�� .•� CALL 1-800-632-4949 �., qN T. B 4. FEMA FLOODPLAIN INFORMATION FROM NCFLOODMAPS. MAP NUMBERS: LINER SYSTEM DRAWING KEY N.C. ONE -CALL CENTER "' "`w N 3710644500J, 3710644600J, 3710645500J, 3710645600J. IT'S THE LAWI SHEET 3 OF 30 a 8 7 6 - 4 3 e 4 3 2 LEGENDMATC/MW-17S MES_ 310SHEET PROPERTY LINEC300FOR CoNTIN\ 00' PROPERTY BUFFER 3 N EXISTING STREAMS 50' STREAM BUFFER %— \ \ _ _ MATCHLINE SEE SHEET C300 FOR CONTINUATION � o �) `\ \� `�=�� �� — — - EXISTING MAJOR CONTOUR _ I II - / EXISTING MINOR CONTOUR a, I_ / I �1lI 1II II I I _= — O/ EXISTING LEACHATE FORCEMAIN c� zPHASE 5 o W°100-YEAR FLOODPLAINCELL 3 IL I I I / Z__-_ \\3% I\ \ \I \ PHASE LIMIT/EDGE DG E OF LINER ZOTOOJIWII Fn o300 MAJOR CONTOUR // MINOR CONTOUR \Lu 300 t' IIIII I II II I aIMA iINSTALL EROSION CONTR33A 33 \ PZ5-2PERIMETER DITCH G MATTING AT 3H:1V \ \3Q0 PERIMETER SLOPES (TYP.) o INTERCELL LIMIT Lu4 ` //' - / / I \ \1\\ \ PERIMETER DITCH 6 04 CULVERT60COUTLET D PHASE 5 // PZ5-24D CELL 4 MW-18S 23 EMERGENCY SPILLWAY ///_ I I RPRAP APRON o s 0/oPHASE 5 -300 EXISTNG PZ5_2S PHASE 5 SHALLOW PIEZOMETER W� N CELL 6 \� I i I I I i/ / /� ---/' \ ' `\\\\\\\ \\\\\ PHASE 2 PZ5-6D PHASE 5 DEEP PIEZOMETER p SHA/PZ5-8D �///� I / , I _ / / / \ \ \\�\\\\\\\\\\\\\\\\\\ ®MW-19S FOR L PHASES 3 AND LOW G4WELL 2 ^� / //� \ \\\ \\\ \ \\ \� FOR PHASES 3 AND 4 Ci PZ5- //// / ,/ _ �� / �/ O \ \ \\\\\ \ \\\ \ \ \\ \ ®MW-15D % I 0 `- I 11 I ((� I I 1 t/1 0o \ I PZ5-7s / �-^� �\ \ 0 330 I I I I I I II I I I / l It III -o `4 F �260 O-- i�%� / / I o / / I I I % I 1 I I I I / / % i / PROTECTIVE (OPERATIONAL) COVER711 C� Z c� F N 2 8 / 7 EMERGENCY SPILLWAY C603 //! V//j PZ5-10D-R 37 I / NORTH, / / /7-7 / o I I IIIII/ / OUTLET D 311/4 /)I ' 18111//II I /, / // BASIN 13 23 \� / II II I � C603 ,/l/lI 11„Ij,,IIIII I I , /l/llI'II, 1,11 IIII IIIII I I • t PZ5-9D - -- =: - _�Z / / I cy),\ PZ5-6D - i l o \ \\ / // '1*_1/ // l\` I` j / \ .� , l l / / l / l / / I , I l I DRAINAGE LAYER i� /// / . / I / / I GEOCOMPOSITE F-.4 4) O TOP OF SUBGRADE LAYER -- l \ \ 310 C600 (BASE LINER SYSTEM) I I I — --- / 5 6S I / % I CR / l 00 I -- -MW-19S ✓_v� o_ // PZ5-MW23D CLAY LINER / /11 d c3 / I I / // / / / / / CONTOURS P" U) M —300 �Z l l l l THIS PLAN / / / / / / / / / ' Qi I ti d0 \ PHASE 5 / / l I i o 1\\ � --' / / I III I I I I I1 1 / /l / \/\/\/\/\/\/\/\/\/ 1 � o / I I ��// / I I \\\\\\\\\\ ch \ \\ CELL 5 / / / / / I "' 310 11 IIII \ / l ( \ (I I I I I I I I IIII 11 I l l l \/\\/\\/\/ / /\\/\\/\\/\� 1 � •L � I I I //\//\/j\ SUBGRADE //\//\//\/ 1.4 o N 2 1 \— --PZ5-5D% �i i / \1 /�l l/� I //�i 0 11 I / III I I I j I I j 1% l i N � II _ -/// / / \\\\\\\\\\ � / '/ / \ lull /,j I / I /IIIIII, I ( / _ // I ,1 IIl1 I II.. IIIII/, ( // PZ5-5s-// / o -',i I->\) / / / to /��/llI LINER SYSTEM DRAWING KEY PIP a ��I�J)///d _-\\_/ %' NOTES PZ5-20D / / / —/ — ) / /,/// / / / / / J /) /� / o j /// jam—/�l/ �// 1. THE PHASE DIVISION LINES SHOWN ARE APPROXIMATE AND MAY VARY •� PZ5-20S / / / / / /,/ I/�— 310 \ / // // // / / /% // // ///// j// �// IN SIZE AND LOCATION TO SUIT FIELD CONDITIONS AND TIMING OF •� 0� o I/ / / / / / / WASTE ACCEPTANCE. TEMPORARY INTERCELL BERMS MAY BE �4)/ /// / / �/ / / / / �/ // //// // // CONSTRUCTED TO DIVIDE PHASES INTO SMALLER CELLS. THESE WILL MW U -20S ///, I ( —� r / ��/ / //� BE INSTALLED AT THE DISCRETION OF ANSON COUNTY LANDFILL. I 1 I I PZ5-4D / y \ J / / / \ �r �// / l / / / // �i _e /�// j� //� INSTALL EROSION CONTROL 33A 33 I I ( / �3 —� / / I` r �/ \ / / / / / /�/ // / / // /�/ ///i / / / I I I ; OQ / / I /// //// 2. REFER TO DRAWINGS C502-0503 FOR THE LANDFILL OPERATION MATTING AT 3H:1V / / r / I I q \/ /�/ / �j/ / / i / / /� / / PLAN. PERIMETER SLOPES TYP. C605 C605 / / / / / / �-\ // / / / / / / / / / �i/ / �i/ �� �/i�� / 3. REFER TO DRAWING C500 FOR THE FINAL COVER PLAN. / PHASE 5 / I ///—/ / / /I / //i/ �i / / /��� / j/ //ii ��/� // i 4. REFER TO DRAWINGS C304-C305 & C400 FOR THE LEACHATE CELL 2 / / —/ �� ��/��//� // /� COLLECTION PIPING PLAN INSIDE LINED AREAS AND LEACHATE PZ5-3S TRANSMISSION PLAN OUTSIDE LINED AREAS. o \ \ \\j//�/// j /�/ //// l o - \ \ \\ ' i / / / / / / /ii // �i / /� 5. REFER TO DRAWING C500 FOR THE LANDFILL GAS SYSTEM PLAN. ----_7:7_ _3>�� _= fv. - / �' ////oz i/�//i 6. REFER TO DRAWING C501 FOR THE PERMANENT EROSION, SEDIMENT / / AND STORMWATER CONTROL SYSTEM PLAN. 1 / \ / / / /� / / / / / //i /ice / // /'� / i 28 29 \ \ \ \ / / PHASE 5 / / /� // / /�� /// / �/ / / 7. MONITORING WELL LOCATION INFORMATION PROVIDED BY CIVIL & PERIMETER DITCH 5 / / // / �' --_ \ //� // / �/ / �/ /i // // ,C� I /� / / / // / / / /� CELL 1 / ///�i \ \ \ \ / — / —� - ) / / �/� / // / /// j / ( 1 / / / // /// / // ENVIRONMENTAL CONSULTANTS, INC IN THE DESIGN HYDROGEOLOGIC C604 C604 // / \ \ \ \ \ \\ — — —� / / / / / / /' — / �' / �� %/i/ ii i // / /'� /// / �/ / / /� REPORT DATED 2018. �/( PZ5-2S-- � / �_ / / / / �/ / �/// /�����/iii //� / l // /// / // // PZ5-1D'' / / / / / / //// /// /�� i/i// i / / / / / / / / / / / /// //i /�ii �>f �— / // / / /// / 8. EXISTING MONITORING WELLS AND PIEZOMETERS LOCATED WITHIN THE // ����i < \� / // / / /— / / /� / �i / i /�/ �/� �/i S� I „ / / / ///j/ / / // // GRADING AREAS SHOWN THIS SHEET SHALL BE ABANDONED / -- --_ /�i/S/ ��- / ) �� / / /// ACCORDING TO THE PROCEDURE LISTED IN THE DESIGN / /-/ — L%/ -� //%//// EX/ST/NG / / //%// HYDROGEOLOGIC REPORT 2018 BY CIVIL & ENVIRONMENTAL -�— / / i// i / // //�/// //// / / � / / �—// / // / / CONSULTANTS, INC. PERIMETER ROAD 14 29p------- / �/ / / l l l l/ / / // �300 l I I / /%���/ �l l �//� / 1//// // �/ �//PHASE / l / / /CL \ \� C60 / \ / / / / /// %� / / // // /f i/ I / / �/�/ �/� / � / / / / / � � � � //ii / / �280�� � � ------ -\\ / / / I ( � MW-8D4/ \�� 1<� � � (/ / � /�// /� �/ii�i j j'�//� j/�/ // LV� • / a. 28 29 PERIMETER DITCH 3 300 \ / I / / I I / l �\� l l �/ / ( / / / ROCK CHECK DAM 34 60 / / ' — \ \ \ / ( \ I / / / / / // //i/�// / / / // TYPICAL l) C605 MW-8S �� \\\\\\\\\\\\ \\\\\ \ ((/ I I I I \ \ \ \ \ \ \\ \\ \ \ // 2 �\/�i \ \ \\ \\\\\ \� \� \\ \\ \ I I 1\\\\ \ \\\\\\\ \\\\ \\\\ \\ \\\ \ \ \\\ \ \ \ \ \\ \ \\\ \ \ \\ \ INSTALL EROSION CONTROL 33A 33 "� a / / / / \�\\� \\\\\\\ \\\ \ \ \\ \ \\\\\ \\ \\\ \ \\\ \\\\ \ \\ \ \ \ \\ \ \\ MATTING AT 3H:1V , / / / / \ � \ \ \ \ \ \ ' C \\ \\ C605 C605 \ \\\\\\\\ \ \\ \ \\ \ \\ \ \ \ \ \\ \\ \ \ \\ a. PERIMETER SLOPES (TYP.) \\ 28 29 CULVERT 2 PERIMETER DITCH 4 \\ \ \ C604 / 300 PZ5-19S \ \ \ \ \ \ \ \\ \ \\ \ \ \ \ \ \ \ \ I C604 C604 \\ \ \ \ \\ \ \ \ \ \ \ \ \ \ \ \ OUTLET A 31 \\\\\\\ \ \\ \ \\ \\ \ \ \ \ \ \ \\ \ \ \ C604 PERIMETER DITCH 2 28 29 28 29 PERIMETER DITCH \ 1 \\\\ \ \\ \ \ \\ \ \\ \\\� \ \ \\ \ \ \ C604 C604 \\ \\\ \ \ \\ \\ \ \ \ \ \ \\ \ \ \ \\ \ \ \ \\ CULVERT 1 30 \ \ \\\\ \ \ \\ \\ \ \ \ \ \ \\ \ \ \\ C604 / p EX/ST/NG ACCESS ROAD \ \ \ \ \ \ \ \\ \ \ \ \ \ \ \ \ \\ \�\ �� �� \ \\ \\\ \\ \ \ \ \ \ \ \ \ \\ 1 _ 1— ` __ __ \\290 \ \ \ \\ \ \ \\ \\ \ \ \\\\ \ \\\ \ 31 ;60 30 `J 0 offll�A U OJ�v QJ a�W W � Z a Lu � z � J =00 a OC = O O Z Z = W O V Lu Z 0 I= u U)mZ Qaa U m m t� Z N M (/) t OUTLET C 31 — _ \ \ \ \ \ \\ \ \ \ \ \ \\ \\ \ zui y 60 \ \ \ \ \� \ \ \\ \\ _ CD /'�/// /�� /� \\ \� \\ � OUTLET A 31 = _� --- \� \<\ \ ` \\\� �\\�\ �\\\\\�\\ \�� NORTH CAROLINA mco b SCALE IN FEET / \\ �r 1 \ \ \ \ o /� \\ \\ ��CLr 604—__ \ �`\\23 EMERGENCY SPILLWAY �o \\1\� —\\\ \\ \ \ N r _\ , \ ^� \ \-\ \\\�\\\ \ \ \ \ BOARD OF EXAMINERS �� /� / / �'- \ \� BASIN 15 _,` \� \ \ \ - \\ \ \\\\\\ \ \\ FOR ENGINEERS AND LLLu _ / r \ \ --\ \ _ \ \\ \ \\ / / / \ i �\ 3 \ l \ \\ 0 100 200 I \\ \- - - - - - - \\ II / /' �// �// / \ \�_ `�- , C603 \�� =`\\ \\ \ \ \\\\\ QQ 3 \ \ \ \ \ \\ \ \\ -I' W f 1' \ � = \�\ � \\\\. l \ �\ \ \ \ \\ \ \ \\\ \\ \ SURVEYORS LICENSE � h\\\\\ -\�-------_ \ -_-��\ / // / V_��-�� ��-�=��\ \�_-\\\�\\ ` QQ \\ \\\\ \\\\\\ �\\\\�\' NO. C-3035 a w - - - - F_ REFERENCE �\ / - - =�\\� - \ \�\\ \\\�\ \ \ \\ \ \ .•`�'� ROL�j o m 3 1. EXISTING TOPOGRAPHY WITHIN WASTE CONNECTIONS PROPERTY WAS PROVIDED �\ \ / \\ \; - \ \\\ \ \\ \ \ \ ` '�•' "'� < w AT 2-FT CONTOUR INTERVALS BY GPI JOB NO. 18-006 DATE OF AERIAL \ \ \ — — — — — 1 \ \ \ `30 w O f Lu PHOTOGRAPHY JANUARY 15, 2018. \ �\ �� \ �—� — -----` _—`0 IL / / \ \\ \\ \ L ' t a 2. LIDAR TOPOGRAPHY OUTSIDE WASTE CONNECTIONS PROPERTY WAS ACQUIRED DRAWING NO.: FROM NC DOT GIS N . \\ \` /--�� --__—/ �'// 3. WETLANDS INFORMATION PROVIDED BY CWS ON AUGUST 8, 2016. BEFORE YOU DIGI ,' '+%,''"���••'''.� \_/\, \\ y CALL 1-800-632-4949 '���qNl C301 `O 4. FEMA FLOODPLAIN INFORMATION FROM NCFLOODMAPS. MAP NUMBERS: \ --\ \�--'\ �— — ,/ ----- _/ _ _� \ ��\�\\_ \. �� \� N.C. ONE -CALL CENTER N 3710644500J, 3710644600J, 3710645500J, 3710645600J. IT'S THE LAWI SHEET 4 OF 30 a 8 7 6 5 4 6 4 2 -260 280 \ C Q NORTH /'/�''%��� %'!; '���� N 31 OUTLET A PERIMETER DITCH 14 28 29 3� CULVERT604) 7 � 28 29 PERIMETER DIT( C604 C604 270 INSTALL EROSION CONTROL 33 - - MATTING AT SHOP V / I I //�/ // / ' o I I I \ (✓/� \\ \ \ \ \\ PERIMETER SLOPES (TYP.) C605 ( PERIMETER DITCH 13 28 29 / \ C604 .604 CULVERT 6 30 �_J 1\ \1 / !III / j / / // o/' //jam ' �''- \ \ II / I I \ \\ I o 160 _ \ -- \\\ \\ \ I / / / / 0 // / /� o I PHASE 4 I I \ \ I C604 _-- ,\ \ I I I I ! / / //ry// / �� //N \ \ I I I CELL 1 �_�_ - = 2s ,\ A\ AID ��� I I I I � I I � \ \ \ \ \I I % /� ,' � 28 29 PERIMETER DIT, 31 — o \\ I 11 l /ti/ 1 0 z ;H 16 \v� \ Z �\ \\\\� O U w \\ \� F o W \\ o W 0 U Z ,H 15 Lu OUTLET B — � \ I III / / / / / / 3po I I \ \ / / �^ C604 C604 0 C604 6°�I I // 0 I III \ l \ \\ III ! I OUTLET D 31 /i. I I I \' \ \\ \\ \ \ \ "' \\ N/\\�\ Lu � C604 BASIN 12 23 ��/ ti \ I ` �` \ \ o // N I \ z C603 o ��0 �0 , 1 �1'\\ \ o\ 1 9° Zg0 0) /zzx // PHASE 2 1 / —CELL — / _ 2gO PERIMETER DITCH 12 28 29 / C604 C604 00, 000 PREVIOUSLY PERMITTED PHASE 3 PERIMETER DITCH 11 28 29 C604 C604 E /I I I)�Illl lI/ LEGEND o PROPERTY LINE rV kI I I 300' PROPERTY BUFFER 300 EXISTING STREAMS /2jolI J/' \ \\ \ l//o /��/\ f� , \\ \ I I - 50' STREAM BUFFER CULVERT 5 — 300 -- EXISTING MAJOR CONTOUR -10 EXISTING MINOR CONTOUR \ OUTLET B 31 / ° C604 / `L°' /\0 F M EXISTING LEACHATE FORCEMAIN `1 \ \ \ \\\\ \ ` \ 15 `L \ \ ���/� , \� \\ ` \ — 100-YEAR FLOODPLAIN PERIMETER 28 29 `�� \ \ ' \ \ \ ° \ \ \�\ -f" \ \ \ I/ j jDITCH 9 C604 C604 pro 2$0 \\\\\ \ PHASE 4 � � I � \\\ \ �o /�-PHASE LIMIT/EDGE OF LINER D \�\\ \ \ CELL 3 PERIMETER 28 29 300 MAJOR CONTOUR DITCH 10 \ \ \ MINOR CONTOUR C604 C604 0 \ \ / / \\ \ O \�\\\\� \ \\\� PERIMETER ROAD _ � PERIMETER DITCH �/ / \ �\)/ I (� ///� \\ \� i 310 1 PERIMETER DITCH 8 28 29 \ \\ \� 6 1 2 TOP OF CLAY LAYER —► \ C604 C604 \� \ O \ C600 C600 INTERCELL LIMIT (BASE LINER SYSTEM) _ INSTALL EROSION CONTROL 33 \ \\ MATTING AT 3H:1 V \\ \\\` j C605 / — ST CULVERT PERIMETER SLOPES (TYP.) -- �' ® RIPRAP APRON ��/'/ / NOTES 300 Il/ r-320--I I 2g° �� / I \\ —___�j / // _— - — �- 1. CONTOURS SHOWN AS TOP OF CLAY LINER INSIDE THE CELL AREA. CULVERT 4 0 604 �6° 1 o I _�� / / <\ /`—\ / _ — — — — — — /, OUTLET A 31 ��\� / �o \ /) l —/�� % /—���\\�\ \/') I \� / /// //%mil /�—!---\�%�� c PROTECTIVE (OPERATIONAL) COVER �^ — / mil/ \1 l \ / 7 GEOCOMPOSITE 04 10 I \ /�!/I �\ / � i J 1 /i/� DRAINAGE LAYER / � / --, l C ^� r!✓�\ ( �c � CONTOURS ` PERIMETER DITCH 7 28 29 �/ / / �/ / / 1 7r` \\� �,�5�\ �� I I� Ir/ \ \ / / \\I \\�\l\ I \\ \\%�� � THIS PLAN C604 C604 /// l 1 /I,loi /''�; CELL 4 /l \ J3 1 1 (' \ rl LJ I I I / \ \I \\ \\\ N <EXISTING ci /j /ir\\ \ / — PHASE 2 N 0 290 \��I 1 �J J - --= 310 j a B LINER SYSTEM DRAWING KEY - \\ \� MATCHL►NE SEE SHEETC3 \\ \\\___ NORTH CAROLINA ,\ `111`\ \�\\\� 03 LA CONTINUgT1pN — \ \ \ \ —\ o \ I y`L°I -- _//_�� �� = i� �__--- - \ 1 \ \\ BOARD OF EXAMINERS — '— —� -- SCALE IN FEET FOR ENGINEERS AND — —_—_--_ —_ _ SURVEYORS LICE NSE 0 100 200 _ --. NO. C-3035ONTINUATION3lp MATCHLINE SEE SHEET C303 FOR C/�y :-77 ` I _ _ H 00 � N F Z ti CD � o N 1 Q s O V . E Q K o 1 ?1 (n M U 1 � M � Q N L O a 0) PIPC a m O O cn r •N U U Ln WaZ cf) � J =00 Z a v a OJM&- v QJ OC = V Q Z a Z O O 0. a�W _ Z a Z = W O WVLLuU � p Z I 0 O °° Qaa Z U F_ m c� z W Z IL W Z }� m Z m y B < W J o 0 o U �o CD N wji r LL m O w O o PHASE 5 I II I I I ` I 1 (I IIII IIIII I\III 1III '00 CELL 3 1 II 1 1\1 Ill( gt�t%GAR REFERENCE o ,. H 1� Q.•Ia ` 3�o � \—\ . �.�• �391141. EXISTING TOPOGRAPHY WITHIN WASTE CONNECTIONS PROPERTY WAS PROVIDED AT 2-FT CONTOUR INTERVALS BY GPI (JOB NO. 18-006); DATE OF AERIAL PHOTOGRAPHY JANUARY 15 2018. �r« �•;. ':. ; / IIII III II III II� 3 _ — __— --- __ —__—_ \ I Io I \lo\ 2. LIDAR TOPOGRAPHY OUTSIDE WASTE CONNECTIONS PROPERTY WAS ACQUIRED 1 30p I ) / l— / / / // / l / / i \ / r\ I I I I 11' I\ III I I I �' /' — / — / / \ \ r \ �% I I� PHA/SE 2 1 II \ I x ----- _ — I I�r1\ \ \ i ''•V N A FROM NC DOT GIS. / / / / / / 1 I I III 1 I I I �� 00� —_—_-- _ �� �\ I o 1 1 I \ �$~ . �� ;' DRAWING NO.: IIII IIII \\\ II I11 I11 I I — -- __--- \�I \ \ \ 1 -7 �d�! ••'' eti I I I I 1 \ \ \ \ \ BEFORE YOU DIGI 3. WETLANDS INFORMATION PROVIDED BY CWS ON AUGUST 8, 2016. I 1 111 I 1 I I \I IIII \ I I�—\ \ Io1 \ \ \ I '�iq •`� C302 CALL 1-800-632-4949 / / / / / / / / / �� \ \ I III II \ 1 I1 1 \\\\\\\\ \\ \\\\\ \\\\\\\ \ \ \ I 4. FEMA FLOODPLAIN INFORMATION FROM NCFLOODMAPS. MAP NUMBERS: / / / / / / \ I I I III I \ \ \\ \ \ \ \ \ \ \ / -- \ \\ \ N.C. ONE -CALL CENTER "' "��" N 3710644500J, 3710644600J, 3710645500J, 3710645600J. // / / l I o /� r / / // / /j/ / \ N \ I I III I 1 I I I\I 1 \ 1 III \ \ \\\ \\ \\ \ \ \\ \\\\ \ \\ \\\\\\\\� \\� / / �\ \ \\\\ \ \ \ \ \ \I 1 IT'S THE LAWI II II 1 1 \ \ \\ \\\ \ \ \ \\ \ \ \ \ \ \ \ \ SHEET 5 OF 30 6 I 5 4 I 3 i i 8 7 5 4 3 2 1 // /� _ '/ I \ '�i �r'nC� s i°l �-I/1 �— —\�'QII (/_/\ I _I / /'--I\ //'( —/ _II /� / i' /--/I/ —• j/// / //C// —�///1 i/n / j 1— / i—� =//�/ �'_2 /%—/� /// —/ >�w I/d\ I '////� \o — � �j/_/1, /�/ /��j�) o_/ .1�/ %/\ 51/�// O�//\ r�\/\ �/ /— '�\\\// ,�j\—\ !\ /\� // /\\ /\//\ —\\ //�/> \/\ —// �\\/ \—/�/ l\ //\ /—\\/' � \ \1_�i�\—�/ /=i-\ \\ \// /—\ \�\\I= /////\\/ \ce/\ -'-\_\/\ - \��I—/I� \ \— ;\/\/�\\\\ \///\ /\�\\ \/I\�\II/ .•\ /\5 / /�3/ \ /\//�II i\ \ \ t\ /\/�\/\ I � � J ��/� 1p�1 I\\LI /\ p\\/\ \_\I/ /\Ii�—\\ \ I �— I I—�"/�I \\C--—/3\'Is2,._ \. IIo—0/ I 1—/ —_s / �\1I— I \ 1 \ = � � I �1 \l \ I \ ,� LEGEN DMATCHLIESEE S \\RLH\\A/jIND/PR OPE\\I\\\R/\\T�//j Y LINE IN�///��//EHEET C302 FOR CONTINUg300' PROPERT+\\Y'\\\ \ BUFFER H / 290 TION o EXISTING STREAMS MATCHLINE S50' STREAM BUFFER SHEETC302 FOR CONTINUATION 300 EXISTING MAJOR CONTOURNORTH//// EXISTING MINOR CONTOUR 'h •� '; OFM EXISTING LEACHATE FORCEMAIN PHASE5 W�— 11\10 OUTLET D 3CELL 3 a I i"I11 It -PHASE LIMIT/EDGE OF LINER ZBASIN 23 O w 31 cn 300— MAJOR CONTOUR � MINOR CONTOUR 300 III I \ Lu 30PERIMETER 2 1 ROADlINSTALL EROSION CONTROL \ 3TI 33A PERIMETER DITCH// MATTING AT 3H:1VG CC605 I I am - PERIMETER SLOPES (TYP.) INTERCELL LIMIT o OVa—J_aoW,o� PERIMETER DITCH 6 28 29 ST290 PHASE 5 CULVERT CELL 4 RIPRAP APRON w23 EMERGENCY SPILLWAY Q �/ PHASE 5 NOTES o / 1. CONTOURS SHOWN AS TOP OF CLAY LINER INSIDE THE CELL AREA. if o 320 Z0o 1 VJQqJZZZQ co\330 VF 310 PROTECTIVE (OPERATIONAL) COVER ZLC++VOZQZZZQ��>o .coti"tic v� o 2GEOCOMPOSITE / o/ 1 2 TOP CLAY LAYER \ DRAINAGE LAYER 0 ti 7 0 M r 0):60 CONTOUR� N (BASE LINER SYSTEM) s C THIS PLAN NE00 CD m' C.)% cn 300PHASE / lit CELL )m o � i cc co ////U 11III1ace 310 /�1IIL_! �23 272 / a E /11 If I LINER SYSTEM DRAWING KEY w i/ OUTLET B 31 aCDCULVER/it -7%AJ� 310 60 300PHASE 5 CELL 2 INSTALL EROSION CONTROL33A 33Lu MATTING AT 3H:1V PERIMETER SLOPES TYP. 602110 � 9 28 2PHASE 5 ZPERIMETER DITCH 5C604 C60CELL 1 = it LL / jxii EX/STING O PHASE 1 I PERIMETER li_300- ROAD 60 /ZLW / 28 29 PERIMETER DITCH 3 C604 604 O LLI O if WO INSTALL EROSION CONTROL 33A 33 \ MATTING AT 3H:1V WV 6060 N C PERIMETER SLOPES (TYP.) CULVERT 2 PERIMETER DITCH 4 28 29 0 C6046W (f) 8 29 U) mZPERIMETER DITCH 1OUTLET A 31 PERIMETER DITCH C604 604 C60604 \ 25 cm) EXISTING ACCESS ROAD H N c�J \ 0 \\ \ OUTLEC 31 a. 60 B N OUTLET A 3�ZW co C604 0CDNORTH CAROLINA J1SCALE IN FEET BOARD IS mBASIN 15 FOR AND 0 100 200 li SURVEYORS LICENSE O w w NO. C-3035IN, I/ _YWJ \ \\\\ 23 EMERSA 603 4 CAI? REFERENCE 1. EXISTING TOPOGRAPHY WITHIN WASTE CONNECTIONS PROPERTY WAS PROVIDED _ — —w Lu O -- —_--- PHOTOGRAPHY JANUARY 15, 2018. \ \\ \ 0 IL .AT 2-FT CONTOUR INTERVALS BY GPI (JOB N0. 18-006); DATE OF AERIAL 2. LIDAR TOPOGRAPHY OUTSIDE WASTE CONNECTIONS PROPERTY WAS ACQUIRED /� I m N A FROM NC DOT GIS. DRAWING NO.: BEFORE YOU DIG! '+' ���...••' •� 3. WETLANDS INFORMATION PROVIDED BY CWS ON AUGUST 8, 2016. \\\ �7 �` \\ \•' C303 \\ \\ \ CALL 1-800-632-4949 �'�. qN``� `O 4. FEMA FLOODPLAIN INFORMATION FROM NCFLOODMAPS. MAP NUMBERS: \ —� ��--'\ �— — �� ----- / �� \\\\ \ \\ N Oil ��L 3710644500J, 3710644600J, 3710645500J, 3710645600J. — — \�\ �\ ��, \ N.C. ONE -CALL CENTER IT'S THE LAWI a I I SHEET 6 OF 30 8 7 6 5 4 7 4 3 2 cp L�SA 280 26p �10 �27p NORTH '�%�'%�%/%% -�% - 0 2, \- -- 31 OUTLET A PERIMETER DITCH 14 28 29 , W o C604 C604 30 CULVERT 7�\ I 28 29 \\ PERIMETER DITCH 16 Z \� \ \ �\ w �� _ �j C604 C604 \X� F o \ \ \ Lu INSTALL EROSION CONTROL 33 MATTING AT 3H:1 V / C605 PERIMETER DITCH 13 28 29 \ PERIMETER SLOPES 1 "I j (TYP.) ( I I / . / / ' / // / / � - , / I / // // �0 C604 C604 o \ / CULVERT 6 30 J �\ \ \\ I\ \ /IIII / / �/ / / / /' •N I \ / I I \ \ \\ `\� I 2 O Lu \ -- \\� \\\ \ I / / / / / 0 / \ I \ PHASE 4 1 I I 6 W C604 = \ \ I I I I l / Il i / �/ / \ \ \ \ I I I . \ CELL 1 1 \ \ \ I 1 / / / / �0 / \ I \ I I I� I \ / I \ \ \ \ \l / / / /� 28 29 PERIMETER DITCH 15cn OUTLET B 31 2so \ \\\ I I I l / / / ti / / / / / 300 I I I I I 1 1 / I I 1 ��\ C604 C604 C604 �� III I// 0 o I I I I 11 I/ \ \�\ \ l \\ \ \ Lu OUTLET D 31 �, ,y6% N I I I 1 I I I ( \ �`\ \ \ \i I / ao -� , ,,\\ o BASIN 12 23 ��- ti \ I I I I I 0 \ - �j \ C603 ! ao � 0 I o \ \ �v 10 M1 0o /�/''/ PHASE 4 CELL 2 N \ / PERIMETER DITCH 12 28 " _ 29 C604 C604 = o �\ 290- _ / \ 1� \�\ / / LEGEND 1 00 rn o K U PROPERTY LINE d cv ci / LEACHATE 48 �j/jam' i��, \�\ i'-- -- \ 111 L � TRENCH C7O %�/ \\`\ -- 300' PROPERTY BUFFER a) EXISTING STREAMS 1 M ij !// LINER SYSTEM 3 0 A NA ry60� 10/TREN ' ANCHOR CC600 31p \ 50' STREAM BUFFER ❑ c� o0%H 1 \�\\ oo \ \ \ Y N EXISTING MAJOR CONTOUR s_ o oo EXISTING MINOR CONTOUR ', (L 0) ` PERIMETER DITCH 11 28 29 / // /� o /�-- _ 1 1 CELL DIVIDER BERM \\X\ L E l C604 C604 / / �/ `� C60 I \\ EXISTING LEACHATE FORCEMAIN PIP a CLEANOUT TYP. LEACHATE 38CD I I I, I (I k�\\\\�` 'o \�\ / �o 100-YEAR FLOODPLAIN W V I( ) C700 � � � I �° 3 3 \� \\\ ��\\�I � o CD PHASE LIMIT EDGE OF LINER � o \ LEACHATE 41 �o ^����/ �/ / 20.0 h�I, TYP. ( 300 MAJOR CONTOUR � r RISER ) /C70 / �, �`� 1 I l I\ 3� � / / � U \ I I PREVIOUSLY PERMITTED PHASE 3 / MINOR CONTOUR PERIMETER ROAD 300 V\V\ ( � PERIMETER DITCH I INTERCELL LIMIT Z CULVERT 5 30 I/ C604 /' \IU))� .� /// %�i/,ice S7 CULVERT OUTLET B 31 0 0 \ \\\�\\ /// jam( RIPRAP APRON Lu Z Z OPERATIONAL BERMo J J I' PERIMETER 28 29 1 r, \\\ /� / �� \ I \ (� ' l LEACHATE COLLECTION PIPE AND CLEANOUT = O DITCH 9 C604 C604 N �p //// �\ �° > / LEACHATE SUMP AND RISER Z a Q LL I /� k///;/�/PE � /// PHASE 4� � / CELL 3LEACHATE FORCEMAIN O RIMETER 28 29 �\ / \ 310 J = V /I./" DITCH 10 -604 't / PERIMETER DITCH 8 � �iy //// / o NOTES Q LL O E28 29 �' // \ �% So'�F / �♦ 1. CONTOURS SHOWN AS TOP OF PROTECTIVE COVER INSIDE THE CELL V �1 it _ \ \ ` i / // 1 AREA. SLOPES DEPICTED NUMERICALLY ARE PROVIDED ONLY FOR J Z O INSTALL EROSION CONTROL 33 I \\ C604 C604 �90 /� \ ��\ // _ REFERENCE. O EL MATTING AT 3H:1V C605 \\ \` \ \ \ / \� \�\Jl/ I' �\ /�// - i 2. LEACHATE PIPE SLOPES VARY DEPENDING ON LINER CONTOURS. a ~ Z PERIMETER SLOPES (TYP.) \\ \\\ ' �r _/ Z 2go �/ / ��7 8"0 SDR-11 ' - Q W ) 3. ALL LEACHATE PIPING UPSTREAM OF SUMP TO BE PERFORATED. 300 \ \ \ \ \ /// -%ij" _/ /,/am I HDPE LEACHATE PIPE =�/ / TYPICAL --- — CULVERT 4( 30 60 // - a � �, , //, � �-- %_- � � \ CONTOURS � = W 30 \ I/ aj ♦/ `�� __------ THIS PLAN ILL C604 / ti do o — /// — NOUTLET A 31 / \ \ / , / ---- --\ \\ O L O //� j i / �° / 35 /LEACHATE COLLECTION (r� //` �_ //I/ \ / /� /��/j/�l/ -� //��/�/ \ \ PROTECTIVE (OPERATIONAL) COVER LLI ♦ ♦ W U N //////j/� C604 \\ �L �I / / C700/ PIPE (TYP.) o ��1 / //� l/// I I l \\C \ �f `V a v \ C ' \ GEOCOMPOSITE Z/ ' / 10 OPERATIONAL LAYE 0 O 60BERM TYP. ♦/ m cl)Z a /' i/// / p� a 37 LEACHATE `v I / I �.310 �� �/ \J \ \ \ I / /\ 1 / ///��(✓ \ \I \ \\ ��-'' // / /CLAY LINER // // N Q Q COLLECTION SUMP I/ / 310� -\ ^ / I III / / / \ 1 / (//%( _ I 1 / / \ (g / / / / / / / / V C7o0 11 \ o ��/ /\ \\ \ //r I \ l 1/ ((( I \\ \\ i PERIMETER DITCH 7 28 29 AND RISER (TYP.) /♦/ I' o/ '�\\1\l\ PHASE 4 \ \ \ JAI \\ 1 \ \� \ \ \ \ \ \ \ \ \ \ \/ H '� < I \ I \ \\ IN �// I I` l �'I _ �,ti CELL 4 . /// ���� __ �\ /ice I I \���� / \ \ \ \ \ /\/\/\/\/\/� u z 0 / /� I >,� 31� // \ �� I \\Il\ \\ / / / / / / / / / � o \\ \ \\\ I \�//// / I ' s /// _� �' \ Z l �__ ; , ♦i I T / 1�II 31 o �---- % EX/S77NG \\ — \ \ \ \ \ \ \�\ \�\� a IN //'///'/ /' N i/ //i ii�"// ♦/ \ // �J \ \\I ( - \\ 1\ PHASE 2 / _ —/ / ��; /♦ LINER SYSTEM DRAWING KEY W 0 o , TIE-IN '//�� �� — --_ � W Q w 2g 9 CELL LINER SYSTEMi�� w MAT / ♦, \ � � c6o __—-- � — _; CHLI — \ �! %,_ ! _ — NORTH CAROLINA ♦ \ —� _ _ —� NE SEESHE \ \ / I I \�,/'— = ��—, /—__ --- --- — �� ~ co ° LW AY HEETC305FOR // \ \ \ //� ��_—%� _ �� —= ___---��_ _—_—_ BOARD OF EXAMINERS V o \ \ \\\ \ \ `\ \ \` y �NUAT�ON ii \ \ \ \� ,�// I — '��%—�_����'%'����� %— SCALE IN FEET FOR ENGINEERS AND o — — _ / / !�__;_ _ ,_%� ;_ /';�;�_— — a 100 200 Lu SURVEYORS LICENSE CD // o MATCHLINE SEE SHEET _ �� �(` / 0� =!/�i' --- NO. C-3035 a Lu EET C305 FOR CO '' / ' --Lu — /// NTINUATION �_ �� % — LL I 1 \K/y� ;.: �/ IIII IIII II / �.^�/ ' —�% __/—��_ ---- ++`'' CA a REFERENCE — — �,�// /// PHASE 5 I 320 I I I I IIIII I III ( '/ i� 60�---- %'�� / , ' _— -- a •'`p ��4i' O w ° m -- i/ , 3 CELL 3 I IIII IIIIII\I I�(((/ _/,/— �, /,?..,Ia••. Q F o 0 1. EXISTING TOPOGRAPHY WITHIN WASTE CONNECTIONS PROPERTY WAS PROVIDED til //� - �/ =--_ - _' /�'�� _ p •• '� O U > // / \ III_—__-- —i __-- '4 o AT 2-FT CONTOUR INTERVALS BY GPI (JOB NO. 18-006); DATE OF AERIAL / o // ? 1 I I ( I II I III / // '3%0�'-- ��---= \\ :_ ;? w O o °9 I I III IIII I ( / �' —�� _=__ _---_ \ \ = w M PHOTOGRAPHY JANUARY 15, 2018. / / " �' I 1 I III I IIII ( / ��'� _ /-- \ < o ,�/IIII �IIIIIIIII.\\I,1, \___ —��� �\\\ 039114 o o IL Q 2. LIDAR TOPOGRAPHY OUTSIDE WASTE CONNECTIONS PROPERTY WAS ACQUIRED , / // '1' �f I 1 1 I / / =� _ — --- \ I I A - / \ / %A s \ / I I III (/,�/i 3Q0� _ _ �f�_ ____--^\ 1 1 I I JZ'?l-I `` DRAWING NO.: N FROM NC DOT GIS. _ _ \ '` Q \ / / / w 9 CELL LINER SYSTEM - - \ I I o 1 y ��' II G '� •� // ,/- J oo N \ I ��� �� ----- - _- �� \ 1 0l \ BEFORE YOU DIG! '-,1 ���••'' t1.` 3. WETLANDS INFORMATION PROVIDED BY CWS ON AUGUST 8, 2016. I \ // F / / O I TIE-IN / / / 0 - _-- --= _ �_ _-- �, N T. B C304 /♦, J /♦/ , III C60 / / /4� ------ _ a,1 \ I Iv \ \ CALL 1-800-632-4949 �''�-.Yq �`�` `O 4. FEMA FLOODPLAIN INFORMATION FROM NCFLOODMAPS. MAP NUMBERS: /♦/ /// o N II I I 1' I I11 I / ( _ __ �_ \" '• s►` N 3710644500J, 3710644600J, 3710645500J, 3710645600J. /// i / I I \ C\ // //' / �► I \I III, I. II II II lil II li Ii I\III I II I1111� \I\\I\\\� I�\I\\�\\\\1\ \I\�\\\\\\� `� \ ��O !�— ��-----\\\ II `I\\\ \\\\ \ N.C. ONE -CALL CENTER ��i ���s� SHEET OF _ I \ IT'S THE LAWI 7 30 a 8 6 5 4 3 i 2 8 7 5 4 3 LEGEND 290�/- - - PROPERTY LINE IWA CHLINE SEE SHEET 300' PROPERTY BUFFER 23 C304 F R CONEXISTING STREAMS_ CON' ON MAT50' STREAM BUFFERCHLINE SEE EXISTING MAJOR CONTOURNOTSHEET C304 FOR CONTINUATION 07 I OUTLET D 31 �EXISTING MINOR CONTOUR - 4/ I �- \ / \ / ( / 1 / \I( EXISTING LEACHATE FORCEMAIN �( '/ � \ ,� � � � / � / I I�III►I I�� h/ -%__ // / // / / � � I III /11\ ( � o,! 100-YEAR FLOODPLAIN CELL > 3 PHASE 5 PHASE LIMIT/ EDGE OF -uo. /BASIN 13/23I,11I ,/ MAJOR CONTOUR P\ \ \ 1 I I MINOR CONTOUR //\ \o I9 I ILIN 300 ,o /�\\ F// C60 TIE—IN ER SI YS1TI1EIM 1 � PERIMETER ROAD INSTALL EROSION CONTROL 33 o /\1 I I — PERIMETER DITCH MATTING AT 3H:1V X\ 3p0 INTERCELL LIMIT EX/ST'NC \ \ \ \ PERIMETER SLOPES (TYP.) \ \ \\ \ \\ \ PERIMETER DITCH 6 28 29 �j �\ \`\\ ,� \\ \may �// / J/ \�` PHASE 2 31 OUTLET D J / / I . \ I /, / ST CULVERT / ` / PHASE 5 \ 1 I I\\\ \III IIII 1 \\\\\\ \\\\ RIPRAP APRON C604 CELL 4 / / / / �\ / / - l / I I I III 1111 \I\\ \\ \\ \\\ 23 EMERGENCY SPILLWAY _ ------------- - OPERATIONAL BERM 2g0IF �/ // /�-�• PHASE 5 \`\\ 8"0 SDR-11 CELL 6 \X HDPE LEACHATE PIPE I f I I 1• /,/ / / / _--/ / W ' \ \\\ \\\\\ \\\\\ \\\\\ -� LEACHATE COLLECTION PIPE AND CLEANOUT LEACHATE SUMP AND RISER I /-1 / \ / / I \ \ \\\\ V\\\\\\\\\LEACHATE FORCEMAIN \ \\♦\ �/ ��////I / // l 1l 1' I I I j 1 \, \ \ I I // 310 // ��/ a, 35 LEACHATE COLLECTION TRENCH C70 C70PIPE (TYP.) NOTES \�`�/ / / r , \ \ //// \ �� I I 1 \ \ \) % %- 1. CONTOURS SHOWN AS TOP OF PROTECTIVE COVER INSIDE THE CELL \�\ / / I \�`\ /l ) Ali) /�// = J �� M I I I I (; // % AREA. SLOPES DEPICTED NUMERICALLY ARE PROVIDED ONLY FOR \\ 330 I I I I I I I I I I I I // REFERENCE. F 26° �° ��\\ / �/ \ �L^� \)) - /1\. I IIII I / I IIII LEACHATE PIPE SLOPES VARY DEPENDING ON LINER CONTOURS. N =_= 37 LEACHATE \ \ < / ( / / / / / I 1 / o ' 280 C700 COLLECTION SUMP I_ \`�\\\ _ /// \ // \vim/� \ / I / / //� / / /� 1 I J. ALL LEACHATE PIPING UPSTREAM OF SUMP TO BE PERFORATED. LEACHATE CLEANOUT 38 AND RISER (TYP.) (TYP-)C700 ���\ 1 2 TOP OF PROTECTIVE COVER LAYER I I I C600 C600 (BASE LINER SYSTEM)C14I THIS PLAN CONTOURSI //III( I ///�/// ACHATE RISER 41 o YP.) 70 J PROTECTIVE (OPERATIONAL) COVER \\\ �90 -300 — \�\ \ \ \ I� .�-�,320,. �) _ \ I �� / �/ // / I I I % % % � \ J I I (/ / I / / / i GEOCOMPOSITE \ - - ,-I f \ I I Il, 1 I / / / / / DRAINAGE LAYER \\ \ \\\ PHASE 5 / / / I I \\ - / (/IIF I I�/� i CELL 5 1 I I �\ /� ♦ / / I(I I I I II 11 1 / l , // / / //HDPE LINER / moo' % 11\ \ \ '-�' / \�\ / \ /��/ /i�� \\♦` \� I'll"/VP I \ _ n l I \ \ \ \ .� _ _2so- - \�\ o° \ /�// 1 / \♦\ //// N o � 1 � ` \� \ / / � /// / / / \ / / ♦\ ,/ I �/ / / / I I I II I I I I I III / / / / / / BASIN 14 \\\ 23 o T 7 \ \_ \\ / / / / // / / / / \ �� \ I( �\\♦\ // / / I lI I 1 II I II I / / / 320 \♦` I / , I i I ll l 1 / I I I I IIII I / / / 2603 / / \♦ l S \ As ( III I I I I OUTLET B 31/3 o \♦\ I/ //� �- 1 �/ ♦\ _ �/ / / I I �, I I �o l / / 1 I 1 ♦`--�/ Lam/ \ //' \\♦\ / /1 \ \♦\ /I / / / //// ///� / 6// \\\\suecRADE \\\ CULVERT 2 30 0 I / I o / 11 CELL DIVIDER BERM N\ I/ / / \ ♦\ / // // /// / / / ///� / / /� // //1 C604 / / I I \\ / C60 �/ , l// ♦\ /// 10 OPERATIONAL \ ` /// // / // / \ \�♦\ / i�/ \� //%�j///%� �/� ///�/ // // // // // // // // // BERM TYP. \ // / / �\ ♦\ /// /i� / / // /%/ / ///�/ I \ /rr C60 ( ) 33/ INSTALL EROSION CONTROL A 33 / LINER SYSTEM DRAWING KEY MATTING AT 3H:1V \\\ -� / / I 1 / \♦ \ \\_i/// // / / o / ♦\ / / // / /// /j� // �// ////�/ // / PERIMETER SLOPES (TYP. ) \\ \♦ � / I� l \♦\\ \�j/�/// j// // / \ / \`�\/��j//ii/i�i���ii/�iii�i�ii/ii�/ji / ♦\ I/// / / / //// /// //� //ii //i/i /// PHASE 5 CELL 2 8 / 310 / / / \\\ ♦ \ / / \ ♦ \♦\ 0 SDR-11 � ♦\ / lI / //i/ ii �i/i �/ // /i /i / /i, / / \\ ♦ / / / /i i // / / / /iii i / /i/ / HDPE LEACHATE PIPE �\ — ��/� TYPICAL / / / \♦ � 300 290 ♦ I / � ♦ \♦\ \`♦\ / J / // / � 00, p \ I / / / \ • \ \ �,/ / / I ♦ % \ \ \♦ \ / \ \ \ \ \ `\♦\ / / / \ / // / /// //�/// /I /l / // /"o PERIMETER DITCH 5 28 29 / �,° \ \ \\ \ \ \_ x \♦\ // / ,/ / \♦♦\ PHASE 5 \ / i i/� /i' �/ / %i i�// // / / / / / / / / / / /// / 'L / ♦\ / \ \ CELL 1 �/ \ \ \\ \ \ \ �_ \ 1 \ /// , /� //� / / / �\♦\\ - ////%\%/��� / _L��%// ��///iij�// EX/ST/NG \PERIMETER ROAD �I// \ \LPHASE 1 / 60 o 28 29 PERIMETER DITCH 3 \ / \♦\ l_\ C604 C604 / \ �I \ \ \\ I II/ \�� � \ \ \ / \ / \ I \♦\ �, � \\ \\\\ \\\\ \( I IIII \ \\ \ \ \ \ \ l \ \ \2�0 \♦ \ �. , � \ \ \\\\\ \ \\ \(� `III \ \ \ \ \ INSTALL EROSION CONTROL 33A 33 Mo o �_ / // / / / / \\♦ \\\\ \ \\ \\ \ \\ \\ \ \ \ \ \ \\ \ \ \\ \\\ \ \ \ \\ \\ \ \ \ \ \ \ \ \ MATTING AT 3H:1V C605 C605 "' / \♦\ \ \\\\\\ \ \ \ \ \\ \\f\ \\ \\ \ \ \ \ \ \\ \ \ PERIMETER SLOPES (TYP.) \ / / / / / / \♦\ `,o \ \ \ \\ \\\ \\ \ \ \\ \ \ \\\ \ \ \\ \\ \\ \ \ \\\ \ \ \ \ \ \ CULVERT 2 30 // / /// \�♦\ \\ \ \\\\\\\\\ \ \\\\ \\\ \ \ \� \\\ \ \\ \ \ \ \ \ \\ \ \ \ \♦\ \ \\ \ \\ \\ \ \\ \ \\ \\ \\ \ \ \ \\ \\\\ \�\\\ \ \ \\ \ \ I \ \ PERIMETER DITCH 4 28 29 C604 / / / 30010 \ \ \ \ \ \ \ \ \\ \ \ \ \ \ \ \ \ \ OUTLET A r31 PERIMETER DITCH 2 28 29 28 29 PERIMETER DITCH 1 \ \ \ \\ \\\\\\ \ I / I I C604 \ C604 C604 C604 C604 \ \ \\ \\\ \ \ \ \\ \ \ \ \ \ \ \ \ I II I \ , 1 CULVERT 1 30 \♦ \\ \ \ \\ \ \ \ .\ �\ �� �\ \ , \ . \ \ , \ \ . \ \ \ \ \ G25 I II1� — _, �� \♦\ \ \ \\\\\\� I---- // C604\\\\\ \ \ \\ '�EXISRNG ACCESS ROAD \ \\\\\ _ 1 1— \ / '\_ \\/�_ v\\\\ \ \� \\-//jam--_\ \� \�\ 290= 290 3 \ \\ \\�`\ o\\\\\\ \\ � - -_ -_ -- -- --- � - \\ J \ \������ - OUTLET D 31 30p \�♦\ \ \ B - _- OUTLET A 31 \ \ \ \ \\ - - _ - ------ BASIN 15 30 23 7 _ \ EMERGENCY 23 EMERGENCY SPILLWAY REFERENCE 1. EXISTING TOPOGRAPHY WITHIN WASTE CONNECTIONS PROPERTY WAS PROVIDED -�\ \\� \ / - -----/ /-- \�_�\ C603 a AT 2-FT CONTOUR INTERVALS BY GPI (JOB NO. 18-006); DATE OF AERIAL^ o PHOTOGRAPHY JANUARY 15, 2018. �� \\ \ _ _� / \ \ \--_ \\\ \ °0 2. LIDAR TOPOGRAPHY OUTSIDE WASTE CONNECTIONS PROPERTY WAS ACQUIRED 00 i FROM NC DOT GIS. � q 3. WETLANDS INFORMATION PROVIDED BY CWS ON AUGUST 8, 2016. h 4. FEMA FLOODPLAIN INFORMATION FROM NCFLOODMAPS. MAP NUMBERS: 3710644500J, 3710644600J, 3710645500J, 3710645600J. N a 8 7 6 5 4 1 a I -I ti co 4-1 N 0 0 F � Z ti +D p O M N 1 Q s o V . E K o 1 D L 11� U �y� ?1 (n M U 1 � M ❑ Q N L O O m a. W � a m O 0 r •N U LI Z a LJ.IZZ aJ� =00 Z (L v LI a O J3v QJ OC = a Z � O ACV a� Z � Z = W O W V Lu Z OOCO U) °° Qaa Z U m N m t� Z M N It W qZ IL m z m o Y B p `% 3:w o o oo O NORTH CAROLINA c CD SCALE IN FEET BOARD OF EXAMINERS > ji FOR ENGINEERS AND Lu 0 100 200 SURVEYORS LICENSE IU w NO. C-3035 0 o titittrirs 0% CARD � Ji SEAL 1 o 0- 039114 Q " < DRAWING NO.: BEFORE YOU DIG! ''�.Y C305 CALL 1-800-632-4949 qN �' N.C. ONE -CALL CENTER "' "`w IT'S THE LAWI SHEET 8 OF 30 7 1 1 5 1 4 1 3 / / = �ii�%ii %-, �� -_ r'� / i ! / ��, \ i - \� \, ti � I `�\� LEGEND / - - PROPERTY LINE / \ \ / / / / / 4" HDPE LEACHATE � /� 82 0 2,0 260`2� ��\ � � \ \ \ \____��\\ \\ \\ \\ IIII — 300' PROPERTY BUFFER \ / / CONVEYANCE PIPE (TYP.) o \ O `V� �0__; �� I \, \, \ \ \ \) \ \ �\ EXISTING STREAMS \ \ \ / �/ / // 2,0 I \ 50' STREAM BUFFER irRo (\ IN AND 48 %�=� //ii//,� /ems �� �° `�� \�� a\\` 0 260 / IJ \\ \ o / \ \ ELECTRICLEACHATCONDUIT ATRENCH �ii%/�i/i ��% 2> R� �- ��� �\\ I / ) N 1 \ EXISTING MAJOR CONTOUR NORTH � \ C70\bv_ /� ,- / O \� l \\ o I /1 /J / EXISTING MINOR CONTOUR / \ /1-'///// ii o h \\\ / �0 10 '� 0 �� TIE-IN TO EXISTING LEACHATE FORCEMAIN / % - I / / / // � EXISTING LEACHATE FORCEMAIN -( / o / /-� N\I�\\\ i I i `V PHASE 4 60 ry // `/ // /' J �b BASIN 10 I \ � / / / /�/ / EXISTING WETLANDS / �� � \ / � � /�0 0 � �0 3p0 CELL 1 \\ � / ` / / // - ��- / ��96Q , cV Zg0 \�\ �/ // \ -_�_- 50' WETLANDS BUFFER `L Q / i\\ / / / J / �Q 2a tia 280 \ \ \\ / J / ��� / I — 100-YEAR FLOODPLAIN / BASIN 12 2 g0 � 290 I\ \ \\\ / // / 2g°� 9) 280 \ \ I //n . ` J \ / // r J/ / -11 (/ i PHASE LIMIT/EDGE OF LINER �/� 2a w'o I I (\\ I I � \ \ / / � "I -1 \ -/r 300 MAJOR CONTOUR //jib/,o, o aQ Go I I \\\� �l // o `YI I/ \ / \ / //jam 0 2 I III �/-J \ MINOR CONTOUR / ////IIII/, �?< I ) 1 I l- �� / 1\ (- PERIMETER ROAD \ ////�//�/ //% - - //// // _— f / ///////�///�//� i �� QQ \ i I / // / / // �� � / /��ii//Oi/ii PHASE 4 v -=v /,. PERIMETER DITCH — *,/, / //%//?/ O 300 \ \ /j���///�//j//; CELL 2 1Q /I I\J\ \\\ INTERCELL LIMIT \ \ �iii ii IIII01 ti610 0% /���i 0 uo ,/ \� � ( � ST CULVERT 1(///%/I//// �o O �'l\" / ( ------\-' 1 / �\ /`/\ \\ - t�ll� I IlIII /v/J /�-� b ----- ®----- RIPRAP APRON I �- 11////// 11 IIV- l\�� o -jam "\ ,L `17 - S JII IIII l/� ��( ( /)------------ PREVIOUSLY _ /� ,/ ° 3 `�; / \ i�����(\�� ---- IV )� )� \\ - OPERATIONAL BERM /j/� /o /�M 70 'I)/ \\ o o PHASE 30 � IIII-- � / \ / \\�� -7 _ I � "/ If/l � , �,�o �o �o4 Q ` 3 0/),_ / L� ' 0 \ �� ��- / / / - \ I 'i �/.25 IIII\ \ i \ �� / LEACHATE COLLECTION PIPE AND CLEANOUT \ `ti /%'< '�� 3 \'� V 2 No -ii ���/ EXISTING \\ I��-I-- _, \--_�a \- _ �I(�/ 0 �/ BASIN 3 IIII \ \\- �'J ___ LEACHATE SUMP AND RISER 1/1 \ \ / //� 24 (' / 114 -�' �\ I I (� ,_ -J/ I \ \� �� \ \-\ FM — LEACHATE FORCEMAIN � /�� /���/�� 2,, / - WUA � o ��o ll� \ III 11 ( I � _ x/ ) \\ \ // /1 ?1/ // °0 00 �o o ��� \ // 1 IIII \ II %,m/ i%' /i/ � lu I \ I Ill�l l�r j I / j/ _' / / I _/ ��/�//////%! ,. `� PHASE 4 ^� \ \\ \ �o-�� Ill ( \\ IIII �I \ I // // �j J/ // Y" ////IIII U, /!� CELL 3 / 310 \\ kI I� I I�'I I II ) \ _-� i /hil I l I j / // /� � -� \ ((� // \ o �_\__ — - t I,IlljlIIIIIIII \l J� \ /IIII I� I )/// / /�% \_ �o \?// (Ij // (/ / \ \ _ _ _ -\ III III �� \ l_ � /IIII J / /// / / _./�.\( \ IIII �11111 1 �90 // _- -- -\�\� \i I IIII IIII\I L , % hi/%>(J�\__ �/ h0�1 I 1 ,l'/ / �I� / , /// \� \ \,� �\Zgo / _`'� _ _ � iC� IIIIlll III �' ,irrl \ ry il� i �� j j / / x _-� /i // ��-\� ,,i 300 / ----=_ / \ cam/ \ �_� / / / ) / /// / /_ -/ ,l / \ \ lull III \ / / I� / \ I I I \ \ \ v/ �\ I � ./ / I /// - ��1-°'\ ' 3t ` �/� �, --- _ \ - ; //��� �\ \\\ III IIIII111 �\ / \�/// I / f // / / 6 ° o / /!ii/ice/i��= �i°' �° 30o W \ /i /-----\ / �_ IIII \\ I IIIII IIII `�` \�\��� ��//�--- ��� /�' 1 1 IIII %IIII / `ti / _ J // ii%i/ 1 \/ti / _ \ IIII I I \ / _ _ / / / / \ \\ I \ \ \ /6 /S J %� // / ,ice-- / _ ��'� oQ o / // /� J \ �� J / I I \I \ l l II I I / A Q. a I (, I / ( \ �/ �/\ /1 \\ \ I IIIII I k�`-�_ _ � \,� /1 X, // ///�i I \�/� i I- // \� l 1 / %���\' 1 I J � �,_`%\ \\ / / IG� //`\\ \IIII\III l I I1i111 If \ \\ �\ fi ", /J J (/ / - \/ I( //J/ ,_ "I 1.11 � / /'''/� °°I N j ll' I \ ( N I / / \I / \ \ \ �i // \ II I I11 I I I �I \ \ I I�- ,\ 1 / / / I // //i \ / / 1 0 // �\ , \\ �_-�� // \ \ 1 I111 I IIII ��I \ \ \ \ // / / ///- �� \ � / -\ / �> ,tiN /�! BASIN 13 `� o �� �� I "' 1 / / \\ \l\ ) \ ��� \ 1 I I I I I I I`1 \ I / / \ / //i/ \ \ \�/ / �� PHASE 4 1 \ '<I / \r�� \ ��/ I I I I II' 1 I \ \ / �� /� // o /////� \ / �'i/ o /(�// ///� �� \ , �1 I (, IIII \ �� I IIII I I I I IIII IIII I I ��/ /( ///-� \ 2y //// \ i // J / //, CELL 4 t� \\ \\ \ I, \ , III I \ I IIII I I \ I / \ \ / / �// , , coo///i// Oo l `, \ \\ "� i� I I I I I I I 1r/ / , /--,- �� \ \ ��//�/,_N1�o/� Sao 3�o I I I I �� \\ II 1�\ \\ �-� `____ =___ \ I �I I II i Lam/ y //- \\ ` / �// // �\ \ \ �/ / /i/ii///��,, , I 1 � )I \l __ \ \ I I I 1 I 1 I I J IIf \ / / \ N / /IIIII/ // g N o W I � \IIII \---- — __;_---_ ��\ l\( ) IIJ II( I - i I IIII /// // ��\ —� /i1i /�� \ o \ - /�11 --- (,/ �rii///�/iij- 9� "' I I I �L�J J/III -- __/ =- -=_- _ \\�\\\1 / IIIII I (����J / Jai \ �� /i/260/ ��\ o / / //i//��ii��i/ /��/ i / o° lam, I I \ -- _ _--- - \ II I I L_ \-// \ \ \ / / / /j// / ✓ 0 2 I I =%JJ /--_ �_;,� _��\\\\ \\ I I I IIII IIIII III ��� / ! / �/ / / / \ //� / � / so , / / z�;= - --- -_ == \\ IIII IIII III 4- I I (/ V/ / \\ / �- I / ( IIII /ice///� /- / �. o 11 t, - =_ -__- _-_ - \� \\\ \\\ \ IIII IIII IIII 11 /) /, / \/ / / / 1 \ _--/1-1 y /�/ /i /i, ___-__ - \ \ \\ \\\ III I IIII ^\ ( �- 1 \ / 1 /\ (( ljlI ll/% /// // ,�'/./ °° ° I I _ _ \ \\\ \\\\\ \\\ II I I of \I� I AIIIJ� IIII/i 1 ( _ \\ ( / / 1\ \/ /_/ l (I / //, \ _--- -_ - \ \\ 1II �\ // /� /�// ) _--_ _-, \\ \ IIII \\ \\\w I I �o ,A )I IIl( Ill / /// %i IIII 3 ^� o o i 5_ ----„/-� -%--- EXISTING = � \\ \ 1 \\\ \\ \ i I I I �IIII \ ,- � / \ I \�� \i /'' / / ////7o o � M \ / 0�. _\\ IIII \'►w1 o1 I 1 II III \\ \ \ III I II / /// �� /i// J s --- = %—_ _ \ IIIII Iw I ' I � I I I ill \\ \\\ I / % 0- ---- PHASE 2 =�\ \\ I \ , w \ 1 I I \ \ - / 1 I / /_ ,,��,,.� t o � III ll I IIII I .\ 11 I / ��.// i�! / l� ); o' — _ - --�\\\ \ II IIII \ �I o\\' 11 \ 1 J I I IIII hI \\� \ I 1 / J \ (I ` � / I- f \ \ 1 III(l//IIII/ �, / ////// , / I I ( % -_ - - �\ \ 1\ Ilc.�\\ 0, \\ \ \\\\ \ \1 ! IN ^ �� �/ � / / \ \ I /\ `I AII/ 11 /// //, 30 o 1320 1' I III \\ I o� - _ _ -_, ; _ ,_�_ \ \\\w 11`�, III \\ \\ \ \\\ \ (}\ I \ J \\ / /( -%� - o IIII l i o PCELLE3 I I I I I f 6 -�- --- _% -_�\\ \ \Iq ,011' 1 \\ \ 1 1\ i I I N o I� I/ // \ / �> �i�illlll it �Il o I ! l\II IIII I111 Il ll� 'g0 = _ = = � \ Ill GIIIIy\\o 1 I11 1 \\ \ \1 IIII 1 I I I Ii "� / / 0 \ / /- I / i f� r I 11\ 1 II I - _ .11'c,+\\o �Illl\\\\\\\\\\\ 1\11\\\\ IIII Illl 1 I III II �/ I I � �/ /, I ( / \ — _ LEACHATE FORCEMAIN AND 48 1 w I 'il IIII Illl �\\IIII IIII ll � 9� =_= \\ ol\ o,l ' 'Ill 1 II IIII \ \11\ \I IIII II \ \ III IIII I I IIII I EXISTING )1 / I / /� \ ELECTRIC CONDUIT TRENCH 300 0 0 Ill III II \\ \IIII IIII . o = -_ _ - \eft \ II \\II II II IIII I I l\ \ \\ I IIII III I / ill' IIII BASIN 2 // /I /) l/ � �/ \1 � i \ I o=-- 1 \1 II I I \ 1 I IIII IIIII a / /✓� / / / �"\ / 1 C70 300 M o III IIII IIII I11\ 1111111\\\\\III 1 /__ ��- -\ \o�\\ \ \ 1111111111111 I I\ \\ I II111111 l\II IIII�!,I!III II IIII IIII o/ \ I I //x / / // �� \ \� �� I I / I III I \ 111' \\\\\\\ \\\\�\\ IIII \ ,'� (- \\� \\ \IIII\ I Il IIII \\\ IIII 1 I I III // I / \ / /, %_� �� II 1 1\ \ \\\\'\ \ \ � \ \\ \ \ III II I 1 1 II III II 1 III \ / / / / / /��\ \IIII II \ \ \\\ \�\\ \\ \ \ \ \\\ I 1 II I III IIII IIII�� IIIII lI I \1 / / / \ ) 1 ( / ///j/�iii%%/// PCELLE 4 1111 Ill, 'w I\\\\ ���\�\��\��\\\ \\� \\ l \ \\\\\\\\\\ 1111III I II III 1 II II I Il I II I IIII i, IIII II !� // L / / / /A f -- __) \ 1 I ///////,/i/: /� /,/ ( z90 (IIII Ill\\ \ \\ \�\\\\\\\\\\\�\\� \�` I IIII\\ \\\111111111\\\\\111 1111111111\IIIII III II Ill- \ 1 \ /j / / / \ / / / ( PHASE 5 \\ \\ \\ \\� \ \ \, , I� \\ \ 1 \ \ II I IIII, ((I ) \� /I \ I /�'�I//// /�// \ / -,/ / / /i/ 'i CELL s w \\ \\\\\ \\\�\\\\\\\\\\\\\\\\\ \f IIII\ IIII\I\IIII\\\\\\\ 1 IllIII IIIIIII, \�111/ �� \ i of , / / \1 / / \ \ \\ \\ \ IIII\ \ \ 1 \ I \\ \\\ \\\ III III I / 1 / IIII %� 310 0 ,�\\�\�\\ \`\� \� \\\� \\\\\\\\\ \\\\\\\ \\�� \\\I III\\\ \\\\1 II �I�\ \\\\ \ \I\ \1\\ IIII \Ill 'I III III, 11�' 11111111/ j l f N� IV Ili i _j/ j / I J / /(/ I \\ \ \ \\ \ \\\ \\ \\\ I I \ 1 I I I �o/ / �( I \ I I 1 ( 1( \\\ \\ \\ \ \ \\ \\ IIII\ \\ \I \ I _ III\ IIIII\ \ \\\\ I, `IIII II I I IIII I \ 1\\1 / / _ / \ ati / v r /" J I� / I ► I (I o \\ \ \ \\ \ \ \ \ \\\ \ \ \\\ I 1 11� III 1 \\ IIII\ \\ \\\ I ► I► ► II ► IIII I II \\ \�-� / / o I \ \ (� / /� \ \ II IIIII N \\�\\\\� \\\11\\1\11111111\I\ III\II1111�\��1\ �� IIII 1\II \1\�\\ \\\IIII l Il\ I\\\\ IIII III I\\\,--1 , j / //21� I �� �_ \ \ // \ ,, \ ( I I to 0 310 0 \ \ 1I� 1 I 1 III IIIII (IIII °��\ I I \ \ \ \\ \\ \ \II IIII IIII\\ I\\\ \\\ \ IIII 1 I 1 \\1\\\\ � '� \ I / �/ \' ,, \ I c \ I \ ' l i \. I�Ip' �1�'1 III I I I \ (�l sA 1 I I II\ \ 1 \ \\I II I 1 \ \IIII 11 \ \ /1 // / j�L� ���� \ I / �/ / \ I 1 o N �� I II lIl (// ► II MIII I Vh/(Jna, IIII I IIIII ll 111 IIII \\\ IIII IIII\\\ 1 IIII / ���\ ���( I (1 // I I ( // D BASIN 14 N 60 0 10 "- 330 1 I I I /I I I / IIIII 'I'I 1 l I III 1\�, �\ 1 Jill I I 111111111 IIII IIII IIII\\ \\ II, 1 II \ \\ \ II\\\\ \— \ \ I//// / / / 270, �\\\ \ I J ( \ // / I J / / 2 �° ) I // l / I / 1 1111 / /J)I 11l/ l/// IIIII ) I I I III S —r J)i )III I I 1 I III I 1\ \ \\ I I \ 1, \ \ \ / / / / 6 2so Ill //l /IIII I//l /ll/ //l/ IIII) l I I I I( n(� I I I III III III l \ \\\ 1/11111111 IIII III I\\ 1 \/ / / )/ \���\\\ / I \� \ IIII I / J) I 1/ 0 1 / / ll 1111i 1 III II II I I ll l I III 11 Ill' \\ \\\ \ \ 11 \ IIII \ \\ \\ \ ' \ \ I I I / / / / /// \\ \\\\� / (^ << ) \ / \--1 N l (/ /Ill//l1//IIIII I/llIIIII 1/rl I �1 11'1" \ Il Ill/ I III IIII\ II \\\ \\\ III \ \1 1\ \\IIII \ / /�/ / // \\\\�� I _ \\ I \ I /l I I IIII 1 \\ \ \\ 1\ 1�, I\ IIII \ / / �\ �\ ( / // I)I` N o "' o I) 11///////l/l1j/W IIIII ll IIII ll� II l III II IIIII \IIII 1 \ 1 \\ \IIII / // // \\ 1 ) 1 / / (It 32 / ll lfl/ 1/l /////// /l / 1 /rll/l/ l y /�/ III/// /I 1111�11 Ilal IIII IIII l 111 \\\\ 111I IIIII\� \\\\ �\\\ \ 1\I IIIII\\I\ j / // / \\�\\ 1 r 1 -1 \\ / /I / I I', o ° / // ll 1 111/ l ,, // / /// l l l/ll / l l I l 1111 �) I ) / I I) I I III I l 11 I' ' 1111 111 \ \\\\ \\ \\� IIII / / // \\\\ \ / / 29 �; I 1 / 11 / I II I IIII / 1 Il l / I / l lll�-\ I I l l l / // A' W/ I I I I I I I II III IIII 1 \\ \\ \\ III\I IIII �`7, / // �/� \ \\\� � \ \ \III \- � �— / \ 1 1 o 320 /1 II 1 III 1 // l l ll I/ I IS l l/l I / // 111 III 1 I I I I II I \ �, IIII I I / // d / J\ \\ 1 I," // r / I /\IIII\` PHASE 5 I 1)I IIII IIII 11/l IIII /// Ilrl IIII /l //IIIII I \ 1///// /7/ // /( (Ill Illl 1lllllll /IIII II 1 IIII IIII \ i Illll IIII / I / %/% /) \ I I l r \\-J \ ( / \ ( -1 ` `,&o = CELL 5 o I III IIII IIII 1/I / IIII IIII l/// /I/ / \ I (/ l/y IIII ////IIII// ///�j I IIII IIII IIII IIl1 IIII l/1l /l/l 11)I i IIII I / / // / ///// EXISTING / / �I 111 I-) / / (��� v \ � \ 1 / /- , \ �' =s o /�I)) IIIII II 1 / 11 //ll / l l / /� 1 1 //ll ll l / // /l / ll 1 / / III I i / / / // / N M // �, I I III I I // /// // ///// )IIII/ ll /l // �// / /Ill / l IIII // IIIII / 11 l II I I l \ / / /%/ BAsiN // ,�o/ I I / / I , �) \ / / /-\/ ( / ( / o it , / I,11� 1 I III III /l /IIII IIII rI l l /%� l// 11/l l//////l/l/l/vl /l /-/> >) ///Ill /il IIIIIIII �/ �/� III I IIII\ �\� / /// ,� ti/� �' / / I , / c 1 / \ \ \ ` N , 32o i / o/o/1IIIIIII //� l//// /l /// / /1/ /////// // // //� 1S/ / /// // / // / / ) IIU ) \ //// // /// / > > / \ 1 � - N� I /ri/ / / //// / // 4 I \ / / / ( \\ / \ \ \ \ O 310 / �I1"5(/�0//0�11�/// ///// /// / ////// // // // // /� ///////)J/I�"*/��//�/ �/////// r// IIII(. I C � //// /( //�//,/I ,-----/ I � o I I / // //// / / ,/ \ \ I o , . /ri // / //r /r r // // /�i /ir /i/ /i //r r/// 1 \\\ \ .�i/ / //// /�,y'\ J // \ \\\\�I \\ \ N / / //i�")�"'^�`'/j6o o/ii/ /�/ //�//�//// /////�//�//�/ /////////%/////JJ )j�i// /�///�/ / \\\ \� �-�� ///ice / // / \\� `/J( ���/ / ��. \ N o / // %%/ / //'h 1 0 / / / // / (( // /// // // / / // // /// /// / // ) i _/ / ,/ ///��i/� / / ��/ I / I 1 \ \, \ o / /i/ �/, , /% %// ') ,�0 0 / / / /// /l IIII // //) /, / /// /// / / /// ///? (A ///// ✓ �� :\ I, / / / �/ // / / �( / /� \N o / /i /iii /�/,4, /%1/ / // / l /// / /, -,/// /////�///////�/////////////J J � / /I \Y\\\ l / %/ . ( /Z L�- \ \� \� N i /i IIII �i��iii�i////ice/// // ( o((((� �/ /// // l // / / / // // /// // ////r l / /// \ ��\ ` �� //�ii / / l l \ a �� o �, // IIII �i//ice/i/ii IIII/�/ <I r / I* I �, - � j/% �/ /// //// //// ///// / / /// / // / \ \ �-�\ //////i%/,�// / / 4 / � � \ Rt f- �/ / /i /% // /i IIII/ /�ii / 1 ¢Z_ /IIII / / // / // IIII// /// //I, // �/ // /// /// \%\ \ �'[ ��� it IIII / r // )1 Z // // \, - \ 310 //�--//�i///� // / � �(� \� 0// /i / /// //l / // / // / / \ -� /////� />/ /_. 1 /� \ N / /�///�//� �\1\ PHASE 5 �i����,5" ,ii///i/�// � i/� \\��//10/ r/// / / / l/l l // / / / / // /� �\ --� ��/////////// // // 260 \ 1 1 >F m ( ( / / /// / 290 300 CELL 2 �� i� /ii�iiii�i /i��iii��y/� ///�/- \\� /� ,, 0� i 0%//%/ % % /// / ///// / / `�� \ \ \ ////// / / l ( / / /J/ N 1 I / 1 / --��,_ -/� i%//�iii�/i/i/ij/i .yj/ i�//i/i \ \ / i�jij �,/ 0, IIII/ // j �/ /� '/ / //��/ / l /� �- '-- I ° \� / I ( 1 /I / // / \ / I I / / / ) - -3 / // // /� /��� / -'i / / : / / IIII/ / / J9�/� / . / / / /�/ /� / //// / / /// / / \ l \ \ �i//i/ l / // / / � / / // g / // / / / // / I \ \ \ o / I 1p ��/i//i;"*I11�i// i�IIIIIIIIi/% f // 0// / ✓ // /// /I IIII / // l \ / 44a,1__ /���ii��/i////k/h�/////i IIII/%�'� I %//////// i/�/ice,/✓�6j/g0//�•�j//�/ %%///%/ IIII / /1 I / /��--�/ �(/( \ \ �\ i� // IIII I (\ / l) /�\ A I \ N \,- / / \ \\ \ 1 \ ( III ` 0° - PHASE 5 /" /i/ / /// '' /////�/ %/ / / 11 I/ / / / IIII/ // b0///j j /// / / `l / �� /�/ / / `✓ �/ 5�1( \ ( ) / I ( 1 �1 /' //i i IIII �i / / /i i 7` I I // / // / /(/ / "� / / / / \ ?� �/ / / CELL 1 / / /� %� /�/i/ / / /IIII // // / 1 / // / // / /�j / / //i // /'h /� / / / �� \ / i / / ( r 7 a - \ \ 300 / �i/ice j ,ff �� j , �! / 1// //r/ // / ///// /�r 11 �/ IIII l IIII IIII /// /�/ / /j�'h � 0///// // / -� J l f i \ ) i /i % s,-�'rn / //ice �i/ / / / // / l/ l/l1 // / / / // /i / l -� / \ \� -� /// ((-' / / 1 1 ( \ /j ///ter ( / / -_ �l / i �� PERIMETER ROAD /� ��������- / /// j /%//%/�///// //J EXISTING /l IIII / / l 11 / l/ /j/ //////////// / /0�// ( // I / /%/1 / \ l _-� / / ( (C �� / �� (�/0 \ / -- - , �� �/ ii��� /L /�/i� ��/�ii�ii/ / / //( PHASE 1 �l/ l/(� l / l// /�// // //l /// IIII /�. // 1 //�/ /i ; /) ��----_�--�1�,- \ \(\ ( , 1L--, cr \ \ \ / I a — 9 i/ i / /�--,/�//i// /// / // III // / / !( / / 'h/ / / / / /���- // - \ \� T ° o i /- , /// //%��//�i///i///// � l \ ��-- %� !l1 Illl IIII (I// IIII //// /////////l/1 f�jl //'//lo/�l/ �/ ///� /��i�� l//�\�_ � _�i� /\ \ \` \ \\\ \ \ \ 1 ) \��j/ \ a ��� \�\ \ \ -_-�� l� .() 5 li// ///// _ // IIII / / 9 I // // / /l /IIII //"� 1�/ / /IIII/ IIII/ \ / \ I 1 \ \IIII / / //-- \\l / (�\-) r-\ I \ \�\�\\ \ /%- �_- -�� 2�0 0 �� l\< \\ ( (l/ /// / /i//////ice // / \�_�%/�l/ 1/1///// IIII IIII %// /l/ l/ / /�% //l//////1// // / / /// ///,p >//,/%r - - -,�` \ / \ I I ,\\mil_\l((� \\� � , -� \ 1 \ ( i � � Igo �, '� \\\\�\ \�\\ �/) I / I ��� \\ (( \ ( /( ` ��'� // IIII // IIII Ill/ j// Ill 1 // //� //////// /// // I / /// ////�/ /////�✓ -� / I / I \\,, �� )IIII / \� (--- \ \ /_\ II\\�=,� \,�\ \ / 1` II, \\ �� \\\� IIII\ I'll I\\ \\\ \ \ 1 / i l/ IIII // 1/ / / 6 / \\\ � \( <_ \ 1 1 o 0 30p \\ \ \ ,\ \\ \\\ IIII \\ \\\ \\ \ // 1//////j / IIII ////// / /j/ /////////// I /� / /// ////�// ///////, /-,vim\`� f / \\ /( //I -) l -1 w / i-� \ \-- �\,_ ` — 1l \ \ \ II II IIII \ \ \\ \ \ / // / / \ \ \ \ \ \ \ \ \\ \ \ \ \ \ \\\ \\ \ \ l/ l/l / IIII l ll / // // / / ti/ // IIII// IIII// / / \ 1 / / rii// ( 1 ) �l / — ) \ \� \\\� \\\\\\„\\\ \ \ \ \\ \\ \ IIII/ / / IIII (/ /// IIII/ /// // l / 1 // ,/ I I / / / I /f ���� `�\ \\ �� �r \�\\ \o �\ `� o \\ \ \ \ IIII\\ \\\\\ \\\ \ 1 \ // /// /1 /% j///� �llJ1 (/Ill /////// //I I /d// )/ / /90////j/ //////// IIII ) ( l��j'� I \r-1 // / / ���\ \\ � � \\\\ \- \ \\\\\\\IIII\ IIII \\IIII \\\\ \\ 1 /////1/l///////IIIIjllI Ill //// /, // �yIIII// IIII//// / EXISTING IIII I /J/ / // ,\\��`--�_ 300 31p ` \\\ \\ IIII\\\ \IIII \\\ \\ \ \ \ \ \ \ \ \ i / / I / / ///00 / IIII///// CEMETERY I I \ l 1 / / / \ \ \ \ \ / / 1 l l // l // / / l %/ %/ ( / l l� / / //�, / / /// /// \ IIf 1 ( , - \, / �� � \ \�_ ��\, ,\ / ,� ��- % \�\ �\ IIII\\\IIII IIII \IIII \\ / 1 / / /Ill / /� /�iJ IIII ///// / \ / / 'h / // / / I \ \ (l f1 / �\ \\\ \ �� IIII \ l \ \\\ \\ / Ill) I 29p \\ \� \\ \\\ \\ \ \\\ \\ \ \ \ \ / / / / IIII / // / / ///J) (1 / / / / 0 ,// / I- I 1 r % i- / // - / � - �\ \\��\ \ \ \\ \\_`�- \\ \\ \\\ \\\I 1111 1(I \\\\\\� \� \\� \ \ \\ \ \ \ \ \ \/ //// yl /// // /// � ) I /// ///i/ //i -__ I \ (11JIi \/ // \ \\ \ _-__25 \\\\\\\ \, \\ \ \ �\ \\\', \\ \\," \ / ///////l/ll l/// IIII//1 /(l // /� Jj Ji / IIII / //// j j h//00�� / I I I f / \-� ((� ) // l,- j > \ �� �= \ \ - _ l \ \\ IIIII II . o _1 \\ \ \ \ \ \ \ \\ \\\ \\ \ \\\\ I-- /// /l////j /// / //l l / 11 /l l / /� // /IIII// / // \ 1 I ���� II\ 2 \� / f \ \ \ \ \ \ ti�� \\ \\ \\IIII\ \ \\ \\ \ \ /i / / / / / / / // / / / // / / /// , ! --- I I 1 1 /l)l lJl \ \ /i �� , \ \\ �� \\ \`�- \ J \\\� \\\\\\� \\\\�\�\\� \�\\\�\\\\ / / Ill// /j/ lj// /IIII/ %/Ill///II // % // /,0p ///// I \ ill /� - /-/ , 1/ 3 -J �= p\L 1 ���\� \ �� /� g0 o IIII\\\ \�\\�\�\ \\ \ \ \\\ \ J/ /// / // // / / / �/ / / / / / 1S I \ / jll c. l /i - i / // \_/ --_- � T . \ 29p, 290 3 \\ \\\ \ \ \\\\ IIII\\ \\\ ////% IIII/IIII ////�/ / ////// ///// IIIII / ////�% IIII//" _ 1 I \ 1 - /i II �)f / / - - _�� __ //� �o N \\\\ IIII\\ \\\ \�\\\\ \�// IIII// / / // //l // // l/ / / / J 1 /// ( �� z -- -= 2so_= _- =-- =� %\\ -2so "' \\\\\\� \��\\ ��\\\\\��\\\\\, - _ / //////�j//�� % �///�/�1/���///,// ,I�/ //� ///p/// 0/�/, / �V \ J- 1 I 1 1 /I IIII/l/l�/� /�/� \-IIII /� Jl /��_ a \ ___ � _ _ - - _- _-- -/ - v \ - 3 \\\\\\\\ \\�����\\\��. \������N,\ - //////// // /// // /// // // '�/�, /// /////� 1/ / /" /" , I \ \1I\ \ \ / 1/ / (1 I I-„/�-��/>i/ \ //� �// l( -, c, \ \ \ \ \ - _--` - ��_BASIN 15 -� 80 � 00 ` \\\\\��� EX/STING ACCESS ROAD /�///// /% //l%/%ll /11(//l///// l// / // ,%,/// /////// /l/� 1 / / \ I \ 1 I \ \ \\ O ) (1/( (L \ \ ) J/ l // /i /% //ft� ///-- _ \ \\ \ \--_ _ --_ - 8O \�\� /Ill 11/l//�l ///////�/j/ j/� // IIII/ /// //// l I I I \( Il /// \J� 1 I /l/)( �/ i�� //lam //l / / / / / 1 ////// // / \ \ I 1 \ �\ J(/1 , \ \ \ - / — ---_ _ so \\ �`"�` ���\� �\\ \`�' // I // 1// // /// // / // / / J///// / 1 I \ \ I 1 J IJl/l//� \ 1 \ !(I // /< IIII ,I \\ \\ \ \ \ ��� ///� _/i / \\ \ z _ �Z 2s0 �\ ��� \�\�\����` \\ \� / // l �/l IIII Ill / // /// / 1 // //%// ///////� //////�\\ / \ \ \ \ 1 \I \ f/ Jam (\(((( I\ \ y,� � S )) ) ��� r) II(/// o __� \\ \\ \\\ ��_i/�/ / �— ��// \\\� — — \ \ \ \����� \\� / / / / // / // C //// / / I L--I \ \.%/ L/ / / / I \%\\ \\� / / -/ / \\\��_ - -_- _�� �_ �t�� ° \\\����\\\\� \\����\�� / // // // / / / / / 1 I \ \ l l < )111�I 1 / f // / II\ // / / / / / / // / // /////// / / / \ \\ \ \ \ _ /-- /--_ _ \\ \\ \ ��� \�� ��� - /// / / // / / /j/// // l IIII/ l IIII/( / / / -- / J 310 \ I \ I ) \ Ill I ��/i / I J = L/ // // \\ \`�- \ \, \\ \� _ , / \�� __ 'I) /� �--- \�300 �'\ , �-� IIII\\\ - __ IIII \ ��� / , / / j ��//& ////�//�/ ��// // � � ll- \ / 1 w 1\ I \�� IIII 1\ C \l � I / c/ `\J \ \ c, \ \\ \ � -- I / /i __� � / / � � _;���� 3pp \ \ \,�\\\ �\� \���\\� _ IIII / /IIII / / IIII / \// L _ _—, - J __ \ \ I \ \ I III 1 \ //// � \\ \ \\\ ) -----_ / �_ \ \ \\� \ \\ \ \ // // // /// // / / /// /// \ / ( - / \ \ \ I 1, I \ II / \ 0 1 \ \ IIII\\ \ j / / ///ice;= _ - \\ \�� //' _-�� ���� \\. 29 \ \\\� ��� ���� \\� �����\��///// ////////�/ / //// //( /) \\\ -/ / 1 °° \ \ \\ Ill S \ ,� \ (l \ \ \ \ \\ / /�� �- 0 \\, \\ \ ��� \�� \\\\�_J( / / /// / / / ////// / ///� - \\ \l /�- \o \\ \\ I I �\ llI )I I \ I \ I ) \ I/ \\IIII \\ \\\-7� ll / / ////////� ---- // - i ���� \�\` �\ ' � \\ iJl IIII/ // / // IIII/// /Ill /// \\\\ _ / \ \ II )1 I \ \ \\\ . / / / //� /// / \ ,-- \ .3 \\ \` \� /iJ////IIII/ / // i��/ \ \\ / /� IC o \ \\ apt J I>� f I \ I I/� \ \ \ / IIII / / / IIII/ /� \\„- ,_ - / // / \\ o0 0 \\\ TIE-IN TO /// ///// // ///// I�\\/ // \\\ \\\ / /- / Il"z II \ I , I)1�, I(�II) ' /Y \� / / ��/ii \\\ - /-� 3 / (/// /////j/ / /j//////�����-1 �� �` 11 - \� ^�--/���� \� \ \ EXISTING //����IIJ /4�/ / %%!!/// \/ /�// \,, \\\ / / I I �o ), \ 1 �) ) ,I /\` ,) l \ 1 / 1 I 11( / / / /// /IIII \�_ ----�/ __ /"� \\\ / LEACHATE IIII/// 1 / \\ \ i / I o J J I I ` j��((ltil \_-�, l I / ✓ III, ��/� / ) / / / / \\\ I / / / v f I _ _(// �l1 I (I l l // /l I I l l I \ --- // - _�J ` / /////// / \\ I, 1 I I I - r %/ /� �� ) \ /� // \ / __ / -- \��\ \� 1 \ FORCEMAIN J//%/////� %/////// / // \ \\ / l I I �� 1 �� \ / r I I 1 1 I l I I I Ill \ \ \ �� �� \ --_ --,- _ - �\, > / . 7� / \ \ . o(/ l 1 I \ / / / / �"� \���� \ // (1 �\ IIII---////// / /////// / // / c\11I \ J S C�\1\(I o11 \(� \ �5\ 1��-.�_-. 1 N I I111 1 III I11 1 I \ \ - \\ \ ���\� \- / /' / / / / /I wo I / l l \� / \ 1 \ \ I I 1 I \l\ \ ` \ \ ) \ / / � / \\ \ \ �� � \ - / /�,�\ \\� / // / IIII// � ( / 1 I o\oU"�� / 1 ,� \ll"�\ 1 \ ��\����s\ �� \ /,- \ \J �-� 112 REFERENCE\ \ 1 1 I, I 1 \. I \ �\ IIII, , ,, \ ;/� ( // / --� /--� \-- , �� // / !AN _���/ � / / � _ �/ / d ll EX/STING LEACHATE � � 1 I i \ I / � \ \ \ / / // �\ \i,./ / IIII/\ STORAGE AREA I o // JI\\� \-/� /) / 1 Ik\\\�\\ ��= ����� \�\ I (� J /// �\,- \ / / / / �\ / _� \�\ L // / \\ / / o 0 1. EXISTING TOPOGRAPHY WITHIN WASTE CONNECTIONS PROPERTY WAS PROVIDED � I / / / / \ �\// /---_��EX/STING R4/LROAD � \\ (( / O \ \ / � // / \ \ I \ ���\ � �/ / \ 'i I \ III -' 1 / / l s / \ \ \ \� \\ \\�, ( ��) AT 2-FT CONTOUR INTERVALS BY GPI JOB NO. 18-006); DATE OF AERIAL \ ) /( / / (/ --1 \--/ _ __-� -_ �_ - \ \ \\1 \ / //J/ I O \\ \� ///(� \ \ l / \ ) IIII I� / / �\ \ \\ r f- \\\ \ \\ , ),,_-_/- / '\ c� PHOTOGRAPHY JANUARY 15, (-\ I J � \ -I- O I I / r / \ \ \ \\\ \ r C= �� \\ \/ / �_2--_ 1 I 1 1 \ \ \ \ \J \ Ori/ \ \\�I/ 1 ( III �I / / \ \ / �_ / 2018. / / I- / \I \ I \ \ ( \\ ` ` �,� 0 �\ (l(l l I \I I _ IIII 11 / / / / / \ c , � \ \ >) _-�, /^__-- 2. LIDAR TOPOGRAPHY OUTSIDE WASTE CONNECTIONS PROPERTY WAS ACQUIRED 1 / / / I I / / \ I \ \ \ �__- \���) r--- --\ J \ ( \ \ \ II I) ( ��\ \ �� 'Ili I 1 / / / / / / \ \ \ �� \ \ ) ( ", \ I) J'- �J�/ ��--/ N FROM NC DOT GIS. / / --\ I / / I / / - \ \ \ \ \� � \ )\\\ LI I __ I lam./ / / \/) \ 1 \ \ ( �j�'-_ L_ \ v -( \-11 I / - I / / / \ \ \ � �� \ \ o\ 1 / N, / IIII\\\/ / \ ) I co \ --,,� ,_ ( r `O 3. WETLANDS INFORMATION PROVIDED BY CWS ON AUGUST 8, 2016. \ \ / // —i \ / 1 __ \ \\� _ \� \ �.� -� / \ � �i / / 1 \ \ N \\ \ < ?� I I I \���,, // \\\ / /� 1 o \\ \ \ , , 0 4. FEMA FLOODPLAIN INFORMATION FROM NCFLOODMAPS. MAP NUMBERS: I 1 / I ) \ // �- - \- \���>� \\ �� /�� L / ' 1���v� / �\\ \ 1 \ \ I 1 \ \ \ \ �� _) / �r l \\ \___� \ \ \ ` \� �� '� o�/ j// ��i \�� / '\III 1 /✓\ -1 /nl ( ( \/� % ) I h) I I 1 I I I j l��\ ������) 3710644500J, 3710644600J, 3710645500J, 3710645600J. I 1 \ \__ �,\ / 1 / / 8 6 5 7 4 3 NORTH CAROLINA BOARD OF EXAMINERS SCALE IN FEET FOR ENGINEERS AND SURVEYORS LICENSE 0 200 400 NO. C-3035 BEFORE YOU DIGI CALL 1-800-632-4949 N.C. ONE -CALL CENTER IT'S THE LAW' 0 O w o Z M O 0 cn Lj Lu LPL o W 0 0 z 0 1 Lu 0 cn a R� 0 , 0 6 I� Ul co � N � z ti � o o ti �y i m M N 1 1 Q = o V rn E Q o 1 CZ ' 1 1 0 U y 0� (n M U A?�`1 ) 1 1.- § 1 1 M o 3 0 •L � rm- M O N �L O ;> cc a w 0) 0 z a. PIP� a m o 0 cn r •N U C) Ln Z a LV Z a1-=J.j =cO Z a v W a OJ�v QJ OC = .0MW a zo0 a��Z a>W . r am Z m Z = W O W( 0- )LuU Z o O O U)mZ Qaa U m ti m = t� Z N Lc) 0 F Z Q J W Z a .. m z m o Y B > 0 W U Z co b O U c w CD N -i W Q m L) w C) 0 ,,,,tt11111rt,, % a ' q. i• gO�� Je Q o. a w W O 039114 1 o o o a 12'21'1f DRAWING NO.: .y'%A�d:"§0vetib C4004VT. 1­�� SHEET J OF 30 1 Al 01. A h N C Do 7 6 5 4 \_— — — — — — — \ 01 NORTH / // =\\ \ �, \ \ \ \ \ \ \ /0%/\\\\\ \\\ \ \X\ \\ \ r \ \ \ \ \ \ \ \ \ \ \\ \\ \ \ \ \ \ \ \ \ —'// /'� z., AO/ j/ j j//�— j I I BASIN 11 23 -/ \•I \ \ l 1 1-7 ?50— h - SKIMMER 35 I I III (I \ /� BASIN 10 �N C605 \ II II I INSTALL EROSION CONTROL 33 I l 1\ 1 MATTING AT 3H:1V C605 \ I \ \ \ PERIMETER SLOPES (TYP.) 60/ /i�' \\\ 1\ \N \\\ \ PERIMETER DITCH 14 28 29 / 270 28o 70— OUTLET N C604 j— 30 CULVERT 7 \ ^� �� l<\�� I \ / 260 I / �`� Q `L� C604 \ 28 29 PERIMETER DITCH 16 3 / II I\ I 1 I _ \\ I I h BASIN 10 23 603 I PHASE 4 CELL 28 29 PERIMETER DITCH 15 C604 C604 \ I V\/ I I /�/ I/ % 1 I \ \ \ \ / \\�\ \�\ /\ �11 //`V Illy✓( / ,) PREVIOUSLY PERMITTED PHASE 3 / / /� —� ltl // k� \ EXISTING BASIN 3 I \ —_ ► II I III—---�\ � III l � ( , / \ I I I I �� / III I / / II I l I ill \ ✓— / I I I I I 11 I ���-�� \ IIII I / / � �------- o I� // 0 REFERENG�E \ \ \ \ \--I w 1. EXISTING TOPOGRAPHY WITHIN WASTE CONNECTIONS PROPERTY WAS PROVIDED AT 2-FT CONTOUR INTERVALS BY INDEPENDENT MAPPING CONSULTANTS (IMC JOB NO. 16030); DATE OF AERIAL PHOTOGRAPHY FEBRUARY 27, 2016. 2. LIDAR TOPOGRAPHY OUTSIDE WASTE CONNECTIONS PROPERTY WAS ACQUIRED A FROM NC DOT GIS. 3. WETLANDS INFORMATION PROVIDED BY CWS ON AUGUST 8, 2016. 4. FEMA FLOODPLAIN INFORMATION FROM NCFLOODMAPS. MAP NUMBERS: 3710644500J, 3710644600J, 3710645500J, 3710645600J. I I __ II (IIIIIII\ I I \���—r ItiI Jl \ II \ \ \ - I I I / // G� / (/ /------ — II J ( — \ ---EX/STING PHASE 2 -- �./-'� `J 7 6 5 4 3 2 LEGEND PROPERTY LINE — — EXISTING STREAMS 50' STREAMS BUFFER EXISTING WETLANDS 50' WETLANDS BUFFER EXISTING MAJOR CONTOUR EXISTING MINOR CONTOUR 100-YEAR FLOODPLAIN PHASE LIMIT/EDGE OF LINER MAJOR CONTOUR 300 MINOR CONTOUR PERIMETER ROAD — ----- PERIMETER DITCH DOWNCHUTE CULVERT ST ® RIPRAP APRON NORTH CAROLINA BOARD OF EXAMINERS SCALE IN FEET FOR ENGINEERS AND SURVEYORS LICENSE 0 200 400 NO. C-3035 BEFORE YOU DIGI CALL 1-800-632-4949 N.C. ONE -CALL CENTER IT'S THE LAWI 1 all I O LU o z O Fn w o 0 0 U Z 0 F 0 W Lu 0 a � o C) I� ti 00 4-1 N Z � ti CD � o N 1 Q s o V rn E o 11 L s: �y ?1 (n M U 1 CD M O � ❑ Q L N O c3 a 00 CD � t W � a m o 0 an r •N U � Z a WaZ cf) � J =00 Z (L v a OJ3v QJ OC = C�[Zz� a z00 aZ a�W = W O W a V Lu o Z Oo=O LLI cl) M z Qaa U � 0 F_ z Z a a } m z } m o Y W 3: w Q 0 U ()oo o CD 0 N � w Lu m o ti'11111lllrt+! gv% CAP?, i �,.�`'ll ° o W O SEAL = Lu cc IL DRAWING NO.: 0 IV C401 it Il SHEET 10 OF 30 a F t 5 3 (51 260 0 LEACHATE FORCEMAIN AND ��� // -�� \ �2 60 FROELECTRIC CONDUIT TRENCH %//// /// % ; ( I \\ ( I ✓ N / /% NORTH - �r��-�' / ///�' v �� 1 / / =250 ryoj% 300 ^b BASIN 10 / BASIN 12 o PHASE 4CIA FINAL COVER ANCHOR TRENCH 7 �o \\ AND LINER TERMINATION � C6�/ BARREL SUMP AND 50 CLEANOUT CONNECTION C70 C I CLOSURE SYSTEM RISER 43 /� ✓/ti'�/�0 r o / s�0 �a o / —�-��� \\� 1\ l PIPE PENETRATION (TYP.) / N�Al�1 0 PHASE 4c300 p.,� �� °o OF FINAL COVER 5 6 I (CAP SYSTEM) C600 C600Jo \�� F���/ j / -s J �a,3y(/1 F j / \ �i j �/ _ j o o�•. ��00 ii� /� /� � � ° / o I�I�IIIIIIIIIII� \ \� \�✓� `-� `" S/ J) / � � ��L �- \� 36 � BASIN \ /� / o/ i -r"�ii=�o% � o � o � IIIII IIII I I \ `✓r l//�/ �`\ \�\, � � ��5 - "Ap PHASTE 2 '� �� ' E �I J I (TYP.) : I / 1\ 1, � I " � l I // / / J I I � �'' o`'o � � �" � 0 0 0 0 0 1 \ �1 II� o 0 0 0 0 0 0 \ ' ll 1 /l ll 300 ✓ I I ?s 'l I✓ \ / / / I \ \`o i 1 0 cno� oo I I ( / / ✓ rn o 0 11 1 III // I \\ 1 J I �� //// jam//ter/^��� \ M/ L 1 ) \�/ / / s�op�H�\ / / / ��� \ / pl (7)-p ♦ \ l l / I poi �i/,ti \I o r Sso �\1 \ l \ I �1///�LI�I If I� BASIN 14 cv �� D 26o N °o / _� - � i I\ \I\ � � \— l%/j/ /// %270� 00 o `� � \\\\ \� \\ I \✓// // �� /� > oo \ � I //// /i (( l xy 4 0', '✓ �/ \ / /�/, \ \ \� /r� C / XX ) 'hti PERIMETER ROAD EX/SnNG 1 ) ( v L // /310 /�/// j / CEMETERY' I I I 1 ( ��// t I I PHASE 1 �/ 32 MI AV, /� / / 'hood/ / // II � 1 I I `— ��� _ / ll /Ill/ /// / /l / / %/ ✓ /, / /// / / ��o / / i� \ �� �-- , 2so 290Eq BASIN 15 30 �� \\\\ \\\\\\./// ////,/// �/� )//// /I/ ✓ / / IJ \ \ \ \ \ \ ) 1/(1/l/�� EW 8 EX/STING ACCESS ROADS \\ ��////r// jo _zzl/ � W 6 // /.� I///// /-- \ J / �/ / /////// II l �, /// \\\\ -< \ \ \ / / � I \ i/// \ I I �J ' \ J �/ /lST/NG LEACHATE � \ II\o / o l I 111 1 I (/ I I III awl 1 l S 1 �1\ 1 1 No j I I j I IIII \ \\ \\ \ \ / \ \���. \ / (_- l w o i^�I % ) % ) ( 0 � � \ / / / / STORAGE AREA i � \ _�. — 11121 REFERENCE % ) \ / — — \\ // � I I I / / / �_/ _ \\ 1. EXISTING TOPOGRAPHY WITHIN WASTE CONNECTIONS PROPERTY WAS PROVIDED EXISTING R4/LROAD 3 � o AT 2-FT CONTOUR INTERVALS BY INDEPENDENT MAPPING CONSULTANTS (IMC / / _ \--\\ \� / //�/ I _ �/ _/ / —\ I III I / \ 1 I \ -- \ \ � \ .� � III I l � / / �--�, � \ \ \ `-�_ o JOB NO. 16030); DATE OF AERIAL PHOTOGRAPHY FEBRUARY 27, 2016. \\ \ \ \ �� \ ( / \ \ 1 C \ \ i 2. LIDAR TOPOGRAPHY OUTSIDE WASTE CONNECTIONS PROPERTY WAS ACQUIRED ( FROM NC DOT GIS. > I \ 3. WETLANDS INFORMATION PROVIDED BY CWS ON AUGUST 8, 2016. - ---/ / I I �_ ��- \ I \ 1 / / / \ �� \\ 0 \ `�\ 1 / i/ / \/ /��1 III // �— I � \\ / / 1 ��_� \ \�� `\\� � — \\ ��\ � � I / //-�- .— / � � 1\\\\` 4. FEMA FLOODPLAIN INFORMATION FROM NCFLOODMAPS. MAP NUMBERS: C. \\IIIII/ 1 �1r� 0 3710644500J, 3710644600J, 3710645500J, 3710645600J.-� �-�� \ I 1 \`- 1 } I I I I' I I I \ \ - / - \ \\`� �\ \ `�// f \) \ - - - - - - - \ \\\\ `. // / �/ � � I � � ✓ \ 7 6 5 4 3 i i LEGEND - - PROPERTY LINE EXISTING STREAMS 50' STREAMS BUFFER EXISTING WETLANDS 50' WETLANDS BUFFER — - Soo - EXISTING MAJOR CONTOUR p EXISTING MINOR CONTOUR Q U — 100-YEAR FLOODPLAIN LU o � a PHASE LIMIT/EDGE OF LINER Z v O 300 MAJOR CONTOUR o N MINOR CONTOUR W PERIMETER ROAD o PERIMETER DITCH o ST CULVERT ® RIPRAP APRON cn LANDFILL GAS WELL Ji Q o NOTES o .�Ti T 1. THE FINAL COVER SYSTEM WILL BE INSTALLED IN INCREMENTS AS DICTATED BY FIELD CONDITIONS, AND HAVING SUFFICIENT CONTIGUOUS AREAS TO CLOSE THAT PROVIDE LOGICAL CAPPING SEGMENTS AND TEMPORARY TERMINATION LOCATIONS. U 2. SLOPES DEPICTED NUMERICALLY ARE PROVIDED ONLY FOR REFERENCE. 3. REFER TO DRAWINGS C502-0503 FOR LANDFILL OPERATION PLANS. CA00 4. REFER TO THE LANDFILL GAS MASTER PLAN IN APPENDIX F FOR THE +I N LANDFILL GAS SYSTEM PLAN. 0 V � Z 5. REFER TO DRAWING C501 FOR THE STORMWATER DRAINAGE PLAN. ti '-' ) o i M M N 1 o 1 U aoi E o LL .� Vi M U 1 � M � M 0 N i O � a � W a m o 0 o Z `0 a Q Lu � Z Z � J =�0 Z a v� O Q aJpC= .j C�LLEz� a zo 0 Z a J - Q�W>- ~ ~ a Z Z_ = W O /Lu Li 0 Z 0 1= 0 Lu � °° Z Q Q Q U �m�m U Z � N 0 Q J m aco 0 w Lu � � W NORTH CAROLINA j BOARD OF EXAMINERS O 00 0 c CD SCALE IN FEET FOR ENGINEERS AND V Nji SURVEYORS LICENSE Q m 0 200 400 NO. C-3035 Z_ w w " ¢ w U > SEAL 1 o a_ 0391'14 o o a DRAWING NO.: BEFORE YOU DIG! C500 CALL 1-800-632-4949 '��.YqN T. e`��� N.C. ONE -CALL CENTER �' IT'S THE LAWI SHEET 11 OF 30 F 7 6 5 4 p 2s0 ti��i�/ LEGEND "gyp ��/ice BASIN 11 23 C60, � \ — — PROPERTY LINE Q� \ 1 \ 300' PROPERTY BUFFER A`l//"// j/ / /�, I I / I I I (` pd� \ II 1 EXISTING STREAMS I\ I 50' STREAMS BUFFER FRO/ (/ 1 ( / ' / I \ \ r" N 10 35 J \ `SO� Q SKIMMER BASIC605 ( EXISTING WETLANDS NORTH 50' WETLANDS BUFFER BASIN 10 23 2603 \ / \ - EXISTING MAJOR CONTOUR EXISTING MINOR CONTOUR DOWNCHUTE PERIMETER 22 17 270 260 �1� 100-YEAR FLOODPLAIN BUFFER \ / / CHANNEL INTERSECTION C60 C60 280 26o ho 270� �' \\ \ \ \ \ \ , o \ \ \ \� \ PHASE LIMIT/EDGE OF LINER r _ /N 300 MAJOR CONTOUR i PERIMETER DITCH 14 28 29 �j � � I \\ I ° 30 � CULVERT 7 28 29 PERIMETER DITCH 15 �260 0 / ) \ / \ \ C604 C60MINOR CONTOUR 4 A� \ /r' -PERIMETER ROAD 14 C604 ��� / ✓ / 1 N PC604 C604 ( `V / /� I / j /l 2C60 0 I PERIMETER ROAD / \ \ PERIMETER DITCH 13 7 \ �h �o f/ \ T / % _/ � � PERIMETER DITCH `�v o C604 % "� ��o �6 - 28 29 PERIMETER DITCH 15 , / \ CULVERT 6 30 /1 rye' o - ° C604 // BASIN 12 23 C604 =-.2So , IIIII //�'0/�/ �, /ice/ / / / DOWNCHUTE i o ti C603/ / i / % // / \� ST CULVERT RIPRAP APRON TACK -ON DITCH 2 'y 16 21 DOWNCHUTE I I\ I l l / NOTES PERIMETER DITCH 12 28 29 �`1- 1. CONTOURS SHOWN AS SUBGRADE INSIDE THE CELL AREA AND C604 C604 S�° �� \ l�/) li J ) PERIMETER GRADING OUTSIDE THE CELL AREA. SLOPES DEPICTED ,%/ / NUMERICALLY ARE PROVIDED ONLY FOR REFERENCE. PERIMETER DITCH 1148 29 2. SILT GAGE SHALL BE INSTALLED UPON SEDIMENT POND C604 C604 �0 p//// � // `Jo 0 �� ) �/�•�r\�A\o � ^ �\\ \ � � CONSTRUCTION. 3. RIPRAP OUTLET PROTECTION SHALL BE PLACED AT THE OUTLET OF OUST THE PERIMETER DITCHES IMMEDIATELY AFTER THE INSTALLATIONS OF III //�� / I ` /�/o \✓\�\ \�• I �j,� THE DITCHES. 4. CHECK DAMS SHALL BE INSTALLED AS THE DITCHES ARE /��/oo ,�/ ,//off 10 TACK -ON SWALE 20 CONSTRUCTED. i CULVERT 5 30 / �� ,p �4'C60 p�20 �^ j�j.2y \�\\ ����� �\ �� 5. SEDIMENT BASIN 10, CULVERT 7, AND PERIMETER DITCHES 14 & C604 60� //�/� / 30° ��0 _ ��i j \ 1/^--���\ \ 15 AND ACCESS ROAD SHALL BE CONSTRUCTED WITH PHASE 4 - I'r CELL 1 CONSTRUCTION. 1u off' / �� �°r°='/''J II ►f ,r \ , \\�� �50 )/cJ 6. SEDIMENT BASIN 12, CULVERT 6, PERIMETER DITCHES 12 AND 13 29 PERIMETER DITCH 9 28 / ° Illn l \ AND PORTIONS OF THE ACCESS ROAD SHALL BE CONSTRUCTED IIIII 1 /�, WITH PHASE 4 - CELL 2 CONSTRUCTION. (PERIMETER DITCH 10 28 29 N �g0 III (\ \\ (III 1/I \ / 7. SEDIMENT BASIN 13, CULVERTS 4 & 5, PERIMETER DITCHES 9, 10, ' 1 I 1 _ )II II C604 C604 w� h9° IIIN I � \ � /' III ( \ // � & 1 1 AND PORTIONS OF THE ACCESS ROAD SHALL BE _ /III \ I J / CONSTRUCTED WITH PHASE 4 CELL 2. / \ f� 28 29/ o goo I ' I IIIII I �)ll\� e j\ \\ J T / PERIMETER DITCH 8 5 III \� 8. SEDIMENT BASIN 14, CULVERT 3, PERIMETER DITCHES 5, 6 AND I 0 I L\� \ \ \�_/� I / PORTIONS OF ACCESS ROAD SHALL BE CONSTRUCTED WITH PHASE ////jjjj77 C604 C604 5� o r ���j��\\\ \ ry I // / j /ice 5 - CELL 3 & CELL 4 CONSTRUCTION. 9. THIS DRAWING DEPICTS THE STORMWATER DESIGN DURING FINAL CULVERT 4 30 L O / � CONDITIONS. E �//i��;'�i;��� C604 � `� �°', �° 5,�p ff I,1,1�,1 \ �� \ \�/i--- ��/ / I I� , \ / 10. DIVERSION CHANNELS, TACK -ON SWALES, CULVERTS, OUTLET / `IIIy,III� ��\ \\ /� I�—� PROTECTION, DOWNCHUTES, AND OTHER FEATURES WILL BE J I \ PERIMETER DITCH 7 28 29 / .� C604 C604 \ °o� 11111111�11\I I \\ \\ \\ > // // / / \ CONSTRUCTED AT THE APPROXIMATE LOCATIONS SHOWN AND. AT /--� OTHER LOCATIONS DETERMINED BY ANSON COUNTY LANDFILL. 0 BASIN 13 23 L 50 II� III \ \ 1 �^'\ // n \ / // \ 5 (IIIII I \ \ I///i 11. REFER TO DRAWINGS C600-C605 FOR CONSTRUCTION DETAILS AS ' V�/Zt, �o I v 1 5 � NOTED ON THESE PLANS. ��"I(r (/\ ( 2 �//// ���1/,� oo �° �10 ° j III\ (III I IJ/fir/ TOP OF LANDFILL � PERIMETER DITCH 6 29 29 TOP OF FINAL COVER 5 — \ / / �° J n DITCH TYPICAL ( 3 0 0 w �,, �,, N o � II 1 I N I V I I I l (CAP SYSTEM) C600 // h )/ ) ` I 3 o U' cr o 0 0 o I 1 I I I C604 C604 300 / / h o � J o 0 0 0 \) I \ ) I \ I / ��/ II I ✓ I / / I TOP OF LANDFILL ♦ o % TYPICAL II 1 I I // - ♦ IIIII o— // o Z!, BASIN 14 23 TOP OF LAN DITCH N co CULVERT 2 30 0 3 C604 o SS2o /o INSTALL EROSION CONTROL 33A 33 o MATTING AT 3H:1V C605 C605 o \ PERIMETER SLOPES (TYP.) \\ SILT FENCE 32 290 4�0 o v C605 Soo 440 PERIMETER DITCH 5 28 29 430 C604 C604 4420 PERIMETER ROAD 14 �9 00 _\\-- �`= C60 2 28 29 PERIMETER DITCH 3 3800 C604 C604 s o PERIMETER DITCH 4 28 29 o° 0 3So0 //� �� \ �\\ �\\ C604 C604 \ N' 3340 PERIMETER DITCH 2 28 29 0 32 28 29 PERIMETER o ( \ \ \ CULVERT 2 30 0 // r -�� �\ \\��\ \ \\\\\\\\` Js C604 C604 C604 C604 C604 \\�\ L 1 \ \� \290 _ CULVERT 1 30 Irl -� 3 REFERENCE \ _ _ 1. EXISTING TOPOGRAPHY WITHIN WASTE CONNECTIONS PROPERTY WAS PROVIDED o AT 2-FT CONTOUR INTERVALS BY GPI (JOB NO. 18-006); DATE OF AERIAL �, BASIN 15 23 PHOTOGRAPHY JANUARY 15, 2018. �' ������� / / C60°0� 2. LIDAR TOPOGRAPHY OUTSIDE WASTE CONNECTIONS PROPERTY WAS ACQUIRED FROM NC DOT GIS. 3. WETLANDS INFORMATION PROVIDED BY CWS ON AUGUST 8, 2016. 30o 0 4. FEMA FLOODPLAIN INFORMATION FROM NCFLOODMAPS. MAP NUMBERS: �� \� \\�—� ���� ��� %� /�� \\� \ 3710644500J, 3710644600J, 3710645500J, 3710645600J. 7 6 I N IIII11�11� > I\ , g VIZ I � / / / \\\ \ \\\\ \ 11 / / BI xy /ryIF b, / // / 1\\ii/� I / l/ 10/ / .4 1 L iggce ll'i�lllil//l/� %/' //'//l /�/il/l/�llli11i1�I/l///�/ �l,/�l/�,l�///%„//////i// //////i/l// , I o�i ////j�/ // /�/���////�/✓ �/ _� \�-'�/- � ��� \` I / /► �I \/ \I \ ��/A \1 z //// / l l l fl �/i�ll/� /r O W o W a Z E O u) LLI LLJ W U Z 0 W m 0 Q � 1 U ^ N � N � Z C14 o i �4 M N 1 1 Q t U O co E o .0 Vi M c� 1 � M � M 0 N i O � m a 00 � W a d O O U L0 Z Q WaZ —1 J =00 OJ3=v � Q aJpC= a zo0 Z a J Q W � Z Z = W O W w U 0 Z poc0 %F.oEDZ Q Q Q U m m U Z N cfl Q a Lu O Q r m Z Q r m Z �W ❑ Y /iij/// NORTH CAROLINA � ❑ � �f11/l�l//l l �x\ // / ///'?0�/��///j% / �� �� I Imo`\\ `� a(/%(��!/ ( -/ BOARD OF EXAMINERS °r° o / �/�ll/���/ i /�)�11'I// / l%� / / �//��/31��� /// / ,^` (I \ \ (N' 11/ \/� SCALE IN FEET FOR ENGINEERS AND W N N / /i� ji //// ^� / L I \ I �� II) )� - �( SURVEYORS LICENSE w /�// "Al Q m /iil/� l �i// i�i/ /// /,/�/////��o� ,/ //---1 y 1 1 1_ //,( / ( �r I /- 0 200 400 'j/ / / //// ///�// %// /// / 1 //// / //�j/ //� / o \ 1 \ 1 ` / tlll���)l , /1 j �j NO. C-3035 w /// J I O /// r/////L� l / ////// /� / // 1_ 1 ( \ I I I \ I �11/l �/ \ 1) \ �/ ( �,. •�AIgQ H } 11�/� �// /// ///// /\ / \ \ 1 III I l �) ) / a �` 4• '$St`•• w o `° \ \� �� \� \\�\� ///�//�///�/ ////////( /i / _- / 310. \ I \ I I\ ` III \ L -.::'� ���\\�\\��\���=�/ // //l/ll // // l //////////// / j l r ��l — / / /I / \ I \/ ``mil III \\I \ ( \ / �/ fill ///l ////�=\\�\\(% �/ i \ ` \ \ ` 1 I II �� \ I \ ) ��' DRAWING NO.: ���o\\\\��IIIIIII� •.�11 `'!�! ��t�• /////// ( I �\ \����j r \\\\\\ / / 1 1 \ \ 1 I I I) BEFORE YOU DIG! �, \\\ C / / I \ I Il I�)f J i \\ IJ / ( CALL 1-800-632-4949 �'���,Y'gIV T. � � C501 \\\\\\\\�\\\�� �/� / ,. \\ \ \� \�\\� / //i' yid/// r c� /� / \ \ \ / ) I I / ( \�� //�l ✓_ N.C. ONE -CALL CENTER �i� IT'S THE LAW( SHEET 12 OF 30 5 4 3 G F 7 6 F 4 3 LEGEND PROPERTY LINE /I I 300' PROPERTY BUFFER EXISTING STREAMS r, sp'� //^\ 50' STREAM BUFFER NORTH / �/ S� ` I �,r _ /i s� / o EXISTING WETLANDS / / /— / / , NORTH //, ^ _ N , 1 , � � ) 1 a /�J\ 50' WETLANDS BUFFER r _280 28027UI - 100-YEAR FLOODPLAIN te% 300 EXISTING MAJOR CONTOUR h 290 EXISTING MINOR CONTOUR •\ /� //N' 2�C,�6 \ �L\ PHASE LIMIT/EDGE OF LINER 00 306 1 \ J CELL LIMIT / MAJOR CONTOUR MINOR CONTOUR BROWN \�h� � �`✓ 8� w ego �� _ A \ i i(� ) / i BROWN ���� 2 PHASE 4�(�j 1'11 J ) J WASTE FILL/CLOSURE AREA FLOOR LINER SYSTEM CONSTRUCTION AREA 2 PHASE 3 / \ 3 o PHASE 3 0 M / NOTE: INTERMEDIATE FINAL COVER SLOPES BETWEEN PHASES ARE NOT SHOWN. MAXIMUM INTERMEDIATE SLOPE SHALL BE i 3.5:1. '0 00 °o I °0 3 kp0 / \ 0��� �ti % \ � � �f k �•Lo � J/�� I �ti /��\ \\ o o 00 f 14 _, /'/ cb V J 1 \ I EXISTING I O W \ \ O N I 11 O _, J / PERIMETER ROAD / 0 200 0 C� \�\ N I EXISTING PERIMETER ROAD Ilt BASIN 3 w /°' \\\ 1 \\ L I BASIN 3 III I \(� )� 4.0 — o\i 310 � I II � Ou;;�/ 5 J �./// o� ` �j I I 310 - �/ / � �, � I � � I I III � I �/ / / / � o, s 80 � l I I III � ► � � � / III II \ 1 ✓ / �/ // so II III II \ 1 �G� l �i \� \ o � 1 I � � � IU II/II \ - _.f � pt �e/%�///� � `�0� a 9° IN � o '1 310 1 � _ _ III��✓ l/,, / �� � �°'� '0 90 �N � o �- J � III���✓ �/ , / L r , ° EXISTING It SE 2 I IIII - i EXISTING I\I IIIIIIII/j)\\ � "���0/ � � /i PHASE 2 PHA�IIII,I II(f / O O o i 3`Ood ocal d /�_ .oP .op Io 0O0 rnO N W O II �I IIiPII II I IIIIi IEX�ISTI�NG . r�r♦(,((I� / � �29 O� C14 BASIN 2EXISTNG ��1II IIIII II I I1II BA—�SN \ .2PHASE 5 PHASE 5w 290 oJ\\ I"00 / lr r % /hj S. I'IIII 2ao 280 0 1 J � � 11\\ 3 NI �\ N 260 �° l o Mo /�20 / 330 I I I \\� '� °° / o �o 2�0 / 330 \�� 310�IJ/) // / //z/ G30�\\ 1 G30% /� cc 20 320 \\I�1 nv/ // 3I �l l I 111 \ �� // I \ � ,gyp 'MO , ,310 •. � � / v / 1 ° (IIIIIIII // r � / / / �' 270 \ r° / v/ t3lo i o / IIIIII)I / \�//�/ EX/STING \ \ �o V N�o V N / l a° \\\ BASIN 1 01 0 0 -� / // / �i �� / �j/�( )/�/� _ ��1�\ r (I 290 o o _, / // / �i �� / //f I/�/� - ��(I✓� \/ <//�= / /z / IIII f / / / \\ \ ��� 280 i 300 1 / / /� /� / \- I l / l I / //i EX/STING y� cp 2g0 300 EX/STING 111 2 2: �� / /// �� Ill 2 2Q� C C ��� ) I D �� 1 <l Illll 90 00 300 0 O\ \ ( I / )�/ / CEMETERY( (\, 2j 90 0 300 Ln O \ ` \ ( I l / l / )�/ /// CEMETERY��� ( ) xov / EX/STING�//gg, //�EX/STING�j o w w \ \\ \ \ \ PHASE 1 - \ \ \ \ \ \ \ // i 0 29 M Q 3 \ \ 290� 290 ^� 2J 3 \ / f / a 29 0, o w� \ \ PHASE 1/ 0 290 3\\\\\\ III / /r �///j✓\/ \00 32p // 0 290 \\ \\\\ \ \\J ////// / ///// ///1/ %II/II✓\ � / I \\I1 II llIll( \�f�YY it� 00 /// PROPERTY -- �3 0 �1 \�` \\\�/ ' J� �`\V� ( �/- �h I ��/�//-���� �PROPERTY - \ '3 0 ,� �1 \ \ \\\�/ 11 ��V LINE EX/STING ACCESS ROAD "� \ /( / jje I \\\ / / z /// \ - / -/i/ / \ 1 /7 \� I / /��-� \ LINE i . EX/STING ACCESS ROAD _ — \� �j ' Y//�/ %�� / \\1\\\(� 1 /(I/j%/ �-\..• ;0 IN, N ill I // (I IIll�lli( \\\ \� —=--i - - �/ �'\ �. / / // \ Nao \I\I1\\\\I1\,1l\�I�\�11 /�I \' \`\I- 1�\I1-�\-\I\\-I\\I\\1\\ \ \1 1\�1IlI\\I \\1�11\1�II\ \l11I\1�\1I1 111 \ I1II�\�\\\1I�`lI.I�l\\l\\:�—_l L_/I�%/%_/ /_i'%ce,�/- J—!_\i\11-�/\` _-_) —=��1-1 ��// //!%— �/I� /- I%J \ —\—\ \� ►lI�_I III l I\�/(�I�/!/) / _/� // I �I�IL�i/--j_-1� I�_III \\�II1II , I _/ 'IIl I/1 �// _1 /I( /�lI I�_/1/�/1 \ 1 �I\ I II \--\� �\—\_\—✓_I�--J�/�— // —' 1\—i \� \\\ \!!\ r\` \�.\--.�\ �\��_ �\\ \ \ �\\ \ ���// �I////i/� �r�� �\\�\�\�\ \\\\/�/�%`�^ /l/ \\�� /\ \ \`\'1°`I/ I /�\ ( 1 /��i/ \Is�I,II\InII�I \�e�, / �\!\I iJ /l /S / %ll ,o�\\I\I\110\1I11 �,I�\(II�\1l_am1 L—��/ —_i /'�—�// ) ! —/1- / /// /i—/ ce 1/ Ii1 \ —\ �►lI I I I /-�I/)/ // lII-I_I. � I�\ II Il'IIl �'v/ >� /I �,_/ =� I --/\/� 1,\ 1 l II �\ �✓,--�/// —� ��\�—\/ \\\1\ \ \!\,` \\` \_\� ��\\\\\\�� .�� J/,//)//�����,\- Q p EX/STNG_R_LRO_ADEXISTING \0-EX/STNG R4/LEXISTING MAINTENANCE lMAINTENANCE BUILDING BUILDING EsIEXrsrXr1 SORAG AREA IN, STORAGE o� � /\ \ \ 1 AREA LEACHALEACHArEiNc , �. / N PHASE 3 TO PHASE 4 FILL PROGRESSION PHASE 4 TO PHASE 5 FILL PROGRESSION mm REFERENCE 1. EXISTING TOPOGRAPHY WITHIN WASTE CONNECTIONS PROPERTY WAS PROVIDED AT 2-FT CONTOUR INTERVALS BY GPI (JOB NO. 18-006); DATE OF AERIAL PHOTOGRAPHY JANUARY 15, 2018. 2. LIDAR TOPOGRAPHY OUTSIDE WASTE CONNECTIONS PROPERTY WAS ACQUIRED FROM NC DOT GIS. 3. WETLANDS INFORMATION PROVIDED BY CWS ON AUGUST 8, 2016. 4. FEMA FLOODPLAIN INFORMATION FROM NCFLOODMAPS. MAP NUMBERS: 3710644500J, 3710644600J, 3710645500J, 3710645600J. O W o z O u) LLI o w 0 U z 0 0 iL 03 m 0 w Q � 0 ZI N 00 � N Z � ti o i m M N 1 1 U U O 00 E Q K o LL .E i� Vi M c� 1 � M i••1 .L � M 0 N i O � a � W a d O O U WaZ cl) :3 J =C:)O Z a v a J�CU aJpC= O O Z a J � ~~CLZ Z = W LLI�O wU 0 Z p 1= 0 cl) °z QQa U m m U z N N cfl Z Z O� ~ Z a r coCO O Z Z ❑ Y LU a W NORTH CAROLINA W BOARD OF EXAMINERS J a o o SCALE IN FEET FOR ENGINEERS AND J 0 N "' jI SURVEYORS LICENSE w a 300 600 NO. C-3035 Z a w J J_ w 0 .14 CAI?6' } , g�+ J o CO ❑ ,� • . • w Cn W > O r�� GE GEA*L i • LLI (j 0 cr 0- - .L • o3gru ❑ ❑ d Q 'If `` DRAWING NO.: BEFORE YOU DIG!��`++ C502 CALL 1-800-632-4949T. e� ,�``��� f' N.C. ONE -CALL CENTER "' "`w IT'S THE LAW( SHEET 13 of 30 6 I 5 A 7 6 1 1 1 3 1 21 I REFERENCE 1. EXISTING TOPOGRAPHY WITHIN WASTE CONNECTIONS PROPERTY WAS PROVIDED AT 2-FT CONTOUR INTERVALS BY GPI (JOB NO. 18-006); DATE OF AERIAL PHOTOGRAPHY JANUARY 15, 2018. 2. LIDAR TOPOGRAPHY OUTSIDE WASTE CONNECTIONS PROPERTY WAS ACQUIRED FROM NC DOT GIS. 3. WETLANDS INFORMATION PROVIDED BY CWS ON AUGUST 8, 2016. 4. FEMA FLOODPLAIN INFORMATION FROM NCFLOODMAPS. MAP NUMBERS: 3710644500J, 3710644600J, 3710645500J, 3710645600J. NORTH _� r l BROWN �� 2 Cry WA ar PERIMETER ROAD NZ 290 00 doo PROPERTY - 3 LINE �_i EXISTING ACCESS ROAD 77 \ / XN / I //_--z �EX/ST/NG RAILROAD / / / —�� 1 ,11I III � �; ;� _�, �-'\ \ ��` ==-_ ��/,�� II ► �.-. \ ►; I ll j�� I � \\` Jam- ./ ` � �� —�_ \\ FINAL CLOSURE FILL PROGRESSION jEXISTING BASIN I \j rtt 1\ \u )� LEGEND PROPERTY LINE — 300' PROPERTY BUFFER EXISTING STREAMS 50' STREAM BUFFER EXISTING WETLANDS 50' WETLANDS BUFFER 100-YEAR FLOODPLAIN -- EXISTING MAJOR CONTOUR EXISTING MINOR CONTOUR PHASE LIMIT/EDGE OF LINER CELL LIMIT MAJOR CONTOUR MINOR CONTOUR WASTE FILL/CLOSURE AREA NORTH CAROLINA BOARD OF EXAMINERS SCALE IN FEET FOR ENGINEERS AND SURVEYORS LICENSE 0 300 600 NO. C-3035 BEFORE YOU DIGI CALL 1-800-632-4949 N.C. ONE -CALL CENTER IT'S THE LAWI 0 W o Z 0 u) Lu Lu o W 0 U Z O 0 W m 0 Q� ❑ no U ^ N 00 � N Z � C,4 i m M N 1 1 0 U o 00 E .. o L 11CIS ._ 1� Vi M c� y 1 cn 1 1 M � M 0 N O OF-4 � m a 00 � m s W a m o 0 o z `c)Qa W C/) Z Z � J =C:)0 Z a v O Q J�CU F— i = U Q Z a Z O O Z a J � Q W ~ ~ z � Z = Lu O W � w U 0 Z 0 1= 0 cl)mZ QQa U m m U Z N N cfl Z Z J Oa ~ Z Q 0 r Z Z r co 0 Y W^ W 2 0 LV n/ J LL J 0a LL O p � ❑ U Q N m O CD `'' QZ a w J J w 0 tttttlllllll!! t t4 CA ' •Q a w U cn (~j W > O _ SEAL i o3m • i rsoram** = ui ❑ ❑ d Ic Q %ij,` DRAWING NO.: C503 SHEET 14 OF 30 11 5 m BASE AREAS ISIDE SLOPES N. 5 4 3 BASE AREAS ISIDE SLOPES 2 I F MA DOUBLE -SIDED HEAT -BONDED DRAINAGE GEOCOMPOSITE TRANSMISSIVITY > 5X10-4 m%ec) LANDFILL WASTE--"/ 3 1 F_ WITH 8 OZ/SY NON -WOVEN GEOTEXTILE ON BOTH SIDES. SLOPE VARIES (2% MIN.) / N 24" PROTECTIVE COVER 24" CLAY LINER `14 / / // / / / / / // / // / // / \�� PROTECTIVE COVER (PERMEABILITY > 1.9X10-4 CM/S) COMPACTED SOIL LINER/ (PERMEABILITY < 1 X 10-7 CM/S) 60 MIL. TEXTURED HDPE PREPARED SUBGRADE, NATURAL GEOMEMBRANE UNDER INORGANIC SOIL OR COMPACTED GEOCOMPOSITE STRUCTURAL FILL SOIL BACKFILL CMPACTED TO 95% OF THE STANDARD PROCTOR DENSITY j j w V) w O J COMPACTED LOW PERMEABILITY FILL 2% SLOPE FOOT SLOPE i j3 (MIN)/ 3' )BASE LINER SYSTEM C600 BASE LINER SYSTEM C600 N.T.S. 4'-0" Of z w J (f) w 0 n o � w I 0 w w U z 0 J w w 0 w U 0 N 4 3 LINER SYSTEM ANCHOR TRENCH C600 N.T.S. FINAL COVER ANCHOR TRENCH AND LINER TERMINATION C600 N.T.S. DOUBLE -SIDED HEAT -BONDED - DRAINAGE GEOCOMPOSITE (TRANSMISSIVITY > 5X10-4 WITH 8 OZ/SY NON -WOVEN GEOTEXTILE ON BOTH SIDES. LANDFILL WASTE--/ SLOPE VARIES (2% MIN.) f 24" PROTECTIVE COVER N 18" CLAY LINER COMPACTED SOIL LINER/ (PERMEABILITY : 1X10-5 CM/S) PREPARED SUBGRADE, NATURAL INORGANIC SOIL OR COMPACTED STRUCTURAL FILL LOCATION LINER MARKER PERIMETER CHANNEL (SEE DETAILS 28, 29 ON SHEET C604) 3 1 � � - REINFORCED GOESYNTHETIC CLAY LINER (GCL) (K : 1 X10-9 CM/SEC) UNDER GEOMEMBRANE 60 MIL. TEXTURED HDPE GEOMEMBRANE UNDER GEOCOMPOSITE 2 ALTERNATE BASE LINER SYSTEM C600 N.T.S. 4 ANCHOR TRENCH LOCATION MARKER C600 N.T.S. PROTECTIVE COVER (PERMEABILITY > 1.9X10-4 CM/S) /\7\7; 6" TOP SOIL 18" PROTECTIVE COVER /�\/ 12" INTERMEDIATE COVER /// WASTE 5 CAP SYSTEM C600 N.T.S. DOUBLE -SIDED HEAT -BONDED GEOCOMPOSITE (TRANSMISSIVITY > 5X10-4 mec) WITH 8 OZ/SY NON -WOVEN GEOTEXTILE ON BOTH SIDES. 40 MIL. TEXTURED LLDPE GEOMEMBRANE (PERMEABILITY < 1X10-5 CM/S) %6'` TOP SOIL����� DOUBLE SIDED HEAT -BONDED GEOCOMPOSITE (TRANSMISSIVITY > 5X10-4 18" PROTECTIVE COVER WITH 8 OZ/SY NON -WOVEN GEOTEXTILE ON BOTH SIDES. ------------- - - - - - _ - - - - - 40 MIL. TEXTURED 12"INTERMEDIATE C� ER LLDPE GEOMEMBRANE REINFORCED GOESYNTHETIC CLAY LINER (GCL) (K :- 5X10-9 CM/SEC) UNDER GEOMEMBRANE s ALTERNATE CAP SYSTEM C600 N.T.S. 0 z W O L d Z U 0 0 Lu 0 U 0 0 K co 0 w w o Q� o� 0 C� ICI ti r• co }� N Z C14 +r O m N 1 Q o 1 Um U co E a x o 11 L 1 .c U 1 � M � Q 04 N o a a t W � a a� �y O 0 rn U Lo Z Waa Z ch Z aJ j =�O Zama I.L �J=U aJ�= C�LLz� a Z � O Z a ~ a w Z om W O W a � w C� Z ccn O W V) Z M Z a=a U U m Z N m cn cc r J a W Q m m w n Z Q w U NORTH CAROLINA 0 BOARD OF EXAMINERS FOR ENGINEERS AND Vco N ~ z SURVEYORS LICENSE NO. C-3035 U Z 0 O U w � gJ4 CAR r sslar �✓y,- J o m . Srw,�Cc U w O ` omn4 o o � CL I< y 1.10N. DRAWING NO.: /'►oil I Lw�{ C600 SHEET 15 OF 30 5 I 4 3 BEFORE YOU DIGI CALL 1-800-632-4949 N.C. ONE -CALL CENTER IT'S THE LAWI M. 5 2 H EXISTING CELL NEW CELL 1 CONTINUOUSLY WELD NEW GEOMEMBRANE C600 TO EXISTING CELL GEOMEMBRANE F E W M EXISTING GEOCOMPOSITE LINER EXISTING PROTECTIVE COVER j/Z / EXISTING EXISTING CLAY LINER / GO MEM B RAN E LINER PREPARED SUBGRADE, NATURAL INORGANIC SOIL OR COMPACTED STRUCTURAL FILL 9 CELL LINER SYSTEM TIE-IN C601 N.T.S. 4' q CELL DIVID R BERM 11 CELL DIVIDER BERM C601 N.T.S. UPSTREAM OF PROPOSED CELL 14 PERIMETER BERM AND HAUL ROAD SECTION C601 N.T.S. BERM MADE OF PROTECTIVE COVER MATERIAL GEOCOMPOSITE 1 o OPERATIONAL BERM C601 N.T.S. (COMPACTED TO 95% OF THE STANDARD PROCTOR DENSITY) DOWNSTREAM OF PROPOSED CELL 24" PROTECTIVE COVER AS NEEDED EXISTI GROU 6" PL,., 11 HDPE PIPE /EN VGVIGAIILG FHDRRi W/ 2' OVERLAP (SURROUNDING AGGREGATE) 12 TYPICAL SECTION PERFORATED PIPE UNDERDRAIN C601 N.T.S. w I ///— LABEL w a_ .. i 4"X4" TREATED WOOD POST PAINTED YELLOW MANUALLY COMPACTED BACKFILL NOTE: UNDERDRAIN PIPE LOCATION MARKER TO BE FIELD LOCATED AT END OF UNDERDRAIN 1'—O" MIN. PIPE DOWNSTREAM. 13 UNDERDRAIN PIPE LOCATION MARKER C601 N.T.S. NORTH CAROLINA BOARD OF EXAMINERS FOR ENGINEERS AND SURVEYORS LICENSE NO. C-3035 0 Wzp L a Z U 0 U) cl Lu W 0 U Z O w K co m 0 W o 10 Q � N Z C� I --I ti ^ r• N co -4-D N Z ti °r � o 0 m N 1 Q o 1 Ucmo U E x 11 D 1 U.� U ti 1 1 � co) i�l � cM Q N '!"' m a D t PIP c a Q �y O U � Z Waa Z Z aJJ =00N Zama 0J=U aJ�= �oZF_ azo0 a��Z a u Z Lu O L^u CL >. V Z cn Z O W V Z M Z a=a U U m Z N m to r J a W m n Q m w w Z O Q U w H co r U ai U O N ~ Z H W m U Z 0 O w U r ,��o$ssl�r �✓y,-,; J o m . Srw,� W W 0 CL -_ ` Q39Y14 o o C a DRAWING NO.: T. C601 SHEET 16 OF 30 8 7 I 6 5 I 4 3 BEFORE YOU DIGI CALL 1-800-632-4949 N.C. ONE -CALL CENTER IT'S THE LAWI m N. CI 3 2 G E MA 6.8' w CENTERLINE OF TACK -ON SWALE3 FLOW DISCHARGING FROM TACK -ON SWALE LOW POINT 3 1 0 3 1 Z I , - � \ \ INTERIM 19 \\ TACK —ON \ SWALE C60\\ GEOMEMBRANE iv I \\ LINED DOWNCHUTE _ \ 2 \ \ \ \ \ \ w it I NOTE: UNDER INTERMEDIATE SLOPE CONDITIONS, THE DOWNCHUTES WILL I� BOTH BE LINED WITH GEOMEMBRANE. I \ TOP OF INTERIM TACK -ON BENCH ACC OW ON CHARGING FROfN 2 SWALE LOW PAINT 1 GEOMEMBRANE LINING CENTERLINE OF TACK -ON SWALE FLOW DISCHARGING FROM CAP GEOCOMPOSITE _T/ 2 � - � \ U' INTERIM 19 \\ TACK —ON \ BENCH C60 ry \\\ \ \ ---------------------------------- FLOW FROM TOP OF FINAL COVER SOILLn _ CA NOTE: UNDER FINAL SLOPE CONDITIONS, THE TACK -ON BENCHES WILL BE VEGETATED AND THE DOWNCHUTES 1 WILL BE LINED WITH GEOMEMBRANE. 1 40-MIL GEOMEMBRANE LINING 04 -No 3 3 4' SECTION ANCHORMITRENCH 15 DOWNCHUTE - INTERIM C60 N.T.S. SCARIFY SURFACE AND STRIP VEGETATION PRIOR TO FILLING FOR SWALE AND BERM INSTALL SC150 MATTING ON 2:1 BERM SLOPE AND TOP SCARIFY SURFACE AND STRIP VEGETATION PRIOR TO FILLING FOR SWALE AND BERM INSTALL SC150 MATTING ON 2:1 BERM SLOPE AND TOP WASTE INTERMEDIATE COVER SOIL INTERIM TACK -ON SWALE - TYPICAL N.T.S. WASTE INTERMEDIATE COVER SOIL FINAL TACK -ON SWALE - TYPICAL N.T.S. INTERIM LANDFILL ci nor LOW POINT DRAINS TO DOWNCHUTE C600 C600 3 : 1 11 3 6' 3 : 1 0 GEOMEMBRANE LINED DOWNCHUTE DOWNCHUTE GEOMEMBRANE TO BE REMOVED OR ABANDONED IN PLACE PRIOR TO CAP INSTALLATION 4' SECTION 16 DOWNCHUTE - FINAL C60 N.T.S. I DOUBLE GEOMEMBRANE LINING I I I Icn cn I I I I I I I 2 LAYERS OF 40-MIL GEOMEMBRANE LINING 1'x1' (MIN.) ANCHOR TRENCH 1 3 NOTE: CHANNEL OR PIPE DOWNCHUTES MAY BE INSTALLED IN THE LOCATIONS SHOWN ON SHEETS C500 & C501. GEOMEMBRANE LII BAS H ETS I� PERIMETER CHANNEL f l 17 DOWNCHUTE/PERIMETER CHANNEL INTERSECTION PLAN VIEW C60 N.T.S. GABION I_ 4, MIN -� BASHETS GEOMEMBRANE LINING CHANNEL 10' MIN. WALLS PROJECTED ❑ ❑❑ ❑ ❑❑ ❑ El E] CLASS A-1 GROUTED RIPRAP ❑ ❑❑ ❑ 18 DOWNCHUTE/PERIMETER CHANNEL INTERSECTION PROFILE VIEW C60 N.T.S. 24"0 HDPE SMOOTH WALL 24" TEE 24"0 HDPE SMOOTH WALL FLEXIBLE FLEXIBLE PIPE MITERED _—I I lk_ IIPIPE CONNECTED TO 24" TEE TO 2H:1 V SLOPE (TYP.) 10' (MIN.) 18" PROTECTIVE COVER MOUND 18" PROTECTIVE SOIL — COVER OVER TOP OF PIPE 2 1 5 6 FINAL COVER SYSTEM C600 C600 SECTION A -A IPE DOWNCHUTE N.T.S. i� 24"0 HDPE SMOOTH WALL FLEXIBLE PIPE CONNECTED TO 24"x24"x24" TEE SIZE VARIES- HDPE SMOOTH WALL FLEXIBLE PIPE S16F 1 S�ppF o pw�cy , �TF 27y 28 y 29 i PERIMETE AnAArr,n,iArr,nAJ CHANNEL Sal szU 1 0 3 SIZE VARIES-HDPE 6" - 12" DIA. WELL -GRADED RIP -RAP TEE FOR ENERGY STONE FOR CHANNEL LINING AT OUTLET, DISSIPATION UNDERLAIN WITH 8 OZ/SY NON -WOVEN GEOTEXTILE NOTES: 1. THIS OUTLET DESIGN TO BE USED AT ANY LOCATION WHERE THE SLOPE OF THE DISCHARGE PIPE IS GREATER THAN 5%. 2. LARGER STONES (12"-18" DIA.) TO BE USED AROUND TEE DISSIPATOR AS THRUST BLOCKS. 22 SIDE SLOPE DOWNCHUTE OUTLET DISSIPATOR C60 N.T.S. BEFORE YOU DIGI CALL 1-800-632-4949 N.C. ONE -CALL CENTER IT'S THE LAWI NORTH CAROLINA BOARD OF EXAMINERS FOR ENGINEERS AND SURVEYORS LICENSE NO. C-3035 f� 0 z W O L a Z °C 0 U) w cl o 0 U Z 0 r 0 w co m a � o Eb O z co }� N Z ti +r O O ti m N%noo Q o Ucmo U E 0 D LL c U %4q (h U ti 1 1 eM � cM Q N C fi a t W � a a� �y O 0 O U Lc) Z Waa �ZZ aJJ =�0 Zama 0J=U aJ�= a Z Q O Z a ~ a W Z W O Lu>- Lu Z N Z c O W Z M Z a=a U U m Z r*- N m 0) cc r J a W m n Q m w w Z O Q U w H co rai U U O N ~ Z H W m U Z 0 O w U no r S w co w O $ $EAL i : w (�j onri4 o o 1Z-��-�� • DRAWING NO.: ?01 T.;�• .,�,,,,,�„,W C602 8 1 6 5 1 3 SHEET 17 OF 30 E:3 C� 5 CI 3 2 E 14 C604 DRY SEDIMENT BASIN PLAN VIEW TOP OF 5' MIN. BASIN LENGTH STORMWATER EMBANKMENT "A" RUB N OFF PRINCIPAL SPILLWAY (SEE DETAIL BELOW) EMERGENCY SPILLWAY "B" ;?�� -� (SEE DETAIL) 25-YR WATER SURFACE ELEVATION "C" RISER CREST "D" ROCK 31 EARTHEN DAM BERM BAFFLE HEIGHT "E" OUTLET 4'x 1 ' CLEANOUT C604 PROTECTION D I 1 FBASIN BOTTOM."G E �2 K A BARREL 24 ANTI -SEEP COLLAR RISER ANTI FLOATATION C603 ORIFICE F ,IIIII I��III- i -BASIN BOTTOM SLOPE (0.5% MIN.) 25 SKIMMER :603 DRY SEDIMENT BASIN SECTIONAL VIEW 26 CLEANOUT STAKE SEDIMENT BASIN DESIGN TABLE SEDIMENT BASIN NUMBER/NAME A (FMSL) B (FMSL) C (FMSL) D (FEET) E (FEET) F (FEET) G (FMSL) SKIMMER SIZE (IN.) SKIMMER ORIFICE (IN.) BASIN VOLUME (CF) DEWATERING TIME (DAYS) NO. OF SKIMMERS 10 250.00 249.00 248.22 4.00 2.00 1.00 244.00 5.00 5.00 747,550 2.99 1 11 250.00 249.00 248.32 4.00 2.00 1.00 244.00 2.50 2.50 83300 2.64 1 12 290.00 289.00 288.28 4.00 2.00 1.00 284.00 2.00 2.00 37,509 2.24 1 13 284.25 283.00 282.47 4.00 2.00 1.00 278.00 4.00 4.00 356,920 3.33 1 14 266.00 264.00 264.37 4.00 2.00 1.00 260.00 2.00 2.50 83,876 2.91 1 15 296.00 294.00 294.29 8.00 2.00 1.00 286.00 5.00 5.00 1,045,570 3.96 1 SIN -I Li 11 11 IIIIIIIIIIIII i EMERGENCY SPILLWAY DETAIL DRY SEDIMENT BASIN - GENERAL NOTES RIP -RAP, 10-INCH D50 GEOTEXTILE FABRIC SPILLWAY WIDTH Sw (FT) BASIN 10 20 BASIN 11 20 BASIN 12 20 BASIN 13 40 BASIN 14 20 BASIN 15 20 RIP -RAP STABILIZATION TRASH RACK AND ANTI -VORTEX DEVICE RISER END C INSTALL SKIMMER INTO ORIFICE DH o BARREL I pp I PVC TI PRINCIPAL SPILLWAY DETAIL BASIN 10 BASIN 11 BASIN 12 BASIN 13 BASIN 14 BASIN 15 RH = RISER HEIGHT (FT) 4 4 4 4 4 8 DR = RISER DIAMETER (FT) 4 3 3 4 3 3 DH = ORIFICE DIAMETER (IN) 5 2.5 2 4 2.5 5 D= BARREL DIAMETER (FT) 1 2 1 2 1 2 1 2 1 2 1 2 1. SEDIMENT BASINS SHOULD NOT BE PLACED IN WATERS OF THE STATE OR USGS BLUE -LINE STREAMS (UNLESS 6. INSTALL SKIMMER AND COUPLING (AS NECESSARY) TO RISER STRUCTURE AT ORIFICE ALONG BOTTOM OF THE APPROVED BY FEDERAL AUTHORITIES). PRINCIPLE SPILLWAY'S RISER STRUCTURE. (REFER TO SKIMMER MANUFACTURER FOR INSTALLATION PROCEDURES AND SKIMMER SPECIFICATIONS.) 2. SEDIMENT BASIN'S SIDE SLOPES SHALL BE SEEDED AND, WHEN NECESSARY, STABILIZED WITH VEGETATIVE OR SYNTHETIC MATTING TO PREVENT THE FORMATION OF RILLS AND GULLIES. 7. SKIMMER SHOULD BE EQUIPPED WITH A MECHANISM, SUCH AS A ROPE, TO ALLOW EASY ACCESS TO SKIMMER TO UNCLOGGED ORIFICE OR PERFORM OTHER NECESSARY MAINTENANCE. 3. INSTALL THREE (3) ROWS OF POROUS BAFFLES WITH A MINIMUM SPACING OF 10 FEET. BAFFLES SHOULD ULTIMATELY BE PLACED TO MAXIMIZE THE SPACE BETWEEN EACH ROW OF BAFFLES AND THE BASIN'S 8. STORMWATER RUNOFF ENTERING THE BASIN MUST BE DIRECTED INTO PROPER BMPS TO PREVENT EROSION INLETS/OUTLETS. ONLY TWO (2) ROWS OF BAFFLES ARE NECESSARY FOR BASINS THAT ARE LESS THAN 50 ALONG SIDE SLOPES AND TO PREVENT SCOUR AT THE BASIN'S INLETS. FEET IN LENGTH. 9. THE ELEVATION OF THE EMERGENCY SPILLWAY SHOULD BE AT LEAST 1 FOOT BELOW THE TOP OF THE 4. POROUS BAFFLES SHOULD BE COMPOSED OF COIR-BASED MATERIALS OR TRMS WITH A LIGHT PENETRATION EMBANKMENT. THE EMERGENCY SPILLWAY SHOULD NOT BE LOCATED ON FILL MATERIAL, WHEN POSSIBLE. RIPRAP (OPEN SPACES) BETWEEN 10-35%. THESE MATERIALS SHOULD NOT HAVE LOOSE STRAW. SILT FENCE MAY NOT AND GEOTEXTILE LINER SHOULD BE PLACED ON ALL SPILLWAYS THAT MUST BE LOCATED ON FILL MATERIAL. BE USED AS POROUS BAFFLES. 5. EACH POROUS BAFFLES SHALL BE INSTALLED ACROSS THE ENTIRE WIDTH OF THE BASIN AND ALONG THE BASIN'S SIDE SLOPE UNTIL THE HEIGHT OF THE BAFFLE INTERSECTS THE SLOPE. 23 SEDIMENT BASIN C603 N.T.S. 1'-0" MIN. PARTIAL ELEVATION END VIEW EMBANKMENT BAND OF HELICAL PIPE COLLAR TO BE ED TO CENTER ROD AND LUG ELICAL PIPE BAND = PVC ELBOW 'VC END CAP 1/2" HOLES SIDE SCH 40 PVC PIPE WELD 1 1/8" x 1 1/8" x 1 1/8" ANGLES TO COLLAR OR BEND A 90' ANGLE 1 1/8" WIDE AS SHOWN IN DRAWING. 1 1/8" 1/8' L SHEET METAL COLLAR SHALL BE CUT TO FIT CORRUGATIONS OF HELICAL BAND, AND WELDED WITH A CONTINUOUS WELD. ISOMETRIC VIEW 24 HELICAL PIPE ANTI -SEEP COLLAR C603 N.T.S. TOP VIEW WATER SURFACE PROVIDE PROPER HORIZ. CLEARANCE FROM SLOPE IN ORDER TO PROVIDE FREE MOVEMENT OF SKIMMER IFLEXIBLE HOSE f� �1 NOTES: 1. FOR DETAILS OF FABRICATION DIMENSIONS: MINIMUM GAGES, SLOTTED HOLES, AND NOTES, SEE DETAIL. 2. FOR BANDS AND COLLARS: MODIFICATIONS OF THE DETAILS SHOWN MAY BE USED PROVIDING EQUAL WATER TIGHTNESS IS MAINTAINED AND DETAILED DRAWINGS ARE SUBMITTED AND APPROVED BY THE ENGINEER PRIOR TO DELIVERY. 3. TWO OTHER TYPES OF ANTI -SEEP COLLARS ARE: A. CORRUGATED METAL, SIMILAR TO UPPER, EXCEPT SHOP WELDED TO A SHORT (4FT.) SECTION OF THE PIPE AND CONNECTED WITH CONNECTING BANDS TO THE PIPE. B. CONCRETE, SIX INCHES THICK FORMED AROUND THE PIPE WITH #3 REBAR SPACED 15" HORIZONTALLY AND VERTICALLY. 4. SIZE AND SPACING OF SLOTTED OPENINGS SHALL BE THE SAME AS SHOWN FOR CM COLLAR USE RODS AND LUGS TO CLAMP BANDS SECURELY TO PIPE. PVC VENT PIPE BOTTOM SURFACE FRONT VIEW AFTER SKIMMER IS INSTALLED CONTRACTOR SHALL NOTE SIZE OF ORIFICE INSTALLED W/ A PERMANENT MARKER - NOTATION TO BE VISIBLE OUTSIDE OF BASIN OSURE UNIT SCHEDULE 40 PVC PIPE NOTE: 1. REFERENCE NCDEQ EROSION AND SEDIMENT CONTROL PLANNING AND DESIGN MANUAL, SECTION 6.64. 2. SKIMMER SHALL BE AS MANUFACTURED BY JW FAIRCLOTH OR APPROVED EQUAL BY THE ENGINEER. 25 SKIMMER C603 N.T.S. SCHEDULE 40 PVC PIPE ORIFICE PLACE PVC TEE BEFORE YOU DIGI CALL 1-800-632-4949 N.C. ONE -CALL CENTER IT'S THE LAWI NORTH CAROLINA BOARD OF EXAMINERS FOR ENGINEERS AND SURVEYORS LICENSE NO. C-3035 O w o LL Z cr U _O 0 w Lu 0 U Z 0 r 0 w z_ m 0 m w o a � 0 N 0 z I --I ti ^ T_ N co }� N Z ti +r C O ti M N to Q o 1 U U co E x 1 D 0 1 1 LL .� U (h U ti 1 1 � co) � M Q N o a a m t PIP c a aD o U Lc) Z Waa Z Z aJJ _ = O za�a �J=U aJ�= V rL Q Z a Z 0 O a Lu m Z a LuO WOWC.� Z N Z C O W V Z Z a=a U U m Z It- N m Ln to r J a W m n Q m z w 0 0 U Lu H co r U C6 U O N ~ Z Lu m Z 2 0 0 Lu � U r �'o lufar �✓y,�-,r Q ° o ;q:. U v) 0 w > 0 Si�A4 0Cc 039Y14 _ o o � CL I a % DRAWING NO.: . 0100,� C603 SHEET 18 OF 30 8 6 5 CI E:3 7 t� BAFFLE MATERIAL 5 HEAVY DUTY PLASTIC TIES 4 2 G E z_ 0 SUPPORT ROPE OR WIRE TO I PREVENT SAGGING 1.25 LB/FT STEEL SUPPORT POST 24" INTO BOTTOM OR SIDE SLOPES STAKE FOR SUPPORT WIRE \-- COIR-BASED MATERIALS OR TRMs, TRENCHED INTO BOTTOM AND SIDE SLOPES CROSS SECTION VIEW POROUS BAFFLE ROW NON -CONCENTRATED OUTFLOW I��I I� II BOTTOM OF SEDIMENT BASIN OR TRAP --SIDE SLOPES OF SEDIMENT PERSPECTIVE VIEW BASIN OR TRAP 1.0' MIN. COVER COMPACTED' 2-2/3'k1/2" UNCLASSIFIED 00000000 0 CORRUGATIONS FILL (D+2') 16 GAUGE (MIN.) (MIN.) 6" THICK (MIN.) UNCLASSIFIED PIPE BEDDING SECTION A -A W2 END OF FLARED W1 END OF APRON PLAN COMPACTED OR -J UNDISTURBED SOIL NATURAL GRADE 26 POROUS BAFFLE C604 N.T.S. COM PAc BAFFLE MATERIAL FLAT -BOTTOM TRENCH DETAIL HEAVY DUTY PLASTIC TIES BAFFLE MATERIAL COMPACTED EARTH --\ BAFFLE MATERIAL V-SHAPED TRENCH DETAIL (ISE DETAIL 27 HAS BEEN OMITTED CULVERT SCHEDULE PEAK CULVERT INLET LOCATION OUTLET DISCHARGE DIAMETER NO. LENGTH SLOPE NO. LOCATION (CFS) (IN) BARRELS (FT) M 1 PERIMETER ITCH 1 & BASIN 15 152.05 48 2 126 12.70 2 2 PERIMETERDITCHITCH 3 & BASIN 15 159.04 36 2 184 1.08 3 PERIMETER 5 & BASIN 14 37.49 24 1 132 6.06 6DITCH 4 PERIMETERDITCHITCH 7 & BASIN 13 171.18 36 2 104 3.85 5 PERIMETER DITCH 9 & PERIMETER DITCH 7.71 18 1 159 1.26 11 10 6 PERIMETER DITCH 12 & BASIN 12 17.95 18 1 130 1.54 I 7 PERIMETER DITCH 14 BASIN 10 166.81 48 2 123 9.75 3o CULVERT C604 N.T.S. OUTLET LET La) W1�) W �) T25) H d50121N) dMAX (IN) 4o.o 48 0 24 0 2 61N) 18o B 10.0 16.5 4.5 1.125 6 12 18.0 C 15 17 6 1.125 6 6 9 D 10 12 6 1.125 6 6 9 NCI LM r/AOMIU LAP (IF NEEDED) ELEVATION SECTION B-B NOTES: 1. CLASS OR MEDIAN SIZE OF RIPRAP AND LENGTH, WIDTH AND DEPTH OF APRON TO BE DESIGNED BY THE ENGINEER AND ARE SUMMARIZED BELOW. 2. RIPRAP SHOULD EXTEND UP BOTH SIDES OF THE APRON AND AROUND THE END OF THE PIPE OR CULVERT AT THE DISCHARGE OUTLET AT A MAXIMUM SLOPE OF 2:1 AND A HEIGHT NOT LESS THAN TWO THIRDS THE PIPE DIAMETER OR CULVERT HEIGHT. 3. THERE SHALL BE NO OVERFLOW FROM THE END OF THE APRON TO THE SURFACE OF THE RECEIVING CHANNEL. THE AREA TO BE PAVED OR RIPRAPPED SHALL BE UNDERCUT SO THAT THE INVERT OF THE APRON SHALL BE AT THE SAME GRADE (FLUSH) WITH THE SURFACE OF THE RECEIVING CHANNEL. THE APRON SHALL HAVE A CUTOFF OR TOE WALL AT THE DOWNSTREAM END. 4. THE WIDTH OF THE END OF THE APRON SHALL BE EQUAL TO THE BOTTOM WIDTH OF THE RECEIVING CHANNEL. MAXIMUM TAPER TO RECEIVING CHANNEL 5:1. 5. ALL SUBGRADE FOR STRUCTURE TO BE COMPACTED TO 95% OR GREATER. 6. THE PLACING OF FILL, EITHER LOOSE OR COMPACTED IN THE RECEIVING CHANNEL SHALL NOT BE ALLOWED. 7. NO BENDS OR CURVES IN THE HORIZONTAL ALIGNMENT OF THE APRON WILL BE PERMITTED. 8. FILTER FABRIC SHALL BE INSTALLED ON COMPACTED SUBGRADE PRIOR TO PLACEMENT OF RIP RAP. 9. ANY DISTURBED AREA FROM END OF APRON TO RECEIVING CHANNEL MUST BE STABILIZED. 31 OUTLET PROTECTION C604 N.T.S. GR('nin �i iornnr Tn BE T (SEE CHANNEL SCHEDULE BELOW) 28 TRAPEZOIDAL TURF REINFORCEMENT MAT CHANNEL C604 N.T.S. T FINISHED GRADE 'ADE (STING GROUND EXISTING GROUND (SEE CHANNEL SCHEDULE BELOW) 29 TRIANGULAR TURF REINFORCEMENT MAT CHANNEL C604 N.T.S. CHANNEL SCHEDULE CHANNEL DESIGN DEPTH (FT) BO BOM WIDTH (FT) TOP WIDTH (FT) APPROX. SLOPE M SIDE SLOPES (Z1/Z2) CHANNEL LINING PERIMETER DITCH 1 3.5 6.0 25.0 2.00 3/3 NAG SC250 MATTING PERIMETER DITCH 2 4.0 0.0 25.0 8.00 3/3 N/A PERIMETER DITCH 3 2.0 0.0 12.0 8.00 3/3 N/A PERIMETER DITCH 4 4.0 6.0 30.0 3.60 3/3 NAG SC250 MATTING PERIMETER DITCH 5 2.0 0.0 12.0 2.80 3/3 NAG SC250 MATTING PERIMETER DITCH 6 2.0 6.0 18.0 8.00 3/3 NAG SC250 MATTING PERIMETER DITCH 7 2.0 0.0 12.0 8.00 3/3 N/A PERIMETER DITCH 8 3.5 6.0 27.0 2.10 3/3 NAG SC250 MATTING PERIMETER DITCH 9 2.0 0.0 12.0 8.00 3/3 NAG SC250 MATTING PERIMETER DITCH 10 2.0 0.0 12.0 2.00 3/3 NAG SC150 MATTING PERIMETER DITCH 11 2.0 0.0 12.0 8.00 3/3 NAG SC250 MATTING PERIMETER DITCH 12 2.0 0.0 12.0 5.70 3/3 NAG SC250 MATTING PERIMETER DITCH 13 2.0 0.0 12.0 5.80 3/3 NAG SC250 MATTING PERIMETER DITCH 14 2.0 6.0 18.0 6.00 3/3 NAG SC250 MATTING PERIMETER DITCH 15 2.0 6.0 18.0 2.00 3/3 NAG SC150 MATTING PERIMETER DITCH 16 2.5 6.0 18.0 6.00 3/3 NAG SC250 MATTING nnunnnTrn rn i f� 29T TEMPORARY DIVERSION DITCH C604 N.T.S. 0 Wzp � a Z U 0 U) w W 0 W 0 U Z 0 r 0 K co m 0 W o Q � N 0 Z ICI ti co }� N z ti °r o 0 ti M N to Q o 1 UcoE U x 11 D 1 LL .� U (h U D 1 1 m eM O � cM Q N ;.4 i O m t W c a aD �y O O .,..� U � Z Lu cl) Z Z aJ� ==o za�a -J=U aJ�= C� cl Z a Z Q O Z a � ~ a Lu m Z_ W�LuO Lu Z N Z c O W V) Z Z a=a U U m Z N m cn Ln to r J a W Q m m o n Z QLu W U NORTH CAROLINA 0` 0 0 C6 BOARD OF EXAMINERS FOR ENGINEERS AND Uco U co N ~ z SURVEYORS LICENSE Lu Lu NO. C-3035 Z 0 O U w i r . o .$solar �✓y,+ Q ° o ;q U � 0 w > o �1re'� S SEAL � 0 °` 039Y14 ? y ,., Q,. * DRAWING NO.: BEFORE YOU DIG! +� , 0"., !'C604 CALL 1-800-632-4949 +''°qN T. �� ,�``* N.C. ONE -CALL CENTER �� IT'S THE LAWI SHEET 19 of 30 7 0 5 E:3 7 I1 1 LI lei 2 H DEFINITION: CONTROLLING RUNOFF AND EROSION ON DISTURBED AREAS BY ESTABLISHING PERENNIAL VEGETATIVE COVER WITH SEED. PURPOSE: TO REDUCE EROSION AND DECREASE SEDIMENT YIELD FROM DISTURBED AREAS, AND TO PERMANENTLY STABILIZE SUCH AREAS IN A MANNER THAT IS ECONOMICAL, ADAPTS TO SITE CONDITIONS, AND ALLOWS SELECTION OF THE MOST APPROPRIATE PLANT MATERIALS. G E a 0 N C N a ■:3 SEEDBED REQUIREMENTS: ESTABLISHMENT OF VEGETATION SHOULD NOT BE ATTEMPTED ON SITES THAT ARE UNSUITABLE DUE TO INAPPROPRIATE SOIL TEXTURE (NC EROSION AND SEDIMENT CONTROL PLANNING AND DESIGN MANUAL, 1988), POOR DRAINAGE, CONCENTRATED OVERLAND FLOW, OR STEEPNESS OF SLOPE UNTIL MEASURES HAVE BEEN TAKEN TO CORRECT THESE PROBLEMS. TO MAINTAIN A GOOD STAND OF VEGETATION, THE SOIL MUST MEET CERTAIN MINIMUM REQUIREMENTS AS A GROWTH MEDIUM. THE EXISTING SOIL SHOULD HAVE THESE CRITERIA: — ENOUGH FINE—GRAINED (SILT AND CLAY) MATERIAL TO MAINTAIN ADEQUATE MOISTURE AND NUTRIENT SUPPLY (AVAILABLE WATER CAPACITY OF AT LEAST .05 INCHES WATER TO 1 INCH OF SOIL). — SUFFICIENT PORE SPACE TO PERMIT ROOT PENETRATION. — SUFFICIENT DEPTH OF SOIL TO PROVIDE AN ADEQUATE ROOT ZONE. THE DEPTH TO ROCK OR IMPERMEABLE LAYERS SUCH AS HARDPANS SHOULD BE 12 INCHES OR MORE, EXCEPT ON SLOPES STEEPER THAN 2:1 WHERE THE ADDITION OF SOIL IS NOT FEASIBLE. — A FAVORABLE PH RANGE FOR PLANT GROWTH, USUALLY 6.0 — 6.5. — FREE FROM LARGE ROOTS, BRANCHES, STONES, LARGE CLODS OF EARTH, OR TRASH OF ANY KIND. CLODS AND STONES MAY BE LEFT ON SLOPES STEEPER THAN 3:1 IF THEY ARE TO BE HYDROSEEDED. IF ANY OF THE ABOVE CRITERIA ARE NOT MET — I.E., IF EXISTING SOIL IS TOO COARSE, DENSE, SHALLOW OR ACIDIC TO FOSTER VEGETATION — SPECIAL AMENDMENTS ARE REQUIRED. THE SOIL CONDITIONERS DESCRIBED BELOW MAY BE BENEFICIAL OR, PREFERABLY, TOPSOIL MAY BE APPLIED. SEEDBED PREPARATION INSTALL NECESSARY MECHANICAL EROSION AND SEDIMENTATION CONTROL PRACTICES BEFORE SEEDING, AND COMPLETE GRADING ACCORDING TO THE APPROVED PLAN. LIME AND FERTILIZER NEEDS SHOULD BE DETERMINED BY SOIL TESTS. SOIL TESTING IS PERFORMED FREE OF CHARGE BY THE NORTH CAROLINA DEPARTMENT OF AGRICULTURE SOIL TESTING LABORATORY. DIRECTIONS, SAMPLE CARTONS, AND INFORMATION SHEETS ARE AVAILABLE THROUGH COUNTY AGRICULTURAL EXTENSION OFFICES OR FROM NCDA. BECAUSE THE NCDA SOIL TESTING LAB REQUIRES 1-6 WEEKS FOR SAMPLE TURN —AROUND, SAMPLING MUST BE PLANNED WELL IN ADVANCE OF FINAL GRADING. TESTING IS ALSO DONE BY COMMERCIAL LABORATORIES. WHEN SOIL TESTS ARE NOT AVAILABLE, FOLLOW RATES SUGGESTED IN THE SEEDING SPECIFICATIONS SHOWN AT RIGHT. APPLICATION RATES USUALLY FALL INTO THE FOLLOWING RANGES: GROUND AGRICULTURAL LIMESTONE: — LIGHT —TEXTURED, SANDY SOILS: 1 TO 1-1/2 TONS/ACRE — HEAVY —TEXTURED, CLAYEY SOILS: 2-3 TONS/ACRE FERTILIZER: — GRASSES: 800-1200 LB/ACRE OF 10-10-10 (OR THE EQUIVALENT) — GRASS —LEGUME MIXTURES: 800-1200 LB/ACRE OF 5-10-10 (OR THE EQUIVALENT) APPLY LIME AND FERTILIZER EVENLY AND INCORPORATE INTO THE TOP 4-6 INCHES OF SOIL BY DISKING OR OTHER SUITABLE MEANS. OPERATE MACHINERY ON THE CONTOUR. WHEN USING A HYDROSEEDER, APPLY LIME AND FERTILIZER TO A ROUGH, LOOSE SURFACE. ROUGHEN SURFACES PRIOR TO SEEDING. COMPLETE SEEDBED PREPARATION BY BREAKING UP LARGE CLODS AND RAKING INTO A SMOOTH, UNIFORM SURFACE (SLOPES LESS THAN 3:1). FILL IN OR LEVEL DEPRESSIONS THAT CAN COLLECT WATER. BROADCAST SEED INTO A FRESHLY LOOSENED SEEDBED THAT HAS NOT BEEN SEALED BY RAINFALL. TEMPORARY SEEDING SPECIFICATIONS AREAS LEFT DISTURBED FOR LONGER THAT 30 DAYS BUT LESS THAN ONE (1) YEAR: Time Period Item Rate of Application (lb./acre) January Ito May 1 Rye (Grain) 120 Annual Lespedeza (Kobe) 50 Limestone 2,000 10-10-10 Fertilizer 750 Nitrogen (March only) 50 Mulch 4,000 May 1 to August 15 German Millet 40 Limestone 2,000 10-10-10 Fertilizer 750 Mulch 4,000 August 15 to December 30 Rye (Grain) 120 Limestone 2,000 10-10-10 Fertilizer 750 Mulch 4,000 If it is necessary to extend temporary cover beyond June 15, the area should be overseeded with 50 lb/acre of Kobe lespedeza in latter February or early March. SOIL AMENDMENTS FOLLOW RECOMMENDATIONS OF SOIL TESTS OR APPLY 2,000 LB/ACRE GROUND AGRICULTURAL LIMESTONE AND 750 LB/ACRE 10-10-10 FERTILIZER. MULCH APPLY 4,000 LB/ACRE STRAW. ANCHOR MULCH BY TACKING WITH ASPHALT, ROVING OR A MULCH ANCHORING TOOL. A DISK WITH BLADES SET NEARLY STRAIGHT CAN BE USED AS A MULCH ANCHORING. TOOL. MAINTENANCE REFERTILIZE IF GROWTH IS NOT FULLY ADEQUATE. RESEED, REFERTILIZE AND MULCH IMMEDIATELY FOLLOWING EROSION OR OTHER DAMAGE. SEEDING SEEDING DATES GIVEN IN THE SEEDING MIXTURE SPECIFICATIONS ARE DESIGNATED AS "BEST" OR "POSSIBLE". SEEDINGS PROPERLY CARRIED OUT WITHIN THE "BEST" DATES HAVE A HIGH PROBABILITY OF SUCCESS. IT IS ALSO POSSIBLE TO HAVE SATISFACTORY ESTABLISHMENT WHEN SEEDING OUTSIDE THESE DATES. HOWEVER, AS YOU DEVIATE FROM THEM, THE PROBABILITY OF FAILURE INCREASES RAPIDLY. SEEDING ON THE LAST DATE SHOWN UNDER "POSSIBLE" MAY REDUCE CHANGES OF SUCCESS BY 30-50%. ALWAYS TAKE THIS INTO ACCOUNT IN SCHEDULING LAND —DISTURBING ACTIVITIES. USE CERTIFIED SEED FOR PERMANENT SEEDING WHENEVER POSSIBLE. CERTIFIED SEED IS INSPECTED BY THE NORTH CAROLINA CROP IMPROVEMENT ASSOCIATION. IT MEETS PUBLISHED NORTH CAROLINA STANDARDS AND SHOULD BEAR AN OFFICIAL "CERTIFIED SEED" LABEL. LABELING OF NON —CERTIFIED SEED IS ALSO REQUIRED BY LAW. LABELS CONTAIN IMPORTANT INFORMATION ON SEED PURITY, GERMINATION, AND PRESENCE OF WOOD SEEDS. SEEDS MUST MEET STATE STANDARDS FOR CONTENT OF NOXIOUS WEEDS. DO NO ACCEPT SEED CONTAINING "PROHIBITED" NOXIOUS WEED SEED. INOCULATE LEGUME SEED WITH THE RHIZOBIUM BACTERIA APPROPRIATE TO THE SPECIES OF LEGUME. APPLY SEED UNIFORMLY WITH A CYCLONE SEEDER, DROP —TYPE SPREADER, DRILL, CULTIPACKER SEEDER, OR HYDROSEEDER ON A FIRM, FRIABLE SEEDBED. WHEN USING A DRILL OR CULTIPACKER SEEDER, PLANT SMALL GRAINS NO MORE THAN 1 INCH DEEP, GRASSES AND LEGUMES NO MORE THAN 1 /2 INCH. EQUIPMENT SHOULD BE CALIBRATED IN THE FIELD FOR THE DESIRED SEEDING RATE. WHEN USING BROADCAST —SEEDING METHODS, SUBDIVIDE THE AREA INTO WORKABLE SECTIONS AND DETERMINE THE AMOUNT OF SEED NEEDED FOR EACH SECTION. APPLY ONE—HALF THE SEED WHILE MOVING BACK AND FORTH ACROSS THE AREA, MAKING A UNIFORM PATTERN: THEN APPLY THE SECOND HALF IN THE SAME WAY, BUT MOVING AT RIGHT ANGLES TO THE FIRST PASS. MULCH ALL PLANTINGS IMMEDIATELY AFTER SEEDING. HYDROSEEDING: SURFACE ROUGHENING IS PARTICULARLY IMPORTANT WHEN HYDROSEEDING, AS A ROUGHENED SLOPE WILL PROVIDE SOME NATURAL COVERAGE FOR LIME, FERTILIZER, AND SEED. THE SURFACE SHOULD NOT BE COMPACTED OR SMOOTH. FINE SEEDBED PREPARATION IS NOT NECESSARY FOR HYDROSEEDING OPERATIONS: LARGE CLODS, STONES, AND IRREGULARITIES PROVIDE CAVITIES IN WHICH SEEDS CAN LODGE. RATE OF WOOD FIBER (CELLULOSE) APPLICATION SHOULD BE AT LEAST 2,000 LB/ACRE. APPLY LEGUME INOCULATES AT FOUR TIME THE RECOMMENDED RATE WHEN ADDING INOCULATE TO A HYDROSEEDER SLURRY. IF A MACHINERY BREAKDOWN OF 1 /2 TO 2 HOURS OCCURS, ADD 50% MORE SEED TO THE TANK, BASED ON THE PROPORTION OF THE SLURRY REMAINING. THIS SHOULD COMPENSATE FOR DAMAGE TO SEED. BEYOND 2 HOURS, A FULL RATE OF NEW SEED MAY BE NECESSARY. LIME IS NOT NORMALLY APPLIED WITH A HYDRAULIC SEEDER BECAUSE IT IS ABRASIVE. IT CAN BE BLOWN ONTO STEEP SLOPES IN DRY FORM. MAINTENANCE: GENERALLY, A STAND OF VEGETATION CANNOT BE DETERMINED TO BE FULLY ESTABLISHED UNTIL SOIL COVER HAS BEEN MAINTAINED FOR ONE FULL YEAR FROM PLANTING, INSPECT SEEDED AREAS FOR FAILURE AND MAKE NECESSARY REPAIRS AND RESEEDINGS WITHIN THE SAME SEASON, IF POSSIBLE. RESEEDING: IF A STAND HAS INADEQUATE COVER, RE—EVALUATE CHOICE OF PLANT MATERIALS AND QUANTITIES OF LIME AND FERTILIZER. RE—ESTABLISH THE STAND AFTER SEEDBED PREPARATION OR OVER— SEED THE STAND. CONSIDER SEEDING TEMPORARY, ANNUAL SPECIES IF THE TIME OF YEAR IS NOT APPROPRIATE FOR PERMANENT SEEDING. IF VEGETATION FAILS TO GROW, SOIL MUST BE TESTED TO DETERMINE IF ACIDITY OR NUTRIENT IMBALANCE IS RESPONSIBLE. FERTILIZATION: ON THE TYPICAL DISTURBED SITE, FULL ESTABLISHMENT USUALLY REQUIRES REFERTILIZATION IN THE SECOND GROWING SEASON. FINE TURF REQUIRES ANNUAL MAINTENANCE FERTILIZATION. USE SOIL TESTS IF POSSIBLE OR FOLLOW THE GUIDELINES GIVEN FOR THE SPECIFIC SEEDING MIXTURE. PERMANENT SEEDING SPECIFICATIONS Time Period Item Rate of Application (lb./acre) August 20 to October 25 Tall Fescue 100 Sericea Lespedeza 30 Kobe Lespedeza 10 Common Bermuda or Pensacola Bahia 10/25 Limestone 4,000 10-10-10 Fertilizer 1,000 Mulch 4,000 to 5,000 February 1 to April 15 Tall Fescue 100 Sericea Lespedeza 30 Kobe Lespedeza 10 Limestone 4,000 10-10-10 Fertilizer 1,000 Mulch 4.000 to 5.000 SOIL AMENDMENTS APPLY LIME AND FERTILIZER ACCORDING TO SOIL TESTS, OR APPLY 4,000 LB/ACRE GROUND AGRICULTURAL LIMESTONE AND 1,000 LB/ACRE 10-10-10 FERTILIZER. MULCH APPLY 4,000-5,000 LB/ACRE GRAIN STRAW OR EQUIVALENT COVER OF ANOTHER SUITABLE MULCHING MATERIAL. ANCHOR MULCH BY TACKING WITH ASPHALT, ROVING, OR NETTING. NETTING IS THE PREFERRED ANCHORING METHOD ON STEEP SLOPES. MAINTENANCE REFERTILIZE IN THE SECOND YEAR UNLESS GROWTH IS FULLY ADEQUATE. MAY BE MOWED ONE OR TWICE A YEAR, BUT MOWING IS NOT NECESSARY. RESEED, FERTILIZE, AND MULCH DAMAGED AREAS 33A SEEDING SCHEDULE C605 N.T.S. 1.25 LB./LINEAR FT. STEEL POSTS FILTER FABRIC BACKFILL TRENCH WITH COMPACTED EARTH 6• Mqk ` Sp USE EITHER FLAT —BOTTOM - OR V—BOTTOM TRENCH SEE DETAILS SILT FENCE INSTALLATION PROVIDE SILT FENCE SUPPORT CONSISTING OF 14 GA. STEEL WIRE W/ 6" MESH SPACING OR PREFABRICATED POLYMER MESH OF EQUIVALENT STRENGTH HEAVY DUTY PLASTIC TIE FOR STEEL POSTS (RESTRICT TO TOP 8—INCHES OF FABRIC) BURY FABRIC SILT FENCE — GENERAL NOTES 1. DO NOT PLACE SILT FENCE ACROSS CHANNELS OR IN OTHER AREAS SUBJECT TO CONCENTRATED FLOWS. SILT FENCE SHOULD NOT BE USED AS A VELOCITY CONTROL BMP. CONCENTRATED FLOWS ARE ANY FLOWS GREATER THAN 0.5 CFS. 2. MAXIMUM SHEET OR OVERLAND FLOW PATH LENGTH TO THE SILT FENCE SHALL BE 100—FEET. 3. MAXIMUM SLOPE STEEPNESS (NORMAL [PERPENDICULAR] TO THE FENCE LINE) SHALL BE 2:1. 4. SILT FENCE JOINTS, WHEN NECESSARY, SHALL BE COMPLETED BY ONE OF THE FOLLOWING OPTIONS: — WRAP EACH FABRIC TOGETHER AT A SUPPORT POST WITH BOTH ENDS FASTENED TO THE POST, WITH A 1—FOOT MINIMUM OVERLAP; — OVERLAP SILT FENCE BY INSTALLING 3—FEET PASSED THE SUPPORT POST TO WHICH THE NEW SILT FENCE ROLL IS ATTACHED. ATTACH OLD ROLL TO NEW ROLL WITH HEAVY—DUTY PLASTIC TIES; OR, — OVERLAP ENTIRE WIDTH OF EACH SILT FENCE ROLL FROM ONE SUPPORT POST TO THE NEXT SUPPORT POST. FI NCDOT #5 OR #57 STONE DOWNSTREAM VIEW CROSS—SECTION 34 ROCK CHECK DAM C605 N.T.S. CLASS 1 RIPRAP HEAVY DUTY PLASTIC TIES FILTER FABRIC COMPACTED EARTH00 N I RUNOFF — iD FILTER N FABRIC 4" MIN FLAT —BOTTOM TRENCH DETAIL HEAVY DUTY PLASTIC TIES FILTER FABRIC COMPACTED EARTH BURY FILTER FABRIC AT LEAST 12—INCHES V—SHAPED TRENCH DETAIL 5. ATTACH FILTER FABRIC TO THE STEEL POSTS USING HEAVY—DUTY PLASTIC TIES THAT ARE EVENLY SPACED WITHIN THE TOP 8—INCHES OF THE FABRIC. 6. INSTALL THE SILT FENCE PERPENDICULAR TO THE DIRECTION OF THE STORMWATER FLOW AND PLACE THE SILT FENCE THE PROPER DISTANCE FROM THE TOE OF STEEP SLOPES TO PROVIDE SEDIMENT STORAGE AND ACCESS FOR MAINTENANCE AND CLEANOUT. 7. INSTALL SILT FENCE CHECKS (TIE —BACKS) EVERY 50-100 FEET, DEPENDENT ON SLOPE, ALONG SILT FENCE THAT IS INSTALLED WITH SLOPE AND WHERE CONCENTRATED FLOWS ARE EXPECTED OR ARE DOCUMENTED ALONG THE PROPOSED/INSTALLED SILT FENCE. 32 SILT FENCE C605 N.T.S. EROSION CONTROL MATTING INSTALLATION: 1. INSTALL NA GREEN SC250 OR ENGINEER APPROVED EQUAL IN ACCORDANCE WITH MANUFACTURERS SPECIFICATIONS AND NOTES BELOW. 2. PREPARE SOIL BEFORE INSTALLING ROLLED EROSION CONTROL PRODUCTS (RECPS), INCLUDING ANY NECESSARY APPLICATION OF LIME, FERTILIZER, AND SEED. 3. BEGIN AT THE TOP OF THE SLOPE BY ANCHORING THE RECPS IN A 6"(15CM) DEEP X 6"(15CM) WIDE TRENCH WITH APPROXIMATELY 12" (30CM) OF RECPS EXTENDED BEYOND THE UP —SLOPE PORTION OF THE TRENCH. ANCHOR THE RECPS WITH A ROW OF STAPLES/STAKES APPROXIMATELY 12" (30CM) APART IN THE BOTTOM OF THE TRENCH. BACKFILL AND COMPACT THE TRENCH AFTER STAPLING. APPLY SEED TO THE COMPACTED SOIL AND FOLD THE REMAINING 12"(30CM) PORTION OF RECPS BACK OVER THE SEED AND COMPACTED SOIL. SECURE RECPS OVER COMPACTED SOIL WITH A ROW OF STAPLES/STAKES SPACED APPROXIMATELY 12"(30CM) APART ACROSS THE WIDTH OF THE RECPS. 4. ROLL THE RECPS (A) DOWN OR (B) HORIZONTALLY ACROSS THE SLOPE. RECPS WILL UNROLL WITH APPROPRIATE SIDE AGAINST THE SOIL SURFACE. ALL RECPS MUST BE SECURELY FASTENED TO SOIL SURFACE BY PLACING STAPLES/STAKES IN APPROPRIATE LOCATIONS AS SHOWN IN THE STAPLE PATTERN GUIDE. 5. THE EDGES OF PARALLEL RECPS MUST BE STAPLED WITH APPROXIMATELY 2" — 5" (5-12.5CM) OVERLAP DEPENDING ON THE RECPS TYPE. 6. CONSECUTIVE RECPS SPLICED DOWN THE SLOPE MUST BE END OVER END (SHINGLE STYLE) WITH AN APPROXIMATE 3"(7.5CM) OVERLAP. STAPLE THROUGH OVERLAPPED AREA, APPROXIMATELY 12"(30CM) APART ACROSS ENTIRE RECPS WIDTH. NOTE: 1. IN LOOSE SOIL CONDITIONS, THE USE OF STAPLE OR STAKE LENGTHS GREATER THAN 6"(15CM) MAY BE NECESSARY TO PROPERLY SECURE THE RECPS. 2. ALL SLOPES WITH SLOPE GREATER THAN 3:1 THAT CONSTRUCTION ACTIVITIES HAVE PERMANENTLY OR TEMPORARILY CEASED SHALL BE STABILIZED WITH NA GREEN SC 150 EROSION CONTROL MATTING OR APPROVED EQUAL. 33 EROSION CONTROL MATTING C605 N.T.S. NORTH CAROLINA BOARD OF EXAMINERS FOR ENGINEERS AND SURVEYORS LICENSE NO. C-3035 0 W o Z W Cn cc a 0 U 0 0 LU m w b N Q N N 0 CU ICI ti T 00 4-A N Z ti 4) O M N 1 1 U Q a) E rl Q X o 1 Cd -5 1 1 -D .5 LL .E- U in M cs. ' M 3 1 3 � Q N > a rn Lq a W � O O O T G CU U.) Z WaQ zZ � � QC)O J 0. J O J _ aLLZJ= U 0 Z � M Q Q J Z Z � W = Z 0 W 0- =) J LU o>. O Uj U Q Z N Z c OW(n Z�Z Q Q = L) V Z N N T Y/ J LU Q r m m o Z � Y U O w � U H w vi U 5 N W Z � 00 C Z L) O U w ,.,•.HR CA,, �ti9: oz .s4 �FESSlp = J¢ w > f w w o - SEAL _ - 0 IL 0391'14 0 0 Q DRAWING NO.: BEFORE YOU DIGI %9�` Ng.E I.C605 CALL 1-800-632-4949 ",,0,4/V T.'��J` N.C. ONE -CALL CENTER IT'S THE LAWI SHEET 20 of 30 8 7 6 5 CI 3 8 1 7 N. 5 CI 3 2 I G F E 6" FLANGED D 1 6"0 SDR 11 HDPE PIPE MOUND BACKFILL MATERIALS ---- AROUND FINISHED WELL EXISTING GRADE INS] IJT"Im(oZelFNA BENTONITE PLUG a SOIL BACKFILL C 6"0 HDPE, SDR 11 N SOLID PIPE N N BENTONITE PLUG i a 0 o SOIL BACKFILL U ►0 1" TO 2" DIAMETER WASHED STONI 6"0 HDPE, SDR 11 PERFORATED PIPE 1/2" DIAMETER HOLE SPACED 90' AROUND THE CIRCUMFERENCE OF THE PIPE, AND 3" ON CENTER ALONG THE PIPE. STAGGER ADJACENT ROWS OF PERFORATION ALONG THE PIPE. END CAP EAD ASSEMBLY —2'- 0" MIN. —2'- 0" MIN. 7'-0„ 2'-0" MIN. VARIES 1'-0" MIN. 1'-0" VARIES 1'-0" 3'-0" DIAMETER 36 LANDFILL GAS WELL C606 NOT TO SCALE 4'-0" EMERGENCY SPILLWAY TO INCLUDE IMPERVIOUS LINER TO EXISTING GRADE EMBANKMENT MIN. 5' WIDE LINER TO EXTEND UP SIDES OF WEIR MIN 12" — TYP. 1' MIN BOTH SIDES FREEBOARD 6" MAX WATER DEPTH ACROSS SPILLWAY M CARRY LINER DOWN TO EXISTING GRADE (EDGE OF DISTURBANCE) —_ SEE EROSION CONTROL PLAN FOR DISCHARGE PIPING SIZE & LENGTH TURN EDGES OF J FABRIC DOWN MIN. SKIMMER TO EXIT AT POND 12" INTO GROUND INVERT ELEVATION OR LOWER — TAMP AND IF POSSIBLE COMPACT PROVIDE PROPER HORIZ. CLEARANCE FROM SLOPE IN ORDER TO PROVIDE FREE MOVEMENT OF SKIMMER BAFFLES TO BE 6" HIGHER THAN BASIN DEPTH INDICATED 0 PLAN D BASIN BOTTOM RIP RAP PAD UNDER SKIMMER ASSEMBLY DRY SEDIMENT BASIN SECTIONAL VIEW CONSTRUCTION REQUIREMENTS 1. CLEAR, GRUB, AND STRIP THE AREA UNDER THE EMBANKMENT OF ALL VEGETATION AND ROOT MAT. REMOVE ALL SURFACE SOIL CONTAINING HIGH AMOUNTS OF ORGANIC MATTER AND STOCKPILE OR DISPOSE OF IT PROPERLY. HAUL ALL OBJECTIONABLE MATERIAL TO THE DESIGNATED DISPOSAL AREA. PLACE TEMPORARY SEDIMENT CONTROL MEASURES BELOW BASIN AS NEEDED. 2. ENSURE THAT FILL MATERIAL FOR THE EMBANKMENT IS FREE OF ROOTS, WOODY VEGETATION, ORGANIC MATTER, AND OTHER OBJECTIONABLE MATERIAL. PLACE THE FILL IN LIFTS NOT TO EXCEED 9 INCHES, AND MACHINE COMPACT IT. OVER FILL THE EMBANKMENT 6 INCHES TO ALLOW FOR SETTLEMENT. 3. SHAPE THE BASIN TO THE SPECIFIED DIMENSIONS. PREVENT THE SKIMMING DEVICE FROM SETTLING INTO THE MUD BY EXCAVATING A SHALLOW PIT UNDER THE SKIMMER OR PROVIDING A LOW SUPPORT UNDER THE SKIMMER OF STONE OR TIMBER. 4. PLACE THE BARREL (TYPICALLY 4—INCH SCHEDULE 40 PVC PIPE) ON A FIRM, SMOOTH FOUNDATION OF IMPERVIOUS SOIL. DO NOT USE PERVIOUS MATERIAL SUCH AS SAND, GRAVEL OR CRUSHED STONE AS BACKFILL AROUND THE PIPE. PLACE THE FILL MATERIAL AROUND THE PIPE SPILLWAY IN 4—INCH LAYERS AND COMPACT IT UNDER AND AROUND THE PIPE TO AT LEAST THE SAME DENSITY AS THE ADJACENT EMBANKMENT. CARE MUST BE TAKEN NOT TO RAISE THE PIPE FROM THE FIRM CONTACT WITH ITS FOUNDATION WHEN COMPACTING UNDER THE PIPE HAUNCHES. 5. ASSEMBLE THE SKIMMER FOLLOWING THE MANUFACTURERS INSTRUCTIONS, OR AS DESIGNED. 6. LAY THE ASSEMBLED SKIMMER ON THE BOTTOM OF THE BASIN WITH THE FLEXIBLE JOINT AT THE INLET OF THE BARREL PIPE. ATTACH THE FLEXIBLE JOINT TO THE BARREL AND POSITION THE SKIMMER OVER THE EXCAVATED PIT OR SUPPORT. BE SURE TO ATTACH A ROPE TO THE SKIMMER AND ANCHOR IT TO THE SIDE OF THE BASIN. THIS WILL BE USED TO PULL THE SKIMMER TO THE SIDE FOR MAINTENANCE. 7. EARTHEN SPILLWAYS — INSTALL THE SPILLWAY IN UNDISTURBED SOIL TO THE GREATEST EXTENT POSSIBLE. THE ACHIEVEMENT OF PLANNED ELEVATIONS, GRADE, DESIGN WIDTH, AND ENTRANCE AND EXIT CHANNEL SLOPES ARE CRITICAL TO THE SUCCESSFUL OPERATION OF THE SPILLWAY. THE SPILLWAY SHOULD BE LINED WITH LAMINATED PLASTIC OR IMPERMEABLE GEOTEXTILE FABRIC. THE FABRIC MUST BE WIDE AND LONG ENOUGH TO COVER THE BOTTOM AND SIDES AND EXTEND ONTO THE TOP OF THE DAM FOR ANCHORING IN A TRENCH. THE EDGES MAY BE SECURED WITH 8—INCH STAPLES OR PINS. THE FABRIC MUST BE LONG ENOUGH TO EXTEND DOWN THE SLOPE AND EXIT ONTO STABLE GROUND. THE WIDTH OF THE FABRIC MUST BE ONE PIECE, NOT JOINED OR SPLICED; OTHERWISE WATER CAN GET UNDER THE FABRIC. IF THE LENGTH OF THE FABRIC IS INSUFFICIENT FOR THE ENTIRE LENGTH OF THE SPILLWAY, MULTIPLE SECTIONS, SPANNING THE COMPLETE WIDTH, MAY BE USED. THE UPPER SECTION(S) SHOULD OVERLAP THE LOWER SECTION(S) SO THAT WATER CANNOT FLOW UNDER THE FABRIC. SECURE THE UPPER EDGE AND SIDES OF THE FABRIC IN A TRENCH WITH STAPLES OR PINS. 8. INLETS — DISCHARGE WATER INTO THE BASIN IN A MANNER TO PREVENT EROSION. USE TEMPORARY SLOPE DRAINS OR DIVERSIONS WITH OUTLET PROTECTION TO DIVERT SEDIMENT —LADEN WATER TO THE UPPER END OF THE POOL AREA TO IMPROVE BASIN TRAP EFFICIENCY. 9. EROSION CONTROL — CONSTRUCT THE STRUCTURE SO THAT THE DISTURBED AREA IS MINIMIZED. DIVERT SURFACE WATER AWAY FROM BARE AREAS. COMPLETE THE EMBANKMENT BEFORE THE AREA IS CLEARED. STABILIZE THE EMERGENCY SPILLWAY EMBANKMENT AND ALL OTHER DISTURBED AREAS ABOVE THE CREST OF THE PRINCIPAL SPILLWAY IMMEDIATELY AFTER CONSTRUCTION. 10. INSTALL POROUS BAFFLES. 11. AFTER ALL THE SEDIMENT —PRODUCING AREAS HAVE BEEN PERMANENTLY STABILIZED, REMOVE THE STRUCTURE AND ALL THE UNSTABLE SEDIMENT. SMOOTH THE AREA TO BLEND WITH THE ADJOINING AREAS AND STABILIZE PROPERLY. 12. REFERENCE NCDEQ EROSION AND SEDIMENT CONTROL PLANNING AND DESIGN MANUAL. 35 SKIMMER BASIN C606 NOT TO SCALE SKIMMER BASIN SECTION VIEW POROUS BAFFLES (DO NOT USE SILT FENCE) (SEE DETAIL 38/C305) NOTE: ALL EMERGENCY SPILLWAYS SHALL BE LINED IN ACCORDANCE WITH NCDEQ STANDARDS. FABRIC SHALL BE TERRATEX GS — INSTALL PER MANUFACTURER'S RECOMMENDATIONS SEDIMENT STORAGE ZONE INFLOW STRUCTURE "-- RIP —RAP STABILIZATION DEWATERING ZONE INSPECTION AND MAINTENANCE 1. INSPECT SKIMMER SEDIMENT BASINS AT LEAST WEEKLY AND AFTER EACH SIGNIFICANT (ONE—HALF INCH OR GREATER) RAINFALL EVENT AND REPAIR IMMEDIATELY. REMOVE SEDIMENT AND RESTORE THE BASIN TO ITS ORIGINAL DIMENSIONS WHEN SEDIMENT ACCUMULATES TO ONE—HALF THE HEIGHT OF THE FIRST BAFFLE. PULL THE SKIMMER TO ONE SIDE SO THAT THE SEDIMENT UNDERNEATH IT CAN BE EXCAVATED. EXCAVATE THE SEDIMENT FROM THE ENTIRE BASIN, NOT JUST AROUND THE SKIMMER OR THE FIRST CELL. MAKE SURE VEGETATION GROWING IN THE BOTTOM OF THE BASIN DOES NOT HOLD DOWN THE SKIMMER. 2. REPAIR THE BAFFLES IF THEY ARE DAMAGED. RE —ANCHOR THE BAFFLES IF WATER IS FLOWING UNDERNEATH OR AROUND THEM. 3. IF THE SKIMMER IS CLOGGED WITH TRASH AND THERE IS WATER IN THE BASIN, USUALLY JERKING ON THE ROPE WILL MAKE THE SKIMMER BOB UP AND DOWN AND DISLODGE THE DEBRIS AND RESTORE FLOW. IF THIS DOES NOT WORK, PULL THE SKIMMER OVER TO THE SIDE OF THE BASIN AND REMOVE THE DEBRIS. ALSO CHECK THE ORIFICE INSIDE THE SKIMMER TO SEE IF IT IS CLOGGED; IF SO REMOVE THE DEBRIS. 4. IF THE SKIMMER ARM OR BARREL PIPE IS CLOGGED, THE ORIFICE CAN BE REMOVED AND THE OBSTRUCTION CLEARED WITH A PLUMBER'S SNAKE OR BY FLUSHING WITH WATER. BE SURE AND REPLACE THE ORIFICE BEFORE REPOSITIONING THE SKIMMER. 5. CHECK THE FABRIC LINED SPILLWAY FOR DAMAGE AND MAKE ANY REQUIRED REPAIRS WITH FABRIC THAT SPANS THE FULL WIDTH OF THE SPILLWAY. CHECK THE EMBANKMENT, SPILLWAYS, AND OUTLET FOR EROSION DAMAGE, AND INSPECT THE EMBANKMENT FOR PIPING AND SETTLEMENT. MAKE ALL NECESSARY REPAIRS IMMEDIATELY. REMOVE ALL TRASH AND OTHER DEBRIS FROM THE SKIMMER AND POOL AREAS. 6. FREEZING WEATHER CAN RESULT IN ICE FORMING IN THE BASIN. SOME SPECIAL PRECAUTIONS SHOULD BE TAKEN IN THE WINTER TO PREVENT THE SKIMMER FROM PLUGGING WITH ICE. NORTH CAROLINA BOARD OF EXAMINERS FOR ENGINEERS AND SURVEYORS LICENSE NO. C-3035 0 LU zp L a Z U 0 U) w cl W 0 W 0 U 0 r 0 w z_ 2 0 w W o a � o no ICI ti ^ N co }� N Z ti w O M N 1 Q o 1 Um U co E x 11 D 1 LL .E U (h U ti 1 1 � M � cM Q N a a D t PIP c a O � p '? O .P4 u U u'i Z Waa �ZZ aJ j C) Zama NO I.L �J=U aJ�= C�LLz� a Z LL. Z a � ~ a W Z om = W LLu u >. 0 Z 0 oC 0 �Mz aQa = U m m U Z N cc r J a Q Z m Q w W U O W U H co r C6 U O N w ~ Z H m 0 Z 0 0 U w r �o$ssl�r �✓y,-,r Q ° o > SEAL � 0 Q39Y14 _ o o a % DRAWING NO.: BEFORE YOU DIG! C606 CALL 1-800-632-4949 ''°qN T. �� ,�``* N.C. ONE -CALL CENTER �� IT'S THE LAWI SHEET 21 of 30 C n 8 1 6 1 5 3 E� H 5 4 3 ti G tmm NOTES: 1. SECOND LEACHATE COLLECTION SUMP AND RISER PIPE IS OPTIONAL FOR CONSTRUCTION. 2. LEACHATE COLLECTION SUMP PLAN DENOTES SURFACE OF HDPE GEOMEMBRANE LINER. B 3. BEND PIPE OR PROVIDE FITTING AS REQUIRED TO ALIGN CONNECTION PIPE WITH SUMP PUMP AND SIDESLOPE RISER. ALSO BEND OR PROVIDE FITTING AS REQUIRED TO ALIGN LEACHATE COLLECTION PIPE WITH SIDESLOPE CLEANOUT RISER. /0 COARSE AGGREGATE AASHTO NO. 57 OR NO. 67 STONE AGGREGATE TO BE EXPOSED PRIOR TO WASTE PLACEMENT 35 LEACHATE COLLECTION PIPE C700 N.T.S. "Alk LEACHATE COLLECTION SUMP AND RISER PLAN N.T.S. 6" (TYP.) A-0-J 8"0 SDR-11 HDPE PIPE ALL HOLES %"0 a ILV SECTION A -A PERFORATION PATTERN 36 PERFORATED LEACHATE COLLECTION PIPE C700 N.T.S. 4"x4" POST PAINTED BLUE LABELED LEACHATE PIPE CLEANOUT IN 2" BLACK LETTERS (TOP 3" OF NOTES: v\ \ r\ \ r\ \ v\ . v. . " . ,. .. 1. LEACHATE COLLECTION PIPES SHALL BE CLEANED UPON INCIDENCE OF DECREASED (50%) FLOW FROM A PARTICULAR COLLECTION PIPE. FLOW WILL BE DOCUMENTED AND COMPARED FOR 60 DAYS TO FLOWS FROM SIMILAR CELLS WITH SIMILAR WASTE VOLUMES. DIURNAL FLOWS FROM INDIVIDUAL COLLECTION PIPES MUST BE CONSIDERED. SHOULD THE COMPARISON INDICATE BLOCKAGE IN A PARTICULAR PIPE, IT SHALL BE CLEANED. 2. LEACHATE COLLECTION PIPES SHALL BE HYDRAULICALLY CLEANED USING HIGH PRESSURE WASHERS AS NEEDED. 3. LEACHATE CLEANOUT WILL BE VISUALLY INSPECTED ANNUALLY 38 LEACHATE CLEANOUT C700 N.T.S. a 8" TEE WITH BLIND FLANGE O w o � a Z U O 0 W W W 0 U Z O r 0 K co 0 w W o Q � no ICI ti ^ N co }� N z ti � °r o 0 �j M N Q � O U v c E � a x LL c U 4� ti 3 . M > O � cM Q N O a E t PIP a �y a� o U Lc) Z Waa �ZZ a J J =00 Zama I.L OJ=v aJ�= �oZF_ azo0 Z a ~ a w Z om W = W O W�wC� a o Z O I=LLI O cl)MZ Cl) aQa U m r m U Z N cc r J a } } CD m � W Q Y U W NORTH CAROLINA W cr 0 C6 BOARD OF EXAMINERS Qco FOR ENGINEERS AND = o z SURVEYORS LICENSE C) w NO. C-3035 W m w J w 0 iisililllill" q*6 S w � W > O rw' C Cc CL 099Z14 = o o a P';� �Z'�+'�;� �` DRAWING NO.: C n 0 5 CI BEFORE YOU DIGI CALL 1-800-632-4949 N.C. ONE -CALL CENTER IT'S THE LAWI C700qN T. 8�,�••` SHEET 22 OF 30 I m 7 2 G F E 1 W MA COARSE AGGREGATE AASHTO NO. 57 OR NO. 67 STONE OR APPROVED ALTERNATE 42 TYPICAL HDPE LEACHATE C701 SUMP PUMP HOUSING (TYP.) LEACHATE PUMP AND --,- DISCHARGE HOSE ON TROLLEY / /mo/�0222/e/.", 2' - 0" (APPROX) - -- - • • • , • • • e TRIPLE LAYER OF HDPE FOR RUB SHEET UNDER FLAT STOCK WASTE + 20' 24" ADDED PROTECTIVE COVER OVER SUMP AREA 1" THICK HDPE FLAT STOCK 36 PERFORATED LEA( C701/ COLLECTION PIPE 8 OZ/SY NON -WOVEN GEOTEXTILE FILTER FABRIC (ALL AROUND AGGREGATE) I I - ♦ • X X X X ♦ • • • • • • • ///��� X �1�1�1�1�1�11� IW1�11111 / • ♦ ♦ iI1//v �© Al - BASE SYSTEM - .11 •11 39 LEACHATE COLLECTION SUMP SECTION C70 N.T.S. 3" HOSE WITH 1/8" STAINLESS STEEL PULL-OUT CABLE EACH PUMP. ATTACH 18"0 SOLID HDPE SDR-11 PUMP POWER CABLE AT 5' INTERVALS SIDESLOPE RISER (TYP.) TO DISCHARGE HOSE USING NYLON CABLE TIES (TYP.) 8"0 SOLID HDPE SDR-11 J w SIDESLOPE CLEANOUT RISER �� ��0 1 0" + 4" (APPROX.) 1 V 2 41 LEACHATE COLLECTION RISER SECTION C70 N.T.S. 42 ;70 COARSE AGGREGATE AASHTO NO. 57 OR NO. 67 STONE OR APPROVED ALTERNATE 8 OZ/SY NON —WOVEN GEOTEXTILE FILTER FABRIC (ALL AROUND AGGREGATE) WASTE COLLECTION PIPE 24" ADDED PROTECTIVE COVER OVER SUMP AREA 36 18" SOLID HDPE SDR-11 SIDESLOPE RISER PIPE 2" HOSE WITH 1 /8" STAINLESS STEEL PULL-OUT CABLE. ATTACH PUMP POWER CABLE AT 5' INTERVALS TO DISCHARGE HOSE USING NYLON CABLE TIES. 8"0 BEND •.1`1`1`1`1►`1`1`1`1`1`1`1`1`1`1`1`1`1`1`1`1`1`1`1`1`�� � � � , ♦•• 1. 1- �1� /11111111111111111111111111/ / -'• --• --• --• --• --• --• --• --• --• --• --• --• - --• ���"� �"� � � - �`ty,`Ty,`Ty,'Ty,'Ty�'T. _ T. - Ty_, -Ty,- : ♦• •• 1�1�1�1�1�1�1�1� •♦• /`j �i,. j ♦ •.•.•PERFORATED LENGTH _�� ��/G�%1//Ii•�•♦II�i11111111111/►1111111111111111111111111w-mariu1••••• •- • • 4o LEACHATE COLLECTION SUMP AND RISER PROFILE C70 N.T.S. NOTE: 1. LEACHATE COLLECTION SUMP PUMP SHALL BE INSTALLED IN ONE RISER PIPE. THE SECOND LEACHATE SUMP PUMP MAY BE INSTALLED IN SECOND SIDESLOPE PIPE BASED ON RISER PERFORMANCE, CURRENT LEACHATE PERFORMANCE, AND LANDFILL OPERATIONS. I A \ 1 O 'P furl— 1 I nUrC rlrr- SECTION A —A PERFORATION PATTERN 42 TYPICAL HDPE LEACHATE SUMP PUMP HOUSING C70 N.T.S. 43 CLOSURE SYSTEM RISER PIPE PENETRATION C70 N.T.S. 8"0 SOLID HDPE SDR-11 SIDESLOPE RISER CLEANOUT (PROJECTED) BEFORE YOU DI01 CALL 1-800-632-4949 N.C. ONE -CALL CENTER IT'S THE LAW1 O Wzp � a Z O U U) w c' W 0 0 U O (APPROX.) w 0 o � O NORTH CAROLINA BOARD OF EXAMINERS FOR ENGINEERS AND SURVEYORS LICENSE NO. C-3035 ci co -4-D N � Z C14 °r o m N 1 Q o 1 Ucmo U E x 11 D 1 U- .� U � co (h U 1 1 � m M i�l � cM Q N a a PIP a O U � Z WaQ �ZZ aJ� =0O Zava �J=U aJ�= � O O 1..` a. Q W Z om = W O Lu>. Lu Z N Z c O W v/ Z � Z Q a = U U m Z N m 0) cc r J a } CD W } m � Y o z U W cr 2 W 0 U � fn Q = o N � Z U w Q W m w J w 0 ,�tittu►►►rrr., �,. �.o��1r'L CARp4p: .$ S w U w O rrww,, MGA4 i i o39Y14 w o �r o a_ .'' DRAWING NO.: C701 SHEET 23 OF 30 n 0 E:3 7 al G F F ti 18"0 HDPE SDR 1 1 -\ SIDESLOPE RISER CCO❑ PROVIDE HDPE FLANGED FITTING AND HDPE BLIND FLANGE AT END OF CLEAN OUT RISER 8"0 SOLID HDPE SDR 11- U LEACHATE COLLECTION PIPE CLEANOUT RISER 4"0 HDPE VENT PIPE 2"0 HOSE (OR FLEXIBLE PIPE) WITH 1 /8" STAINLESS STEEL PULLOUT CABLE. ATTACH PUMP POWER CABLES AND CONTROL CABLES AT 5' INTERVALS TO DISCHARGE HOSE USING NYLON CABLE TIES. 4"x4"x" PLATE H2 H1 SQUARE BLIND FLANGE (FOR FUTURE CELL CONNECTION) I I I I 47 VALVE BOX AND COLLAR 70 • it 6" GATE VALVE • • i i MOTOR LEAD AND LEVEL SENSOR BREAKOUT I I JUNCTION BOXES I I 113 E TO SdCOND i i PUMP/FLOW METER RISER PIPE CONTROL PANEL C�0❑ (OPTIONAL) ________-_- _-_--__ Ir I I 2"0 SCH 80 PVC PIPE OR PREMANUFACTURED HDPE PIPE I FLOW METER SENSOR E BREAKOUT JUNCTION BOX 4"0 HDPE SDR 21 LEACHATE FORCEMAIN (CONNECT TO PREVIOUS CELL) I I I I L� E of U 44 LEACHATE RISER PLAN C70 N.T.S. 2"x Y4" STEEL STRAP 3/4" THREADED ROD W/HEX NUTS 9"(MIN.) Dx1.5 N D (MIN. THICKESS) STANDARD CONCRETE BLOCKING FOR HORIZONTAL BENDS (TYP.) VERTICAL BENDS -UNDISTURBED EARTH CONCRETE BLOCKING H2 MIN. BEARING AGAINST PIPE I I I I I I EDGE OF TRENCH HORIZONTAL BENDS PADDL 2"0 DISCHARGE H OR FLEXPIPE NO' PR( INS PIP B/ S/ 18"0 HDPE SDR 11 RISER 0 x 1" FLAT STOCK "0x3" LONG SS EYE JITH SS NUT AND SS R (TYP.) 3/8"0 SS THREADED COUPLING STAINLESS STEEL BOLTS, RS AND NUTS (TYP.) 45 RISER BULKHEAD AND FITTINGS C70 N.T.S. V �v CONCRETE all, NOTE: DIMENSIONS BLOCKING ARE ONTROLLED BY SAME BLOCKING I < , DIAMETER OF BRANCH AS OPPOSITE SIDE EDGE OF TRENCH\j MAIN C' = BRANCH = C' PLUG 2" D.I. PIPE STRUT II \ 12 1 6" H2 H1 TEES, CROSSES, & PLUGS D (MIN. THICKNESS) UNDISTURBED EARTH V (MIN. BEARING AGAINST TRENCH WALL) I I +\� -------L_u 8" (MIN.) CONCRETE BLOCKING NOTE: CONCRETE THRUST BLOCKS MUST BE CURED A MINIMUM OF 96 HOURS BEFORE PRESSURIZING THE PIPING. SECTION G-G TABLE OF DIMENSIONS FOR CONCRETE BLOCKING TYPE TEES, CROSSES & PLUGS 90' BENDS 45' BENDS 22 1/2' BENDS 11 1/4' BENDS TYPE PIPE SIZE H1 H2 V D Cu. FT H1 H2 V D CU. FT H1 H2 V D CU. FT H1 H2 V D CU. FT H1 H2 V D CU. FT PIPE SIZE 4" 28" 16" 16" 16" 3.3 24" 14" 12" 12" 1.6 16" 12" 10" 12" 1.0 12" 10" 9" 12" 0.7 10" 10" 8" 12" 0.6 4" 49 CONCRETE THRUST BLOCKING FOR FORCEMAINS C70 N.T.S. FLOW TOTALIZER (OPTIONAL) UTILITY 45 RISER BULKHEAD AND FITTINGS PANEL C70 CONCRETE HEADWA L • • / • • � PUMP CONTROLLER • • PANEL u ° d ° ° 8 a ° d ° p �_jG I d 4'X4'X6" a ° ° CONCRETE ° A4 P°d ° AD ° ° cd , C ° °d A, ° 44, I _\ a 2"0 SCH 80 PVC PIPE /; OR PREMANUFACTURED \\ \� HDPE PIPE FLOW _III Cc \//8 48 "0 HDPE SDR 21 LEACHATE C70 ORCEMAIN (CONNECT TO PREVIOUS CELL) 47 VALVE BOX AND COLLAR C70 N.T.S. 4"0 PVC GATE VALVE 3' 3'0 SDR17 HDPE BARREL SUMP 4"0 ELBOW z 4"0 SDR17 HDPE PIPE � 4"0 ELBOW 1' PROTECTIVE COVER SOILJ WASTE 2 BASE LINER SYSTEM C600 C600 3 ° d ° G G a ° °a a ° da e d d°A,POST A e ° d d ° d ° d ° d G ° d ° d A v d ° ° G ,° d d ° C e ° 4 Ad n L—Te —Td— Al a / VALVE BOX AN BLIND FLANGE (FOR/� FUTURE � CELL CONNECTION):///� \ 4" GATE VALVE 4s LEACHATE RISER SECTION C70 N.T.S. FINISHED GRADE ALL PIPING SHALL SLOPE TOWARD THE REDUCING TEE PLACE ADDITIONAL COVER SOIL BENEATH THE CLEANOUT CONNECTION HDPE LEACHATE CLEANOUT PIPE 3' (MIN.) 0 _I 2 PIPE BEDDING MATERIAL _ NO. 57 OR NO. 67 STONE 8" (MIN.) EXISTING GROUND SURFACE / / \� / 12" (MIN.) COMPACTED SOIL BACKFILL METALLIC PIPE LOCATOR TAPE ELECTRICAL CONDUIT (AS NECESSARY) 4"0x6"0 DUAL CONTAINM SDR 21 SOLID WALL HDPE FORCEMAIN FILL TO SPRING LINE 3"-6" (MAX.) LEACHATE FORCEMAIN AND 48 ELECTRIC CONDUIT TRENCH C70 N.T.S. 4"0 SDR17 ELBOW(S), DETERMINE ANGLE IN THE FIELD 8" 0x8" 0x4" 0 SDR17 HDPE REDUCING TEE ANCHOR TRENCH 5o BARREL SUMP AND CLEANOUT CONNECTION C70 N.T.S. PERIMETER ACCESS ROAD PERIMETER CHANNEL NORTH CAROLINA BOARD OF EXAMINERS FOR ENGINEERS AND SURVEYORS LICENSE NO. C-3035 O z W U w a Z cr U _O U) w cl W � o W 0 U Z 0 r 0 w m 0 Q� o � o� ICI ti co +D N z ti +r O O ti m N 1 Q o 1 U U cmo E x 11 D L 1 .E U (h U D ti 1 1 eM i�l � M Q N ;.1 i O a a m t W � a O � p '? O "_4 O .rrr��l U Lo Z Waz J =0O a � U a OJ�U aZ�O Z a � Z � W a Z W �0>.0 Lu O Lu V 0 Z N Z c O Wco Z � Z Q Q = U U z 1 to J a m m � W } m o In U w W U co f. Q = o N � Z U w Q W m w J w 0 11!l11/�/ ,IS11CAIV- . S w W w O rw' ' $ • i w �r o39Z14 = o o a DRAWING NO.: n 0 4 BEFORE YOU DIGI CALL 1-800-632-4949 N.C. ONE -CALL CENTER IT'S THE LAWI C702qN T. 8�,•�` SHEET 24 OF 30 7 1 NORTH PZ5-14S /i//�/ //////�///// 5 4 mi / / 10 310 ,�, • -27D • ^�� PREVIOUSLY PERMITTED \ 290 c 0 O v 2 LEGEND PROPERTY LINE 300' PROPERTY BUFFER EXISTING STREAMS - IN, / 50' STREAM BUFFER I -300- EXISTING MAJOR CONTOUR \\ EXISTING MINOR CONTOUR \ FM EXISTING LEACHATE FORCEMAIN 100-YEAR FLOODPI AIN \= = = PHASE LIMIT/EDGE OF LINER 300 MAJOR CONTOUR MINOR CONTOUR \. PERIMETER ROAD I-► PERIMETER DITCH INTERCELL LIMIT ®PZ5-2S PHASE 5 SHALLOW PIEZOMETER ®PZ5-6D PHASE 5 DEEP PIEZOMETER (&MW-19S SHALLOW MONITORING WELL FOR PHASES 3 AND 4 ®MW-15D DEEP MONITORING WELL FOR PHASES 3 AND 4 TOP OF BEDROCK p 0 W o � a Z U 0 U) Lu cl w 0 U Z 0 r 0 w co m 0 a � o Eb I� ti PHASE 3 280\/ o II i/1 co N u +D PZ5 21 s N Z o ti /// \\ I M `o � , I I IIIIIII IIII � t I V O \` \� ///� /,�///�. -I �° -26D /� \ \\ \ ��� --- ��I IIIIIIIIIIIII II 1 c E LL -_- /�i 11I IIIIIIIIIIIIII IIIIIII \II. 310 \\ " a) \�o \ I 1 � >IN O � 320�0 J 290 MW-1 / / - -��\ -`�/ /���\\\ \\\\\\� 1 II I III,1 IIII ii oz��ii�=� I I \\\ 1 I I ,I III IIII � tom" p ch /i/ /�� I i �=,��✓ /� �� jo\\\\ \ II IIII IIIII �// I (/\S \ \-� ��\ I I \ \ 1\ \ \ II IIIIIIII m ao �,—� I. l'�" �, \ III I 310 // \ � / �� � I I I I r\ ✓ / / 1 /_ � \ \ \ \ 1 1I— /i / / - _ I 1 1 \ / ./ \\ \ \ IIIIII /ice/ %/i/ 1 J IIII � a. t ��. �� / /- gg_ ^� \ /, III III I II / J!. I \ \ I II a) 01// �� \ \� \ \ //� \ \1 ,III I I IIII li I c) i� \ i, PZ5-12D N \\\ \ I �o 1 / \I I / h\\\�( \ // /// \\ I I ( IIII II III I I •,� f / ,f L �� N o I I � \ \ �/ \ / \ IIIIII I I III III .� /�� `� / II I I I IIII II G2�3 �� I\IIII\1j � \ \\-------� _�- L-\ II I 1\�\\l\ � J -� - fi,-�--�\ 1\ ( III I I l IIIII __��\ //i //i/� / �9 -� o = I I II \ ����_%;llt' - "___ - �\\\\ \\\\\\ 1 IIIIIII j�111(Illf )c / / // , o N o _ % \ \\\ ( I I I \I IIII III/� C) /\310\\ \\\\\ \\\ \ I I I I I) 2I / G203 w-17s i \\\ \ \\\\\ ( I I I I 1 11 I �o � �-� � �- _ _ \ \ \\ \ 1 IIIII I I IIII IIII I � � Z a 5- 1 - - - \ ;��- -�,;, ; ! ;;_- _--_- - - --- \\\\\\\\\\\\\\\\\\\\1 I o\\\ \� I IIII► i��I W a __ _--_\\ \ 1 -- ____- \\�\\\ 11 1 \\\\\\\\\` \ 1\1\w\\ o I I I IIII �ti II 1 III I J J %_ - 11 1 1 11 I I I I I II I I _\ 11 II 11 1 w � l l l l l I 1 III I O /'Ic01 I I I I I 1 1 I O /o/ I I / /j I � �.<<�\ I I (� \ 1 �_ / I I / / / // , PZ5-10D 1 �� o / / �/ o II IIII fah'// �� -- \\ 1 i� r I l I (r"� - _ -- ---_-- IIII l/l/ ///� // /,// I IIII II I6� �- �\\�\\\��\1�.►11 \ 2,0 / \ \� \ I 1 \ \ \11 2 t 1 III I I I I" ��; --i= �\ \1\1 \ \ \ 1 1 1 I ( ( \ I I IIIIII/ ��-_ _ --- -� - \ �\ o \ III \ \ \\ 1 I I U a �, III I 3 - ;___--- \ I \ \1 III I I I I `I IIII _ �\ 11c, 0 1\\ 1 II \\ \\ I I I I I II I I I 1 38 11 \ I — J \ \ \\\ 1, \ \\\ 111 III I�I IIIII = V \ I / I I I I III \\ IIII PHASE 2 11 'L o I 111\ \\\\ \I11 111\\\\\\I I IIII ICI IIIIII H 1 ; / / \�\ I III IIII \I IIII ( 90==_ __� -- _�� 0 11�1 I \ \ I I III III / ,/11�111II�II ,IIII\\I\\ \\\I�� / I I 1 \,\II 1 1 II 3 o 01 it III I\\ \ 1\1\ I \I 11 IIII I /II IIIIII ~ J _ / �-- �-•� / / / / / �/ / / / /� \\ IIII II III \ \\ 1 111 I � p - _- -- _- - ,I I �1 IIII \ 1 11 I I I \I / _ _` --�' I, III ,,,\\\ \\1111111I1,11 I,I�-�Q % ___ -_� � 1�\\\\ ,IIII\\,I,l,l,ll 1\\ IIIIII \\\\\\,I 1�111111,,, IIII I� I►,�' ,, ►,►IIII a LL O H / /ll1 IIIII 1 l\\\\� \\\ PZ5-9D 29p 30 / / / / \ t I I 1 II II 1 111111 1 1 11 \ I \\\ 'S` ,�o,� ___-_- _ \1 III I IIIIIII III\\\1\11 11 11 I I II 11 II I I `\ / / / (I\ \ \ \\ \\\ \� __ ;/ PZ - PZ5-24D o / /// / / / �� \ \, 1 I IIII IIIIII II II \ 1\\\\� \ \\ \ \ - 11 11 I I 1 I 1 I IIIII III 11 II IIIII V Z �/ / \\\\�_'V\\\\�\\\\/' /- \\1�\\\\I\\\1 ,I11 Ilj IIII III\\\\\\ IIII II\IIIIII IIIIII 1 \I I IIIIII _ \ \( l�\�������- ,i/, , fr��/, / V , , ,// 3 II 11► \I 11\\, I,11111 \ \\\\\\ Nl�p\ ��\ \\\\\ \\ \ \\\\\\ \\\\\ \,II IIIIIII IIII IIIII II II IIII I\\ a O \ \\ \\ \ \ \ \ \ \�\ I \ \\\ \ 1 III 1 III III I I III I I I I I I I I \ \�\ II I Z �\\\�\\\\\\\ \ \\\\\\\ ,III Ilj 1\\\ \11\ IIII IIII II11 II I I II I11\ 111 I a H 1300 \ �\ \�\\\\\\\\�\ \\\\\ \\\11 I11 I I \ \\\\\ IIIII IIII I I IIII II I I III Z D 1 _ /\� \\\\\\�\\ I \ I \ \\\ \\ \ \\ \ 1 I I\\\\ \\1 I I I I I I I \ \ \ \\\\\ \ \\ 1 1 \\\\ \\ \\ \ 11 \1\\ \\\ \\\\ \1\I IIIIIII IIIIII 1 III 'IIIIII a W N��\\\\IIIII\\\\\\\\�\\\ \\\I II II I I II 111 II III / \ \ \ \ \ \ 1\ III I IIIIIII 1 \II / / �\ ��\\\\\\\ \\\\ \\\\\ \ \ I \\ 11 I \ I II 1\\ H \\\\ \ \\\ \\\\ \ \\ \\\\ \ �'I 1\\IIII11II111 I II IIIII,111 \ I IIII Z I \ \\ \\ \ \\\ \\ \\ \\\\ \ \\ \\\\1\\\\\\\ \\\\ I 1 II I _ O z5-8s ° \\\\ x A \ \\ 11 \ \\\ \ \ \� 1 \ C' _ 1 IIIIII\\\ \\\ \ \ \\ \\I IIIII I II \ II I I \ 4 IIII \ \ \\ \\ I I III I1 \ \\\I \\ I \\ J \\ \ \\\\\\\, \I\\\l 11,11 WI I\IIII\II PI I \11�\� �� � IIIII1111 \1\\\\\\\ \\\\ 11/111111 IIIIIII\\\\\\1 IIII IIIIIIII \\� 1\ W U 1 1 ( )�)\ r \III \\ \\\\\\\ \ \\ \\ \ II IIII \\\ \ \\ III I 1 I I \\ r L \I IIII 111\ 1 11 II I\ \\\ �\ \ \IIII 1 \I I I\\ W I / I PZ5-7 20 33o I I I 1 (/ / )I I I IIIII IIII // �yl` III I I \1 \ 1\ \III III III III \\\\ 1 \111 III 1\ \\ \ W V c \ I / 3 0 / I I I) I I I I I I I// // l l l l l l IIII /III IIII II I I I I I I I J( �c��\�\ I IIII IIII I111 II I II II I III II I IIII I I \\ \\\\ IIII IIII\\\I\1 \ \\ \ I\ �1 a V 0 1 a_ I l I l l I I_ l 1I\ 11 l l / II/ 1 I I I 1 I II \ I Z \ \\ \l PZ5-6D //III / / / // I I I I 1 II IIIII I I II I I II III \ \ \\ \ I \ I \ I\ _//IIli//ll,, l,,l,l /,/ /III►I I III/ d�,�l ►, IIII II I I►I IIIII IIII►11111,\\ \\\\\\\\11,11II,1\\\\\I'11 \\ Z N NrJ�/ //jll 111 llllllllllll IIII, Il ► I ► I \� IIIIII //IIII II II ,IIII II\\1 \\\\\\\\ 1\\\1\\I`\\I\,\\\ I \\1 0 o /I // Ill/ I I I17 I IIIIIII\\ \\\\I\\\ \\\I I11\ \ 1� LLJ (/� \ 1 I III(�� IIII I I I 1\ 11\ \ \ \ \ 1 \ (\�l m l / (I I 1 I ► , I I I IIIII \\1, , II\ \\\ \\\` \\\ \ I\ PZ5-6s \ - MW-1 c ll I l/ // l l lI I l ll l I l l'/l , l 111 I I I I I I I III I I i1\\\ \ I I111 1 \\\\\\ \\ \ 11 Z Z = - - `l° / o O O /l %Ill/llllll ////�/// l/llllll�llll/ IIIII l /I/IIIII 111`\ jo, IIIII IIIII\\\\\PZ5- 23D !���� S / N M /IIII llllll///�//l�//'l/�l/V///�ll llI II/II IIIIII I IIIIIIII I III\11\\\\ \ \ a a —300- - �) I / 320 �' /// IIII Illl l 11111, // //l/ Illl IIII IIIIII / /l )llllllllr \ I Il l l l/l/�I/l// I/(( )IIIIIIII II))IIIIIIIIII II\1 \\ = - - a 41 1 II III I l l l I I I I l I / 11 / l I l/l l/I III I IIII // 11 �l / l � l 1 I 1111 /,/ / IIII III 111111 \ \ \ � I V ll� llllll O) I I I ll1 I) I II I III 1 1, / II 1 I �o / ✓ 1 �I�lIlll IN, / �/%Ill 270' _ _ / /�/ / % �// % /// /// / / / / / I I L) z w l/ / /I / 1/IIII II IIIIII IIIII////�/ 111/Ill/ / / ////�lll ll/l 111 // l llllll ll // �1,// // l/l Ill/ %/l l ll� / / l il)l III )�' I \ \ I l \ \ \ y / PZ5 5S o //l 7/ 310 / l ) / / //j /�// 0 // / / // / / / / / /�// / //// r / \ I ( \ \ \-- I �, I / '1 /j/ / / // ij /////� / / �//0///%//// // / / / / �// / ) / \ \ \ \ �PZ5-20S / /l l / / ///////i 'S9 \ 1 I ti Mw � '�/ Ili/ll/ //i//�//�// /✓ /�/�///�/ // / ,///!/iii� '� //// //� C lJ /'/lam W B \ // / /// / �, / /ii/ / A� ^ r-�/ �� J 310 0,//� ��/�i//ill 1 / I IIII /////�� // // / / /// a } m j/// / / / m o / / / �/// ( O � z Y JLu�Oii/ / / / / / / /// / / / // / �//cr - PHASE 1 0 / // // / l / l // / / \ a I / i \�'o o \ / / l/ / / //�///- /iii �ii��� � j/i / / ,/ //�/ �9i � // //j/�/// // // / / / y / o U //�i �// / // / ��//f //////j///j/y>3�//i�/// /// // / / / //// / / //// 1( \ /s_ Oco //� / // / j. //i/5�� i�/// //////// // //% llllll l // I /ii/' NORTH CAROLINA ~ O to i co r �1 \ \ i/ \ / / `�/ /%/ /ii i� // ,/ I I / /////%%/// / %��� �h �Q // // / / / /// / / r SCALE IN FEET �i \\ //// // /// / //i/i// �I / / // /� �/ p/�/ / / / / / < C //// BOARD OF EXAMINERS W Z \ \ \ \ \ \ - / 2� o �-- ,iii /ii i�ii�%ii i/%, ; 1 ( / / / / /j //� / / / //i // / / / // / ///i W r / // / / /i l / / /// / i// / / / // / / `yam _ m I \ \ \ \/// //�/ /i��/ / / / //////�/ ,//�/////fi /� I I I U\////j/j// // / /�i// / /� /� /i• 0 /// /� / ��- < FOR ENGINEERS AND IV O REFERENCE \ \ \\ / �// //// ��/ I Jl / // / / IIII l l l l l /l /// / / /// ^��//, / / / / / 0 100 200 \ -1 D // / //��%iii/�� /// // �j/// / j/�J l l / l l // / //J / / ///'r. / / // T �/ V W \ ) //!��-F I \� ) /i/ — SURVEYORS LICENSE J z5 2 / /-/�////�%//�L� �> / /i/��i/�/ /// // // S l l ll l/ �/�I l/ /�_-- 1. EXISTING TOPOGRAPHY WITHIN WASTE CONNECTIONS PROPERTY WAS 9 // /�i/�� ) � / / //// / / ///�/// //// //� lei/ // //� / // / / ////////' // //// // / ;/// //'i///Ol/ j/ / �i// / / // - NO. C-3035 PROVIDED AT 2-FT CONTOUR INTERVALS BY GPI JOB N0. 18-006 ; 2 I (/ ��/�� ��� / // //�/// / / // / // /// ( / / / I / / I / /// �/� W /i/,� / / / // / / l l l / / / / / / / // /�- 17 ( ) ,--- / - MW-8D ��' , / �/ r /�//�����//�i//// / / / / / ���/ / l/II III I / /, /�lll�/ / ///// f // J /_ /t/// f//� �y //l i /�� �/ / 1 /�/^ DATE OF AERIAL PHOTOGRAPHY JANUARY 15, 2018. I I / f /�i/i//// \���/// �l/ I I I I 1 I // Ill/ 11 / /ll J �� i /�/ / O W / I \ 1 > / /i / / /�ii / //i /// / / \ i / l l I I l // / l l / / / / / / / / , / / g CAR W } 2. LIDAR TOPOGRAPHY OUTSIDE WASTE CONNECTIONS PROPERTY WAS L✓J / 300 \ / / / 1 /`�\`< < ( l / / / i % ///// //%/ / / �\ j l l l I �/ ll l/Ill/l ll % / / / /// l / ///� �/ / \ �l +0 r`:* ACQUIRED FROM NC DOT GIS. 2g0 2g0 / / _� \ �\ ( I / // / / / �/ / ll / l / /ll ll/ l / / // l / // / / i/� llllll � �, ..'• "(/ w o m / / f! / �\ \ \\ \ l) l �l r < l� (� / / / / \ --� �� / l l / l l / l/ / / / / / / J .$s� 3. FEMA FLOODPLAIN INFORMATION FROM NCFLOODMAPS. MAP NUMBERS: 300 / / / I `\\ \ \\ \\\ //1 III ( I \ \ I < < \ �-- l/ / l /l l / /l Ill/ //l //l /Ill // llllll Or•.''G� (' ¢ F o \ \ \ \ \\ (( III III \\ \ \\ \\\ 1 \ \ \ \ I 11 /// 11 l l/ / ///llll/l /�//l l/////// /// / /// / // /...•q+(; U > 3710644500J, 3710644600J, 3710645500J, 3710645600J. \ / \ \ \�\�\ \ \ \ \ \\ \ \ \ // / / / / / /// / / / // / / / /// / / 0 / / / // // // / __\ N\\\\ \\\\\\\�\'\\\\ \\\_\�\\\ \\\\\\,\ \ \ , l 1,/, /,,//,�, /l�'llll// ////,/l///llON �/ / J //� /,�' / ///�//��/),/��%' // ::. Si�A4. s Q 4. TOP -OF -BEDROCK CONTOURS ARE INTERPOLATED BASED ON THE DATA I\\\� \ \\\\ \\\ \�\\\\\�\ \\\\\\\\\\\\ \ \\ \ \ l/l/ //l / // / �/ "(/ / /�///�/// //// // //�j/ I / / d// j//�/ llllll // Q39I14 = o o a ¢ A OBTAINED FROM THE BORING/PIEZOMETER/WELL LOCATIONS SHOULD BE \ \\\\\ \\ \\\\\ \ \\ \ \ \ \ \ \ \ \ \ / / / // �\�_ N / \\ moo\ \\\ \\\\\\ \\\ \ \ \\\ \\\\ \ ��\\\\\\ \ \ I \1 // / ll l ll �// // // �I (I I(� / // �/90 ////// �y���.l$ _ \ \ \ / / //i / r� J I / / l l / / , / /i / / r CONSIDERED APPROXIMATE. \ o J \ \\\ \\\\\\\\\ \\\ \ \\ \ \\ \ \\ \\ \\ \ \ \ Ill / / �/ / // I (lll� // / 11 1 / // / / �'// Oj llllll ._��"••.g FIGORE / / // PZ5- c� \ \ \\ \ \\\ \\ \ \ \\\ I l / 111///// )1I((//� I // / 0 // //� // / BEFORE YOU DIG! .,q ��4�..••'�t�% 5. GROUNDWATER ELEVATIONS BASED ON PIEZOMETER WATER LEVEL (i \\\\ \ \\\\\ \\\\\\ \ \\\ \ / l / �/ /// / I //// CALL 1-800-632-4949 �,�+� Gi 00 READINGS ON MAY 31, 2017. TOP -OF -BEDROCK ELEVATIONS \� \ \\ l IIIII llI \ \ \ \ \\ \ \\ \ / l ///l //// I I l/ / / / /// // / Q� //� // „I ,►s -\ \\ \ \JI/ I ' l \ \ �\ \ \\\\\ \�\�\\\\�\\� \\\\\ \ \\ \ \ \ \ // / / / /� l/jl l l l (l /// ////��)1 \I ll ////� / ////� 31'' //i///// / N.C. ONE -CALL CENTER DETERMINED FROM AUGER REFUSAL DEPTH AT EACH BORING SITE. �� I I1 I �, I �� �\ \\\\\\\\����\\\ \\�� \ \\\\\\ \\\\\\\\ \\\\ �� ///l�l %� /� /�/%l/l i %�ll�ll 111/l1,��/%/i) 1 l / �/ l / ��/ /%/� //0�`� / ITS THE LAW! 25 30 7 5 4 3 7 5 1 1 1 2 NORTH r PZ5-15S 300 �O e o \ 3 Z5-1 S 270 1 \ l � � 0000 270 N l MW-13S 290 2ao O/ I AV PZ5-21 S % ;IIII/// //i•.� �� � PZ5-13D lk -� MW-1 X I //10 //X P75-12D 0) j//////// �O 9p N o W-17S (II/III/ / / /// �j PZ5-10D-R x it ° P 5- 1 _ -- ��� 290 r PZ5-10D oo ( / � /1�,, ll ( I IIIIIIIIII _ III ////\\\\\_ �\ PZ5-9D �290 \ PZ - PZ5-24D 300 / // P D rn 04 -- 01 Z5-8S / O I � � 310 \\ III\ PZ5-7 C PZ5-6D 0 /I1 \ \ PZ5 6S I 280 ® BMW-1 !' 1\ PZ5- 23D 77o PZ5-5D ��� /" ^° 310 p a / PZ5 5S l Z5- OD 310 PZ5-20S MW \� \� \ `100 B \ 90 PZ -3S 310 2 / c,r do 0 o REFERENCE 1. EXISTING TOPOGRAPHY WITHIN WASTE CONNECTIONS PROPERTY WAS \\ \ \ \ /� o — PROVIDED AT 2-FT CONTOUR INTERVALS BY GPI (JOB NO. 18-006); �j/ / -1D — DATE OF AERIAL PHOTOGRAPHY JANUARY 15, 2018. 290 \ Z5 2 _ 2. LIDAR TOPOGRAPHY OUTSIDE WASTE CONNECTIONS PROPERTY WAS — N ACQUIRED FROM NC DOT GIS. % 3. FEMA FLOODPLAIN INFORMATION FROM NCFLOODMAPS. MAP NUMBERS: 2� 300 \ 0 3710644500J, 3710644600J, 3710645500J, 3710645600J. 290 3. SEASONAL HIGH WATER TABLE POTENTIOMETRIC CONTOURS ARE INTERPOLATED FROM A CORRELATION OF WELL GAUGING DATA FROM A \ / i PERIOD OF 2001-2017. OVER THIS PERIOD, SEASONAL HIGH WATER —� LEVELS WERE OBSERVED IN APRIL 2016. THE GEOMETRIC MEAN A - \ \ N DIFFERENCE IN WATER TABLE ELEVATIONS BETWEEN THE SEASONAL HIGH h APRIL 2016 DATA AND THE APRIL 2017 DATA WAS 1.3 FEET.I. CONSERVATIVELY, TWO FEET WERE ADDED TO THE PHASE 5 WATER �� ( III/ / PZ5- `O TABLE ELEVATIONS MEASURED IN MAY 2017 TO APPROXIMATE THE N DEPICTED SEASONAL HIGH WATER TABLE SURFACE. a II \\ \\\\ \ I (/ 7 PZ5-14S 310�� O N 00 0 � 2a i�o - 4D o O A o PZ5-27D �0o PREVIOUSLY f 1\\\ PERMITTED PHASE 3 -26D /• \ \\ �, � � �„ � � --���\ --- �-IIIII �I I IIIII I I � , \I �00�� \III IIIII I I 111 �-t 310 j 1L�, /J \\\ 1\ \ III I I IIIIiIIIIi Imo, IIIIIII / �� - � .. %%// / �� / � � �`S \ \✓- / \���\ I I \ � 1\\\\\\ III I IIIIIIIIII �. 310 / �- 11 I r ✓� / / \ I II 1111� Q S� \ �,\ 1 ^ \\ / 1V�/ \ \I \I\\I ll I i I \ — / 1 \ 7�I` //�I >> I \ G203 ' / /\ 1 // �rJ-•� \� �\ \�� �, � �� //,` \ \ 1 ,III I IIIIIII li I I I > 31 /��L \ I �� _ II I I I IIIII III \\ 1\ I I I IIII I I 'i\JiJ� \\\\ / III 1 I �/���� 11� �IIIIIII(�� — � -- �• �� ��� 1 I II I�\ �� '%=�f / =_�_ —`� �%' � — ��\ \\\\\\ ( IIII II I III Illi�� =z , i, �_ �_ _- — \\\\ \ \\\\\\\\ I oI I 1 III Iti III III I / c �r I / / N p I c I IIIIIIIIIIs�� \ I I y y6i 1 IIIII 1\ II (�, IIi37v1\\\1 1\ \\,\1I11`PHASE 2 IIIIIIIIIIIII II 1I IIIIIIIIIIIIIIII "IIIII IIIII 1111 I I _-��II�Illlo 1 1 IIII\\ \\\,IIII \ II IIIIIII I I /II IIIIIIII o / / / / // �� --� III 11 I I 1 \\\ \11 1 IIIII goo- = _=� �1 �r \\1 III \ III I\\ III \ 1 I I I ► I I / / / � / � \�\ -- � � IIII l III IIIII 1 III\IIIII 111\11111�\III �`'� ;�o•� __ __== � \\0l1\' \\ \1 1I I \III II 11 IIII III, \\\ \�\,IIIIIII IIIII IIII I I� IIIIIII I \� � � ► III► 1 ,11, III 1I,,I1\\\\1,1,1\ 1111I1111 ►III (I I; I; II►II;III;' (�' /�,,' 3 ll III► \IIIIII\, I IIII ,\\ \\\\�\\\�\\\\` \ \\\\\\\ \\ 111 Il , , l I \\ 111 II, IIII, I►, I \I , IIII ( 1 \\ III 1 \\\ \ \� \\� \\\\ �\ ( I \ \\ \\ \1 I I I III III I I II I I I IIII 1, I 1 I \ 11 I IIIII IIIII 1\I\1\IIIIIIII \\\��\\\\\� \\\\\\� \ \\\\\\ 1\\\\ II IIIII I I I IIII II 1 II II 1 \11 \\ \\ III II III 111 I I I I I\\ III i1 \\\I \\\\\\\\\� �� �� \\\\\\\\ \\\ I \ \\\MAW \\\\\ 11 II IIIII 11 \\ \IIII I I I 1 IIII II I II I IIIII Il I I II \ \� 111 IIIII 111 �/ l IIII ��\\\\\\\\\\\���\�\\\\ \\\\ I \\\\,III III \\\\\\\\\ IIIIIIII IIIIIII I�III,11\ III yll II , '\' A � \\\\\\` ��\\\\�\\\\ �\\I 1 \ I \ \ \\\\\ \11l 1I\�\ \\ \\\1\\\11 IIIIIIII III II 1\\\ III kW IIII G2\\\\\�\\��\\\\\� \\\\\\\ \ \ \ 1 �—� \\�I\ \\\\1 1 \\ \\ \ \ \ IIIIII I IIII 111 \ \ \�I \ \\ \\ II\ \ \ \\ \\\ \\\ I I I I \�X\XxX \IIIII\\\\\\\1\I jll\1\\\\ \\1\\\\\\\ Illll IIIIIII\IIIIIIIIII 111\\ \III II �IIIIII� __� �,,,; II„IIVA\ \\\A VA\\\VA\ \,IIII►► I I1 \ 11V II I I \ a I� I I1111 \1\\\\\\ \\\ \\11111111 I1,1 1111�1\\\\1\ll\I I\IIIIIII \\\ 1\\\\ '� \ III \ \ \\ \11 1 1 III\ \ I I I \\ \\ \\\\\I III IIII\\\\ \\\\\\\\IIIIII\1 111 \� \\ `_��_�' ,,�� �° ,��2° , //,�// /, /, /\/N M0//(�II,Il I ��/Ill(II,,,II/II,,,I/I1l /Ill II/,1 III/,l/Il1I I,I /II►,l,ll(III//l//I,/ II /IlIIl/I/,1I//�/,,I/I l,I/ lI/I/�,l%l1// /1///%�/l/ 1 1, I/ll1 /,/,�/I/ /�l,lI/,ll,,l/Il/„Ill,l/ l"Il llIl/l IlI/lll'I�lIl11 I,%I,lllIIIlIlIlIIlI/ l,/llI,IlIl// IlII l/l, ll1,l'I �I,Il 1l/I1/llIlI1I Illl /l,,Ill, ll,lI//I l/ 1I,1Il,II ► lII, lI,/1I/►I ,II /1II /111I/II JillI330 �II{��I �' I�_�( 1�\��l5�1c��,I�► \/11 \ ll I \1/I11II1II1IIl1I II/I II/I1I1lI/I11I„I11/I1I 1I/I\/ II111'l111II/11lI►\1I�IIIII 1I1I1111/,/11I1/1II1I1/I1/I`1I I,I1 I\II1III1I/IIIII1 III(1IIIIII1 lIIII1II,II11III 1I\II1I1I\I1III\ \II,11►II\ I\\1II\ \1VI\1,I\\\I1III 1III\I/ I11-7 1111 1 d(11I 1111 11\\\I\II \\\I\\I\I\1\I�1I\I1\I\1I\\1\I\1II1I\I1,I1I\I1%l, 0 ► 1III►/, 320 %/ ^ ��l/ ` 1 11I(�� I I1`, `II I1 11 II 1\ o 0 11V l 320 /T/11/ I/lJl//V/ \\\ \1I� \1, l I I /llllllll I IIII �17! // lI �l /1�1 / I I,11///, IIII III \ /„��l► // / / 11 1 `l1 llI1/lI Il l'll�l l'lIlIl' lIlIlI /l l �l/ /llI I l,l,ll l�/ IllllIlll �;11�,` /l I IlIlII /ll/,/,/ (I (1 /I /, I ►1/11I1I1 I \ /\III Ill/ ,IIlI I,1 lll\ 1)r�1I l l l ,ll ,ll,� 1, IIII /llllll/l 1, , � //� ��, ( / �- I I I111 j 111 I, I II► l l / //// // // /, /„// ///�/ ,;/////, //,/ � /� IIII, �///; l,/ ; /,1I1 / // IIII/, 'T// �111 IIII/ l/////l�j, / l /1)l 1 // // �Il�/�/,/ .I �lll/ IIII / IIII /j// //,///�j/�i///i�� // �� /6// /, 0 //0 // / / / // // / IIII/, / / /// r/// / /IIII/ // IIII/ / / //�// // `w/ / / //^I r �p / , , / / /iii�//i// / / /i ri �/ 1 / //i / i / %���j �� / i�?///p��////�//,/��/ IIII////// //�///�/ // IIII / / / / /// / / �1 // / / �/ '/ 0, /j // / /�/ /// // / // �l l l/ A/ /I // �i/ � � � / //// / / - /�/ i//�%� /� � \ PHASE 1 / / , l/ / /// IIII/• ��/% /;/����� //�� �/i / //�/ /39i /i/�i� // j /// / / /�/ y� \ i�/ //�j //�///// /�///// // IIII 1( \ /i�- /� // / / / / ////� -//• � /� � /jr /-- ///%/��L���IIII// x/// IIII / /i lei/// ///,// IIII/ l//r,// //1� /// /j,//■/.�//// �l /� Ih -{� r // , ,/ /� / / / IIII I l 1 / /,ll/ / IIII / f / // f /, ; /il MW-8D I/ / f/1/�//i i� /�i// / � 1 \ �ll I I I I / l 1 l /�ll 11 /// /ll) /'l � /// / o �K \ / \\\ �\ \\ % 11(///l/� �/////// \\� \ \ I / / I /l �/ IIII / / r�/�1111 , l 1, /�// l l IIII , `ti9 /�/ / / /IIII/ \\\\\ °II I IIII / r/////// // //�j// \\\\\ /�� /�,/i/ �y/ •%/ \ \\..�.�\// / / / j/� 5 4 3 LEGEND PROPERTY LINE — — — 300' PROPERTY BUFFER EXISTING STREAMS — 50' STREAM BUFFER — —300-- EXISTING MAJOR CONTOUR EXISTING MINOR CONTOUR FM— EXISTING LEACHATE FORCEMAIN 100-YEAR FLOODPLAIN PHASE LIMIT/EDGE OF LINER MAJOR CONTOUR 300 MINOR CONTOUR PERIMETER ROAD — ----- PERIMETER DITCH INTERCELL LIMIT ®PZ5-2S PHASE 5 SHALLOW PIEZOMETER ®PZ5-6D PHASE 5 DEEP PIEZOMETER (DMW-19S SHALLOW MONITORING WELL FOR PHASES 3 AND 4 ®MW-15D DEEP MONITORING WELL FOR PHASES 3 AND 4 SEASONAL HIGH GROUNDWATER — PHASES 3 & 4 GROUNDWATER O z W O � a Z U O U) Luo W 0 U Z 0 r 0 w K co m a � o � O ICI ti co � N � Z C14 °r � o m N 1 1 Q U o Um co E 1 .0 U 1 M � Q N o a a PIP a a� �y O O NORTH CAROLINA SCALE IN FEET BOARD OF EXAMINERS FOR ENGINEERS AND 0 10o 20o SURVEYORS LICENSE NO. C-3035 514 CARS r1,r . +. SEAL � - 03gn4 BEFORE YOU DIG! FIGOF CALL 1-800-632-4949 T. N.C. ONE -CALL CENTER ' "l I' IT'S THE LAWI Z U.) a Waz U) � J 00 Zama 0 j 3= a_jE V Q Z a Z Q q Z a a W z o �W� O W�wC� a o Z Z o Lu �O�Z aQa U U Z w W a 0 p a OCC C } m m o Y U B f^ Lu v = 0 U 2 0 co o 0 H Z 2 0 c N w w r di r Q U Z � L) 0 o a W cn w o Z m p C/) W O 0 OCZ o CL CL G200 26 30 BORING NUMBER MW-19S - ` Civil & Environmental Consultants, Inc. ,- 1900 A Center Park Drive PAGE 2 OF 2 ' �A Charlotte, NC 28217 CLIENT Anson Waste Management Facility PROJECT NAME Phase 5 Landfill Expansion Area PROJECT NUMBER 165-276 PROJECT LOCATION Anson County, NC w o A SPT N VALUE A 0 U >- cn w 20 40 60 80 ~ > o O MATERIAL DESCRIPTION = a Lu J of > 0 0? Q PL LL w w v o- D 0- m 0> 20 40 60 80 0 2 Z 0 0 z w < El FINES CONTENT (%) El 35 20 40 60 80 285 1 Tan ROCK FRAGMENTS, dry, hard, (ROCK) SS 0 50-0 9 Bottom of boring at 38.5 feet. fj_j_A_Civil & Environmental Consultants, Inc. BORING NUMBER MW-20S ��� 1900 A Center Park Drive PAGE 1 OF 2 Charlotte, NC 28217 CLIENT Anson Waste Management Facility PROJECT NAME Phase 5 Landfill Expansion Area PROJECT NUMBER 165-276 PROJECT LOCATION Anson County, NC DATE STARTED 4/14/17 COMPLETED 4/14/17 GROUND ELEVATION 309.00 ft BACKFILL DRILLING CONTRACTOR Summit Engineering WATER LEVELS: DRILLING METHOD Hollow Stem Auger BEFORE CORING NA CEC REP MBG CHECKED BY EHS TAT END OF DRILLING 18.7 ft / Elev 290.3 ft NOTES 576hrs AFTER DRILLING 18.1 ft / Elev 290.9 ft p ~ > w U o O Q� 0 MATERIAL DESCRIPTION = a wv 0 w } Lu J o-D 2z < o of > 0 0- 0 W w 0? Q m0> 0z A SPT N VALUE A 20 40 60 80 PL LL 20 40 60 80 El FINES CONTENT (%) El 20 40 60 80 305 Orange to tan clayey SILT, trace rock fragments, dry, soft, (RESIDUAL SOIL) Orange SILT, dry, soft, (RESIDUAL SOIL) Gray to orange clayey SILT, dry, hard, (WEATHERED ROCK) Dark gray to orange cemented SILT, dry, hard, (WEATHERED ROCK) 1 Light gray sandy SILT, moist, soft, (RESIDUAL SOIL) Dark red to light gray SILT, moist-, soft, (RESIDUAL SOIL) Orange to gray sandy SILT, moist, hard, (WEATHERED ROCK) Orange to gray SILT, with rock fragments, wet, hard, Wet split spoon., (ROCK) 5 SS 1 100 2-3-3 (6) X2 SS 100 6-8-11 (19) 300 10 SS 3 100 11-8-12 (20) 295 15 SS 4 33 15-32-46 (78) 290 20 SS 5 80 22-24-20 (44) 285 25 SS 6 50 8-27-50-3 (77) 280 30 SS 7 20 50-2 275 35NSS 10 50-0 (Continued Next Page) BORING NUMBER MW-20S - ` Civil & Environmental Consultants, Inc. ,- 1900 A Center Park Drive PAGE 2 OF 2 ' �A Charlotte, NC 28217 CLIENT Anson Waste Management Facility PROJECT NAME Phase 5 Landfill Expansion Area PROJECT NUMBER 165-276 PROJECT LOCATION Anson County, NC w o A SPT N VALUE A 0 U >- cn w 20 40 60 80 ~ o O = a Lu of > 0 0? Q PL LL > MATERIAL DESCRIPTION w v J o- 0- 0> 20 40 60 80 w 0 D 2 Z 0 m 0 z w < w ❑ FINES CONTENT (%) ❑ 35 20 40 60 80 Bottom of boring at 35.9 feet. BORING NUMBER PZ5-1 D & Environmental Consultants, Inc. PAGE 1 OF 2 fj_j_A_Civil ��� 1900 A Center Park Drive Charlotte, NC 28217 CLIENT Anson Waste Management Facility PROJECT NAME Phase 5 Landfill Expansion Area PROJECT NUMBER 165-276 PROJECT LOCATION Anson County, NC DATE STARTED 4/10/17 COMPLETED 4/21/17 GROUND ELEVATION 316.22 ft BACKFILL DRILLING CONTRACTOR Summit Engineering WATER LEVELS: DRILLING METHOD Hollow Stem Auger & NQ Core Z-7 BEFORE CORING 18.5 ft / Elev 297.7 ft CEC REP EHS CHECKED BY EHS AT END OF DRILLING NA NOTES Temp. piezometer dry at AR (18.5' bgs). Core to water table. 7-408hrs AFTER DRILLING 36.3 ft / Elev 280.0 ft w o A SPT N VALUE A p U = } w 20 40 60 80 PL �L ~ > o_ OO MATERIAL DESCRIPTION a Lu J of > 0 0 ? Q Q� 0 wv aD 0- 0 m0> 20 40 60 80 El FINES CONTENT (%) El w 2Z < W 0Z 0 20 40 60 80 315 Tan to orange coarse to medium SILT, trace rock fragments, dry, SS 4-6 11 stiff, (RESIDUAL SOIL) 1 100 (17) Tan fine to medium SILT, trace rock fragments, dry, hard, (WEATHERED ROCK) 5 FS2S 8 50-5 310 Tan fine to medium SILT, trace rock fragments, dry, hard, (WEATHERED ROCK) 10 SS 3 0 50-1 305 Tan fine to medium SILT, some rock fragments, dry, hard, (WEATHERED ROCK) 15 SS 4 0 50-1 300 ----------------------------- Tan fine SILT, and rock fragments, dry, hard, (ROCK) 20 SS 0 50-0 5 295 Tan to gray SILTSTONE, moderately weathered, slightly broken, 25 massive, Vertical and sub -horizontal highly fractured rock with FeMn 290 staining. NQ 90 1 (21) Tan to gray SILTSTONE, moderately weathered, slightly broken, 30 massive, Competent rock with high angle and sub -horizontal fractures. 285 Color change to gray at 28' bgs. NQ 100 2 (74) Gray to tan SILTSTONE, slightly weathered, massive, Weathered on 35 (Continued Next Page) BORING NUMBER PZ5-1 D - ` Civil & Environmental Consultants, Inc. ,- 1900 A Center Park Drive PAGE 2 OF 2 ' �A Charlotte, NC 28217 CLIENT Anson Waste Management Facility PROJECT NAME Phase 5 Landfill Expansion Area PROJECT NUMBER 165-276 PROJECT LOCATION Anson County, NC w o A SPT N VALUE A 0 U } >- (0 w 20 40 60 80 ~ > o O MATERIAL DESCRIPTION = a Lu J of > 0 0? Q PL LL Q� wv o-D 0- m0> 20 40 60 80 0 2 Z 0 0 Z w < W ❑ FINES CONTENT (%) ❑ 35 20 40 60 80 surface to tan. Medium sub -horizontal fractures with staining in 280 Y fractures. One large quartz filled fracture. - NQ 100 3 (98) " " `Gray to tan SILTSTONE, slightly weathered, broken, massive _ _ 40 275 NQ 100 4 (72) Bottom of boring at 42.3 feet. Civil & Environmental Consultants, Inc. BORING NUMBER PZ5-2S ,H�� 1900 A Center Park Drive PAGE 1 OF 2 Charlotte, NC 28217 CLIENT Anson Waste Management Facility PROJECT NAME Phase 5 Landfill Expansion Area PROJECT NUMBER 165-276 PROJECT LOCATION Anson County, NC DATE STARTED 4/7/17 COMPLETED 4/7/17 GROUND ELEVATION 287.63 ft BACKFILL DRILLING CONTRACTOR Summit Engineering WATER LEVELS: DRILLING METHOD Hollow Stem Auger BEFORE CORING NA CEC REP MBG CHECKED BY EHS TAT END OF DRILLING 6.9 ft / Elev 280.7 ft NOTES 744hrs AFTER DRILLING 6.7 ft / Elev 280.9 ft p ~ > w U o O Q� 0 MATERIAL DESCRIPTION = a wv 0 w } Lu J o-D 2z < o of > 0 0- 0 W w 0? Q m0> 0z A SPT N VALUE A 20 40 60 80 PL LL 20 40 60 80 El FINES CONTENT (%) El 20 40 60 80 285 Brown SILT, moist, Organic material, (RESIDUAL SOIL) Ts's2-1-1 100 (2) Tan to orange to red SILT, with saprolite, dry, soft, Saprolitic gray layers, (RESIDUAL SOIL) 5 2S 100 5 7-10 (17) 280 Tan to gray SILT, with saprolite, dry, stiff, (RESIDUAL SOIL) 10 SS F3 100 11-16-18 (34) 275 Orange to tan sandy SILT, dry, dense, (WEATHERED ROCK) 15 SS 4 60 44-50-1 (51) 270 Orange to black silty SAND, and silty, clay moist, dense, (WEATHERED ROCK) 20 SS 5 50 37-50 3 (53) 265 Dark gray SANDSTONE FRAGMENTS, moist-, dense, (WEATHERED ROCK) 25 SS 6 33 50-5 260 Dark gray SANDSTONE FRAGMENTS, moist-, hard, (WEATHERED ROCK) 30 SS 7 33 50-4 255 Dark gray to pink SANDSTONE FRAGMENTS, dry, hard, RSS (WEATHERED ROCK) 35 (Continued Next Page) BORING NUMBER PZ5-2S - ` Civil & Environmental Consultants, Inc. ,- 1900 A Center Park Drive PAGE 2 OF 2 ' �A Charlotte, NC 28217 CLIENT Anson Waste Management Facility PROJECT NAME Phase 5 Landfill Expansion Area PROJECT NUMBER 165-276 PROJECT LOCATION Anson County, NC w o A SPT N VALUE A 0 U } >- (0 w 20 40 60 80 ~ o O = a Lu of > 0 0? Q PL LL > Q� MATERIAL DESCRIPTION wv J o-D 0- 20 40 60 80 0 2 Z 0 m0> 0 z w < El FINES CONTENT (%) El 35 20 40 60 80 250 Light gray cemented SANDSTONE FRAGMENTS, dry, hard, W33 50-4 (WEATHERED ROCK) 40 SS 9 0 50-2 Light gray SANDSTONE, wet, hard, Wet spoon, (ROCK) 245 SS 0 50-0 10 Bottom of boring at 43.5 feet. fl—j—A—Civil & Environmental Consultants, Inc. BORING NUMBER PZ5-3S ��� 1900 A Center Park Drive PAGE 1 OF 1 Charlotte, NC 28217 CLIENT Anson Waste Management Facility PROJECT NAME Phase 5 Landfill Expansion Area PROJECT NUMBER 165-276 PROJECT LOCATION Anson County, NC DATE STARTED 4/7/17 COMPLETED 4/7/17 GROUND ELEVATION 287.60 ft BACKFILL DRILLING CONTRACTOR Summit Engineering WATER LEVELS: DRILLING METHOD Hollow Stem Auger BEFORE CORING NA CEC REP MBG CHECKED BY EHS TAT END OF DRILLING 28.9 ft / Elev 258.7 ft NOTES 744hrs AFTER DRILLING 29.9 ft / Elev 257.8 ft p ~ > w U o O Q� 0 MATERIAL DESCRIPTION = a wv 0 w } Lu J o-D 2z < o > 0 0- 0 W w 0? Q m0> 0z A SPT N VALUE A 20 40 60 80 PL LL 20 40 60 80 El FINES CONTENT (%) El 20 40 60 80 285 Orange to tan silty CLAY, dry, loose, (RESIDUAL SOIL) KSjs 100 3-3-4 (7) Red to orange SILT, dry, stiff, (RESIDUAL SOIL) 5 SS 2 100 6-9-13 (22) 280 Dark red SILT, dry, stiff, (RESIDUAL SOIL) 10 SS 3 100 4-6-10 (16) 275 Red to tan SILT, trace sandstone fragments, dry, dense, (WEATHERED ROCK) 15 SS 4 100 2-13-25 (38) 270 Light brown SILT, dry, hard, (WEATHERED ROCK) 20 SS 5 100 9-21-50-4 (71) 265 Light brown to orange SILT, trace sandstone fragments, moist, dense, (WEATHERED ROCK) 25 SS 6 100 21-21-26 (47) 260 1 Light gray to pink SILT, trace sandstone fragments, dry, hard, - (WEATHERED ROCK)____________________ Light gray SANDSTONE, dry, hard, (ROCK) 30 SS 7 50 6-50-3 53 Bottom of boring at 31.6 feet. SS 17 50-0 8 fj_j_A_Civil & Environmental Consultants, Inc. BORING NUMBER PZ5-4D ��� 1900 A Center Park Drive PAGE 1 OF 2 Charlotte, NC 28217 CLIENT Anson Waste Management Facility PROJECT NAME Phase 5 Landfill Expansion Area PROJECT NUMBER 165-276 PROJECT LOCATION Anson County, NC DATE STARTED 4/4/17 COMPLETED 5/1/17 GROUND ELEVATION 319.62 ft BACKFILL DRILLING CONTRACTOR Summit Engineering WATER LEVELS: DRILLING METHOD Hollow Stem Auger & NQ Core Z-7 BEFORE CORING 27.0 ft / Elev 292.6 ft CEC REP MBG CHECKED BY EHS AT END OF DRILLING NA NOTES Temp. piezometer dry at AR (27' bgs). Core to water table. 7-168hrs AFTER DRILLING 36.5 ft / Elev 283.1 ft p ~ > w U o_ OO Q� 0 MATERIAL DESCRIPTION = a wv 0 w } Lu J aD 2Z < o of > 0 0- 0 W w 0 ? Q m0> UZ A SPT N VALUE A 20 40 60 80 PL �L 20 40 60 80 El FINES CONTENT (%) El 20 40 60 80 Pink to red SILT, dry, loose, Three inches of organic sandy silt, (RESIDUAL SOIL) KSS 1 100 3-3-4 (7) 315 Yellow to tan to gray SILT, dry, medium dense, (RESIDUAL SOIL) 5 2S 100 5-1319 (32) 310 Pink to tan mottled SILT, dry, dense, (WEATHERED ROCK) 10 SS 3 100 9-16-24 (40) 305 Gray cemented SILT, some rock fragments, dry, hard, (WEATHERED ROCK) 15 SS 4 50 39-50-3 (53) 300 Gray cemented SILT, some rock fragments, dry, hard, (WEATHERED ROCK) 20 SS 5 33 34-50-1 (51) 295 Gray ROCK FRAGMENTS, dry, hard, (WEATHERED ROCK) 25 SS 6 0 50-2 17 Gray ROCK FRAGMENTS, dry, hard, (ROCK) SS 7 0 50-0 290 30 Tan SILTSTONE, slightly weathered, slightly broken, massive, Vertical with sub -horizontal fractures and angled bedding. FeMn staining in NQ 92 between fractures. 1 (58) 285 35 (Continued Next Page) BORING NUMBER PZ5-4D - ` Civil & Environmental Consultants, Inc. ,- 1900 A Center Park Drive PAGE 2 OF 2 ' �A Charlotte, NC 28217 CLIENT Anson Waste Management Facility PROJECT NAME Phase 5 Landfill Expansion Area PROJECT NUMBER 165-276 PROJECT LOCATION Anson County, NC w o A SPT N VALUE A 0 U >- cn w 20 40 60 80 ~ o O = a > 0 0? Q PL LL > Q� MATERIAL DESCRIPTION wv J o-D 0- 20 40 60 80 0 2 Z 0 m0> 0 Z w < W ❑ FINES CONTENT (%) ❑ 35 20 40 60 80 Tan SILTSTONE, moderately weathered, slightly broken, massive, Semi -competent rock with sub -horizontal fractures NQ 86 2 (77) 280 40 Gray SILTSTONE, fresh, massive, Competent rock with horizontal fractures. NQ 97 3 (90) Gray SILTSTONE, moderately weathered, slightly broken, massive, --------------------------------- Semi -competent rock with sub -horizontal fractures. FeMn staining in between fractures. Bottom of boring at 43.1 feet. NQ 86 4 (70) BORING NUMBER PZ5-5S & Environmental Consultants, Inc. PAGE 1 OF 1 fff—J—A—Civil ��� 1900 A Center Park Drive Charlotte, NC 28217 CLIENT Anson Waste Management Facility PROJECT NAME Phase 5 Landfill Expansion Area PROJECT NUMBER 165-276 PROJECT LOCATION Anson County, NC DATE STARTED 4/7/17 COMPLETED 4/7/17 GROUND ELEVATION 283.38 ft BACKFILL DRILLING CONTRACTOR Summit Engineering WATER LEVELS: DRILLING METHOD Hollow Stem Auger BEFORE CORING NA CEC REP MBG CHECKED BY EHS TAT END OF DRILLING 10.5 ft / Elev 272.9 ft NOTES 744hrs AFTER DRILLING 15.7 ft / Elev 267.7 ft w o A SPT N VALUE A p U = } cn w 20 40 60 80 PL LL ~ > o O MATERIAL DESCRIPTION a Lu J > 0 0? Q Q� 0 wv o-D 0- 0 m0> 20 40 60 80 El FINES CONTENT (%) El w 2z < W 0z 0 20 40 60 80 Dark brown silty CLAY, moist, soft, (RESIDUAL SOIL) SS 2-1-1 1 100 (2) 280 Light ray to orange cemented SILT, dry, very dense, (WEATHERED ROCK) SS 38 45 50 4 5 2 100 (95) 275 Light gray SAND AND ROCK FRAGMENTS, dry, hard, (WEATHERED ROCK) 10 SS 1 3 0 50-1 270 Light gray SAND AND ROCK FRAGMENTS, dry, hard, (WEATHERED ROCK) 15 SS 17 4 0 501 265 Gray to orange silty SAND AND ROCK FRAGMENTS, wet, hard, (WEATHERED ROCK) 20 SS 8-17-21 5 77 (38) 260 Light gray cemented SILT, with rock fragments, wet, hard, Wet split spoon, (WEATHERED ROCK) 25 SS 14-11-50-6 6 50 (61) ------------------------------ Dark gray ROCK FRAGMENTS, wet, hard, (ROCK) 255 Bottom of boring at 28.5 feet. �S 0 50-0 BORING NUMBER PZ5-5D & Environmental Consultants, Inc. PAGE 1 OF 2 fj_j_A_Civil ��� 1900 A Center Park Drive Charlotte, NC 28217 CLIENT Anson Waste Management Facility PROJECT NAME Phase 5 Landfill Expansion Area PROJECT NUMBER 165-276 PROJECT LOCATION Anson County, NC DATE STARTED 5/3/17 COMPLETED 5/3/17 GROUND ELEVATION 283.72 ft BACKFILL DRILLING CONTRACTOR Summit Engineering WATER LEVELS: DRILLING METHOD Hollow Stem Auger & NQ Core Z-7 BEFORE CORING 17.0 ft / Elev 266.7 ft CEC REP MBG CHECKED BY EHS AT END OF DRILLING NA NOTES 7-120hrs AFTER DRILLING 10.8 ft / Elev 272.9 ft w o A SPT N VALUE A p U } w 20 40 60 80 ~ o O = a Lu of > 0 0? Q PL LL > ¢� MATERIAL DESCRIPTION wv J aD 0- 20 40 60 80 � 2Z U m0> 0Z w < W El FINES CONTENT (%) El 0 20 40 60 80 280 5 275 10 270 15 Q 265 20 Tan SILTSTONE, completely weathered, very broken, massive, Highly fractured rock with vertical and sub -horizontal fractures. NQ 95 1 (80) 260 25 Tan SILTSTONE, slightly weathered, massive, Medium to sub -horizontal fractures. NQ 84 2 (84) 255 30 Tan SILTSTONE, completely weathered, very broken, massive, Highly fractured rock with vertical and sub -horizontal fractures. NQ 92 3 (68) 250 35 (Continued Next Page) BORING NUMBER PZ5-5D - ` Civil & Environmental Consultants, Inc. ,- 1900 A Center Park Drive PAGE 2 OF 2 ' �A Charlotte, NC 28217 CLIENT Anson Waste Management Facility PROJECT NAME Phase 5 Landfill Expansion Area PROJECT NUMBER 165-276 PROJECT LOCATION Anson County, NC w o A SPT N VALUE A 0 U >- cn w 20 40 60 80 ~ o O = a Lu of > 0 0? Q PL LL > Q� MATERIAL DESCRIPTION wv J o-D 0- 20 40 60 80 0 2 Z 0 m0> 0 Z w < W ❑ FINES CONTENT (%) ❑ 20 40 60 80 Tan to gray SILTSTONE, fresh, massive, Highly competent rock with horizontal fractures. Color change to gray at 32' bgs. Bottom of boring at 35.0 feet. NQ 98 4 (98)