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0403_AnsonLF_CQACell2East_20231227
FINAL CERTIFICATION REPORT prepared for WASTE CONNECTIONS Connect with the Future® WASTE CONNECTIONS OF THE CAROLINAS CONSTRUCTION OF PHASE 4 CELL 2 ANSON COUNTY LANDFILL POLKTON, NORTH CAROLINA prepared by MJM CONSULTING, LLC in partnership Revised DECEMBER 2023 OASIS -CONSTRUCTION SERVICES, INC. with oAsis MJM CONSULTING, LLC in partnership with VC Revised December 27, 2023 Ms. Donna J. Wilson Engineering Project Manager, Solid Waste Section Division of Waste Management North Carolina Dept. of Environmental Quality 1646 Mail Service Center Raleigh, NC 27699 Subject: Chambers Development of North Carolina, Inc., A Wholly -Owned Subsidiary of Waste Connections, Inc. Anson County Landfill, Polkton, North Carolina Permit No. 0403-MSWLF-2010 Phase 4, Cell 2 Construction Quality Assurance (CQA) Report, Revised November 30, 2023; Originally dated October 18, 2023 Dear Ms. Wilson: On behalf of Waste Connections of the Carolinas, we are writing to provide revised documentation and certification of construction of the Phase 4 Cell 2 Construction at the Anson County Landfill in Polkton, North Carolina. The revisions to the CQA Report were made to address Dept. of Environmental Quality (DEQ) comments dated and submitted to Oasis Consulting Services (Oasis) via email November 6, 2022. In this email, DEQ noted that subgrade elevations were lower than the Permit Modification of March/April 2023. Upon review and in a follow-up discussion with DEQ on November 16, 2023, it was apparent that the subgrade elevations were set approximately 3.5 feet lower than the approved design. Upon review by Michael Monteleone, P.E., the Certifying Engineer, and Jonathan Queen, P.E., the Design Engineer, it was determined that the surveyor set subgrade elevations at 3.5 feet lower than design. Two-thirds of the cell provided the requisite minimum 4-foot groundwater separation. This report has been amended to certify only that portion of Phase 4 Cell 2 shown on Figures 1 and 2 (See Figures Tab in CQA Report). 45 Woodelock ,Sl., Rostire/!, GA 300?5 Phone: 6-8-1-39- 2-100 The CQA Report includes information prepared in accordance with the requirements of Rule .1621 of 15A NCAC 13B, and contains results of construction quality assurance and construction quality control testing in accordance with the following: The approved CQA Plan, dated 26 March 2018; ii. The conditions of the Permit to Construct, dated December 7, 2018, and modified March 11, 2022; iii. The Phase 4 Cell 2 Minor Modification by Weaver Consultants, dated 13 April 2023 and approved 19 April 2023 by DEQ; iv. The requirements of Rule 15A NCAC 13B.1624; and V. Acceptable engineering practices. We acknowledge both the modification made to the base grades, and the proposed temporary sump with associated features from the "Minor Modification for Phase 4, Cell 1," dated March 11, 2022. Based on my review of the as -built surveys; monitoring, testing and visual observation of the construction; and the final report, it is my professional opinion that construction of the eastern two-thirds of Phase 4 Cell 2 was completed in accordance with the approved permit drawings, the four permit conditions noted above, and as documented by the enclosed Final Construction Quality Assurance Report (see Figure 3). The western third of the cell, delineated by the blue line on Figure 3, is not approved for certification at this time. I hereby certify the construction as evidenced by my North Carolina seal and signature. Please contact me at (404) 307-2680 or mikemontef c comeast.net with any questions or comments regarding the report. Sincerely, SEAL Michael Monteleone, P.E. Member/Manager cc: Susan Reid, P.E. - Waste Connections Matt Crockett, P.E. - Waste Connections Tyler Fitzgerald - Waste Connections Kingsley Nwaogwugwu - Oasis Consulting Services Jason Watkins - NC Dept. of Environmental Quality Ed Mussler - NC Dept. of Environmental Quality 43 WooclslockSI., Rosircll, GA 300 5 Phone: 6-8-139- 400 MJM CONSULTING, LLC in partnership with OASIS CONSI1LiING SERVICES TABLE OF CONTENTS 1. GENERAL............................................................................................................1 2. PROJECT OVERVIEW..........................................................................................2 2.1 Project Team.................................................................................................................2 2.2 Project Schedule...........................................................................................................2 3. QUALITY ASSURANCE MONITORING / FIELD & LABORATORY TESTING ......... 4 3.1 Subgrade Construction..................................................................................................4 3.2 Compacted Clay Subbase Construction........................................................................4 3.3 Geosynthetic Clay Liner, HDPE Geomembrane, and Geocomposite InstallationObservations..............................................................................................6 3.3.1 General Monitoring Procedures............................................................................... 6 3.3.2 Manufacturer Quality Control Certificates for Geosynthetic Clay Layer, Geomembrane, Drainage Geocomposite, and Geotextile ............................. 6 3.3.3 Interface Friction Testing......................................................................................... 7 3.3.4 GCL / HDPE Geomembrane Conformance Testing and Deployment Observations............................................................................................................. 8 3.3.5 Geomembrane Trial Seam Observations.................................................................. 8 3.3.6 Geomembrane Seaming............................................................................................9 3.3.7 Geomembrane Defect and Repair Observations...................................................... 9 3.3.8 Geomembrane Seam Strength Destructive Testing Observations ............................ 9 3.3.9 Geomembrane Seam Non -Destructive Continuity Testing Observations...........................................................................................................10 3.4 Leachate Collection System Observations.................................................................10 PHOTOGRAPHS FIGURES Figure 1 - Geomembrane Panel Layout with Destructive Test and Repair Locations Figure 2 - Record Drawings for Partial Certification of Top of Subgrade, Clay Subbase, and Protective Cover Layer 1 MJM CONSULTING, LLC in partnership with OASIS CONSI1LiING SERVICES APPENDICES A. Listing of Monitoring and Installation Personnel B. Soil Laboratory Testing Results Section 1 - Structural Fill Section 2 - Clay Liner Borrow Section 3 - Clay Liner during Construction Section 4 - Protective Cover Section 5 - LCS Aggregate C. Manufacturers' Quality Control Certificates Section I - HDPE Geomembrane Section 2 - Geosynthetic Clay Liner Section 3 - Geocomposite Section 4 - Leachate Collection Components Section 5 - Geotextile D. Conformance Test Results Section 1 - HDPE Geomembrane Section 2 - Geocomposite E. Interface Friction Angle Test Results F. Geomembrane Documentation Section I - Subgrade Acceptance Certificates Section 2 - Geomembrane Panel Deployment Log Section 3 - Geomembrane Trial Seam Log Section 4 - Geomembrane Fusion and Extrusion Seam Log Section 5 - Geomembrane Defect, Repair, and Vacuum Test Log Section 6 - Fusion and Extrusion Destructive Sample Test Results G. Daily Field and Density Testing Reports H. Leachate Collection Line Video and CD Inspection ii MJM CONSULTING, LLC in partnership with OASIS CONSI1LiING SERVICES 1. GENERAL MJM Consulting, LLC in partnership with Oasis Construction Services, Inc. (MJM/Oasis) was retained by Waste Connections of the Carolinas to provide construction quality assurance (CQA) monitoring and final certification services for the construction of Phase 4, Cell 2 at the Anson County Landfill in Polkton, North Carolina. For the cell construction, the project involved a 6-acre composite liner system consisting of, from bottom to top, a fine graded subgrade, an 18-inch-thick compacted clay subbase (1 x 10-5 centimeters per second maximum permeability), a geosynthetic clay liner (GCL), a 60-mil high - density polyethylene (HDPE) textured geomembrane, a geocomposite drainage layer, and a 24- inch-thick protective cover layer. Phase 4, Cell 2 was built in accordance with the approved CQA Plan dated March 26, 2018, Permit to Construct dated December 7, 2018, the requirements of Rule 15A NCAC 13B.1624, and the minor modification for Phase 4 Cell 1 dated 11 March 2022; as well as the contract drawings for the construction of Phase 4, Cell 2, Anson Waste Management Facility, dated 31 May 2023 and prepared by Weaver Consultants Group, Fort Worth, TX (WCG), and the approved Construction Quality Assurance & Construction Quality Control (CQA/CQC) Plan. One exception to these design documents was noted. It was determined that the surveyor inadvertently set subgrade elevations at 3.5 feet lower than design. The eastern two-thirds of the cell provided the requisite minimum 4-foot groundwater separation. This report certifies only the eastern two-thirds of the cell, as shown on Figure 3. The CQA data obtained for the western third met the requirements of these documents, with the exception that the subgrade was set 3.5 feet lower than design. Anson Waste Management Facility Final Certification Report Phase 3, Cell 1 Page 1 MJM CONSULTING, LLC in partnership with OASIS CONSI1LiING SERVICES 2. PROJECT OVERVIEW 2.1 Project Team MJM/Oasis provided CQA services throughout the project to monitor the construction activities performed by contractors, and to compile the required testing and surveying data for the final certification report documenting that the project has been constructed in substantial compliance with the approved permit drawings and CQA/CQC Plan. Design and engineering services were provided by Weaver Consulting Group (WCG). The duties of MJM/Oasis were, more specifically, as follows: • Quality Assurance (QA) monitoring services were provided by MJM/Oasis, which had personnel onsite on a full-time basis. The objectives of the QA Monitoring Program were to observe and document the materials and installation procedures for conformance to the project requirements, and to provide a certification statement that the installation was in accordance with plans and specifications. A listing of MJM/Oasis personnel involved in the project is presented in Appendix A. • Geotechnical laboratory testing of the structural fill, clay liner borrow, clay liner protective cover soil, and leachate collection aggregate layer was conducted by MJM/Oasis and Excel Geotechnical Testing, Inc. (Excel) (see Appendix B). • Geosynthetics testing was performed by TRI Environmental, Inc. of Austin, Texas (see Appendices D and E). The certifying engineer assigned to the project was Mr. Michael Monteleone, P.E., a registered professional engineer licensed to practice in the State of North Carolina. He conducted weekly construction meetings; reviewed the product submittals, test results, the as -built drawing for the top of the subgrade, the clay and protective soil layer; and prepared the final certification report. 2.2 Project Schedule The construction of Phase 4, Cell 2 began on 7 June 2023, and was substantially completed 20 October 2023. Anson Contractors, Inc. (ACI) was the general contractor for construction of Phase 4, Cell 2. MJM/Oasis had a full-time monitor on site from 12 June 2023 through the project completion date of 18 October 2023. Anson Waste Management Facility Final Certification Report Phase 3, Cell 1 Page 2 MJM CONSULTING, LLC in partnership with OASIS CONSI1LiING SERVICES A pre -construction meeting was held on 12 June 2023, and was attended by representatives of Waste Connections of the Carolinas, CEC, BCS, WCG, and MJM/Oasis. Topics of this meeting included the project scope, lines of communication and responsibilities, contractual procedures, project specifications and testing requirements, earthwork construction procedures, construction scheduling, and documentation. A geosynthetic materials pre -construction meeting which was held on 8 September 2023 was attended by representatives of ACI, Hallaton Environmental Linings, Inc. (Hallaton), and MJM/Oasis. Topics of this meeting included the project scope, lines of communication and responsibilities, liner construction scheduling, material specifications, geomembrane, and drainage geocomposite installation procedures. Parties in attendance were in agreement concerning the scheduling, specification, and installation procedures. Hallaton demobilized 25 September 2023. Detailed results of the required testing and material properties, CQA monitoring services, and required as -built surveys are contained in this final certification report. Anson Waste Management Facility Final Certification Report Phase 3, Cell 1 Page 3 MJM CONSULTING, LLC in partnership with OASIS CONSI1LiING SERVICES 3. QUALITY ASSURANCE MONITORING / FIELD & LABORATORY TESTING 3.1 Subgrade Construction Initially, the construction site was stripped of vegetation in the cell. A portion of the structural fill was placed along the west berm in the process of constructing the access road; the remaining fill was placed in the cell footprint to meet design subgrade. The completed subgrade was proof - rolled with a loaded truck to verify soundness and acceptability of in -situ material. Suspect areas were undercut, and clean structural fill was placed by ACI and compacted and rechecked, either by testing or by proof -rolling. Structural fill materials consisted of fine, sound, loose earth exhibiting -3 percent to +3 percent optimum moisture content, for compaction to a minimum of 95 percent of maximum dry density, as determined by the standard Proctor test method. During construction, MJM/Oasis personnel verified that the horizontal lifts did not exceed 12 inches, and that surfaces were properly scarified prior to placement of additional lifts. A total of one -hundred twenty-eight (128) structural fill field moisture/density tests were performed to verify both in -place moisture content, and the degree of compaction achieved by the contractor. A summary of the field moisture/density test results for structural fill is presented in Appendix B - Section 1; our review indicated that the structural fill was placed and compacted in accordance with the project requirements. ACI provided field construction staking at appropriate intervals. The grades were subsequently certified by Lawrence Associates of Monroe, North Carolina (Lawrence Associates), prior to placement of the clay liner. Please note the exception whereby it was determined that the surveyor inadvertently set subgrade elevations at 3.5 feet lower than design. The eastern two-thirds of the cell provided the requisite minimum 4-foot groundwater separation. This report certifies only the eastern two-thirds of the cell, as shown on Figure 3. The data obtained for the western third met the requirements of these documents, with the exception that the subgrade was set 3.5 feet lower than design. The CQA test data collected for this western third of the cell did meet the project requirements. 3.2 Compacted Clay Subbase Construction The compacted clay subbase was placed using material from the on -site borrow source. The borrow source material was tested and found to meet the permeability requirements, which were less than or equal to 1 x 10-5 cm/sec. The clay liner was constructed in three lifts for a final minimum thickness of 18 inches. As noted in the CQA Plan by CEC dated December 2018, the Certifying Engineer has the option to consider such methodologies for clay compaction. During Anson Waste Management Facility Final Certification Report Phase 3, Cell 1 Page 4 MJM CONSULTING, LLC in partnership with OASIS CONSI1LiING SERVICES the previous cell construction performed in 2022, a clay test pad was built utilizing three clay lifts, and each lift was tested and approved by MJM/Oasis before proceeding. The contractor successfully demonstrated that three lifts could achieve the project specifications. During construction, visual changes in the clay borrow material were noted, and subsequent field Proctor reference curves were developed to supplement the laboratory generated curves. A total of 243 in -situ moisture/ density tests were performed during construction. The passing test results ranged from 95 percent to 97 percent compaction, with moisture content ranging from 4 percent to 5.0 percent above optimum moisture content, as determined by the standard Proctor test method (ASTM D-698). The field moisture density test results are presented in Appendix G. At locations of failing field moisture/density or permeability test results, the areas were either moisture -conditioned by the controlled addition of water, or scarified to promote proper drying and recompaction of the material. The reworked areas were then recompacted and retested. Additionally, the clay subbase was compacted so that the equipment used for geomembrane deployment did not cause significant rutting. No excessive rutting of the subbase was observed during the geomembrane installation. Upon completion of the test pad, undisturbed (Shelby tube) samples were procured from each compacted lift. A total of 15 Shelby tubes, three of which were for the test pad, were obtained during clay liner construction. None of the Shelby tubes failed to meet project specifications. Test samples were sent to Oasis' AASHTO-accredited laboratory in Canton, Georgia, for a determination of permeability characteristics. Permeabilities were found to range in the mid 1 x 10-7 cm/sec, indicating that the compacted clay liner was constructed in accordance with project requirements. In -situ clay permeability test results for Phase 4, Cell 2 are presented in Section 3 of Appendix B. The existing liner edge was excavated by ACI to uncover a suitable tie-in to the new 18-inch clay subbase. The preparation of the existing clay and placement of the clay subbase were observed and documented by MJM/Oasis. The top of the clay subbase elevation, presented in Figure 2, indicates that the compacted clay subbase was constructed to a minimum of 18 inches in thickness, as surveyed and verified by Lawrence Associates. The final clay subbase surface was scarified to facilitate the removal of any oversized particles. The soil material was visually confirmed to meet the particle size requirements of less than or equal to 1/4-inch. A smooth drum roller was used to prepare the subbase and to provide a smooth surface prior to geomembrane deployment. Anson Waste Management Facility Final Certification Report Phase 3, Cell 1 Page 5 MJM CONSULTING, LLC in partnership with OASIS CONSI1LiING SERVICES 3.3 Geosynthetic Clay Liner, HDPE Geomembrane, and Geocomposite Installation Observations The installation of the composite liner was performed by Hallaton. A work history of the Hallaton personnel who were involved with this project is presented in Appendix A. 3.3.4 General Monitoring Procedures The CQA monitoring activities performed by MJM/Oasis during installation of the geosynthetic components (HDPE geomembrane and drainage geocomposite) of the composite liner consisted of the following: • Obtaining and reviewing product submittals required of the manufacturer and installer; • Observing, documenting, and evaluating trial seam test results; • Observing and documenting HDPE geomembrane seaming techniques and field seams; • Identifying and documenting defects, as well as observing and documenting repairs; and • Observing and documenting the installation of the drainage geocomposite and geotextile in the leachate collection system. One CQA monitor was present at the site on a full-time basis to perform the above activities during the installation of the geomembrane liner. 3.3.2 Manufacturer Quality Control Certificates for Geosynthetic Clay Layer, Geomembrane, Drainage Geocomposite, and Geotextile The geosynthetic liner components consisted of a geosynthetic clay layer (GCL), HDPE geomembrane, and a drainage geocomposite. The geosynthetic liner components supplied for this project were manufactured and supplied by CETCO and SKAPS, and consisted of: • A geosynthetic clay layer (CETCO) • A minimum 60-mil. thick, textured HDPE geomembrane (23-foot-wide by 500-foot- long rolls) (Skaps) Anson Waste Management Facility Final Certification Report Phase 3, Cell 1 Page 6 MJM CONSULTING, LLC in partnership with C 4 OASIS SERVICES, INC. • Drainage geocomposite in 14-foot-wide by nominal 200-foot-long rolls (Skaps) • Non -woven geotextile in 15-foot-wide by nominal 300-foot-long rolls (Skaps) Manufacturer Quality Control (QC) Certificates, submitted by CETCO and SKAPS, are included in Appendix C. A review of this documentation indicated that the composite liner system geosynthetics were manufactured in accordance with project specifications. CQA conformance testing was performed on all materials as well; see Appendix D for data. All material met or exceeded project specifications. 3.3.3 Interface Friction Testing Four interfaces of the composite liner system were tested by TRI September 2020, per requirements of the CQA Plan dated September 2016: • GCL / Clay • GCL / Geomembrane • Internal GCL • Full cross-section with each type of protective cover The interface testing material used for this cell was the same used in the previous cells; therefore, it was judged by the permit engineer that additional interface testing was not required, since the materials were manufactured by the same manufacturers (i.e., CETCO and SKAPS) that produced material for this interface test. This was the case as required in the project CQA Plan for the Phase 3-4 permits for this cell. In addition, a minimum average asperity height of 27 mils was demonstrated for the material used in this cell, which exceeded the project specification. The CQA plan required a minimum asperity height of 10 mils, which was exceeded for this cell. The asperity heights were required to be no less than 27 mils. An evaluation performed by CEC on 26 May 2020 demonstrated that peak shear strength and large displacement shear strength parameters were able to be met at these interface design requirements. The large displacement and the peak values had both met the minimum requirements. The results of this previous evaluation are contained in Appendix E. Anson Waste Management Facility Final Certification Report Phase 4, Cell 2 Page 7 OASIS OS SERVICES, INC. MJM CONSULTING, LLC in partnership with 3.3.4 GCL / HDPE Geomembrane Conformance Testing and Deployment Observations Prior to GCL/HDPE geomembrane deployment, the clay subbase was prepared using a smooth drum roller. MJM/Oasis CQA monitors, along with Hallaton personnel, visually inspected the subbase surface to verify that the surface was smooth and free of irregularities, foreign matter, or surface conditions that could damage the GCL and geomembrane. In accordance with the specifications, Hallaton submitted subgrade acceptance certificates prior to deployment of HDPE geomembrane panels in Cell 2. These certificates are presented in Appendix F - Section 1. Geomembrane panels were deployed using a front-end loader to lift the rolls, as well as personnel who unrolled the panels in place. Hallaton then aligned each panel of the geomembrane to allow a nominal 5-inch overlap with the adjacent panel. Free edges of panels were temporarily loaded with sandbags until the panels were seamed together. A summary of the geomembrane panel deployment data is presented in Appendix F - Section 2. An as -built drawing of the geomembrane liner installation, which shows the panel layout, repair locations, and seam destructive sample repair locations, is presented in Figure 1. The CQA monitoring staff assigned a field identification number to each panel in chronological order of deployment, and recorded the roll number assigned to the material by the manufacturer. Each panel was visually examined immediately after deployment for manufacturing defects and installation damage. Upon completion of the installation, the entire liner was again visually examined to identify any subsequent damage. Individual defects were marked, documented, and subsequently repaired by the installer. 3.3.5 Geomembrane Trial Seam Observations Trial seams were performed by Hallaton welding technicians as an ongoing monitoring method of the performance of both the welder operator and the welding apparatus. Trial seams were made in the morning and afternoon, approximately every four hours. These trial seams were then tested by Hallaton using a tensitometer to verify the strength of the welds. Trial seam testing was observed and documented by an MJM/Oasis CQA monitor. Five specimens from each trial seam were tested. If a trial seam test failed, the welding apparatus or welder was not accepted or used for seaming until the deficiencies were corrected, and two consecutive successful trial seams were achieved. Summaries of the trial seam data for Cell 2 are presented in Appendix F - Section 3. Test results for fusion and extrusion welding are presented in Appendix F - Section 6. Anson Waste Management Facility Final Certification Report Phase 4, Cell 2 Page 8 OASIS OS SERVICES, INC. MJM CONSULTING, LLC in partnership with 3.3.6 Geomembrane Seaming Hallaton used double -track, hot -wedge fusion machines on this project. The manual extrusion welding method included repairs and the completion of end seams. The CQA monitors tracked the progress of each welder, and monitored each seam for visual defects and for seam completion. Visual defects were marked and subsequently repaired by Hallaton. A summary of geomembrane seaming data for Cell 2, for fusion and extrusion welding, respectively, is presented in Appendix F - Section 4. 3.3.7 Geomembrane Defect and Repair Observations Geomembrane panels were visually monitored for damage during deployment. Additionally, the CQA monitors examined the geomembrane panels and seams on an ongoing basis throughout the installation process. Defects found on the geomembrane panels and/or seams were marked, documented by the CQA monitor, and subsequently repaired by Hallaton. The repair procedures were observed and logged by the CQA monitor, and the locations were mapped. A summary of Cell 2 defects and repairs is presented in Appendix F - Section 5. The approximate location of the repairs is shown in Figure 1. 3.3.8 Geomembrane Seam Strength Destructive Testing Observations Destructive seam sample locations were selected by CQA monitors based on the progress of a particular welder or welding device, or based on the suspicion of defective welding. Destructive testing was conducted at a minimum frequency of one sample per every 500 linear feet of the completed seam for each welding apparatus. Forty-five initial fusion destructs and two extrusion destructive seam samples were procured by MJM/Oasis and submitted to TRI for laboratory testing. Ten specimens were removed from each destructive seam sample and tested by TRI following ASTM standards. Five specimens were tested for peel adhesion (peel), and five specimens were tested for shear strength (shear). The acceptance criteria for shear were that four out of five specimens must have yield strengths greater than 120 pounds per inch of width; additionally, failure should not occur within the weld. The acceptance criteria for peel testing were that four out of five specimens (for each track) should not fail within the weld, and that each specimen must exhibit a yield strength greater than 91 pounds per inch of width. Destructive samples which did not meet the acceptance criteria were tracked Anson Waste Management Facility Final Certification Report Phase 4, Cell 2 Page 9 MJM CONSULTING, LLC in partnership with C 4 OASIS SERVICES, INC. according to requirements of the CQA Plan dated March 2018 and retested. A summary of the destructive seam sample laboratory test results, for fusion and extrusion welding, respectively, is presented in Section 6 of Appendix F. The approximate locations of the destructive seam samples are shown in Figure 1. 3.3.9 Geomembrane Seam Non -Destructive Continuity Testing Observations Geomembrane fusion seams and extrusion seams for Cell 2 were non-destructively tested by Hallaton using air pressure testing and vacuum box methods. MJM/Oasis monitored the non- destructive testing on a procedural basis and documented the progress of testing. Non-destructive testing was performed in accordance with project specifications, and no deficiencies were indicated by the testing. Summaries of the non-destructive testing of seams and repairs are presented in Appendix F - Section 4. 3.4 Leachate Collection System Observations The leachate collection system for Cell 2 consisted of a drainage geocomposite, and a minimum 24-inch-thick manufactured sand protective cover layer. The leachate collection pipes were surrounded by No. 57 aggregate wrapped with non -woven geotextile. One sample of aggregate was sent to the Excel Geotechnical Testing Laboratory to verify calcium carbonate content, grain size, and permeability. A review of the laboratory results indicated compliance with the project specification requirements. Test results for aggregate are presented in Section 5 of Appendix B. The existing adjacent cell liner was tied into the Phase 4 Cell 1 and Cell 2B (west side) 60 mil HDPE liner, overlapped with geocomposite, and tied into the existing protective cover as shown in Detail L2-5, Drawing 9 contained in the March 11, 2022 Minor Modification for Phase 4, Cell 2. Manufactured sand protective cover was placed over the drainage geocomposite on the cell bottom and upslope areas using low -ground pressure equipment to minimize the possibility of damage to the geocomposite and geomembrane liners. MJM/Oasis provided full-time monitoring of the placement of the protective material. Four samples of the protective soil cover material were obtained and sent to the Oasis Laboratory to verify that the grain size and permeability of the placed material met project specifications. Test results, presented in Section 4 of Appendix B, indicate that the materials were in compliance with the project specifications. Visual monitoring during placement indicated that no unacceptable wrinkles or damage to the underlying geomembrane had occurred. Anson Waste Management Facility Final Certification Report Phase 4, Cell 2 Page 10 �A515 COTCikuCilot4 $�RVICES, INC. MJM CONSULTING, LLC in partnership with indicate that the materials were in compliance with the project specifications. Visual monitoring during placement indicated that no unacceptable wrinkles or damage to the underlying geomembrane had occurred. During monitoring, MJM/Oasis verified that a minimum of 24 inches of material was placed on the upslope and on the cell bottom by survey, by digging holes, and by manually measuring the thickness of the cover. The construction was completed in accordance with: (i) The approved CQA plan, dated March 26, 2018; (ii) The conditions of the permit to construct, dated December 7, 2018; (iii) The requirements of Rule 15A NCAC 13B .1624; and (iv) The approved minor modification of cell re -design, dated March 11, 2022, by Nathan Bivins, Civil and Environmental Consultants, Inc. Please contact Mr. Michael J. Monteleone, P.E. at (404) 307-2680, or rnikei-nontel@comcast.net with any questions or comments regarding this report. C�ARO +r�a��� f r C V% SEAL 27091 Michael Monteleone, P.E. CQA Engineer of Record Anson Waste Management Facility Final Certification Report Phase 4, Cell 2 Page 11 PHOTOGRAPHS PHOTOLOG — ANSON LANDFILL PHASE 4 CELL 2 6/25/2023 Structural Fill Placement F 1 6/25/2023 Removal of unsuitable wet material MOU-7— 'Vft �"6"xX 7/2/2023 Placing of structural fill on the eastern section TM1� xl zr`'Y.% `f't- .Y� ��,YISF ; y} "'^ems-��S'a"3�3.�'+x,•'�ly� � V ^h <1r 6 �. _; r 4 "'S�a✓ems-��,p�.�¢'��� k el w �'a �.. , ' � ���' �5'S+� q�y4, : cam. � � ., �4 _ m;. 4+h aT r. �.h �L�e•,L'v" �.�,. i `i �:.� Yc" ZY �..v^-�'yCi`.�l 7/2/2023 Processing of clay in cell 2 - M-- s,si to, tea.• �� q�'\ � `� i-. .. y � --. ,c.. 7/16/2023 A� Installation of 48-inch CMP across the access road 1 • �y d 71 S `'�� ...�"3�T.�. n 7/30/2023 Ploughing and processing clay on the test pad 7/30/2023 Watering in place PMIk.� i►ay'.,4�p�� '�-y� ` n`".. �'���'7�9F✓�c� 'i �,�.+ X' � Tye .,. i��/�ya'�'� i 'L�J�„ �� �,�i► �i ._I. _• � . �p s�_�.�a J- �j +4 �" yy. ���r.. _ �.. >� ��5' � � 'ram '_�''._..1fi �.�. +'� '.l •��ryi .. 7/30/2023 Final rolling of compacted clay 7/30/2023 Excavation of clay from the . y, west borrow R°w 3 area Qa * a 8/6/2023 Clay progress for cell 2 --ems ``~ "'__ �.• \ - - - � � ( _ _ - - -d°.s� � S•�+ro aF i. �,.- '� �s V�,sy„ f� '� !A�"_`�.s� _ �y e✓ ' .t 'iao'e+t. ,,j� ��� Vi +,.� u^3 ae "�i 3• fiitiTi }: s,fw Ju-'y.',y-..zl 4'� ' 3 ��a' ✓y�$K3;+.�' `�..'�/�'�j ' :¢+l�'.�aW.'n *L' 'P .�.s'�Y' !�' "'.y'�v,�'a'""°� ��-�^_Y�`-'_�..+--a Y 'r,<v r^ W b� � r' .ik ` > �Y• - .. may,... 8/20/2023 ._ `! a �. -.^ Ploughing and watering of - clay during processing Ar r - 8/27/2023 Unloading fl- inch dual contained HDPE Force Main Pipes - F ¢tea �,_+�{�, ✓ f`!r/F 71 . 9/10/2023 Deployment on the north side of cell 2 77 71 � :,nee, .ems •►Y ` t , 9/10/2023 GCL deployment the mid- section of 9/24/2023 Machine`'_ sewing of in place `� -- - geocomposite fabric - � r 9/24/2023 Connecting � geocomposite material between existing new cell N �3, 10/1/2023 Protective cover placement 10/8/2023 Video recording of LCS pipe 77, 4`, Y v a� r � J �18FT YfA� *xkk �T J 10/8/2023 ~ Leaohateforoe main installation �— nearthe existing sump 1U/8/2U23 Leachate collection system (LCS) installation 10/8/2023 Back filling the force main pipe >. _1 10/8/2023 Construction of perimeter rain flap berm 10/15/23 Perimeter anchor trench for liner rain flap using structural fill (north side) 10/15/23 Perimeter anchor trench for liner rain flap using structural fill (west side) 10/15/23 Edge of liner markers 10/15/23 Edge of liner markers _gym ill 17 - rTj r - FIGURES Figure 1 Geomembrane Panel Layout with Destructive Test and Repair Locations 'zSEAL L-4358 ,yrr•�hnnn"����: (m mob - 40 Figure 2 Record Drawing for Top of Subgrade, Clay Subbase, And Protective Cover Layer POW N-M- r-t- C°4=a Ea-ww [only �� utrlhp , d>- NurM4rar 4Avea, 7hdo * rm /k7' 9+1r6eV r� ca1�-rro wv 100 45998&55 1651031.36 311.40 311.28 012 101 459976.65 1651036.3E 311.10 311.00 0.10 102 459987,93 1651100.00 312.90 312.80 0.10 103 459977.93 1651100600 31 ZZU 3i2.60 0.09 104 459989.95 1651200.00 317.41 317.J1 0.10 105 459979.95 1651.vCgq _317.3,5��317.72 0.1S _ 106 459991,97 1651300.00 322.67 322.56 0-11 107 459981.96 1651300.00 322.61 322.51 0.10 10B 45999,196 1651400.00 326.77 326.65 0.12 _ 109 459983.98 1651400.00 326.71 326,61 0.10 L70 450924.11 193140IL12 J11.92 3PA93 - 0.09 . }11 45906413 1651406.64 3?A.95 3R497 Me , 112 4599 MM 1651407.44 AIL02 113 459967,61 165146&97 31590 . tf4 4M8179 1651456-54 31'.�96 11S 46996A_52 ._ 1651465:1V1 310._M- lie 459925.09 1651465.36 316,87 _ 117 459890.31 1651466.E 310.96 its ,WMM53 _ 1651456.27 7i4.l6 -. 119 M $e1 25 1651467.32 '32LQ .�. - `20 459M00 ... 165141$51 326.50 3216,4J0 'CM 121 4%M.00 1651400.00 32&17 ns:be 0.09 4S"M[3P-. 1651300,00 3722-" 3i1.99 0.10_ i23 459400.1" 1651200.00 316.70 J16.04 UJA 524 i5990R00 15y1100,00 3}i74 _ J1264 _ _0.}0 . 125 " 169945.52 1651000-0p XV-91 309.62 COS w _._4`+9.e29.06 _ 1E51000A1f ,DMM 7p S _ 41a . 127 459900.00 165066120 J0681 306.74 0.07 128 459900.00 1650977.79 309.17 309.07 0.10 129 459900.00 1651000.00 309.82 309.72 0.10 130 459836.18 165091IL41 307.26 307.20 606 131 459829.2E 1650926173 307.47 307_39 _ 0.086 . - 132 459614.71 1650900.00 307.77 307.71 0.06 133 45980zoo 1650988.76 308.12 308.11 0.01 134 4%7V&24 1650900.00 30819 30813 0.06 135 459600A0 1650901.34 308.15 308.07 0.08 136 4596p0.00 1650954.67 308.31 30821 0-10 137 459800.00 1551000.00 309.61, 309.54 CIO . 138 459800.00 1651100.00 31256 31246 0.10 . 136 459600.00 1651200000 316.21 MAI CIO , 14a 45!1=00 1651300.00 321.45 321.35 0.10 141 459=00 MIW0.00 325.37 325.30 C47 142 409M00 Imla.1j 323.99 143 45979193 1431460.62 315.77 1" 45275154 1651473,16 31-k7 .. 145 459772.46 1551474,22 334,53 146 459093A2 1651474.31 314.10 147 450760,06 195141614 2,421 32581 0.10 145 4%700.00 1660900.00 310.49 31647 0.02 _�59700A0 165OM_IS 31643 310.34 0.09 _ _l49 1210 469700.00 165011",14 310.40 310.30 0.10 151 459756.29 _1654p5 ; 4 3O9_37 _'43*- _ 99 _ _ - . 152 45975423 1650866.36 30137 309.27 0-10 153 459757.09 1651000.00 309.56 309.52 0.04 154 45970600 1651000-00 31093 31683 0.10 155 4697MC10 M51060.33 311.22 311.12 0.10 156 439700A0 P851100,00 312.36 31231 0.07 157 450700,00 1951200.0o SMA1 3i5,72 ¢09 ,a i5wwoa IBSIJ00.00 32QB] 320.73 GtO _��^ 159 459700.00 18514M.00 324,94 324AS 061C 180 459700,00 1651416 73 323.67 32J.57 0-10 161 Q$663.53 3651473.30 311.53 162 45%40,51 165147S45 M&12 163 459661,12 M51416.24 32356 32554 0.02 164 459654.46 1651411.37 .525.09 32:.6+ 0.45 165 459662.46 1651100.00 312.31 31 1 Q10 158 45963872 _ 1 1650900.00 311.B5 _ 311.60 _ 040 167 45960296_ 165090600 312M 31232 0,70 168 459600.00 1650900.86_ 31469 31260 0.09 _ 169 459600.00 1650911.28 312.74 312.64 0.10 170 459600.00 1651000.00 313.18 J73.18 600 171 459600.00 1651100.00 313.72 313.68 0.04 172 459618.7-3 1651474.1� 304.97 _. 173 45964d00 165116&01 314.12 _ 314.10 0.02 174 459600.00 1651200.00 31 Sbfi 315.46 0.00 175 459590-76 1651475.04 301.69 176 459595.76 1651460.04 307.07 7 177 459600.00 1551391-76 323.94 323.93 0.01 178 45961E-99 1651400.00 324.40 324.32 0.08 179 459581.80 1651498-73 29830 180 459586 88 1651459-02 30958 . 181 459363A2 15514401 317-19 182 45657857 1651406,74 324.34 183 459575.45 1651385.45 330.56 184 459574,65 1651355.78 331,00 185 459574.03 1551341.95 331,20 - 186 459571-47 1651329 37 331.15 . 187 45 56 4.64 1651299.41 331,00 - 188 45:557.53 1551270-08 331,04 , 189 459548.37 1651232.44 330.42 190 459541.35 1651199.41 328.64 191 45:530.76 1651163.62 325.70 192 45951SL17 165112985 320.92 . 193 459497.1E 1651099.73 32B.17 194 459473.85 1651069.93 327.47 195 459454.63 1651044.E5 326.73 196 459430653 165101&15 32&16 197 459413,63 1_6509_91.62 32560 190 459397.51 _ 1650970.22 324,85 459393.44 1650961.02 324.59 _ __199 200 459500.00 1651000.00 315.32 315.25 am.. 201 459500-00 1650"Q40 31k96 314.0E 0.10 202 4,99500,00 _ 1650929.49 314,92 314314.82 0.10 GRAPHIC SCALE a0 a 4a w 140 no ( IN FEET ) 1 inch = 80 ft. NOTES 1. Points are proposed locations from Weaver Consultants Group 2. Points 112-119, 143-146, 161-162, and 179-199 have been moved to locations on the existing liner tie-in 3. Points 172, 175, and 176 have been moved to locations at a low point within the tie-in of existing cells �wwr lrr. 4. CQA and contractor located existing landfill tie-in areas and noted differing elevations than the plan design and we verified on As -Built survey to represent actual field elevations. Plan design revisions were required to tie-in to the existing cells 5. Points to the East of the intercell tie-in are certified 6. Contour Lines Depict Proposed Top of Clay Surface �� 9P bA 1 }31525 1� P ti r P y�312b° IM I' y 6 4 0 • ti �y48 f r gil Irl 4P� F�9 1�_.81 47 b �iV.12 4 1�� II •1 Fy 18 0 }�0J3 ► +�24�657 I yP' pe 1:�1 44 �0433 y 97 +�13.66 • } 10 j1. �R. b SEAL S - - L-4358 !!!flfl=k1114 rz z. �Zaz3 �. airO111`n £ea6vrt �� FM a •rq>f - I WD 4599M.5b 1651031.36 311,40 311,26 M12 31Z90 1w'0 . 101 4599 &W t651036.3a 31130 311,00 0.S0 312.66 7.5E 102 45MIA3 1651100.00 312.90 31ZEC 0.f0 3i4.47 1-57 . 105 45"77.9s 16x160.00 31269 3IM 0.0P 314.41 1.57 . 104 _ 459969.95 t651200.00 31741 N1.31 0.10 31&9r 1.50 IOS 459979.95. 165i270,00 317,33 317M ' 0.71 310.63 1.50 106 09901-97 165t300.0O 32Z67 322M 0.11 324.26 1W 107 459961,96 I551300.00 32ZAI 32,Z.51 0.10 324.12 Ua 105 459019A 1651400A0 326,77 326-63 0.12 .426.37 1:150 . 109 459903.96 %M400.00 326.71 32&51 0,10 "= 1S; , !f0 454994-t1 i651400-12 327.OQ 3716.4y 0.09 S2a.54 1.37 11i &5479a.i3 i6S1406" 328.95 321157 1105 329.63 1.56 S72 45MI-M 1651487-44 31&02 _-3175Y _ 1.SO it3 459467 M _ 1"145"1 31596 317.ip 1�0 114 459962.72 1651466.59 31698 311,45 1,50 115 439955-52 %514MA7 310.76 SId26 1,50 _ _ - $16 459925.09 t85148&W 31637 31a.37 ISO 177 459gn:S1 wl466.31 51690 _ 3fa.10 _ 1,50 - ii6 45MM53 165145&27 116.68 31LOO 1.50 119_ 4MM25- 165171l67.32 - 31 &7i2 1.50 - 120 459Y00.D0 •9514$2-51 326.50 36&50 W 3LEA9 1,59 121 459900-W 1651400.00 326-77 32l.Oa 0.09 Z27-72 1.5E. - 122 45WMW S651S00.00 3210a 321,96 0.10 32.3.68 1.50 123 459900.00 i651200.00 _ 31&79 316.64 MOS. 310.1.2. 142 124 4SOM130 7651100-00 312.74 S1294 1110 31*33 1.59 12S 459U&22 165100 DO 309.91 309-92 0A6 311AJ 1.52 . 1M 459nll,06 1651000.00 _0NZO 309. _7a _ "0 311.42 1,54 . . I" 439900.00 16S09a5.20 3M111 706.7R 0.07 310-40 1.55 126 459000.00 1650477.79 309.17 3W.07 0.10 310-71 1.y1 -_ 129 459900.00 _ 1951000.00 305-62 309.72 0.10 311,33 1.51 1$0 459a3&la 1650916.41 _ 507-26 _ 307-20 0.06 306.79 1-53 131 4596203E 1650923.73 307-47 307.39 0.08 30&27 1.50 132 459614,71 189090000 307.77 ]0T.71 0Aa =X IAO 133 459W0.00 19WWL78 306.72 300.t1 0.01 302,72 1.60 134 459796.24 1650900A0 306.t9 30R73 0.06 3GOAD IAO I#_f - 45 31_90 1650901.3 30SF_ 7�60] 0.06- _ 309A5 _W I 136 459800.00 1650964.d7 ma'S! 3W 21 0.10 30i-41 1.60 137 45915-60AO 1E5 OM00 30i64 S99.'3_4 _ 0.19 311_45 __ I.51 . 138 d".00 1661100A0 $17.34 3124E O.IO 314.10 1.P4 . 139 4WWQ0. 165I200A0 31&21 316-11 RIO 317.72 1,51 14D 459906.00 16513MOO 321.4b 321.35 0,10 =04 %50 . 141 411MM.00 10514MOO 325.37 323.30 OW_ 37b-a9 1-52. . 142 459900.00 1451418.14 325,99 34M 0.1D 327-50 1-51 10 4507113.93 1651459-52 315,77 317.27 1,50 144 4.S97y2S4 1651473.16 39" 315.7E 150 . 146 4507M4E 1a61474.22 314.si 316.03 1,50 19 AWDII.02 165liOTU1 .314.10 315-60 1-50 147 _ 459766A3 165141A74 320.OI 323.111 0.10 327.47 1-56 146 459700.00 165090MOO _ 31049 3?0.47 0.02 31199 1.50 749 _ 459700,00 1650082.15 310.43 310a4 010 V-S9 1.55 ISO 459700.00 1650871.74 31040 310.30 0.10 311,92 1.52 t51 43y736.29 1650855.34 308.33 309.27 0.06 JIM" 1-52 152 45%54$3 1650WZ6 309.37 JOS27 0.19 310,66 1.51 153 459757.C9 1531000,00 309.36 _ 309.52a L 311.10 1.54 154 439700.00 16S10110A0 31093 310.83 , 0.10 31247 154 ty9 45970G40 105106033 311.22 31m. 51.10 _ 552,73 1-51 . t36 4397064E 1d51100-00 3123E 312-M Q07 ]140 156 1571 4WOO.00 11412=139 113.61 _ S}3172 _A99 _ 317 SS 1-32 . _ 158 _ 459700 00 1551300-00 32Qa3 520.73 0.70 322.33 t.50 139 459700.00 16514MW 324.96 32486 0-10 32&47 1-51 . 1a0 459700.00 16514141-73 U"7 325.57 0.10 327.23 1y6 161 459665.53 1651475.30 511.S5 41Se3 1-50 162 45964a 51 71551476.4E J00.12 __ _ .]t 2 1,50 , . 153 - 459667,12�1651476.24 325.56 =54 9102 377.11 1-55 154 4y965a.46 i_651i]7-37 32509 32,!k"- 0A6 326M 1-S4 to 4mSL48 T051100.00 3123t 312M p.lE 31184 1." 166 4595=72 165090QOD _ 311 Ato 311,E0 OA5 313.41 1 % 167 4$p602$9 1650800.0D 3188$ 31Z"i2 --312.1E _ 0.10 _ 314.20 _ 1,5a _ .. 1a8 4nwo.00 1630900.66 31269 101 314.25 t.Sa 169 4566moo 1650911.2a 31274 3M64 0.10 314Z 1-57 170 459600.00 1651090.00 3133E 313.7E 0.00 3KO12 1,51 171 459600.00 16511*N 51.172. 31,3* 315.0'{_,1.SS. _ 172 45961873 - 185147411 304,97 .W55 1-58 173 459600.00 155116$41 314.12 314.10 0.02 315.62 _ 1.50 174 4a9600.00 F4 IM00 3MR 315.46 0.00 M197 1.51 . _ 175 _ 459590.76 7651475.04 301,49 303,29 1.60 . 17' 459595.76 165146OL04 307,07 307.01 I.ST 177 459500.00 1651391.76 32194, 323.93 0.01 325 46 1,58 . 178 +5961A96 $0140Q00 324.40 324.32 R06 32590 IM 179 _ 4S93E7.W 165146&73 298,30 299,60 1.50 iB0 4595116.85 $651459.02 309.59 311.0E 150 181 - 450563.01 IW4401 317.19 31paB 1.50 182 45457S.b7 16674W7* 32434 3fSA1 1.50 183 409575-45 7651385-43 330.56 337.06 I.SO 184 439574.65 1651355.7E 337,00 slf.sn 1.50 185 459574.03 1651341-05 331.20 _ Si4.70 _ 1 j0 186 _ 456571147 1651329.37 W1-15 33265 1;50 167 _ 4505Ea.64 1651299.41 331-06 332.58 1.50 1a8 459557-53 1651270.08 331.04 332.54 1.50 . 189 4395415.37 105123fr:N 330.42 331.92 1.50 _ 19G 4595mzs _ 1651199.41 32864 330.14 1.57 191 45953Q76 1651153.62 328-70 330.20 t.50 102 45951917 165112986 32892 330.42 1,50 19S 459497.18 1651099.73 328.17 329-67 1.50 124 45947185 1651069-93 327.47 32&97 _1.50 , I" 45945663 1651044.65 326-73 328.23 1.50 196 439Q=3 1651014.15 326719 __ 327.66 1.50 .. . _ 197 459413.63 _ 1650991.62 325.60 327.10 1.50 196 459397.51 1650970.22 324.85 326A5 _ 1.50 . 199 45939144 1650961.02 32459 326A9 1.50 . 200 459500,00 1551000.00 315.32 31525 0.07 316 S4 132 201 +81000.00 1a50 ,40-314.98 MkOa 0.19 316-31 1.S3 - -_202 45950400 1650929.99 314.92 314-82 0.10 310.42 1.50 GRAPHIC SCALE lw� �1�,4 wry s+r>y rZ,7j ewu� F. r ne 00 0 40 69 Ill 320 ( IN FEET ) 1 inch = BO ft. bb � 4�`7f1 1 ��9 ~ ltp E'p. J 6, •�Tb6 0 � +a NOTES 1. Points are proposed locations from Weaver Consultants Group 2. Points 112-119, 143-146, 161-162, and 179-199 have been moved to locations on the existing liner tie-in J. Points 172, 175. and 176 have been moved to locations of a low point within the tie-in of existing cells A CQA and contractor located existing landf/7l tie-in areas and noted differing elevations than the plan design and we verified an As -Built survey to represent actual field elevations. Plan design rew'slans were. required to NO -in to the existing cells 5. Contour Lines Depict Proposed Tap of Clay Sur -WO A �f' ^'69a 34 � 9 0 CAl r+'4 SEAL L-4358 F- y+',rrr fNz' 3�,+• 771111L r2-/zZ/zo13 Popf Ncrineil Ewrw.1 anbac+U' £rirrNP Ca+flL,irY F.a1k9 r[O Avr C -nWG rfPp�p1 a6.t s.aa'a� rov dor t>asr C4.►'-kp �' r4,irta.rA �� _s"F°� 100 45996&55 165rOs1.j6 311.40 311.26 OM 312,90 t.30 101 459976.65 t651036.36 311,10 311A0 AIo 1126a 1.5d ]p2 45"117,93 t651100.00 31290 312a0 _ OLIO 314.47 1.37 103 459977.93 106$100.00 3IZ83 312..a0 0,09 314.41 1.52 104 457P69.95 1655200.00 317.41 S17,31 0,10 J1991 1.50 IDS 4S997A95 185120A00 317.33 317.Z2 o.11 JIB 6J i,30 _. 11* 459 K97 tul.S 0.00 322A7 M-56 0.11 324129 T. 107 451961.96 1651S00,00 322.61 .4 ... 322-51 . .. .. 0.10 U2 ,t 1.58 Ica ......... .s9993.ye 4 ...06.00 16514 aza.n 32&65 0112 52&37 r.ao $09 45966398 1651400.00 328.71 326.61 _ 0,10 JZ&23 42 110 45921A.11 16514p6.12 %2 .02 32693 0,09 32&54 1.52 1I1 459964.11 16514WA4 326-15 32&67 0.06 32&53 1,58 112 45,M7.65 1651487.44 Sl&02 317.57, 1.50 113 4599S7,a1 165t466.97 31'x9e Sr7.48 1-50 114 A9iw.7P t1*1466.50 31's9e 317.46 4.50 115 459955.52 1651465A7 31&76 31&29 1.50 5203:7 2.01 Ile 45999509 1651A65.J6 31647 318.37 1.50 320.39 2.02 "1 4509%31 163146a.31 316.90 _ .158.40 _ 1.50 _32A71 131 Ila 459880.53 1651469.27 316.58 3t&06 I.50 320.17 2,09 119 455616.25 165t467.32 31662 31&12 1-50 3717,34 2.22 120 45NWLOO 165141251 M.50 324=A 4.00 32AO9 1.51 33&40 2.31 121 559900.00 16514p0.00 32&11 MIIO6 0.09 327.72 1.55 J29.76 7-03 522 459=00 lessJO0,00 379.06 Rd 0.10 325-56 1,50 1?$_6 209 123 459900A0 I&S#oo.60 -ZI7.1 - 316.70 310.64 0.06 31922 1.52 324X27 2.05 124 459M0_00 r65tIO&Q0 31Z.74 312.04 0.10 314.33 I,59 31S37 7.04 129 459945.52 16J7000.00 309.91 ]09.62 0,09 311.43 1.32' 12a 459929.06 1651000.00 _ 309.8B 309.7a 0.10 311.42 1.54 127 459900.00 _ 1650965.20 308.81 308.74 0.07 310.40 1.59 128 45 90 0.00 1650977.79 309.17 309.07 0.10 310.71 1.54 129 45:900.00 1651000.00 309-82 309.72 0.10 311.33 1.51 313.35 Z02 130 459836.18 1650916.41 307.26 307.20 _ 0.06 306.79 1.53 131 459829.20 1650923.73 307.47 307.39 0.08 30B.97 1.50 132 _ 459814.71 1650900.00 307-77 307.71 0.05 309.37 1.60 133 459000.00 1550M 76 308.12 _ 30&11 0.01 309.72 1.60 134 459798.24 1650900.00 _308.19 300J3 a1.5 301:69 _ 1.50 135 459600.00 16'A9o1.34T ]06.15 _ 386.¢7 _ _0.08 309 _BS _ 1.50 13fi _ _ 45MOIIo _ 1650954.67 306.31 308.21 _ 0.10_ 309.91 1.60 31271 280 137 459000.00 1651000.00 309.64 309.54 0.10 311.15 1S1 313.19 _ 204 459900.00 1fi51100.00 31258 312.46 _ 0.10 314.10 _ 1.54 31 a.10 2.00 _138 139 4.59800.00 1651200.00 316.21 316.11 0.10 317,72 1.51 319,76_-2.04 _ _ 140 _ 459800,00 1651300.00 _ 321.45 321.35 0.10 _ 323..04 1.59 325.14 _ 210 14.1 459800,00 _ 1551400-00 325.37 325.30 0.07 326.89 1.52 328.96 2 07 142__ 459_5WAO 165141IL14 323.99 32589 _ 0.10 _ _327.50 1.51 329.51 2.01 . _ 143 4597a1.93 _ 1a51469.62 ---315.77 317.27 1.50 _ 318.42 215 _ 144 _ 459752.54 _ 1651473.16 314.28 _ 315.78_ 1.50 318.72 294 145 4,99722.48 1551474.22 314.53 _ 3M03 1.50 318. M5 202 146 459693-02 1651474.31 314.10 315.60 1.50-_ 317.67 2207 147 45978a.06 1851418.74 325.91 325A7 0.10 327.47 1.56 329.47 2.00 IQ 45:700.00 1850900.00 310.49 310-47 0.02 311_99 1.50 314.03 204 149 45700,00 1650882.15 310.43 310.34 0.09 31199 1.56 150 4597011,00 11,50071,74 310.40 310.30 0.10 311 92 1_52 1$1 4Sa759_zV 1850855.34 309-M 500_Z7 0.06 31A95 1,52 152 43973423 16511666.]6 30y.37 309.27 OLIO 319.Ba 1,51 iW 166i6k_Q0 300.56 309.52 0-04 311.10 1.54 J14.00 ISO _ 184 _ _4}9757.Oi 4597MM 1651060.00 31033 310.a3 OLIO 31247 1.54 _ ]1 {,47 _ 200- I* 459700.90 1651060-03 311.22. 311.12 0.10 31273 1;51 3+S.63 Z90 156 4a9700.00 16511pp,00 312" 8 31231 0.07 31593 155 315.96 2.03 157 459700.00 165120D-00 31&6I 315,72 M09 317.33 1S2 519.AA 2,01 158 459700.00 1661300.00 320.83 32A73 a10 32233 1.50 324.43 V O 150 479700.00 324.96 32M$ 0,10 M-47 1-31 32b.51 204 160 _ 459700.00 _165_I400.00 165141073 3ZL&7 32557 OLIO 3Z7-2.1 1,M ]29.23 7.00 111 459665.53 165:476-M 311.b3 313.03 1 50 '115.51 248 112 45/040,51 16547SAa SDa 12 3p6A2 I_% _3 f.116 2.3A 163 4.596BIL12 32556 M34 M02 327.11 1.55_ ---1,54 429_11 _ ? 00 164 4596S4.A6 :651415.24 651411,37 325-09 524.64 _ _ .12&04 201 165 4.5%6246 165i100.00 312.M 312,21 _OAS 0.10 -3ME33 _1W4 1.53 _ 515.70 286' Itid 45:630,72 i6509o0.00 311.63 311M 0_05 __313 Al _ jM 1117 459602-901 16509oo-M 31262 M;2W 0.10 314.20 1.58 IS" 45960000 1650906.86 31189 312.60 0.09 314,25 1-% ISO 45960R00 16S0911.26 31274 31264 0-1a 314.31 1.57 170 46960090 16550=00 3fa15 313.18 0.00 314.159 1.51 ]15.70 201 171 _ 4ZOMOO 1651f00.00 31J-72 Oil ." _ 0.04 _ 315,25 1J4 517.30 _ _ 205 172 4301A73 168,1474,11 304.17 306.55 1'5' MIK04 SOP 173 _ 459600.00 Ie51166.01 314.12 314,10 002 315.62 1.50 MIL43 2.al 174 48p800.o0 1a51200.00 315.46 315.49 CLOD 318.97 1-51 3t9.17 2�0 175 45LM70 16S1475-04 301,69 303.29 1.60 J07.48 4,19 179 459595.76 1651460.04 307.07 307..07 1.51 31261 4,03 171j 4S9800.00 1651]906 323.94 323-93 0.0t 325.49 1.55 32&49 3-00 170 4%616.99 1651400.00 324,40 324-32 008 325.90 _ 1.50 328.04 214 179 459561.30 1E5148&73 29&30 _ 2ft" 1S0 303,62 3.82 180 1595e6.6a 165145V.02 30y36 311.08 1,50 31324 2.16 1al 4SW3102 1651433.01 _ S17.19 SHIM 1.5o 320.70 201 1W 45937"? 165140&74 324.34 _ mm _ _1.50 32815 231 1113 459575.45 1651385.45 J30.56 .13296 1. 7S4.0tl 2.02 la+. 459Sr4," 1651355.76 _331 00 .3.79-50 i.30 335.f0 260 155 _ 45B574.03 _ 165134195 33120 MM 1.50 JW25 258 ISO 459571-47 155132937 33115 33265' 1.50 33rM4 2.49 '87 45P64 s,6A 1651299.41 331.00 33236 1.50 33475 217 lee 45IM7M 155s270.00 331.04 Ss2, 54 1.50 334.ea _ 214 189 _ _ 459346A7 155123244 530.42 SSt.y2 1,50 333.92 200 190 459541.M 1651399-61 32&04 J30.14 1.50 _ =4.9 _ 2.29. _ 191 459530.76 16511"A2 328-70 A30.7A L5Q_ _SS237 2o7 192 459519-17 1651129 86 32E.92 330.42 1.50 3324E 204 193 459497.18 1651099.73 37&17 M-07 1.50 _]31,78 2.11 194 _ 459473,85 1651069-93 327.47 32&97 1.50 331.13 216 195 459454.63 1:51044.85 326.73 32&24 1.30 M74 2.01 196 459430.53 1651014.15 326.16 . _ _ 327.88 _ 1.5p 329.66 2.0G 197 45041163 1550991.62 325.60 32T.10 1.50 32922 212 196 459397.51 165W7A 22 324.&S 3Z&35 1.50 190 45q3;3.44 1850961,02 324.59 326.49 1.50 _ 200 459tMOO 1651000.00 315-32 315.25 _ 0.07 376 134 1.52 318 84 2 00 201 469500.00 1650 4.0,40 314.96 314.88 0.10 31a 51 1.53 202 459500.00 1650929-99 314.92 314.82 OLIO 316-42 1.50 , NO1E5 T. Points are proposed locations from Weaver Consultants Group 2. Points 112-119, 143-146, 161-162, and 179-199 hove been moved to locations on the existing liner tie-in J. Points 172, 175, and 176 have been moved to locations at a low point within the tie-in of existing cells 4. COA and contractor located existing landfill tie-in areas and noted differing elevations than the plan design and we verified an As -Built survey to represent actual field elevations. Plan design revisions were required to tie-in to the existing cells 5. Points 100-114. 125-128. 130-135, 149-152. 166-169, 198-199, and 201-202 are either on the edge of the liner or 10' in9fd6:. of the edge of the liner. Points on the edge have no Ca14o and the points that are 10' ktside average about a toot of cover as they are on the slope of the bean 6. Points to the East of the intercell tie-in are certified 7 Contour Lines Depict Proposed rop of Cover Surface T7nair AW A% � co'.r>,i sunlrew � � F Yt7q lop v1 Oiry r'"61 i Tip el C_ 1,}A.ra' S4 4.0 1 tl' T I ryh 9 I Limits Certi��tion qry a > w GRAPHIC SCALE CP 0 30 6P 120 7+0 ( IN FEET ) 1 inch = 60 fl 4(}k 4b > w � y q �33pIA • N L b V '3'v3aa ti �7 `min nr +'SN4� 1'�4tr'ro XSEAL - LL-4358 ..Tlllr1411011A34� aj.,�5• 11-12�i0 z-3 APPENDIX A LISTING OF MONITORING AND INSTALLATION PERSONNEL Homero Telles Geomembrane Experience Resume - 2022 Supervisor on the following job sites: Material Quantity Project Location Date 40 mil LLDPE Smooth 183,268 Plant Scherer Juliette - GA Jan-22 Transnet 330-2-8 Geocomposite 183,268 Geomembrane Lined Channel 6,000 40 mil LLDPE 27,038 Sampson Toe Berm/ Slope Repairs Roseboro - NC Feb-22 12 mil GRC 37,500 60 mil HDPE 1,000 Third High ReservoirM1 Washington -D.C. Mar-22 60 mil HDPE Textured 196,148 Meadow Branch Berm Extension Feb-22 DS Geocomposite 191,988 30 mil HDPE Rain Cover 168,442 40 mil LLDPE Textured 1,399,575 New HanoverGFFR Wilmington - NC Mar-22 Geocomposite DS 1,399,575 S nthetex H drotex FP400 72,858 60 mil HDPE 1,000 Third High Reservoir M1 Washington D. C. A r-22 GCL 400,507 Laurel Ridge Cell WC M2 Lily - KY Apr-22 60 mil HDPE Textured 402,392 DS Geocomposite 400,507 Closure Turf 439,000 TA Paradise Metal Ponds Closure Drakesboro - KY Oct-22 Hydro Turf 47,685 20 mil Rain Cover 45,663 New Hanover Co 7 & 8A Wilmington -NC Sep-22 GT Wind Ballast 39,880 Temp Closure Vent Geocomposite 4,775 60 mil HDPE Textured 468,000 New Hanover Co 11 & 12A WiIminbgton - NC Dec-22 GCL 472,000 Secondary 60 mil HDPE 477,000 Geocomposite 477,000 Secondary GCL 472,500 Homero Telles Geomembrane Experience Resume - 2021 SUPERVISOR on the following job sites: Material Quantity Project Location Date 40 Mil LLDPE 1,656,000 New Hanover Wilmington - NC Mar-21 400-2-8 Geocomposite 1,617,330 40 Mil 673,000 Hamblen Morristown - TN Jul-21 Geocomposite 673,000 60 Mil HDPE 214,251 Meadow Branch Athens - TN Jul-21 Geocomposite 161,588 16oz 52,663 30 Mil Raincover 160,550 60 Mil HDPE 1,092 BGE Substation Arlington 'Baltimore - MD Aug-21 10oz NW 1,092 GCL 172,100 Pittsylvania Dry Fork - VA Sep-21 60 Mil 172,100 Geocomposite 172,100 GCL 512,662 Fredrick County LF 'Winchester - VA Oct-21 160 Mil 514,280 16oz 514,280 Geocomposite 57,406 Hallaton, Inc.-1206 Sparks Rd. —Sparks, MD 21152 Homero Telles Geomembrane Experience Resume - 2020 SUPERVISOR on the following job sites: Material Quantity Project Location Date 50 Mil HDPE Textured 1,639,440 New Hanover County Landfill Wilmington -NC Mar-20 GCL 1,639,440 Cell 9 -10A Geocomposite 819,720 Rain Cover 330,260 ,60 Mil HDPE Textured 258,075 Volunteer Landfill Cell8C Oneida -TN Jul-20 Geotexti le 244,642 Geocomposite 23,120 160 Mil HDPE Textured 368,412 Hopkins Co Landfill White Plans - KY Aug-20 GCL 368,412 Geocomposite 386,412 -60 Mil HDPE Textured 192,602 Anson Landfill Phase 3 Cell 2 Polkton - NC Aug-20 Geocomposite 192,602 GCL 192,602 50 Mil HDPE Textured 396,164 Frey Farms Landfill Cap Closure Conestoga - PA Oct-20 Geotexti le 396,164 Geocomposite 22,000 60 Mil HDPE Textured 576,610 Lakeway Landfill Cell 5 Morristown -TN Nov-20 Geotextile 553,300 GCL 144,670 Rain Cover 555,660 60 Mil HDPE Textured 690,750 Sampson County Cell 11 Roseboro - NC Nov-20 60 Mil HDPE Smooth 220,000 Geocomposite 910,750 GCL 7,500 Rain Cover 600,000 60 Mil HDPE 253,975 Shenandoad Landfill Edinburg -VA Dec-20 Geocomposite 251,650 Rain Cover 31,333 Hallaton, Inc.-1206 Sparks Rd. —Sparks, MD 21152 Pablo Balderas Geomembrane Experience Resume - 2022 QC on the following job sites: Material Quantity Project Location Date 40 mil LLDPE Smooth 183,268 Plant Scherer Juliette -GA Jan-22 Transnet 330-2-8 Geocomposite 183,268 Geomembrane Lined Channel 6,000 40 mil LLDPE 27,038 Sampson Toe Berm/ Slope Repairs Roseboro - NC Feb-22 12 mil GRC 37,500 60 mil HDPE 1,000 Third High Reservoir M1 Washington -D.C. Mar-22 60 mil HDPE Textured 196,148 Meadow Branch Berm Extension Feb-22 DS Geocomposite 191,988 30 mil HDPE Rain Cover 168,442 40 mil LLDPE Textured 1,399,575 New Hanover GFFR Wilmington -NC Mar-22 Geocomposite DS 1,399,575 S nthetex H drotex FP4OO 72,858 60 mil HDPE 1,000 Third High ReservoirM1 Washington D. C. A r-22 GCL 400,507 Laurel Ridge Cell WC M2 Lily - KY Apr-22 60 mil HDPE Textured 402,392 DS Geocomposite 400,507 Closure Turf 439,000 TA Paradise Metal Ponds Closure Drakesboro - KY Oct-22 Hydro Turf 47.685 20 mil Rain Cover 45,663 New Hanover Co 7 & 8A Wilmington -NC Sep-22 GT Wind Ballast 39,880 Temp Closure Vent Geocomposite 4,775 60 mil HDPE Textured 468,000 New Hanover Co 11 & 12A Wilminbgton -NC Dec-22 GCL 472,000 Secondary 60 mil HDPE 477,000 Geocomposite 477,000 Secondary GCL 472,500 Pablo Balderas Geomembrane Experience Resume - 2021 QC on the following job sites: Material Quantity Project Location Date 40 Mil LLDPE 400-2-8 Geocomposite 1,656,000 1,617,330 New Hanover Wilmington - NC Mar-21 40 Mil Geocomposite 673,000 673,000 (Hamblen Morristown - TN Jul-21 60 Mil HDPE Geocomposite 16oz 30 Mil Raincover 214,251 161,588 52,663 160,550 Meadow Branch Athens - TN Jul-21 60 Mil HDPE 10oz NW 1,092 1,092 BGE Substation Arlington Baltimore - MD Aug-21 GCL 60 Mil Geocomposite 172,100 172,100 172,100 Pittsylvania Dry Fork - VA Sep-21 GCL 130 Mil 16oz Geocomposite 512,662 514,280 514,280 57,406 Fredrick County LF Winchester - VA Oct-21 Pablo Balderas Geomembrane Experience Resume - 2020 QC on the following job sites: Material Quantity Project Location Date 50 Mil HDPE Textured 1,639,440 New Hanover County Landfill Wilmington -NC Mar-20 GCL 1,639,440 Cell 9 -10A Geocomposite 819,720 (Rain Cover 330.260 50 Mil HDPE Textured 258,075 'Volunteer Landfill Cell 8C Oneida -TN Jul-20 ,Geotextile 244,642 ,Geocomposite 23,120 60 Mil HDPE Textured 368,412 Hopldns Co Landfill White Plains - KY Aug-20 -GCL 368,412 Geocomposite 386,412 50 Mil HDPE Textured 192,602 .Anson Landfill Phase 3 Cell 2 IPolkton -NC Aug-20 -Geocomposite 192,602 -GCL 192,602 50 Mil HDPE Textured 396,164 Frey Farms Landfill Cap Closure Conestoga -PA Oct-20 Geotextile 396,164 Geocomposite 22,000 160 Mil HDPE Textured 576,610 Lakeway Landfill Cell 5 (Morristown -TN Nov-20 Geotextile 553,300 GCL 144,670 Rain Cover 555,660 60 Mil HDPE Textured 690,750 Sampson County Cell 11 Roseboro -NC Nov-20 60 Mil HDPE Smooth 220,000 Geocomposite 910,750 GCL 7,500 Rain Cover 600,000 60 Mil HDPE 253,975 Shenandoad Landfill Edinburg -VA Dec-20 Geocomposite 251,650 Rain Cover 31,333 Hallaton, Inc.-1206 Sparks Rd. —Sparks, MD 21152 Juan Antonio Ramos Geomembrane Experience Resume - 2022 Technician on the following job sites: Material Quantity Project Location Date 40 mil LLDPE Smooth 183,268 Plant Scherer Juliette - GA Jan-22 Transnet 330-2-8 Geocomposite 183,268 Geomembrane Lined Channel 6,000 40 mil LOPE 27,038 Sampson Toe Berm/ Slope Repairs Roseboro - NC Feb-22 12 mil GRC 37,500 ,60 mil HDPE 1,000 Third High Reservoir M1 Washington -D.C. Mar-22 .60 mil HDPE Textured 196,148 Meadow Branch Berm Extension Feb-22 DS Geocomposite 191,988 30 mil HDPE Rain Cover 168,442 40 mil LLDPE Textured 1,399,575 New Hanover GFFR Wilmington -NC Mar-22 Geocomposite DS 1,399,575 S nthetex H drotex FP400 72,858 60 mil HDPE 1,000 Third High ReservoirM1 Washington D. C. Apr-22 GCL 400,507 Laurel Ridge Cell WC M2 Lily - KY Apr-22 60 mil HDPE Textured 402,392 DS Geocomposite 400,507 Closure Turf 439,000 TA Paradise Metal Ponds Closure Drakesboro - KY Oct-22 Hydro Turf 47,685 20 mil Rain Cover 45,663 New Hanover Co 7 & 8A Wilmington - NC Sep-22 GT Wind Ballast 39,880 Temp Closure Vent Geocomposite 4,775 60 mil HDPE Textured 468,000 New Hanover Co 11 & 12A Wilminbgton -NC Dec-22 GCL 472,000 Secondary 60 mil HDPE 477,000 Geocomposite 477,000 Secondary GCL 472,500 Juan Antonio Ramos Geomembrane Experience Resume - 2021 Technician on the following job sites: Material Quantity Project Location Date 40 Mil LLDPE 400-2-8 Geocomposite 1,656,000 1,617,330 New Hanover Wilmington - NC Mar-21 40 Mil Geocomposite 673,000 673,000 Hamblen Morristown - TN Jul-21 60 Mil HDPE Geocomposite 16oz 30 Mil Raincover 214,251 161,588 52,663 160,550 Meadow Branch Athens - TN Jul-21 60 Mil HDPE 10oz NW 1,092 1,092 BGE Substation Arlington Baltimore - MD Aug-21 GCL 60 Mil Geocomposite 172,100 172,100 172,100 Pittsylvania Dry Fork - VA Sep-21 GCL 60 Mil 16oz Geocomposite 512,662 514,280 514,280 57,406 Fredrick County LF Winchester - VA Oct-21 Juan Antonio Ramos Geomembrane Experience Resume - 2020 TECHNICIAN on the following job sites: H Material Quantity Project Location Date 60 mil HDPE Textured 323,388 National Server -All Landfill Fort Wayne, IN Jul-20 Geotextile 319,405 40 mil LLDPE Textured 135,000 Amos Plateau Pond Winfield, WV Jul-20 Geotextile 258,607 Fabric Form 19,718 60 mil HDPE Textured 263,814 623 Landfill Cell 9 Rockville, VA Jul-20 Geotextile 245,414 60 mil HDPE Textured 192,602 Anson Landfill Ph 3 Cell 2 Polkton, NC Aug-20 Geocomposite 192,602 GCL 192,602 60 mil HDPE Textured 434,700 Twin Chimney Landfill Honea Path, SC Oct-20 Geocomposite 436,305 Unit 4 Cell 2 GCL 471,975 (Rain Cover 442,800 45 mil LLDPE 798,835 Micron Pond Improvements Manassas , VA Oct-20 Geotextile 273,171 30 mil HDPE Textured 1,048,220 Wetzel County Landfill New Martinsville, WV Oct-20 60 mil HDPE Textured 45,000 Temp Cap & Piggyback Cell Geocomposite 45,000 Anchor Down 1,048,220 50 mil HDPE Textured 576,610 Lakeway Landfill Cell 5 Morristown, TN Nov-20 Geotextile 553,300 GCL 144,670 Rain Cover 555,660 160 mil HDPE Textured 1,466,000 Millersville Landfill Subcell 9.2 Severn, MD Dec-20 Geocomposite 1,466,000 -GCL 2,440 Rain Cover 580,000 160 mil HDPE Textured 466,200 Ritchie Rubble Cell C Subcell 1 Upper Marlboro, MD Dec-20 -Geocomposite 466,200 Geotextile 466,200 GCL 466,200 Hallaton, Inc.-1206 Sparks Rd. -Sparks, MD 21152 Josue Guerrero Geomembrane Experience Resume - 2022 Technician on the following job sites: Material Quantity Project Location Date 40 mil LOPE Smooth 183,268 Plant Scherer Juliette - GA Jan-22 Transnet 330-2-8 Geocomposite 183,268 Geomembrane Lined Channel 6,000 40 mil LLDPE 27,038 Sampson Toe Berm/ Slope Repairs Roseboro -NC Feb-22 12 mil GRC 37,500 60 mil HDPE 1,000 Third High Reservoir M1 Washington -D.C. Mar-22 60 mil HDPE Textured 196,148 Meadow Branch Berm Extension Feb-22 IDS Geocomposite 191,988 30 mil HDPE Rain Cover 168,442 40 mil LLDPE Textured 1,399,575 New Hanover GFFR Wilmington -NC Mar-22 Geocomposite IDS 1,399,575 S nthetex H drotex FP400 72,858 130 mil HDPE 1,000 Third High Reservoir M1 Washington D. C. A r-22 GCL 400,507 Laurel Ridge Cell WC M2 Lily - KY Apr-22 130 mil HDPE Textured 402,392 IDS Geocomposite 400,507 Closure Turf 439,000 TA Paradise Metal Ponds Closure Drakesboro - KY Oct-22 Hydro Turf 47,685 20 mil Rain Cover 45,663 New Hanover Co 7 & 8A Wilmington - INC Sep-22 GT Wind Ballast 39,880 'Temp Closure Vent Geocomposite 4,775 150 mil HDPE Textured 468,000 New Hanover Co 11 & 12A WiIminbgton - NC Dec-22 GCL 472,000 Secondary 60 mil HDPE 477,000 Geocomposite 477,000 Secondary GCL 472,500 Josue Guerrero Geomembrane Experience Resume - 2021 Technician on the following job sites:. Material Quantity Pro"ect Location Date .40 Mil LLDPE 1,656,000 New Hanover Wilmington - NC Mar-21 400-2-8 Geocomposite 1,617,330 .40 Mil 673,000 Hamblen Morristown - TN Jul-21 Geocom osite 673,000 60 Mil HDPE 214,251 Meadow Branch Athens - TN Jul-21 Geocomposite 161,588 16oz 52,663 .30 Mil Raincover 160,550 160 Mil HDPE 1,092 BGE Substation Arlington Baltimore - MD Aug-21 10oz NW 1,092 GCL 172,100 Pittsylvania Dry Fork - VA Sep-21 160 Mil 172,100 Geocomposite 172,100 GCL 512,662 Fredrick County LF Winchester - VA Oct-21 160 Mil 514,280 16oz 514,280 •Geocomposite 57,406 Hallaton, Inc.-1206 Sparks Rd. —Sparks, MD 21152 y - J Josue Guerrero Geomembrane Experience Resume - 2020 Technician on the following job sites: Material Quantity Project Location Date 60 Mil HDPE Textured 1,639,440 INew Hanover County Landfill 'Wilmington -NC Ma720 GCL 1,639,440 Cell 9 -10A Geocomposite 819,720 Rain Cover 330,260 60 Mil HDPE Textured 258,075 'Volunteer Landfill Cell 8C Oneida -TN Jul-20 Geotextile 244,642 GeocomDOSlte 23,120 ,60 Mil HDPE Textured 368,412 IHopldns Co Landflil White Ptahs- KY Aug-20 GCL 368,412 Geocomposite 386,412 60 Mil HDPE Textured 192,602 ,Anson Landfill Phase 3 Cell 2 Polkton -NC Aug-20 Geocomposite 192,602 GCL 192,602 50 Mil HDPE Textured 396,164 Frey Farms Landfill Cap Closure Conestoga - PA Oct-20 Geotextile 396,164 Geocomposite 22,000 60 Mil HDPE Textured 576,610 Lakeway Landfill Cell 5 Morristown -TN Nov-20 Geotextile 553,300 GCL 144,670 Rain Cover 555,660 60 Mil HDPE Textured 690,750 Sampson County Cell 11 Roseboro - NC Nov-20 60 Mil HDPE Smooth 220,000 Geocomposite 910,750 GCL 7,500 Rain Cover 600,000 60 Mil HDPE 253,975 Shenandoad Landfill Edinburg -VA DeC-2,0 Geocomposite 251,650 Rain Cover 31,333 Hallaton, Inc.-1206 Sparks Rd. —Sparks, MD 21152 Oziel Cardenas Geomembrane Experience Resume - 2022 TECHNICIAN on the following job sites: Material Quantity Project Location Date Rain Cover 320,310 Blue Ridge Rain Cover Buena Vista, VA Feb-23 Rain Cover 527,139 Frederick Co LF Berm & Rain Cover Winchester, VA Mar-23 Berm Flaps 1,382 50 mil LLDPE MlcroDrain 1,714,114 Winnebago Closure West Rockford, IL Apr-23 8 oz NW Geotextile 1,714,114 60 mil HDPE Geomembrane 1,025,328 Winnebago Cell E6 Rockford, IL Aug-23 8 oz NW Geotextile 1,025,328 4 oz NW Geotextile 991,803 GCL - Surrip 3,423 60 mil HDPE Textured 413,765 Livestock Road LF Rustburg, VA Sep-23 16 oz NW Geotextile 411,437 12 mil Rain Cover 411,437 60 mil HDPE Textured 302,682 Roxana LF Edwardsville, IL Nov-23 4 oz NW Geotextile 280,462 Hallaton, Inc.-1206 Sparks Rd. —Sparks, MD 21152 Oziel Cardenas Geomembrane Experience Resume - 2021 TECHNICIAN on the following job sites: Material Quantity Project Location Date HD - 60 IDS MicroSpike 521,820 Eastern Sanitary LF Phase XII White Marsh - MD Mar-21 Bentomat DN 521,820 16oz Geotextile 515,500 10oz Geotextile 458,100 330-2-8 Geocomposite 83,400 R12BV - DuraSkrim 565,275 GCL 135,934 Ritchie Rubble - Cell E2 Upper Marlboro Mar-21 150 Mil HDPE 142,638 MD 330-2-8 130,552 10oz 138,118 30 Mil HDPE 16,565 Back River 1 Essex - MD Mar-21 .40 Mil HDPE 39,542 Oakmont CC Pond Oakmont - PA Mar-21 HD - 60 IDS Textured White 1,466,000 'Millersville Raincover Severn - MD Apr-21 450-2-8 Geocomposite 1,466,000 BentoLiner - NWLL 10,688 R20WWK - DuraSskrim 580,000 30 Mil 435,600 Keystone Temporary Cap iDumore - PA Apr-21 Wind Ballast 435,600 50 Mil LLDPE MicroDrain 2,360,952 Mine 84 Bentleyville - PA May-21 8oz 2,360,952 30 Mil PVC 254,470 Corsa Coal Schrock Run Central City - PA May-21 GCL 326,658 Honey Go Perry Hall - MD Jul-21 60 Mil 326,658 Geocomposite 326,658 Raincover 138,600 60 Mil HDPE 214,251 Meadow Branch Athens - TN Jul-21 Geocomposite 161,588 16oz 52,663 30 Mil Raincover 160.550 60 Mil HDPE 1,092 BGE Substation Arlington Baltimore - MD Aug-21 10oz NW 1,092 40 Mil HD 1,414,729 Pioneer Temp Cap Birdsboro - PA Aug-21 Ballast 1,414,729 Hallaton, Inc.-1206 Sparks Rd. -Sparks, MD 21152 Oziel Cardenas Geomembrane Experience Resume - 2020 TECHNICIAN on the following job sites: Material Quantity Project Location Date 130 Mil HOPE Textured 1,639,440 New Hanover County Landfill Wilmington -NC Mar-20 GCL 1,639,440 Cell 9 -10A +Geocomposite 819,720 Rain Cover 330,260 150 Mil HDPE Textured 258,075 Volunteer Landfill Cell 8C Oneida -TN Jul-20 Geotextile 244,642 Geocomposite 23,120 130 Mil HDPE Textured 368,412 Hopkins Co Landfill White Plains - KY Aug-20 GCL 368,412 Geocomposite 386,412 50 Mil HOPE Textured 192,602 Anson Landfill Phase 3 Cell 2 Polkton - NC Aug-20 Geocomposite 192,602 GCL 192,602 150 Mil HDPE Textured 396,164 Frey Farms Landfill Cap Closure Conestoga - PA Oct-20 Geotextile 396,164 Geocomposite 22,000 160 Mil HDPE Textured 576,610 ILakeway Landfill Cell 5 Morristown -TN Nov-20 Geotexti le 553,300 GCL 144,670 Rain Cover 555,660 .60 Mil HOPE Textured 690,750 Sampson County Cell 11 IRoseboro - NC Nov-20 60 Mil HOPE Smooth 220,000 Geocomposite 910,750 GCL 7,500 Rain Cover 600,000 60 Mil HDPE 253,975 Shenandoad Landfill (Edinburg -VA Dec-20 Geocomposite 251,650 Rain Cover 1 31,333 Hallaton, Inc.-1206 Sparks Rd. —Sparks, MD 21152 Rogelio Velazquez Geomembrane Experience Resume - 2022 TECHNICIAN on the following job sites: Material Quantity Project Location Date 40 mil LLDPE Smooth 183,268 Plant Scherer Juliette -GA Jan-22 Transnet 330-2-8 Geocomposite 183,268 Geomembrane Lined Channel 6,000 40 mil LLDPE 27,038 Sampson Toe BemV Slope Repairs Roseboro - NC Feb-22 12 mil GRC 37,500 60 mil HDPE 1,000 Third High Reservoir M1 Washington -D.C. Mar-22 60 mil HDPE Textured 196,148 Meadow Branch Berm Extension Feb-22 DS Geocomposite 191,988 30 mil HDPE Rain Cover 168,442 40 mil LLDPE Textured 1,399,575 New Hanover GFFR Wilmington -NC Mar-22 Geocomposite DS 1,399,575 S nthetex H drotex FP400 72,858 60 mil HDPE 1,000 Third High Reservoir M1 Washington D. C. Apr-22 GCL 400,507 Laurel Ridge Cell WC M2 Lily - KY Apr-22 60 mil HDPE Textured 402,392 DS Geocomposite 400,507 Closure Turf 439,000 TA Paradise Metal Ponds Closure Drakesboro - KY Oct-22 Hydro Turf 47,685 :20 mil Rain Cover 45,663 New Hanover Co 7 & 8A Wilmington -NC Sep-22 GT Wind Ballast 39,880 Temp Closure Vent Geocomposite 4,775 150 mil HDPE Textured 468,000 New Hanover Co 11 & 12A Wilminbgton - NC Dec-22 GCL 472,000 Secondary 60 mil HDPE 477,000 Geocomposite 477,000 Secondary GCL 472,500 Rogelio Velazquez Geomembrane Experience Resume - 2021 TECHNICIAN on the following job sites: I:I Material Quantity Project Location Date .40 Mil LLDPE 1,656,000 New Hanover Wilmington - NC Mar-21 .400-2-8 Geocomposite 1,617,330 40 Mil 673,000 Hamblen Morristown - TN Jul-21 Geocomposite 673,000 ,60 Mil HDPE 214,251 Meadow Branch .Athens - TN Jul-21 Geocomposite 161,588 16oz 52,663 30 Mil Raincover 160,550 60 Mil HDPE 1,092 IBGE Substation Arlington Baltimore - MD Aug-21 10oz NW 1,092 GCL 172,100 IPittsylvania Dry Fork - VA Sep-21 60 Mil 172,100 Geocomposite 172,100 GCL 512,662 (Fredrick County LF Winchester - VA Oct-21 60 Mil 514,280 16oz 514,280 Geocomposite 57,406 Hallaton, Inc.-1206 Sparks Rd. --Sparks, MD 21152 Rogelio Velazquez Geomembrane Experience Resume - 2020 TECHNICIAN on the following job sites: FS T Material Quantity Project Location Date 60 Mil HDPE Textured 1,639,440 New Hanover County Landfill 'Wilmington -NC Mar-20 GCL 1,639,440 Cell 9 -10A Geocomposite 819,720 Rain Cover 330,260 60 Mil HDPE Textured 258,075 Volunteer Landfill Cell 8C Oneida -TN Jul-20 Geotextile 244,642 Geocomposite 23,120 60 Mil HDPE Textured 368,412 Hopkins Co Landfill White Plains - KY Aug-20 GCL 368,412 Geocomposite 386,412 60 Mil HDPE Textured 192,602 Anson Landfill Phase 3 Cell 2 Polkton - NC Aug-20 Geocomposite 192,602 GCL 192,602 50 Mil HDPE Textured 396,164 Frey Farms Landfill Cap Closure Conestoga - PA Oct-20 Geotextile 396,164 Geocomposite 22,000 60 Mil HDPE Textured 576,610 Lakeway Landfill Cell 5 Morristown -TN Nov-20 Geotextile 553,300 GCL 144,670 (Rain Cover 555,660 150 Mil HDPE Textured 690,750 Sampson County Cell 11 Roseboro - NC Nov-20 60 Mil HDPE Smooth 220,000 Geocomposite 910,750 GCL 7,500 (Rain Cover 600,000 60 Mil HDPE 253,975 Shenandoad Landfill (Edinburg -VA Dec-20 Geocomposite 251,650 iRain Cover 31,333 Hallaton, Inc.-1206 Sparks Rd. -Sparks, MD 21152 Luis Mancilla Geomembrane Experience Resume- 2022 Laborer on the following job sites: Material Quantity Project Location Date 40 mil LLDPE Smooth 183,268 Plant Scherer Juliette -GA Jan-22 Transnet 330-2-8 Geocomposite 183,268 Geomembrane Lined Channel 6,000 40 mil LLDPE 27,038 Sampson Toe Berm/ Slope Repairs Roseboro - NC Feb-22 12 mil GRC 37,500 -60 mil HDPE 1,000 Third High Reservoir MI Washington -D.C. Mar-22 .60 mil HDPE Textured 196,148 Meadow Branch Berm Extension Feb-22 DS Geocomposite 191,988 30 mil HDPE Rain Cover 168,442 40 mil LLDPE Textured 1,399,575 New HanoverGFFR Wilmington -NC Mar-22 Geocomposite DS 1,399,575 S nthetex H drotex FP400 72.858 60 mil HDPE 1,000 Third High Reservoir M1 Washington D. C. A r-22 GCL 400,507 Laurel Ridge Cell WC M2 Lily -KY Apr-22 60 mil HDPE Textured 402,392 DS Geocomposite 400,507 Closure Turf 439,000 TA Paradise Metal Ponds Closure Drakesboro - KY Oct-22 Hydro Turf 47,685 20 mil Rain Cover 45,663 New Hanover Co 7 & 8A Wilmington -NC Sep-22 GT Wind Ballast 39,880 Temp Closure Vent Geocomposite 4,775 60 mil HDPE Textured 468,000 New Hanover Co 11 & 12A Wilminbgton - NC Dec-22 GCL 472,000 Secondary 60 mil HDPE 477,000 Geocomposite 477,000 Secondary GCL 472,500 Luis Mancilla Geomembrane Experience Resume - 2021 Laborer on the following job sites: Material Quantity Project Location Date GCL 326,658 IHoneyGo Cell 8 Perry Hall - MD Jul-21 60 Mil 326,658 Geocomposite 326,658 Raincover 138,600 60 Mil HDPE 211,060 Corsa Coal Schrock Run Berlin - PA Jul-21 10oz 228,375 50 Mil LLDPE 598,000 idge Moor Closure Wilmington - DE Jul-21 10oz 590,625 40 Mil 673,000 Hamblen LF Morristown - TN Jul-21 Geocomposite 673,000 40 Mil HD 1,414,729 (Pioneer Temp Cap Birdsboro - PA Aug-21 Ballast 1,414,729 60 Mil HDPE 1,092 IBGE Substation Arlington Baltimore - MD Aug-21 10oz NW 1,092 GCL 31,000 Webster Co LF Webster Springs - Sep-21 Geocomposite 31,000 Wv 50 Mil LLDPE 31,000 10oz 31,000 60 Mil 150,300 EKPC Tank Liner Winchester - KY Oct-21 10oz 108,900 i80 Mil 910 BGE Substation Baynesville Oct-21 10oz 910 (Liner 2,685 PEPCO Substation Norbeck Rockville - MD Oct-21 160 Mil HDPE 186,028 Laurel Ridge (Lily - KY Nov-21 Geocomposite 203,328 GCL 186,028 60 Mil 472,578 Conestoga Morgantown - PA Nov-21 Geocomposite 228,538 GCL 228,538 16oz 228,538 Hallaton, Inc.-1206 Sparks Rd. —Sparks, MD 21152 Luis Mancilla Geomembrane Experience Resume - 2020 Laborer on the following job sites: H Material Quantity Project Location Date Raincover 98,000 Cherokee County Landfill Marble - NC May-20 40 Mil HDPE Textured 160,997 Commonwealth Landfill Closure Hegins - PA (May-20 Geocomposite 160,997 ES4 HFA Axler Coletanche 26,135 Lower Handelong Reservior Coletanche Bangor - PA ;May-20 60 Mil HDPE Textured 56,016 382 Rte 72 Install Manahawkin - NJ iMav-20 60 Mil HDPE Smooth 41,400 Ritchie Cell E Subcell 2 Upper Marlboro - MD Jun-20 Geocomposite 46,690 Geotextile 171,000 GCL 37,200 60 Mil HDPE Textured 258,075 Volunteer Landfill Cell 8C Oneida - TN Jul-20 Geotextile 244,642 Geocomposite 23,120 60 Mil HDPE Textured 192,602 Anson Landfill Polkton - NC Aug-20 Geocomposite 192,602 GCL 192,602 60 Mil HDPE Textured 647,430 Conestoga Landfill Morgantown - PA Aug-20 Geocomposite 317,636 Geotextile 317,636 GCL 317,636 100 Mill HDPE Textured 1,433,130 Lycoming County Landfill -1929 Montgomery - PA Sep-20 Geocomposite 1,429,990 Geotextile 1,621,800 GCL 699,750 60 Mil HDPE Textured 723,800 Vienna Junction Cell Phase 1 & 2 Erie - MI Sep-20 Geocomposite 718,100 GCL 718,100 30 Mill HDPE Textured 1,048,220 'Wetzel County Landfill Temp Cap New Martinsville - WV Oct-20 60 Mil HDPE Textured 45,000 Geocomposite 45,000 Anchor Down 1,048,220 -50 Mil LLDPE Textured 396,164 'Frey Farms Landfill Cap Closure Conestoga - PA Oct-20 Geotextile 396,164 Geocomposite 22,000 80 Mil HDPE Textured 504,425 •Pioneer Crossing Cell C7 Birdsboro - PA Oct-20 160 Mil HDPE Textured 504,425 Geocomposite 504,425 Geotextile 504,425 GCL 504,425 40 Mil PVC 111,573 Guildford Reservior Baltimore - MD Oct-20 50 Mil HDPE Textured 1,466,000 Millersville Landfill Subcell 9.2 Severn - MD Dec-20 Geocomposite 1,466,000 GCL 2,440 IRaincover 580,000 50 Mil HDPE Textured 521,820 (Eastern Sanitary Landfill White Marsh - MD Dec-20 Geocomposite 83,400 Geotextile 973,600 GCL 521,820 (Rain Cover 565,275 Hallaton, Inc.-1206 Sparks Rd. -Sparks, MD 21152 Marcelo Lopez Geomembrane Experience Resume- 2022 Laborer on the following job sites: W Material Quantity Project Location Date 40 mil LLDPE Smooth 183,268 Plant Scherer Juliette -GA Jan-22 Transnet 330-2-8 Geocomposite 183,268 Geomembrane Lined Channel 6,000 40 mil LLDPE 27,038 Sampson Toe Berm/ Slope Repairs Roseboro - NC Feb-22 12 mil GRC 37,500 60 mil HDPE 1,000 Third High Reservoir M1 Washington -D.C. Mar-22 60 mil HDPE Textured 196,148 Meadow Branch Berm Extension Feb-22 DS Geocomposite 191,988 30 mil HDPE Rain Cover 168,442 40 mil LLDPE Textured 1,399,575 New Hanover GFFR Wilmington - NC Mar-22 Geocomposite DS 1,399,575 S nthetex H drotex FP4O0 72,858 60 mil HDPE 1,000 Third High ReservoirM1 Washington D. C. Apr-22 GCL 400,507 Laurel Ridge Cell WC M2 Lily - KY Apr-22 60 mil HDPE Textured 402,392 DS Geocomposite 400,507 Closure Turf 439,000 TA Paradise Metal Ponds Closure Drakesboro - KY Oct-22 Hydro Turf 47,685 20 mil Rain Cover 45,663 New Hanover Co 7 & 8A Wilmington -NC Sep-22 GT Wind Ballast 39,880 Temp Closure Vent Geocomposite 4,775 60 mil HDPE Textured 468,000 New Hanover Co 11 & 12A WiIminbgton - NC Dec-22 GCL 472,000 Secondary 60 mil HDPE 477,000 Geocomposite 477,000 Secondary GCL 472,500 Marcelo Lopez Geomembrane Experience Resume - 2021 Laborer on the following job sites: H Material Quantity Project Location Date GCL 326,658 HoneyGo Cell 8 Perry Hall - MD Jul-21 60 Mil 326,658 Geocomposite 326,658 Raincover 138,600 60 Mil HDPE 211,060 Corsa Coal Schrock Run Berlin - PA Jul-21 100z 228,375 50 Mil LOPE 598,000 Edge Moor Closure Wilmington - DE Jul-21 100z 590,625 40 Mil 673,000 Hamblen LF Morristown - TN Jul-21 Geocomposite 673,000 40 Mil HD 1,414,729 (Pioneer Temp Cap Birdsboro - PA Aug-21 Ballast 1,414,729 60 Mil HDPE 1,092 IBGE Substation Arlington Baltimore - MD Aug-21 10oz NW 1,092 GCL 31,000 Webster Co LF Webster Springs - Sep-21 Geocomposite 31,000 WV 50 Mil LLDPE 31,000 100z 31,000 60 Mil 150,300 EKPC Tank Liner Winchester - KY Oct-21 100z 108,900 60 Mil 910 IBGE Substation Baynesville Oct-21 10oz 910 (Liner 2,685 IPEPCO Substation Norbeck Rockville - MD Oct-21 60 Mil HDPE 186,028 Laurel Ridge Lily - KY Nov-21 Geocomposite 203,328 GCL 186,028 60 Mil 472,578 Conestoga (Morgantown - PA Nov-21 Geocomposite 228,538 GCL 228,538 16oz 228,538 Hallaton, Inc.-1206 Sparks Rd. —Sparks, MD 21152 Marcelo Lopez Geomembrane Experience Resume - 2020 Laborer on the following job sites: Material Quantity Project Location Date Raincover 98,000 Cherokee County Landfill Marble - NC May-20 40 Mil HDPE Textured 160,997 Commonwealth Landfill Closure Hegins - PA May-20 Geocomposite 160,997 ES4 HFA Axler Coletanche 26,135 (Lower Handelong Reservior Coletanche Bangor- PA May-20 60 Mil HDPE Textured 56,016 :382 Rte 72 Install Manahawkin - NJ May-20 60 Mil HDPE Smooth 41,400 (Ritchie Cell E Subcell 2 Upper Marlboro - MD Jun-20 -Geocomposite 46,690 Geotextile 171,000 GCL 37,200 60 Mil HDPE Textured 258,075 'Volunteer Landfill Cell 8C Oneida - TN Jul-20 Geotextile 244,642 Geocomposite 23,120 160 Mil HDPE Textured 192,602 Anson Landfill Polkton - NC Aug-20 Geocomposite 192,602 GCL 192,602 60 Mil HDPE Textured 647,430 Conestoga Landfill Morgantown - PA Aug-20 Geocomposite 317,636 Geotextile 317,636 GCL 317,636 100 Mill HDPE Textured 1,433,130 ILycoming County Landfill -1929 Montgomery - PA Sep-20 Geocomposite 1,429,990 Geotextile 1,621,800 GCL 699,750 60 Mil HDPE Textured 723,800 Vienna Junction Cell Phase 1 & 2 Erie - MI Sep-20 Geocomposite 718,100 GCL 718,100 30 Mill HDPE Textured 1,048,220 Wetzel County Landfill Temp Cap New Martinsville - WV Oct-20 60 Mil HDPE Textured 45,000 Geocomposite 45,000 Anchor Down 1,048,220 50 Mil LLDPE Textured 396,164 Frey Farms Landfill Cap Closure Conestoga - PA Oct-20 Geotextile 396,164 Geocomposite 22,000 80 Mil HDPE Textured 504,425 Pioneer Crossing Cell C7 Birdsboro - PA Oct-20 60 Mil HDPE Textured 504,425 Geocomposite 504,425 Geotextile 504,425 GCL 504,425 40 Mil PVC 111,573 Guildford Reservior Baltimore - MD Oct-20 60 Mil HDPE Textured 1,466,000 Millersville Landfill Subcell 9.2 Severn - MD Dec-20 Geocomposite 1,466,000 GCL 2,440 Raincover 580,000 60 Mil HDPE Textured 521,820 Eastern Sanitary Landfill White Marsh - MD (Dec-20 Geocomposite 83,400 Geotextile 973,600 GCL 521,820 Rain Cover 565,275 Hallaton, Inc.-1206 Sparks Rd. -Sparks, MD 21152 Gabino Rangel Geomembrane Experience Resume - 2022 Laborer on the following job sites: Material Quantity Project Location Date .40 mil LLDPE Smooth 183,268 Plant Scherer Juliette -GA Jan-22 Transnet 330-2-8 Geocomposite 183,268 Geomembrane Lined Channel 6,000 40 mil LLDPE 27,038 Sampson Toe Berm/ Slope Repairs Roseboro - NC Feb-22 12 mil GRC 37,500 60 mil HDPE 1,000 Third High ReservoirM1 Washington -D.C. Mar-22 60 mil HDPE Textured 196,148 Meadow Branch Berm Extension Feb-22 DS Geocomposite 191,988 30 mil HDPE Rain Cover 168,442 40 mil LLDPE Textured 1,399,575 New HanoverGFFR Wilmington - NC Mar-22 Geocomposite IDS 1,399,575 S nthetex H drotex FP400 72,858 60 mil HDPE 1,000 Third High ReservoirM1 Washington D. C. A r-22 GCL 400,507 Laurel Ridge Cell WC M2 Lily - KY Apr-22 60 mil HDPE Textured 402,392 IDS Geocomposite 400,507 Closure Turf 439,000 TA Paradise Metal Ponds Closure Drakesboro - KY Oct-22 Hydro Turf 47,685 20 mil Rain Cover 45,663 New Hanover Co 7 & 8A Wilmington -NC Sep-22 GT Wind Ballast 39,880 Temp Closure Vent Geocomposite 4,775 60 mil HDPE Textured 468,000 New Hanover Co 11 & 12A Wilminbgton -NC Dec-22 GCL 472,000 Secondary 60 mil HDPE 477,000 Geocomposite 477,000 Secondary GCL 472,500 Gabino Rangel Geomembrane Experience Resume - 2021 LABOROR on the following job sites: Material Quantity Project Location Date GCL 326,658 HoneyGo Cell 8 'Perry Hall - MD Jul-21 60 Mil 326,658 Geocomposite 326,658 Raincover 138,600 160 Mil HDPE 211,060 Corsa Coal Schrock Run Berlin - PA Jul-21 10oz 228,375 50 Mil LOPE 598,000 Edge Moor Closure Wilmington - DE Jul-21 10oz 590,625 40 Mil HD 1,414,729 Pioneer Temp Cap Birdsboro - PA Aug-21 Ballast 1,414,729 60 Mil HDPE 1,092 BGE Substation Arlington Baltimore - MD Aug-21 10oz NW 1,092 GCL 31,000 Webster Co LF Webster Springs - Sep-21 Geocomposite 31,000 WV 50 Mil LLDPE 31,000 10oz 31.000 60 Mil 150,300 EKPC Tank Liner Winchester - KY Oct-21 10oz 108,900 60 Mil 910 BGE Substation Baynesville Oct-21 10oz 910 Liner 2,685 PEPCO Substation Norbeck Rockville - MD Oct-21 40 Mil 673,000 Hamblen LF Morristown - TN Jul-21 Geocomposite 673,000 60 Mil HDPE 186,028 Laurel Ridge Lily - KY Nov-21 Geocomposite 203,328 GCL 186,028 60 Mil 472,578 Conestoga Morgantown - PA Nov-21 Geocomposite 228,538 GCL 228,538 16oz 228,538 Hallaton, Inca-1206 Sparks Rd. —Sparks, MD 21152 Gabino Rangel Geomembrane Experience Resume - 2020 LABORER on the following job sites: [no-] Material Quantity Project Location Date 60 Mil HDPE Textured 1,639,440 New Hanover County Landfill Wilmington -NC Ma720 GCL 1,639,440 Cell 9 -10A Geocomposite 819,720 Rain Cover 330,260 60 Mil HDPETextured 258,075 'Volunteer Landfill Cell 8C Oneida -TN Jul-20 Geotextile 244,642 Geocomoosite 23,120 60 Mil HDPE Textured 368,412 Hopkins Co Landfill White Plans - KY Aug-20 GCL 368,412 Geocomposite 386,412 60 Mil HDPE Textured 192,602 .Anson Landfill Phase 3 Cell 2 Polkton - NC Aug-20 Geocomposite 192,602 GCL 192,602 50 Mil HDPE Textured 396,164 Frey Farms Landfill Cap Closure Conestoga -PA Oct-20 Geotextile 396,164 Geocomposite 22,000 60 Mil HDPE Textured 576,610 Lakeway Landfill Cell 5 Mom stown -TN Nov-20 Geotextile 553,300 GCL 144,670 Rain Cover 555,660 60 Mil HDPE Textured 690,750 Sampson County Cell 11 Roseboro - NC Nov-20 60 Mil HDPE Smooth 220,000 Geocomposite 910,750 GCL 7,500 Rain Cover 600,000 60 Mil HDPE 253,975 Shenandoad Landfill Edinburg -VA Dec-20 Geocomposite 251,650 Rain Cover 31,333 Hallaton, Inc.-1206 Sparks Rd. —Sparks, MD 21152 Roge[io Ibarra Geomembrane Experience Resume - 2022 Laborer on the following job sites: Material Quantity Project Location Date ,40 mil LOPE Smooth 183,268 Plant Scherer Juliette -GA Jan-22 Transnet 330-2-8 Geocomposite 183,268 Geomembrane Lined Channel 6,000 40 mi I LLDPE 27,038 Sampson Toe Berm] Slope Repairs Roseboro - NC Feb-22 12 mil GRC 37,500 60 mil HDPE 1,000 Third High Reservoir M1 Washington -D.C. Mar-22 150 mil HDPE Textured 196,148 Meadow Branch Berm Extension Feb-22 IDS Geocomposite 191,988 :30 mil HDPE Rain Cover 168,442 40 mil LLDPE Textured 1,399,575 New Hanover GFFR Wilmington -NC Mar-22 Geocomposite DS 1,399,575 S nthetex H drotex FP400 72,858 160 mil HDPE 1,000 Third High ReservoirM1 Washington D. C. A r-22 GCL 400,507 Laurel Ridge Cell WC M2 Lily - KY Apr-22 60 mil HDPE Textured 402,392 DS Geocomposite 400,507 Closure Turf 439,000 TA Paradise Metal Ponds Closure Drakesboro - KY Oct-22 H dro Turf 47,685 .20 mil Rain Cover 45,663 New Hanover Co 7 & 8A Wilmington - NC Sep-22 GT Wind Ballast 39,880 Temp Closure Vent Geocomposite 4,775 60 mil HDPE Textured 468,000 New Hanover Co 11 & 12A WiIminbgton - NC Dec-22 GCL 472,000 Secondary 60 mil HDPE 477,000 Geocomposite 477,000 Secondary GCL 472,500 Rogelio Ibarra Geomembrane Experience Resume - 2021 Laborer on the following job sites: 7 L Material Quantity Project Location Date GCL 326,658 HoneyGo Cell 8 Perry Hall - MD Jul-21 60 Mil 326,658 Geocomposite 326,658 Raincover 138,600 60 Mil HDPE 211,060 Corsa Coal Schrock Run Berlin - PA Jul-21 10oz 228,375 50 Mil LOPE 598,000 Edge Moor Closure Wilmington - DE Jul-21 10oz 590,625 40 Mil 673,000 Hamblen LF Morristown - TN Jul-21 Geocomposite 673,000 40 Mil HD 1,414,729 Pioneer Temp Cap Birdsboro - PA Aug-21 Ballast 1,414,729 60 Mil HDPE 1,092 BGE Substation Arlington Baltimore - MD Aug-21 10oz NW 1,092 GCL 31,000 Webster Co LF Webster Springs - Sep-21 Geocomposite 31,000 Wv 50 Mil LOPE 31,000 10oz 31,000 60 Mil 150,300 IEKPC Tank Liner Winchester - KY Oct-21 10oz 108,900 130 Mil 910 IBGE Substation Baynesville Oct-21 10oz 910 (Liner 2,685 IPEPCO Substation Norbeck (Rockville - MD Oct-21 60 Mil HDPE 186,028 'Laurel Ridge (Lily - KY Nov-21 Geocomposite 203,328 GCL 186,028 160 Mil 472,578 Conestoga Morgantown - PA Nov-21 Geocomposite 228,538 GCL 228,538 16oz 228,538 Hallaton, Inc.-1206 Sparks Rd. —Sparks, MD 21152 Rogeiio ibarra Geomembrane Experience Resume - 2020 Laborer on the following job sites: Material Quantity Project Location Date Raincover 98,000 Cherokee County Landfill (Marble - NC May-20 40 Mil HDPE Textured 160,997 Commonwealth Landfill Closure IHegins - PA May-20 Geocomposite 160,997 ES4 HFA Axler Coletanche 26,135 Lower Handelong Reservior Coletanche (Bangor - PA May-20 ,60 Mil HDPE Textured 56,016 382 Rte 72 Install IManahawkin - NJ May-20 160 Mil HDPE Smooth 41,400 Ritchie Cell E Subcell 2 iUpper Marlboro - MD Jun-20 -Geocomposite 46,690 ,Geotextile 171,000 GCL 37,200 160 Mil HDPE Textured 258,075 Volunteer Landfill Cell 8C Oneida - TN Jul-20 Geotextile 244,642 Geocomposite 23,120 60 Mil HDPE Textured 192,602 Anson Landfill Polkton - NC Aug-20 Geocomposite 192,602 GCL 192,602 60 Mil HDPE Textured 647,430 Conestoga Landfill Morgantown - PA Aug-20 Geocomposite 317,636 Geotextile 317,636 GCL 317,636 100 Mill HDPE Textured 1,433,130 ILycoming County Landfill -1929 Montgomery - PA Sep-20 Geocomposite 1,429,990 Geotextile 1,621,800 GCL 699,750 60 Mil HDPE Textured 723,800 'Vienna Junction Cell Phase 1 & 2 Erie - MI Sep-20 Geocomposite 718,100 GCL 718,100 30 Mill HDPE Textured 1,048,220 'Wetzel County Landfill Temp Cap New Martinsville - WV Oct-20 60 Mil HDPE Textured 45,000 Geocomposite 45,000 Anchor Down 1,048,220 50 Mil LLDPE Textured 396,164 iFrey Farms Landfill Cap Closure Conestoga - PA Oct-20 Geotextile 396,164 Geocomposite 22,000 80 Mil HDPE Textured 504,425 'Pioneer Crossing Cell C7 Birdsboro - PA Oct-20 60 Mil HDPE Textured 504,425 Geocomposite 504,425 Geotextile 504,425 GCL 504,425 40 Mil PVC 111,573 Guildford Reservior Baltimore - MD Oct-20 60 Mil HDPE Textured 1,466,000 Millersville Landfill Subcell 9.2 Severn - MD Dec-20 Geocomposite 1,466,000 GCL 2,440 Raincover 580,000 60 Mil HDPE Textured 521,820 Eastern Sanitary Landfill White Marsh - MD Dec-20 Geocomposite 83,400 Geotextile 973,600 GCL 521,820 Rain Cover 565,275 Hallaton, Inc.-1206 Sparks Rd. -Sparks, MD 21152 Jose Braulio Lopez Geomembrane Experience Resume -2022 Laborer on the following job sites: H Material Quantity Project Location Date 40 mil LLDPE Smooth 183,268 Plant Scherer Juliette - GA Jan-22 Transnet 330-2-8 Geocomposite 183,268 Geomembrane Lined Channel 6,000 40 mil LLDPE 27,038 Sampson Toe Berm/ Slope Repairs Roseboro -NC Feb-22 12 mil GRC 37,500 60 mil HDPE 1,000 Third High Reservoir M1 Washington -D.C. Mar-22 60 mil HDPE Textured 196,148 Meadow Branch Ben Extension Feb-22 DS Geocomposite 191,988 30 mil HDPE Rain Cover 168,442 40 mil LLDPE Textured 1,399,575 New HanoverGFFR Wilmington -NC Mar-22 Geocomposite DS 1,399,575 S nthetex H drotex FP400 72,858 60 mil HDPE 1,000 Third High ReservoirM1 Washington D. C. A r-22 GCL 400,507 Laurel Ridge Cell WC M2 Lily - KY Apr-22 60 mil HDPE Textured 402,392 DS Geocomposite 400,507 Closure Turf 439,000 TA Paradise Metal Ponds Closure Drakesboro - KY Oct-22 Hydro Turf 47,685 20 mil Rain Cover 45,663 New Hanover Co 7 & 8A Wilmington -NC Sep-22 GT Wind Ballast 39,880 Temp Closure Vent Geocomposite 4,775 60 mil HDPE Textured 468,000 New Hanover Co 11 & 12A WiIminbgton - NC Dec-22 GCL 472,000 Secondary 60 mil HDPE 477,000 Geocomposite 477,000 Secondary GCL 472,500 Jose Braulio Lopez Geomembrane Experience Resume - 2021 Laborer on the following job sites: Material Quantity Project Location Date GCL 326,658 HoneyGo Cell 8 Perry Hall - MD Jul-21 60 Mil 326,658 Geocomposite 326,658 Raincover 138,600 60 Mil HDPE 211,060 Corsa Coal Schrock Run Berlin - PA Jul-21 100z 228,375 50 Mil LLDPE 598,000 (Edge Moor Closure Wilmington - DE Jul-21 100z 590,625 40 Mil 673,000 (Hamblen LF Morristown - TN Jul-21 Geocomposite 673,000 40 Mil HD 1,414,729 (Pioneer Temp Cap Birdsboro - PA Aug-21 Ballast 1,414,729 60 Mil HDPE 1,092 IBGE Substation Arlington Baltimore - MD Aug-21 10oz NW 1,092 GCL 31,000 'Webster Co LF Webster Springs - Sep-21 Geocomposite 31,000 Wv 50 Mil LLDPE 31,000 100z 31,000 60 Mil 150,300 EKPC Tank Liner Winchester - KY Oct-21 100z 108,900 60 Mil 910 BGE Substation Baynesville Oct-21 100z 910 Liner 2,685 PEPCO Substation Norbeck Rockville - MD Oct-21 60 Mil HDPE 186,028 Laurel Ridge (Lily - KY Nov-21 Geocomposite 203,328 GCL 186,028 60 Mil 472,578 Conestoga (Morgantown - PA Nov-21 Geocomposite 228,538 GCL 228,538 16oz 228,538 Hallaton, Inc.-1206 Sparks Rd. —Sparks, MD 21152 Jose Braulio Lopez Geomembrane Experience Resume - 2020 Laborer on the following job sites: Material Quantity Project Location Date Raincover 98,000 Cherokee County Landfill Marble - NC May-20 40 Mil HDPE Textured 160,997 Commonwealth Landfill Closure Hegins - PA May-20 Geocomposite 160,997 ES4 HFA Axler Coletanche 26,135 Lower Handelong Reservior Coletanche Bangor - PA May-20 60 Mil HDPE Textured 56,016 382 Rte 72 Install Manahawkin - NJ May-20 60 Mil HDPE Smooth 41,400 Ritchie Cell E Subcell 2 Upper Marlboro - MD Jun-20 Geocomposite 46,690 Geotextile 171,000 GCL 37,200 60 Mil HDPE Textured 258,075 Volunteer Landfill Cell 8C Oneida - TN Jul-20 Geotextile 244,642 Geocomposite 23,120 60 Mil HDPE Textured 192,602 .Anson Landfill IPolkton - NC Aug-20 Geocomposite 192,602 GCL 192,602 130 Mil HDPE Textured 647,430 Conestoga Landfill 'Morgantown - PA Aug-20 Geocomposite 317,636 Geotextile 317,636 GCL 317,636 100 Mill HDPE Textured 1,433,130 Lycoming County Landfill -1929 Montgomery - PA 'Sep-20 Geocomposite 1,429,990 Geotextile 1,621,800 GCL 699,750 160 Mil HDPE Textured 723,800 Vienna Junction Cell Phase 1 & 2 Erie - MI Sep-20 Geocomposite 718,100 GCL 718,100 30 Mill HDPE Textured 1,048,220 Wetzel County Landfill Temp Cap New Martinsville - WV -Oct-20 160 Mil HDPE Textured 45,000 -Geocomposite 45,000 Anchor Down 1,048,220 50 Mil LLDPE Textured 396,164 (Frey Farms Landfill Cap Closure Conestoga PA Oct 20 -Geotextile 396,164 Geocomposite 22,000 ,80 Mil HDPE Textured 504,425 iPioneer Crossing Cell C7 Birdsboro - PA Oct-20 160 Mil HDPE Textured 504,425 Geocomposite 504,425 Geotextile 504,425 GCL 504,425 40 Mil PVC 111,573 Guildford Reservior Baltimore - MD Oct-20 ,60 Mil HDPE Textured 1,466,000 (Millersville Landfill Subcell 9.2 Severn - MD Dec-20 Geocomposite 1,466,000 GCL 2,440 Raincover 580,000 60 Mil HDPE Textured 521,820 (Eastern Sanitary Landfill White Marsh - MD Dec-20 Geocomposite 83,400 Geotextile 973,600 GCL 521,820 Rain Cover 565,275 Hallaton, Inca-1206 Sparks Rd. -Sparks, MD 21152 APPENDIX B SOILS LABORATORY TESTING RESULTS APPENDIX B Section 1 STRUCTURAL FILL -. - •. - - • � � • -. - - - - -. . - .. . . , - .. .. -- . .. - . - . .. - - -. ■. ■■�1 ��1 . � . . - �� . . ■■■■■■■�■l�L ■■■■■■■■I�LI■� ■■■■■■■■Ll■�1 ■■■■■■■■■L►■►■l ■■■■■■■■■■��1� ■■■■■■■■■■■I�LI■, ■■■■■■■■■■■Ll■�► ■■■■■■■■■■■■■��i ■■■■■■■■■■�■►��■1 ■■■■■■■■■■■■��►1L ■■■■■■■■■■■■■1►■■► ■■■■ ■■ ■■■ ■ ■■■■��L1 ■■■■■■■■■■■■■■�1■�► ■■■■ ■■■ ■■■ ■■■ ■■■■■■■■■■■�■■■■�►�L ■■■■■■■■■■■■■■■■►���1 ■■■■■■■■■■■■■■■■■1���► ■■■■■■■■■■■■■■■■■��►'1■ ........ ................. 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Optimum Moisture N Maximum Dry Density (pcf) In Place Moisture (%) In Place Wet Density (pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. (%) Remark 1 06/28/23 Sf-01 A ML 17.6 108.3 17.1 122.5 104.6 97 95 / 99 2 06/28/23 SF-02 A MH 15.4 108.3 21.2 126.9 104.7 97 95 / 99 3 06/28/23 Sf-01 A ML 17.6 108.3 22.7 131.4 107.1 99 95 / 99 4 06/28/23 SF-02 A MH 15.4 108.3 16.9 125.4 107.3 99 95 / 99 5 06/28/23 Sf-01 A ML 17.6 108.3 19.2 126.6 106.2 98 95 / 99 6 06/28/23 Sf-01 A ML 17.6 108.3 22.1 131.4 107.6 99 95 / 99 7 06/29/23 CL-01 B ML 14.7 113.2 12.9 121.0 107.2 95 95 / 99 8 06/29/23 Sf-01 A ML 17.6 108.3 14.9 123.1 107.1 99 95 / 99 1 DP/MP Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 1 Structural Fill: G1 -8.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 2 Structural Fill: F1 -3.0 KN-3 1.310 3.870 3.850 4.990 0.0338 Kingsley Nwaogwugwu 3 Structural Fill: E1 -2.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 4 Structural Fill: D1 -3.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 5 Structural Fill: C1 -2.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 6 Structural Fill: B2 -8.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 7 Structural Fill: C2 -8.0 KN-3 1.310 3.870 3.850 4.990 0.0338 Kingsley Nwaogwugwu 8 Structural Fill: D2 -3.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu Remarks Comments Related Tests DP/MP: Density Pass / Moisture Pass Test # Related Test # Test Type Copyright Oasis Consulting Services 2023 Page 1 of 36 OASIS :1 CONSVLIING S SFFVICES J Roswell 45 Woodstock Street Roswell, GA 30075 Phone: 678-739-2400 Drive Cylinder Report Date: 07/03/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture N Maximum Dry Density (pcf) In Place Moisture (%) In Place Wet Density (pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. (%) Remark 9 06/29/23 SF-02 A MH 15.4 108.3 16.1 120.1 103.5 96 95 / 99 10 06/29/23 Sf-01 A ML 17.6 108.3 17.0 123.4 105.4 97 95 / 99 11 06/29/23 CL-01 B ML 14.7 113.2 15.3 126.6 109.8 97 95 / 99 12 06/29/23 CL-02 B ML 21.0 100.8 22.3 121.0 98.9 98 95 / 99 13 06/29/23 Sf-01 A ML 17.6 108.3 21.4 126.6 104.3 96 95 / 99 14 06/29/23 Sf-01 A ML 17.6 108.3 20.0 126.6 105.5 97 95 / 99 15 06/30/23 SF-02 A MH 1 15.4 108.3 21.9 129.0 105.9 98 95 / 99 16 06/30/23 SF-02 A MH 15.4 108.3 19.6 123.1 102.9 95 95 / 99 Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 9 Structural Fill: E2 -3.0 KN-3 1.310 3.870 3.850 4.990 0.0338 Kingsley Nwaogwugwu 10 Structural Fill: F2 -3.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaoawuawu 11 Structural Fill: G2 -10.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 12 Structural Fill: H2 -4.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 13 Structural Fill: H3 -4.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 14 Structural Fill: G3 -10.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 15 Structural Fill: F3 -6.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwao wu wu 16 Structural Fill: E3 3.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu Remarks Comments Related Tests Test # I Related Test # I Test Type Copyright Oasis Consulting Services 2023 Page 2 of 36 `r OASIS COKULING sea+r�cEs Roswell 45 Woodstock Street Roswell, GA 30075 Phone: 676-739-2400 Drive Cylinder Report Date: 07/03/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Maximum Optimum Dry Density Moisture In Place In Place Wet In Place Retest Test Soil N (pcf) Moisture Density Dry Density Percent Min/Max Comp. Test # Of Date Proctor ID Method Class. (%) (pcf) (pcf) Compaction N Remark 17 06/30/23 SF-02 A MH 15.4 108.3 18.7 122.5 103.2 95 95 / 99 18 06/30/23 CL-01 B ML 14.7 113.2 14.8 125.1 109.0 96 95 / 99 19 06/30/23 CL-01 B ML 14.7 113.2 16.0 127.5 109.9 97 95 / 99 20 06/30/23 SF-02 A MH 15.4 108.3 18.2 125.1 105.9 98 95 / 99 Test Information Drive Weight of Top Bottom Cylinder Volume of Test # Test Location Elevation Reference Cylinder ID Cylinder (lb) Diameter (in) Diameter (in) Height(in) Cylinder (c Field Technician 17 Structural Fill: D3 -3.0 KN-3 1.310 3.870 3.850 4.990 0.0338 Kingsley Nwaogwugwu 18 Structural Fill: A3 -6.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 19 Structural Fill: A4 -7.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 20 Structural Fill: B4 7.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley 1 1 Nwaogwugwu Remarks Comments Related Tests Test # Related Test # Test Type Copyright Oasis Consulting Services 2023 Page 3 of 36 OASIS Roswell 45 Woodstock Street Roswell, GA 30075 Phone: 676-739-2400 Drive Cylinder Report Date: 07/06/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture N Maximum Dry Density (pcf) In Place Moisture N In Place Wet Density (Pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. (%) Remark 21 07/03/23 SF-02 A MH 15.4 108.3 16.2 120.7 103.9 96 95 / 99 DP/MP 22 07/03/23 Sf-01 A ML 17.6 108.3 13.8 117.5 103.2 95 95 / 99 23 07/03/23 SF-02 A MH 15.4 108.3 14.9 121.0 105.3 97 95 / 99 24 07/03/23 Sf-01 A ML 17.6 108.3 15.0 119.8 104.2 96 95 / 99 25 07/03/23 SF-02 A MH 15.4 108.3 17.3 121.9 103.9 96 95 / 99 26 07/03/23 SF-02 A MH 15.4 108.3 14.0 119.5 104.8 97 95 / 99 27 07/03/23 SF-02 A MH 15.4 108.3 16.1 124.3 107.0 99 95 / 99 28 07/05/23 Sf-01 A ML 17.6 108.3 13.8 122.5 107.6 99 95 / 99 Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 21 Structural Fill: C4 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 22 Structural Fill: D4 -3.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 23 Structural Fill: F4 -8.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 24 Structural Fill: E4 -4.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 25 Structural Fill: G4 -9.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 26 Structural Fill: H4 -4.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 27 Structural Fill: B5 -6.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 28 Structural Fill: C5 6.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwao wu wu Remarks Comments Related Tests DPIMP: Density Pass / Moisture Pass Test # Related Test # Test Type Copyright Oasis Consulting Services 2023 Page 4 of 36 (%LR!IsnLLU SEkVlC4� Roswell 45 Woodstock Street Roswell, GA 30075 Phone: 676-739-2400 Drive Cylinder Report Date: 07/06/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture (%) Maximum Dry Density (pcf) In Place Moisture (%) In Place Wet Density (Pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. M Remark 29 07/05/23 Sf-01 A ML 17.6 108.3 14.6 121.6 106.1 98 95 / 99 30 07/05/23 Sf-01 A ML 17.6 108.3 13.8 120.4 105.8 98 95 / 99 31 07/05/23 SF-02 A MH 15.4 108.3 15.9 123.1 106.2 98 95 / 99 32 07/05/23 SF-02 A MH 15.4 108.3 16.6 124.9 107.1 99 95 / 99 33 07/05/23 SF-02 A MH 15.4 108.3 14.7 120.1 104.7 97 95 / 99 34 07/05/23 SF-02 A MH 15.4 1 108.3 J 17.2 120.4 1 102.7 L 95 95199 35 07/05/23 Sf-01 A ML 17.6 108.3 17.2 125.1 106.8 99 95 / 99 36 07/05/23 CL-01 B I ML 14.7 113.2 13.5 121.6 107.1 95 95 / 99 Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 29 Structural Fill: D5 -4.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 30 Structural Fill: D3 -3.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 31 Structural Fill: E5 -3.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 32 Structural Fill: F5 -7.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 33 Structural Fill: A4 -6.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 34 Structural Fill: A3 -5.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 35 Structural Fill: B3 -7.0 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 36 Structural Fill: B2 7.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu Remarks Comments Related Tests Test # I Related Test # 7 Test Type Copyright Oasis Consulting Services 2023 Page 5 of 36 OASIS SULTING RVICES Roswell 45 Woodstock Street Roswell, GA 30075 Phone: 678-739-2400 Drive Cylinder Report Date: 07/06/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Maximum Optimum Dry Density Moisture In Place In Place Wet In Place Retest Test Soil N (pcf) Moisture Density Dry Density Percent Min/Max Comp. Test # Of Date Proctor ID Method Class I I N (Pcf) (pcf) Compaction M Remark 37 07/05/23 SF-02 A MH 15.4 108.3 1 11.3 118.9 106.9 99 95 / 99 Test Information Drive Weight of Top Bottom Cylinder Volume of Test # Test Location Elevation Reference Cylinder ID Cylinder (lb) Diameter (in) Diameter (in) Height (in) I Cylinder (cf) Field Technician 37 Structural Fill: C2 -7.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu Remarks Comments Related Tests Test # I Related Test # Test Type Copyright Oasis Consulting Services 2023 Page 6 of 36 OASIS cor+sutswG SERVI[E$ Roswell 45 Woodstock Street Roswell, GA 30075 Phone: 676-739-2400 Drive Cylinder Report Date: 07/08/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture N Maximum Dry Density (pcf) In Place Moisture (%) In Place Wet Density (pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. (%) Remark 38 07/06/23 Sf-01 A ML 17.6 108.3 18.0 123.7 104.8 97 95/99 39 07/06/23 Sf-01 A ML 17.6 108.3 16.8 120.4 103.1 95 95/99 40 07/06/23 SF-02 A MH 15.4 108.3 15.4 121.6 105.4 97 95/99 41 07/06/23 SF-02 A MH 15.4 108.3 14.9 123.1 107.1 99 95/99 42 07/06/23 SF-02 A MH 15.4 108.3 13.8 122.5 107.6 99 95/99 43 07/06/23 SF-02 A MH 15.4 108.3 16.2 120.1 103.4 95 95/99 44 07/06/23 SF-02 A MH 15.4 108.3 18.3 124.0 104.8 97 95/99 45 07/06/23 -01 SF A ML 17.6 108.3 18.0 121.0 102.5 95 95/99 Test Information Test # Test Location Elevation Reference Drive _Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 38 Structural Fill: G1 -7.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 39 Structural Fill: G2 -9.0 KN-2 1.320 3.860 3.860 4.990 0,0338 Kingsley Nwaogwugwu 40 Structural Fill: G3 -8.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 41 Structural Fill: G4 -7.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 42 Structural Fill: F1 -2.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 43 Structural Fill: F2 -3.0 KN-3 1.310 3.870 3.850 4.990 0.0338 Kingsley Nwaogwugwu 44 Structural Fill: F3 -5.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 45 Structural Fill: F4 -7.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu Remarks Comments Related Tests Test # I Related Test # Test Type Copyright Oasis Consulting Services 2023 Page 7 of 36 OASIS r�: �sutr�Hc :ERViCES Roswell 45 Woodstock Street Roswell, GA 30075 Phone: 678-739-2400 Drive Cylinder Report Date: 07/08/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture N Maximum Dry Density (pcf) In Place Moisture N In Place Wet Density (pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. (%) Remark 46 07/06/23 Sf-01 A ML 17.6 108.3 15.9 121.9 105.2 97 95 / 99 47 07/06/23 SF-02 A MH 15.4 108.3 17.0 122.5 104.7 97 95 / 99 48 07/07/23 Sf-01 A ML 17.6 108.3 21.2 124.3 102.5 95 95 / 99 49 07/07/23 Sf-01 A ML 17.6 108.3 19.3 123.1 103.2 95 95 / 99 50 07/07/23 Sf-01 A ML 17.6 108.3 18.1 123.4 104.5 96 95 / 99 51 07/07/23 SF-02 A MH 15.4 108.3 16.6 120.4 103.3 95 95 / 99 52 07/07/23 SF-02 A MH 1 15.4 108.3 17.1 124.9 106.6 98 95 / 99 53 1 1 07/07/23 L SF-02 A I MH 1 15.4 1 108.3 15.4 124.3 107.7 99 95 / 99 Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 46 Structural Fill: F5 -6.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 47 Structural Fill: E5 -3.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 48 Structural Fill: E1 -2.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 49 Structural Fill: E2 -3.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 50 Structural Fill: E3 -2.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 51 Structural Fill: E4 -3.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 52 Structural Fill: E5 -2.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 53 Structural Fill: F1 -1.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwao wu wu Remarks Comments Related Tests Test # I Related Test # J, Test T e Copyright Oasis Consulting Services 2023 Page 8 of 36 LO ASIS CCNSUtTNG MES SErrvrGES Roswell 45 Woodstock Street Roswell, GA 30075 Phone: 678-739-2400 Drive Cylinder Report Date: 07/08/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Maximum Optimum Dry Density Moisture In Place In Place Wet In Place Retest Test Soil N (pcf) Moisture Density Dry Density Percent Min/Max Comp. Test # Of Date Proctor ID Method Class. M (pcf) (pcf) Compaction M Remark 54 07/08/23 SF-02 A MH 15.4 108.3 16.9 125.4 107.3 99 95 / 99 55 07/07/23 SF-02 A MH 15.4 108.3 16.5 122.5 105.1 97 95 / 99 56 07/07/23 SF-02 A MH 15.4 108.3 15.9 121.9 105.1 97 95 / 99 Test Information Drive Weight of Top Bottom Cylinder Volume of Test # Test Location Elevation Reference Cylinder ID Cylinder (lb) Diameter (in) Diameter (in) Height (in) Cylinder (cf) Field Technician 54 Structural Fill: F2 -3.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 55 Structural Fill: F3 -2.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 56 Structural Fill: F4 -4.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu Remarks Comments Related Tests Test # Related Test # I Test Type Copyright Oasis Consulting Services 2023 Page 9 of 36 I(o SERWASIS CO wG EltwGfS Roswell 45 Woodstock Street Roswell, GA 30075 Phone: 676-739-2400 Drive Cylinder Report Date: 07/11/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture (%) Maximum Dry Density (pcf) In Place Moisture (%) In Place Wet Density (pcf) In Place Dry Density (Pcf) Percent Compaction Min/Max Comp. (%) Remark 57 07/10/23 SF-02 A MH 15.4 108.3 15.9 124.7 107.6 99 95199 58 07/10/23 Sf-01 A ML 17.6 108.3 16.6 123.5 105.9 98 95 / 99 59 07/10/23 SF-02 A MH 15.4 108.3 13.8 122.3 107.5 99 95 / 99 60 07/10/23 Sf-01 A ML 17.6 108.3 17.4 122.0 104.0 96 95 / 99 61 07/10/23 Sf-01 A ML 17.6 108.3 17.4 122.6 104.5 96 95 / 99 62 07/10/23 SF-02 A MH 15.4 108.3 13.7 120.7 106.2 98 95 / 99 63 07/10/23 SF-02 A MH 1 15.4 108.3 1 16.3 1 121.7 1 104.7 1 97 1 95 / 99 64 07/10/23 SF-02 A MH 15.4 108.3 1 13.9 122.0 107.1 99 95 / 99 DP/MP Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (Ib) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 57 Structural Fill: G5 -5.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 58 Structural Fill: G4 -4.0 KN-2 1.320 3.860 3.866 4.990 0.0338 Kingsley Nwaogwugwu 59 Structural Fill: G3 -5.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 60 Structural Fill: G2 -5.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 61 Structural Fill: G1 -4.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 62 Structural Fill: 1-11 -3.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 63 Structural Fill: H2 -3.0 KN-2 1.320 3.860 3.860 4.990 0.0338iNwaogwugwu Kingsley Nwaogwugwu 64 Structural Fill: H3 -3.0 KN-2 1.320 3.860 3.860 4.990 0.0338Kingsley Remarks Comments Related Tests DP/MP: Density Pass / Moisture Pass Test # Related Test # J Testlype Copyright Oasis Consulting Services 2023 Page 10 of 36 OASIS CS,NSVLI ING Sf.RvrCES Roswell 45 Woodstock Street Roswell, GA 30075 Phone: 678-739-2400 Drive Cylinder Report Date: 07/11/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture N Maximum Dry Density (pcf) In Place Moisture M In Place Wet Density (pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. M Remark 65 07/10/23 SF-02 A MH 15.4 108.3 146 120.7 105.3 97 95 / 99 66 07/10/23 SF-02 A MH 15.4 108.3 15.3 122.8 106.5 98 95 / 99 67 07/10/23 SF-02 A MH 15.4 108.3 14.8 123.2 107.3 99 95 / 99 68 07/11/23 SF-02 A MH 15.4 108.3 15.6 120.9 104.5 96 95 / 99 69 07/11/23 SF-02 A MH 15.4 108.3 14.8 121.7 106.1 98 95 / 99 70 07/11/23 SF-02 A MH 15.4 1 108.3 16.2 122.0 105.0 97 95 / 99 71 07/11/23 SF-02 A MH 15.4 108.3 14.8 121.6 105.9 98 95 / 99 1 DP/MP 72 07/11/23 Sf-01 A ML 17.6 108.3 17.5 123.7 105.3 97 95 / 99 Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 65 Structural Fill: H4 -3.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 66 Structural Fill: G4 -2.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 67 Structural Fill: G3 -3.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 68 Structural Fill: G2 -3.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 69 Structural Fill: G1 -2.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 70 Structural Fill: F1 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 71 Structural Fill: F2 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwu wu 72 Structural Fill: F3 -1.0 KN-2 1,320 3.860 3.860 4.990 0.0338 Kingsley INwao9wuqwu Remarks Comments Related Tests DP/MP: Densitv Pass / Moisture Pass Test # J, Related Test # Test Type Copyright Oasis Consulting Services 2023 Page 11 of 36 rk,Asis vrvsuLnr+G seRv�a Roswell 45 Woodstock Street Roswell, GA 30075 Phone: 670-739-2400 Drive Cylinder Report Date: 07/11/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Maximum Optimum Dry Density Moisture In Place In Place Wet In Place Retest Test Soil N (pcf) Moisture Density Dry Density Percent Min/Max Comp. Test # Of Date Proctor ID Method Class. (%) (pcf) (pcf) Compaction (%) Remark 73 07/11/23 Sf-01 A ML 17.6 108.3 18.7 123.4 103.9 96 95 / 99 74 07/11/23 Sf-01 A ML 17.6 108.3 14.5 121.8 106.4 98 95 / 99 75 07/11/23 Sf-01 A ML 17.6 108.3 14.9 123.0 107.1 99 95 / 99 76 07/11/23 Sf-01 A ML 17.6 108.3 14.9 121.4 105.7 98 95199 77 07/11/23 Sf-01 A ML 17.6 108.3 17.6 120.9 102.8 95 95199 78 07/11/23 Sf-01 A ML 17.6 108.3 15.6 122.2 105.7 98 95 / 99 Test Information Drive Weight of Top Bottom Cylinder Volume of Test # Test Location Elevation Reference Cylinder ID Cylinder (lb) Diameter (in) Diameter (in) -Height (in) Cylinder (cf) Field Technician 73 Structural Fill: F4 -2.0 KN-3 1.310 3.870 3.850 4.990 0.0338 Kingsley Nwao. wugwu 74 Structural Fill: F5 -3.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 75 Structural Fill: E5 -1.0 KN-3 1.310 3.870 3.850 4.990 0.0338 Kingsley Nwaogwugwu 76 Structural Fill: E4 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 77 Structural Fill: E3 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 78 Structural Fill: E2 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaoawuawu Remarks Comments Related Tests Test # Related Test # I Test Type Copyright Oasis Consulting Services 2023 Page 12 of 36 Lo.E.,,,,, A51ScoreIS Roswell 45 Woodstock Street Roswell, GA 30075 Phone: 678-739-2400 Drive Cylinder Report Date: 07/13/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture N Maximum Dry Density (pcf) In Place Moisture (%) In Place Wet Density (pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. N Remark 79 07/12/23 Sf-01 A ML 17.6 108.3 19.0 124.0 104.2 96 95 / 99 80 07/12/23 Sf-01 A ML 17.6 108.3 20.3 124.9 103.8 96 95 / 99 81 07/12/23 Sf-01 A ML 17.6 108.3 18.0 125.1 106.1 98 95 / 99 82 07/12/23 Si-01 A ML 17.6 108.3 17.8 124.3 105.5 97 95 / 99 83 07/12/23 Sf-01 A ML 17.6 108.3 18.3 1 122.0 1 103.2 95 95 / 99 84 07/12/23 Sf-01 A ML 17.6 108.3 17.2 122.4 104.5 96 95 / 99 85 07/12/23 SF-02 A MH 15.4 108.3 15.4 122.3 106.0 98 95 / 99 86 07/12/23 SF-02 A MH 15.4 108.3 16.3 122.6 105.4 97 95 / 99 Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 79 Structural Fill: 1-11 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 80 Structural Fill: H2 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwao wu wu 81 Structural Fill: H3 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 82 Structural Fill: H4 -1.0 KN-2 1,320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 83 Structural Fill: G1 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 84 Structural Fill: G2 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 85 Structural Fill: G3 0.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 86 Structural Fill: G4 -2.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwao wu wu Remarks Comments Related Tests Test # I Related Test W-F Test Type Copyright Oasis Consulting Services 2023 Page 13 of 36 rrqsjsA CUN IPL a SERVICE$ Roswell 45 Woodstock Street Roswell, GA 30075 Phone: 67B-739-2400 Drive Cylinder Report Date: 07/13/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture N Maximum Dry Density (pcf) In Place Moisture (%) In Place Wet Density (pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. (%) Remark 87 07/13/23 SF-02 A MH 15.4 108.3 17.0 123.5 105.6 98 95 / 99 88 07/12/23 SF-02 A MH 15.4 108.3 14.9 122.8 106.9 99 95 / 99 89 07/12/23 Sf-01 A ML 17.6 108.3 19.5 123.7 103.5 96 95 / 99 90 07/13/23 SF-02 A MH 15.4 108.3 14.5 120.7 105.4 97 95 / 99 91 07/13/23 SF-02 A MH 15.4 108.3 14.1 122.5 107.3 99 95 / 99 92 07/13/23 SF-02 A MH 15.4 108.3 13.6 120.4 106.0 98 95 / 99 93 07/13/23 SF-02 A MH 15.4 108.3 16.0 123.7 106.6 98 95 / 99 DP/MP 94 07/13/23 SF-02 A MH 15.4 108.3 16.6 122.2 104.8 97 95 / 99 DP/MP Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 87 Structural Fill: G5 -2.0 KN-1 1,310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 88 Structural Fill: F2 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 89 Structural Fill: F3 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 90 Structural Fill: H1 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 91 Structural Fill: H2 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 92 Structural Fill: H3 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 93 Structural Fill: H4 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 94 Structural Fill: H5 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu Remarks Comments Related Tests DP/MP: Density Pass / Moisture Pass I Test # I Related Test # I Test Type Copyright Oasis Consulting Services 2023 Page 14 of 36 ]SERMCASNG C� SERVICES Roswell 45 Woodstock Street Roswell, GA 30075 Phone:678-739-2400 Drive Cylinder Report Date: 07/13/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor lD Method Soil Class. Optimum Moisture N Maximum Dry Density (pcf) In Place Moisture (%) In Place Wet Density (Pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. M Remark 95 07/14/23 SF-02 A MH 15.4 108.3 14.6 121.0 105.6 98 95/99 96 07/13/23 SF-02 A MH 15.4 108.3 17.0 120.1 102.7 95 95/99 97 07/13/23 Sf-01 A ML 17.6 108.3 18.7 123.4 103.9 96 95/99 98 07/13/23 SF-02 A MH 15.4 108.3 14.9 123.7 107.6 99 95/99 99 07/13/23 SF-02 A MH 15.4 108.3 14.0 121.3 106.4 98 95/99 100 07/13/23 Sf-01 A ML 17.6 108.3 19.2 123.1 103.3 95 95/99 101 07/13/23 SF-02 A MH 1 15.4 108.3 1 15.5 1 121.6 105.3 97 1 95199 Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in)_Diameter Bottom (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 95 Structural Fill: G5 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwao wugwu 96 Structural Fill: G4 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 97 Structural Fill: D1 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 98 Structural Fill: D3 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 99 Structural Fill: D5 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 100 Structural Fill: C1 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 101 Structural Fill: E1 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu Remarks Comments Related Tests Test # I Related Test # I Test Type Copyright Oasis Consulting Services 2023 Page 15 of 36 fif-OASIS CONSULTING SERVICES Roswell 45 Woodstock Street Roswell, GA 30075 Phone: 678-739-2400 Drive Cylinder Report Date: 07/15/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture N Maximum Dry Density (pcf) In Place Moisture (%) In Place Wet Density (pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. M Remark 102 07/14/23 Sf-01 A ML 17.6 108.3 18.2 126.0 106.6 98 95 / 99 103 07/14/23 Sf-01 A ML 17.6 108.3 16.0 122.8 105.8 98 95 / 99 104 07/14/23 Sf-01 A ML 17.6 108.3 15.3 123.7 107.2 99 95 / 99 105 07/14/23 SF-02 A MH 15.4 108.3 14.3 122.5 107.1 99 95 / 99 106 07/14/23 Sf-01 A ML 17.6 108.3 17.6 125.7 106.9 99 95 / 99 107 07/14/23 SF-02 A MH 15.4 108.3 15.6 124.3 107.5 99 95 / 99 108 07/14/23 Sf-01 A ML 17.6 108.3 19.4 126.9 106.3 98 95 / 99 109 07/14/23 SF-02 A MH 15.4 108.3 15.0 123.1 107.0 99 95 / 99 Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 102 Structural Fill: E2 0.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 103 Structural Fill: E3 0.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwao wu wu 104 Structural Fill: E4 0.0 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 105 Structural Fill: E5 0.0 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 106 Structural Fill: D4 0.0 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 107 Structural Fill: C2 -3.0 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 108 Structural Fill: C3 -2.0 KNA 1.310 3.830 3.850 4.980 0.0334 1 Kingsley Nwaogwugwu 109 1 Structural Fill: C4 -2.0 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu Remarks Comments Related Tests Test # Related Test # I Test Type Copyright Oasis Consulting Services 2023 Page 16 of 36 Ns As cor OASIS stxt C US Roswell 45 Woodstock Street Roswell, GA 30075 Phone: 676-739-2400 Drive Cylinder Report Date: 07/15/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Maximum Optimum Dry Density Moisture In Place In Place Wet In Place Retest Test Soil N (pcf) Moisture Density Dry Density Percent Min/Max Comp. Test # Of Date I Proctor ID Method Class. (%) (pcf) (pcf) Compaction M Remark 110 07/14/23 1 SF-02 A MH 15.4 108.3 15.6 124.6 107.7 99 95 / 99 111 07/14/23 SF-02 I A 1 MH 1 15.4 108.3 13.9 122.5 107.5 99 95 / 99 Test Information Drive Weight of Top Bottom Cylinder Volume of Test # Test Location Elevation Reference Cylinder ID Cylinder (lb) Diameter (in) Diameter (in) Height (in) Cylinder (cf) Field Technician 110 Structural Fill: C5 -3.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwao wugwu 111 Structural Fill: C6 -3.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwao wu wu Remarks Comments Related Tests Test # I Related Test #7 Test Type Copyright Oasis Consulting Services 2023 Page 17 of 36 LAsis CONSULTINC, SERVICES Roswell 45 Woodstock Street Roswell, GA 30075 Phone:67B-739-2400 Drive Cylinder Report Date: 07119/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture N Maximum Dry Density (pcf) In Place Moisture N In Place Wet Density (pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. (%) Remark 112 07/17/23 CL-02 B ML 21.0 100.8 24.5 124.0 99.6 99 95 / 99 113 07/17/23 CL-02 B ML 21.0 100.8 25.0 122.5 98.0 97 95 / 99 114 07/17/23 CL-02 B ML 21.0 100.8 26.1 125.1 99.2 98 95 / 99 115 07/17/23 SF-02 A MH 15.4 108.3 17.9 122.8 104.1 96 95 / 99 116 07/17/23 SF-02 A MH 15.4 108.3 16.8 124.3 106.4 98 95 / 99 117 07/17/23 SF-0 2 A MH 15.4 108.3 15.8 122.5 105.7 1 98 95 / 99 118 07/17/23 SF-02 A MH 15.4 108.3 17.0 120.7 103.1 95 95 / 99 119 07/17/23 SF-02 A MH 15.4 108.3 14.6 121.9 106.3 98 95 / 99 Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 112 CQA - Clay Subgrade: F2 -1.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 113 CQA - Clay Subgrade: G1 -1.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 114 CQA - Clay Subgrade: F2 TP1 -1.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 115 Structural Fill: C2 -2.0 KN-1 1.310 3.830 3.850 4.980 0,0334 Kingsley Nwaogwugwu 116 Structural Fill: C3 -2.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 117 Structural Fill: C4 -1.0 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 118 Structural Fill: C5 -2.0 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 119 Structural Fill: C6 -2.0 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwao wu wu Remarks Comments Related Tests 114: TP1 1 Test # I Related Test # I Test Type Copyright Oasis Consulting Services 2023 Page 18 of 36 LO15 AS C4NSULbNG lS iEit Am Roswell 45 Woodstock Street Roswell, GA 30075 Phone: 676-739-2400 Drive Cylinder Report Date: 07/19/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture N Maximum Dry Density (pcf) In Place Moisture N In Place Wet Density (pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. (%) Remark 120 07/18/23 CL-02 B ML 21.0 100.8 24.1 123.1 99.2 98 95 / 99 121 07/18/23 CL-02 B ML 21.0 100.8 25.8 126.0 100.2 99 95 / 99 122 07/18/23 CL-02 B ML 21.0 100.8 24.2 121.3 97.6 97 95 / 99 123 07/18/23 CL-02 B ML 21.0 100.8 23.8 122.2 98.7 98 95 / 99 124 07/18/23 CL-02 B ML 21.0 100.8 24.9 124.6 99.7 99 95 / 99 125 07/18/23 CL-02 B ML 21.0 100.8 25.9 122.5 1 97.3 1 97 1 95 / 99 126 1 1 07/18/23 SF-02 A MH 1 15.4 108.3 15.7 120.4 104.1 96 95 / 99 127 07/18/23 SF-02 A MH 15.4 108.3 17.8 121.9 103.5 96 95 / 99 Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 120 CQA - Clay Subgrade: G1 -0.5 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwu wu 121 CQA - Clay Subgrade: G2 TP2 -0.5 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 122 CQA - Clay Subgrade: F2 -0.5 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 123 CQA - Clay Subgrade: F1 0.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 124 CQA - Clay Subgrade: F2 TP3 0.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 125 CQA - Clay Subgrade: G2 0.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 126 Structural Fill: C2 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 127 Structural Fill: C3 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu Remarks Comments Related Tests Test # Related Test # I Test Type Copyright Oasis Consulting Services 2023 Page 19 of 36 I&OASIS cawwLnNG Roswell 45 Woodstock Street Roswell, GA 30075 Phone:678-739-2400 Drive Cylinder Report Date: 07/19/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Maximum Optimum Dry Density Moisture In Place In Place Wet In Place Retest Test Soil N (pcf) Moisture Density Dry Density Percent Min/Max Comp. Test # Of Date Proctor ID Method Class. (%) (pcf) (pcf) Compaction (%) Remark 128 07/18/23 SF-02 A MH 15.4 108.3 18.3 123.4 104.3 96 95 / 99 129 07/18/23 SF-02 A MH 15.4 108.3 15.0 119.5 103.9 96 95 / 99 Test Information Drive Weight of Top Bottom Cylinder Volume of Test # Test Location Elevation Reference Cylinder ID Cylinder (lb) Diameter (in) Diameter (in) Height (in) Cylinder (cf) Field Technician 128 Structural Fill: C4 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 129 Structural Fill: C5 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaoawuawu Remarks Comments Related Tests Test # I Related Test # I Test T e Copyright Oasis Consulting Services 2023 Page 20 of 36 y QASIS CD`1$VLIINi. ,yy,�- $ERViCFS Roswell 45 Woodstock Street Roswell, GA 30075 Phone:678-739-2400 Drive Cylinder Report Date: 07/28/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture N Maximum Dry Density (pcf) In Place Moisture N In Place Wet Density (Pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. (%) Remark 130 07/20/23 CL-02 B ML 21.0 100.8 24.2 120.1 96.7 96 95 / 99 131 07/20/23 CL-02 B ML 21.0 100.8 23.6 122.2 98.9 98 95 / 99 132 07/20/23 CL-02 B ML 21.0 100.8 22.1 120.4 98.6 98 95 / 99 133 07/20/23 CL-02 B ML 21.0 100.8 23.4 122.5 99.3 99 95 / 99 134 07/20/23 CL-02 B ML 21.0 100.8 23.8 119.8 96.8 96 95 / 99 135 07/20/23 CL-02 I B ML 21.0 100.8 24.8 121.6 97.4 97 95 / 99 136 07/20/23 CL-02 B ML 21.0 1 100.8 1 24.8 120.7 1 96.7 1 96 1 95 / 99 137 07/20/23 CL-02 B ML 21.0 100.8 1 23.0 119.2 96.9 96 95 / 99 DP/MP Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 130 CQA - Clay Subgrade: G1 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 131 CQA - Clay Subgrade: F1, CC1 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 132 CQA - Clay Subgrade: E1 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 133 CQA - Clay Subgrade: D1 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 134 CQA - Clay Subgrade: C1 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 135 CQA - Clay Subgrade: H1 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 136 CQA - Clay Subgrade: H2 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 137 CQA -Clay Subgrade: H3 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu Remarks Comments Related Tests DP/MP: Densitv Pass / Moisture Pass Test # I Related Test # I Test Tvne Copyright Oasis Consulting Services 2023 Page 21 of 36 OASIS eoNsuuiNc SFfMCU Roswell 45 Woodstock Street Roswell, GA 30075 Phone: 678-739-2400 Drive Cylinder Report Date: 07/28/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture N Maximum Dry Density (pcf) In Place Moisture (%) In Place Wet Density (pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. M Remark 138 07/20/23 CL-02 B ML 21.0 100.8 24.4 119.5 96.1 95 95 / 99 139 07/20/23 CL-02 B ML 21.0 100.8 23.1 122.8 99.7 99 95 / 99 140 07/20/23 CL-02 B ML 21.0 100.8 22.0 120.7 98.9 98 95 / 99 141 07/20/23 CL-02 B ML 21.0 100.8 22.5 122.2 99.7 99 95 / 99 142 07/20/23 CL-02 B ML 21.0 100.8 23.6 119.8 96.9 96 95 / 99 143 07/21/23 SF-02 A MH 15.4 1 108.3 15.7 120.7 104.3 96 95 / 99 144 07/21/23 SF-02 A MH 15.4 108.3 14.8 119.8 104.4 1 96 95 / 99 145 07/21/23 SF-02 A MH 15.4 108.3 16.2 121.9 104.9 97 95 / 99 Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 138 CQA - Clay Subgrade: H4 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 139 CQA - Clay Subgrade: E2 -1.0 KN-2 1,320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 140 CQA - Clay Subgrade: D2, CC2 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 141 CQA - Clay Subgrade: C2 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaoqwugwu 142 CQA - Clay Subgrade: B2 1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 143 Structural Fill: C2 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 144 Structural Fill: C3 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 145 Structural Fill: C4 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu Remarks Comments Related Tests Test # I Related Test # I Test Type Copyright Oasis Consulting Services 2023 Page 22 of 36 ��C3A51S coSuuuir ss•:avlcM Roswell 45 Woodstock Street Roswell, GA 30075 Phone:678-739-2400 Drive Cylinder Report Date: 07/28/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture N Maximum Dry Density (pcf) In Place Moisture M In Place Wet Density (pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. (%) Remark 146 07/21/23 SF-02 A MH 15.4 108.3 15.6 122.8 106.2 98 95 / 99 147 07/21/23 Sf-01 A ML 17.6 108.3 17.7 121.0 102.8 95 95 / 99 148 07/21/23 SF-02 A MH 15.4 108.3 14.5 121.0 105.7 98 95 / 99 149 07/21/23 SF-02 A MH 15.4 108.3 14.7 120.1 104.7 97 95 / 99 150 07/21/23 SF-02 A MH 15.4 108.3 14.7 122.8 107.0 99 95 / 99 DP/MP 151 07/21/23 CL-02 B ML 21.0 100.8 24.1 120.7 97.3 1 97 95 / 99 152 07/21/23 CL-02 B ML 21.0 100.8 24.6 122.5 98.3 98 95 / 99 153 07/24/23 CL-02 B ML 21.0 100.8 24.1 122.8 98.9 98 95 / 99 Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 146 Structural Fill: C6 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 147 Structural Fill: B5 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 148 Structural Fill: B4 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 149 Structural Fill: B3 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 150 Structural Fill: A4 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 151 CQA - Clay Subgrade: F1 -0.5 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 152 CQA - Clay Subgrade: G1 -0.5 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 153 1 CQA - Clay Subgrade: H2 CC3 -0.5 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu Remarks Comments Related Tests DP/MP: Density Pass / Moisture Pass Test # Related Test # I Test Type Copyright Oasis Consulting Services 2023 Page 23 of 36 ICLOASIS SERVICES COPiSMES Roswell 45 Woodstock Street Roswell, GA 30075 Phone: 678-739-2400 Drive Cylinder Report Date: 07/28/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture N Maximum Dry Density (pcf) In Place Moisture (%) In Place Wet Density (pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. (%) Remark 154 07/24/23 CL-02 B ML 21.0 100.8 23.0 122.2 99.3 99 95199 155 07/24/23 CL-02 B ML 21.0 100.8 23.9 122.5 98.8 98 95 / 99 156 07/24/23 CL-02 B ML 21.0 100.8 22.7 122.8 100.0 99 95 / 99 157 07/24/23 CL-02 B ML 21.0 100.8 22.7 122.2 99.6 99 95 / 99 158 07/24/23 CL-02 B ML 21.0 100.8 24.0 120.4 97.1 96 95 / 99 159 07/24/23 CL-02 I B ML 21.0 100.8 23.6 123.4 99.8 99 95 / 99 160 07/25/23 CL-02 B ML 21.0 1 100.8 1 24.4 122.8 1 98.7 1 98 1 95 / 99 161 07/25/23 CL-02 B ML 21.0 100.8 1 22.6 121.9 99.4 99 95 / 99 Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 154 CQA - Clay Subgrade: H3 -0.5 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 155 CQA - Clay Subgrade: H4 CC4 -0.5 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 156 CQA - Clay Subgrade: E2 -0.5 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 157 CQA - Clay Subgrade: E1 -0.5 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 158 CQA - Clay Subgrade: D2 -0.5 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 159 CQA - Clay Subgrade: D1 CC5 -0.5 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 160 CQA - Clay Subgrade: C1 -0.5 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 161 CQA - Clay Subgrade: C2 -0.5 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu Remarks Comments Related Tests Test # Related Test # I Test Type Copyright Oasis Consulting Services 2023 Page 24 of 36 fk" QASISI$ULi COPiTiG SERVICES Roswell 45 Woodstock Street Roswell, GA 30075 Phone: 678-739-2400 Drive Cylinder Report Date: 07/28/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture N Maximum Dry Density (pcf) In Place Moisture (%) In Place Wet Density (pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. %) Remark 162 07/25/23 CL-02 B ML 21.0 100.8 22.9 121.6 98.9 98 95 / 99 163 07/25/23 CL-02 B ML 21.0 100.8 23.6 119.5 96.7 96 95 / 99 164 07/25/23 CL-02 B ML 21.0 100.8 24.2 120.7 97.2 96 95 / 99 165 07/26/23 CL-02 B ML 21.0 100.8 23.7 120.1 97.1 96 95199 166 07/26/23 CL-02 B ML 21.0 100.8 22.0 119.5 98.0 97 95 / 99 167 07/26/23 CL-02 B ML 21.0 1 100.8 22.8 121.3 98.8 98 95 / 99 168 1 1 07/26/23 CL-02 B ML 1 21.0 100.8 23.2 122.2 99.2 98 95 / 99 169 07/26/23 CL-02 B ML 21.0 100.8 23.7 120.7 97.6 97 95 / 99 Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 162 CQA - Clay Subgrade: B2 -0.5 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaoawua_wu 163 CQA - Clay Subgrade: G1 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 164 CQA - Clay Subgrade: F1 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 165 CQA - Clay Subgrade: 1-11 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwuqwu 166 CQA - Clay Subgrade: H2 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 167 CQA - Clay Subgrade: H3 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 168 CQA - Clay Subgrade: H4 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwuqwu 169 CQA - Clay Subgrade: E1 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu Remarks Comments Related Tests Test # Related Test # I Test T e Copyright Oasis Consulting Services 2023 Page 25 of 36 AS1S Cti]!J$UiIING SERVICES Roswell 45 Woodstock Street Roswell, GA 30075 Phone:678-739-2400 Drive Cylinder Report Date: 07/28/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture N Maximum Dry Density (pcf) In Place Moisture N In Place Wet Density (pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. %) Remark 170 07/26/23 CL-02 B ML 21.0 100.8 24.4 122.5 98.5 98 95 / 99 171 07/27/23 CL-02 B ML 21.0 100.8 21.5 119.2 98.1 97 95 / 99 172 07/27/23 CL-02 B ML 21.0 100.8 22.3 119.8 98.0 97 95 / 99 173 07/27/23 CL-02 B ML 21.0 100.8 22.6 121.3 98.9 98 95 / 99 174 07/27/23 CL-02 B ML 21.0 100.8 22.4 122.5 1100.1 99 95 / 99 175 07/27/23 CL-02 B ML 21.0 1 100.8 23.4 120.7 97.8 97 95 / 99 176 1 07/27/23 CL-02 B ML 21.0 100.8 24.0 123.1 99.3 1 99 1 95 / 99 177 07/27/23 CL-02 B ML 21.0 100.8 21.5 118.9 97.9 97 95 / 99 Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 170 CQA - Clay Subgrade: E2 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 171 CQA - Clay Subgrade: D1 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 172 CQA - Clay Subgrade: D2 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 173 CQA - Clay Subgrade: B2 CC7 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 174 CQA - Clay Subgrade: C2 0.0 KN-2 1,320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 175 CQA - Clay Subgrade: F3 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 176 CQA - Clay Subgrade: F4 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwao wu wu 177 CQA - Clay Subgrade: E4 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu Remarks Comments Related Tests Test # I Related Test # 1 Test Type Copyright Oasis Consulting Services 2023 Page 26 of 36 LOASIS SERVICES CohF5MCE5 Roswell 45 Woodstock Street Roswell, GA 30075 Phone: 676-739-2400 Drive Cylinder Report Date: 07/28/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Maximum Optimum Dry Density Moisture In Place In Place Wet In Place Retest Test Soil N (pcf) Moisture Density Dry Density Percent Min/Max Comp. Test # Of Date Proctor ID Method Class. M (pcf) (pcf) Compaction (%) Remark 178 07/27/23 CL-02 B ML 21.0 100.8 23.0 121.9 99.1 98 95 / 99 179 07/27/23 CL-02 B ML 21.0 100.8 22.2 121.9 99.7 99 95 / 99 180 07/27/23 CL-02 B ML 21.0 100.8 24.1 123.7 99.6 99 95 / 99 181 07/27/23 CL-02 B ML 21.0 100.8 23.9 122.5 98.8 98 95 / 99 Test Information Drive Weight of Top Bottom Cylinder Volume of Test # Test Location Elevation Reference Cylinder ID Cylinder (Ib) Diameter (in) Diameter (in) Height (in) Cylinder (cf) Field Technician 178 CQA - Clay Subgrade: E3 CC8 -1.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 179 CQA - Clay Subgrade: D4 -1.0 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 180 CQA - Clay Subgrade: D3 CC9 -1.0 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 181 CQA - Clay Subgrade: C3 1.0 KNA 1.310 3.830 3.850 4.980 1 0.0334 Kingsley Nwaogwugwu Remarks Comments Related Tests Test # I Related Test # I Test Type Copyright Oasis Consulting Services 2023 Page 27 of 36 1�ASis �[7N$IjL�IWO SERVICES Roswell 45 Woodstock Street Roswell, GA 30075 Phone:678-739-2400 Drive Cylinder Report Date: 08/01/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture N Maximum Dry Density (pcf) In Place Moisture N In Place Wet Density (Pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. (%) Remark 182 07/28/23 CL-02 B ML 21.0 100.8 21.3 121.3 100.0 99 95 / 99 183 07/28/23 CL-02 B ML 21.0 100.8 21.5 120.1 98.8 98 95 / 99 184 07/28/23 CL-02 B ML 21.0 100.8 23.5 123.4 99.9 99 95 / 99 185 07/28/23 CL-02 B ML 21.0 100.8 21.7 121.3 99.6 99 95 / 99 186 07/28/23 CL-02 B ML 21.0 100.8 22.1 121.3 99.3 99 95199 DP/MP 187 07/28/23 CL-02 B ML 21.0 100.8 23.2 123.1 99.9 99 95 / 99 188 07/28/23 CL-02 B ML 21.0 100.8 22.1 119.8 98.1 97 95 / 99 189 07/28/23 1 CL-02 B ML 21.0 100.8 23.3 118.0 95.7 95 95 / 99 Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 182 CQA - Clay Subgrade: B3 -1.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 183 CQA - Clay Subgrade: A4 -1.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 184 CQA - Clay Subgrade: F3 -0.5 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 185 CQA - Clay Subgrade: F4 -0.5 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 186 CQA - Clay Subgrade: F4 -1.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 187 CQA - Clay Subgrade: D3 -0.5 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 188 CQA - Clay Subgrade: D3 -0.5 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 189 CQA - Clay Subgrade: E3 0.5 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwao wu wu Remarks Comments Related Tests DP/MP: Density Pass / Moisture Pass Test # Related Test # TestType Copyright Oasis Consulting Services 2023 Page 28 of 36 L OASIS NG SERVICES Roswell 45 Modslork Slry t Roswell, GA 30075 Phone: 678-739-2400 Drive Cylinder Report Date: 08/01/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture N Maximum Dry Density (pcf) In Place Moisture (%) In Place Wet Density (pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. (%) Remark 190 07/28/23 CL-02 B ML 21.0 100.8 23.0 122.5 99.6 99 95 / 99 191 07/31/23 CL-02 B ML 21.0 100.8 24.6 124.0 99.5 99 95 / 99 192 07/31/23 CL-02 B ML 21.0 100.8 24.3 122.2 98.3 98 95 / 99 193 07/31/23 CL-02 B ML 21.0 100.8 23.6 121.3 98.1 97 95 / 99 194 07/31/23 CL-02 B ML 21.0 100.8 22.3 121.6 99.4 99 95 / 99 195 07/31/23 CL-02 I B ML 21.0 100.8 24.4 123.4 99.2 98 95 / 99 196 07/31/23 CL-02 B ML 21.0 100.8 24.0 120.7 97.3 97 95 / 99 197 07/31/23 CL-02 B ML 21.0 100.8 24.4 124.6 100.1 99 95 / 99 Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 190 CQA - Clay Subgrade: D4 -0.5 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 191 CQA - Clay Subgrade: B3 -0.5 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 192 CQA - Clay Subgrade: B4 -0.5 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 193 CQA - Clay Subgrade: A3 CC10 -0.5 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 194 CQA - Clay Subgrade: A4 -0.5 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 195 CQA - Clay Subgrade: G3 -0.5 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 196 CQA - Clay Subgrade: F3 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 197 CQA - Clay Subgrade: F4 0.0 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu Remarks Comments Related Tests Test # I Related Test # . Test T e Copyright Oasis Consulting Services 2023 Page 29 of 36 OASIS okcpwsuinnc SERVICES Roswell 45 Woodstock Street Roswell, GA 30075 Phone: 678-739-2400 Drive Cylinder Report Date: 08/01/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture (%) Maximum Dry Density (pcf) In Place Moisture (%) In Place Wet Density (pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. (%) Remark 198 08/01/23 CL-02 B ML 21.0 100.8 24.2 119-5 96.2 95 95 / 99 199 08/01/23 CL-02 B ML 21.0 100.8 24.6 118.9 95.5 95 95199 200 08/01/23 CL-02 B ML 21.0 100.8 23.3 120.4 97.7 97 95 / 99 201 08/01/23 CL-02 B ML 21.0 100.8 23.8 121.9 98.5 98 95 / 99 202 08/01/23 CL-02 B ML 21.0 100.8 24.0 120.7 97.3 97 95 / 99 DP/MP 203 08/01/23 CL-02 B ML 21.0 100.8 23.1 120.1 97.6 97 95 / 99 204 08/01/23 CL-02 B ML 1 21.0 100.8 1 22.9 122.2 99.4 99 1 95199 Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 198 CQA - Clay Subgrade: E3 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 199 CQA - Clay Subgrade: E4 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 200 CQA - Clay Subgrade: D3 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 201 CQA - Clay Subgrade: C3 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 202 CQA - Clay Subgrade: C4 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 203 CQA - Clay Subgrade: B4 CC11 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 204 CQA - Clay Subgrade: B3 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu Remarks Comments Related Tests DP/MP: Density Pass / Moisture Pass I Test # 1 Related Test # Test Tvoe Copyright Oasis Consulting Services 2023 Page 30 of 36 OASIS CONSULTING CSERVICE$ Roswell 45 Woodstock Street Roswell, GA 30075 Phone:678-739-2400 Drive Cylinder Report Date: 08/09/2023 Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Maximum Optimum Dry Density Moisture In Place In Place Wet In Place Retest Test Soil N (pcf) Moisture Density Dry Density Percent Min/Max Comp. Test # Of Date Proctor ID Method Class. (%) (pcf) (pcf) Compaction (%) Remark 205 08/08/23 CL-02 B ML 21.0 100.8 21.8 119.8 98.4 98 95 / 99 206 08/08/23 CL-02 B ML 21.0 100.8 23.0 120.4 97.9 97 95 / 99 207 08/08/23 CL-02 B ML 21.0 100.8 23.4 119.5 1 96.9 96 95 / 99 208 08/08/23 CL-02 B ML 21.0 100.8 24.0 121.6 98.1 97 95 / 99 Test Information Drive Weight of Top Bottom Cylinder Volume of Test # Test Location Elevation Reference Cylinder ID Cylinder (lb) Diameter (in) Diameter (in) Height (in) Cylinder (cf) Field Technician 205 CQA - Clay Subgrade: H1 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwu wu 206 CQA - Clay Subgrade: H3 -1.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 207 CQA - Clay Subgrade: H4 -0.5 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 208 CQA - Clay Subgrade: H1 -0.5 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwu wu Remarks Comments Related Tests Test # I Related Test # I Test Type Copyright Oasis Consulting Services 2023 Page 31 of 36 OASIS C'C1uI SEP.VCES Roswell 45 Woodstock Street Roswell, GA 30075 Phone: 676-739-2400 Drive Cylinder Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture (%) Maximum Dry Density (pcf) In Place Moisture (%) In Place Wet Density (pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. (%) Remark 209 08/09/23 CL-02 B ML 21.0 100.8 24.4 121.9 98.0 97 95 / 99 210 08/09/23 CL-02 B ML j 21.0 100.8 23.3 121.0 98.1 97 95 / 99 211 08/09/23 CL-02 B ML 21.0 100.8 23.6 119.5 96.7 96 95 / 99 212 08/09/23 CL-02 B ML 21.0 100.8 23.0 120.1 97.7 97 95 / 99 213 08/14/23 CL-02 B ML 21.0 100.8 24.1 123.7 99.6 99 95 / 99 214 08/14/23 CL-02 B ML 21.0 100.8 22.1 121.3 99.3 99 95199 215 08/14/23 CL-02 B ML 21.0 1 100.8 24.2 122.2 1 98.4 1 98 95 / 99 216 08/14/23 CL-02 B ML 1 21.0 100.8 23.0 121.0 98.3 98 95199 Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 209 CQA - Clay Subgrade: H1 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwuawu 210 CQA - Clay Subgrade: H2 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 211 CQA - Clay Subgrade: H3 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 212 CQA - Clay Subgrade: H4 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 213 CQA - Clay Subgrade: B5 -1.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 214 CQA - Clay Subgrade: B6 -1.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 215 CQA - Clay Subgrade: B7 -1.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 216 1 CQA - Clay Subgrade: A5 -1.0 KN-1 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu Remarks Comments Related Tests Test # j Related Test XT Test Type Copyright Oasis Consulting Services 2023 Page 32 of 36 J&rOASIS Drive Cylinder Client: Project: CONSLITING Test Method: Anson County Landfill, Phase 4 Cell 2 235005 Now 375 Dozer Dr. Anson County Landfill, Phase 4 Cell 2 Roswell Polkton, NC 28135 375 Dozer Dr. 45 Woodstock Street Polkton, NC 28135 Roswell, GA 30075 Phone: 676-739-2400 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture N Maximum Dry Density (pcf) In Place Moisture (%) In Place Wet Density (pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. M Remark 217 08/14/23 CL-02 B ML 21.0 100.8 24.2 124.0 99.8 99 95 / 99 218 08/14/23 CL-02 B ML 21.0 100.8 23A 123.1 99.7 99 95 / 99 219 08/14/23 CL-02 B ML 21.0 100.8 21.7 121.6 99.9 99 95 / 99 220 08/14/23 CL-02 B ML 21.0 100.8 22.4 122.5 100.0 99 95 / 99 221 08/14/23 CL-02 B ML 21.0 100.8 23.6 120.7 97.6 97 95 / 99 222 08/14/23 CL-02 B ML 21.0 100.8 22.9 121.3 98.7 98 95 / 99 223 08/14/23 CL-02 B ML 21.0 100.8 21.6 121.0 99.5 99 95 / 99 224 08/15/23 CL-02 B ML 21.0 100.8 24.1 121.0 97.5 97 95 / 99 Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 217 CQA - Clay Subgrade: C5 ST-12 -1.0 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 218 CQA - Clay Subgrade: D5 -1.0 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 219 CQA - Clay Subgrade: D6 -1.0 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 220 CQA - Clay Subgrade: E5 -5.0 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 221 CQA - Clay Subgrade: F5 -1.0 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 222 CQA - Clay Subgrade: E6 -1.0 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 223 CQA - Clay Subgrade: G5 -1.0 KNA 1.310 3.830 3.850 4.980 0.0334 Kingsley Nwaogwugwu 224 CQA - Clay Subgrade: B5 0.5 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwao wu wu Remarks Comments Related Tests Test # I Related Test # I Test Type Copyright Oasis Consulting Services 2023 Page 33 of 36 OASIS CONSULTING SERVICES Roswell 45 Woodstock Street Roswell, GA 30075 Phone: 678-739-2400 Drive Cylinder Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture N Maximum Dry Density (pcf) In Place Moisture (%) In Place Wet Density (pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. (%) Remark 225 08/15/23 CL-02 B ML 21.0 100.8 23.6 121.9 98.6 98 95 / 99 226 08/15/23 CL-02 B ML 21.0 100.8 23.9 119.8 96.7 96 95 / 99 227 08/15/23 CL-02 B ML 21.0 100.8 24.3 120.7 97.1 96 95 / 99 228 08/15/23 CL-02 B ML 21.0 100.8 24.1 120.4 97.0 96 95199 229 08/15/23 CL-02 B ML 21.0 100.8 23.5 119.8 97.0 96 95 / 99 230 1 1 08/15/23 1 CL-02 B ML 21.0 100.8 24.0 121.6 98.1 1 97 95 / 99 231 08/15/23 CL-02 B ML 21.0 100.8 22.8 1 119.2 97.1 96 1 95 / 99 232 08/15/23 CL-02 B ML 21.0 100.8 22.5 120.1 98.1 97 95 / 99 Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 225 CQA - Clay Subgrade: B6 -0.5 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 226 CQA - Clay Subgrade: B7 -0.5 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 227 CQA - Clay Subgrade: C5 -0.5 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 228 CQA - Clay Subgrade: C6 -0.5 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwu wu 229 CQA - Clay Subgrade: D6 -0.5 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwu wu 230 CQA - Clay Subgrade: -0.5 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 231 CQA - Clay Subgrade: E5 -0.5 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 232 CQA - Clay Subgrade: F5 -0.5 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwao wu wu Remarks Comments Related Tests Test # I Related Test # F -TestType Copyright Oasis Consulting Services 2023 Page 34 of 36 ���ASlS COPd5WCES SERVICES Roswell 45 Woodstock Street Roswell, GA 30075 Phone:678-739-2400 Drive Cylinder Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Test # Retest Of Test Date Proctor ID Method Soil Class. Optimum Moisture N Maximum Dry Density (pcf) In Place Moisture M In Place Wet Density (pcf) In Place Dry Density (pcf) Percent Compaction Min/Max Comp. (%) Remark 233 08/15/23 CL-02 I B ML 21.0 1 100.8 24.4 122.5 98.5 98 95 / 99 234 08/15/23 CL-02 B ML 21.0 100.8 23.1 121.6 98.8 98 95 / 99 235 08/15/23 CL-02 B ML 21.0 100.8 23.7 119.5 96.6 96 95 / 99 236 08/15/23 CL-02 B ML 21.0 100.8 24.0 120.7 97.3 97 95 / 99 237 08/15/23 CL-02 B ML 21.0 100.8 22.5 120.1 98.1 97 95 / 99 238 08/16/23 CL-02 B ML 21.0 100.8 22.6 1 119.2 97.3 1 97 1 95 / 99 239 08/16/23 CL-02 B ML 1 21.0 100.8 1 23.6 1 121.3 98.1 97 95 / 99 240 08/16/23 CL-02 I B I ML J 21.0 1 100.8 1 23.9 1 122.2 98.6 98 95 / 99 Test Information Test # Test Location Elevation Reference Drive Cylinder ID Weight of Cylinder (lb) Top Diameter (in) Bottom Diameter (in) Cylinder Height (in) Volume of Cylinder (cf) Field Technician 233 CQA - Clay Subgrade: G5 -0.5 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 234 CQA - Clay Subgrade: F5 -0.5 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 235 CQA - Clay Subgrade: E5 -0.5 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaoawua_wu 236 CQA - Clay Subgrade: D5 -0.5 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 237 CQA - Clay Subgrade: D6 ST15 -0.5 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaoqwuawu 238 CQA - Clay Subgrade: C5 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 239 CQA - Clay Subgrade: C6 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaoawuawu 240 CQA - Clay Subgrade: B5 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu Remarks Comments Related Tests Test # 1. Related Test # I Test Type Copyright Oasis Consulting Services 2023 Page 35 of 36 �OASIS Cti�r�50inwG SERV+CES Roswell 45 Woodstock Street Roswell, GA 30075 Phone:67B-739-2400 Drive Cylinder Test Method: Client: Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Project: 235005 Anson County Landfill, Phase 4 Cell 2 375 Dozer Dr. Polkton, NC 28135 Test Results Maximum Optimum Dry Density Moisture In Place In Place Wet In Place Retest Test Soil N (pcf) Moisture Density Dry Density Percent Min/Max Comp. Test # Of Date Proctor ID Method Class. (%) (pcf) (pcf) Compaction M Remark 241 08/16/23 CL-02 B ML 21.0 100.8 24.2 122.8 98.9 98 95 / 99 242 j j 08/16/23 j CL-02 B ML 21.0 100.8 21.4 120.4 99.2 98 95 / 99 243 08/16/23 1 CL-02 B ML 21.0 100.8 24.0 118.9 95.9 95 95 / 99 Test Information Drive Weight of Top Bottom Cylinder Volume of Test # Test Location Elevation Reference Cylinder ID Cylinder (lb) Diameter (in) Diameter (in) Height (in) Cylinder (cf) Field Technician 241 CQA - Clay Subgrade: B6 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwu wu 242 CQA - Clay Subgrade: B7 0.0 KN-2 1.320 3.860 3.860 4.990 0.0338 Kingsley Nwaogwugwu 243 CQA - Clay Subgrade: A5 0.0 KN-2 1.320 3.860 3.860 4.990 1 0.0338 Kingsley 1 Nwao wu wu Remarks Comments Related Tests Test # Related Test # I Test Type Copyright Oasis Consulting Services 2023 Page 36 of 36 APPENDIX B Section 2 CLAY LINER BORROW OASIS CONSULTING SERVICES 45 Woodstock Street Roswell, Georgia 30075 Phone: (678) 739-2400 HYDRAULIC CONDUCTIVITY TEST REPORT (ASTM D5084 - Method Q DATE: 07/21/2023 JOB NO.: 235005 LAB NO: 5198 PROJECT: Anson County Landfill CLIENT: Waste Connections Received from: Jobsite Type Test: Flex wall permeameter, falling -head rising-tailwater Type Saturation: Vacuum and back pressure to achieve 100 ± 5% saturation Type Sample: 2.8-inch diameter, Undisturbed SAMPLE ID. HYDRAULIC CONDUCTIVITY K (cm/s) TP-01 1.30x 10-' TP-02 3.59X 10-' TP-03 3.72 X 10-' Notes: 1) Permeant liquid: De -aired Tap Water 2) Confining Pressure: 5 psi Respectfully Submitted, OASIS CONSULTING SERVICES D.W Donnie Whisler Laboratory Manager, Technical Director Rev 10-11-19 OASIS CONSULTING SERVICES REPORT OF ATTERBERG LIMITS TEST RESULTS (ASTM D4318) Project Name: Anson Landfill Phase 4 Cell 2 Lab#: 5198 Project Number: 235005 Location TP-01 Technician KS/VP Test Date: 7/21/2023 Type of Test: Atterberg Limits Checked by RR USCS Classification: CL Sample Description: Orange brown sandy CLAY (CL) with rock fragments Boring n/a Depth n/a IC 50 30 10 7 4 *USCS Classification is based on the Atterberg Limit test and the Grain Size Analysis results. Liquid Limit 46 Plastic Limit 27 Plasticity Index 19 Passing# 200 80.2 For classification of fine- rained soils and fine-grained f Tact ion of coarse-groinecf / J0000000OO/ soi € —Is Equation of "A -line Horizontal at PI=4 to LL=25.5, ,•�;/ `, �'A `' then PI-0-73 (LL-20) ''`�f •• Equation of "U"-line Vertical at LL=16 to PI=7 CJ� then PI = 0.9 (LL-8) i /I \01 1/000 MH OF3 OH {0/ --- MLOR OL _M 00 10 I6 20 bU 4U aV ou ry LIQUID LIMIT (LL) ov ;?v 1 VV IN OASIS CONSULTING SERVICES REPORT OF ATTERBERG LIMITS TEST RESULTS (ASTM D4318) Project Name: Anson Landfill Phase 4 Cell 2 Lab#: 5198 Project Number: 235005 (Location TP-02 Technician KS/VP Test Date: 7/21/2023 'Type of Test: Atterberg Limits Checked by RR USCS Classification: CL :Sample Description: Orange brown sandy silty CLAY (CL) with rock fragments I Boring n/a Depth n/a 60 H 50 X w 0 40 z t 30 U_ F— N Q 2C J a 10 7 4 00 10 16 20 30 40 50 60 70 LIQUID LIMIT (ILL) *USCS Classification is based on the Atterberg Limit test and the Grain Size Analysis results. Liquid Limit 52 Plastic Limit 29 Plasticity Index 23 Passing # 200 75.1 For classification of fine- rained soils an ine-grainedf Fact ion o coarse -grained/ / soils. Equation of "Al -line Horizontal at PI=4 to LL=25.5, then PI-0.73 (IL-20) Equation of "U"-line Vertical at LL=16 to PI=7 / G� then PI = 0.9 (LL-8) ON MH OR OH - MLOR OL I OV 7V � VV JE OASIS CONSULTING SERVICES REPORT OF ATTERBERG LIMITS TEST RESULTS (ASTM D4318) Project Name: Anson Landfill Phase 4 Cell 2 Lab#: 5198 Project Number: 235005 Location TP-03 Technician KS/VP Test Date: 7/21/2023 Type of Test: Atterberg Limits Checked by RR USCS Classification: CH-MH Sample Description: Orange brown sandy CLAY (CH-MH) with rock fragments Boring n/a Depth n/a 60 H 50 col. X w C 40 z 30 U Q 2C iL 10 7 4 40 10 16 20 30 40 50 60 70 LIQUID LIMIT (LL) *USCS Classification is based on the Atterberg Limi' Liquid Limit 50 Plastic Limit 28 Plasticity Index 22 Grain Size Analysis results. Passing # 200 69.4 For classification of fine- ruined soils and f ine-grained f Tact ion of coarse -grained/ ' sails Equation of W -line Horizontal at PI=4 to LL=25.5, then PI-0.73 (LL-20) ` Equation of"U"-line Vertical at LL =16 to PI=7 / G� then PI=0.9(LL-8) / MH OR OH -- _ R OL MLo I � � qV 7v ID _ ,r' • s,� 4 -. .. — — — — • � � • -. — — - -. .. - . - . ��l �� ■■■■■■■�'111\ ■i■■■■■uri�i ■■■■■■■■■■■■►■t� ■■■■■■■■■�■■■■■a►r■ ■■■■�■■■■■■■■■■■■■■■a►��. ■■■■■■■■■■■■■■■■■■■■■awn ■�■■■■■■■■■■■■■■■■■■�■►�a■► ■■■■■■■■■■■■■■■■■■■■■■■■■■■■a■■. ■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■t���i ■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■t��� ■■�■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■� ■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■,��4 ■■■■■■�■■■■■■■■■■■■■■■■■■■■■■■■■■■■■i\\\. ■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■i7\i. .■■■■■■�■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■�\\1\. � � � � -� '■■■■■■■■■■■■■■■■■■■■■\lam, . , .- ... :� ■iiiii■■11\1■ ■■■■■■■■■■■1�\lam, ■■■■■■■■■■■■■■tom■■i��■■C%�\► ■■■■■■■■■�■■■■■i■■�■■�■■fir■\►\, No A VAN .. 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M■■■■■■■■■■■■■E■■E■■■■■SEE■■■■MMM■■■O■E ■■■■MEEEE■■■■■E■S■■■■M■Mt■■■■■MSE■E■S■E■EE\`� ■■■■ME■■■■ ■■■■ESE■■E■■■■E■■■■S■■ OEM MEN ■■■■SEE■■■■■■SEE■■■■■SUS■■■E■■■■■■■■■EE■EM■M\ '■■■■■■■■■■■■■■■■■M■■■RIWI .. m� • • • • : . . .. ■■ ■■►r■■► ■► own ■■■■■■■■■OW■ IMEMINIMMEMENIMM ■■.■■■■■■■RM ■■■■■■■■■■UE ■■■■■■■■■■■►IN ■■■■■■■■■■■W■R► ■■■■.■■■■■■■RM� ■■■■■■■.■■■■■R■►.a ■■.■■■■■■■■■■■NO ■■■■■■■■■■■■■■LIMN► ■■■■■■■■■■■■■■■RN ■ ■ ■ ■■■■■■ ■ ■ ■■■■■■■■■■■■■■■■►E. ■■■■■■■■■■■■■■■■■N►�■ ■■■■■■■■■■■■■■■■■N ■■■■■■■■■■■■■■■■■■■■►■► ■■■■■■■■■■■■■■■■■■■■■■r���► ■■■■.■■.■.■■■■■■.C............■�► ................................... .,■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■Maw►►. ■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■Maw■ ■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■■\ 1 1 1 1 1 APPENDIX B Section 3 CLAY LINER DURING CONSTRUCTION O (� I (` 45 Woodstock Street J J Roswell, Georgia 30075 CONSULTING Phone: (678) 739-2400 SERVICES HYDRAULIC CONDUCTIVITY TEST REPORT (ASTM D5084 - Method C) PROJECT: Anson County Landfill DATE: 07/24/2023 JOB NO.: 235005 LAB NO: 5199 CLIENT: Waste Connections Received from: Jobsite Type Test: Flex wall permeameter, falling -head rising-tailwater Type Saturation: Vacuum and back pressure to achieve 100 ± 5% saturation Type Sample: 2.8-inch diameter, Undisturbed SAMPLE ID. HYDRAULIC CONDUCTIVITY K (cm/s) ST-01 4.09X 10-7 ST-02 7.63 x 10-7 Notes: 1) Permeant liquid: De -aired Tap Water 2) Confining Pressure: 5 psi Respectfully Submitted, OASIS CONSULTING SERVICES D.W. Donnie Whisler Laboratory Manager, Technical Director Rev 10-11-19 OASIS CONSULTING SERVICES REPORT OF ATTERBERG LIMITS TEST RESULTS (ASTM D4318) Project Name: Anson Landfill Phase 4 Cell 2 Lab#: 5199 Project Number: 235005 Location I ST-01 Technician KS/VP 'Test Date: 7/23/2023 Type of Test: Atterberg Limits Checked by RR USCS Classification: CH-MH Sample Description: Orange brown sandy silty CLAY (CH-MH) Boring n/a Depth n/a 60 H 50 �a. X w C 40 z r E- U H Q J a 30 20 10 7 4 00 10 16 20 30 40 56 60 70 LIQUID LIMIT (ILL) *USCS Classification is based on the Atterberg Limit test and the Grain Size Analysis results. Liquid Limit 58 Plastic Limit 30 Plasticity Index 28 Passing #200 65.6 For classification of fine- rained soils a nd f ine-grained f roctIon of coarse -grained / 0000.0,000000 soils, 000, Equation of "A - line \�j,� Horizontal at PI=4 to LL=25.5, Jj/ ��� then PI-0.73 (LL-20) ` Equation of "U"- I ine Vertical at LL=16 to PI=7 G then PI = 0.9 (LL-6) ♦� -- MLOR OL I OV 7V ivv III7 OASIS CONSULTING SERVICES REPORT OF ATTERBERG LIMITS TEST RESULTS (ASTM D4318) Project Name: Anson Landfill Phase 4 Cell 2 Lab#: 5199 Project Number: 235005 Location ST-02 Technician KS/VP Test Date: 7/23/2023 Type of Test: Atterberg Limits Checked by RR USCS Classification: CL-ML Sample Description: Orange brown sandy silty CLAY (CL-ML) Boring n/a Depth n/a L• 9 H 50 X W O 40 z } ~ 30 U Q 2C J a 10 7 4 0 0 *USCS Classification is based on the Atterberg Limit test and the Grain Size Analysis results. Liquid Limit 49 Plastic Limit 27 Plasticity Index 22 Passing # 200 70.6 lOF For classification of fine- roined soils 000, an Ine-groinedfFact ion o coarse -grained soils. Equation of "A' - line Horizontal at PI=4 to LL=25.5, then PI-0.73 (LL-20) o`` Equat ion of "U"- I ine Vertical at LL =16 to PI=7 then PI = 0.9 (LL-8) M H OR OH MLOR QL I I 10 16 20 30 4 U W bU r U LIQUID LIMIT (LL) ov 7V n Ll E O A (� I (� 45 Woodstock Street J J Roswell, Georgia 30075 CONSULTING Phone: (678) 739-2400 SERVICES HYDRAULIC CONDUCTIVITY TEST REPORT (ASTM D5084 - Method C) DATE: 08-08-2023 JOB NO.: 235005 LAB NO: 5210 PROJECT: Anson County Landfill CLIENT: Waste Connections Received from: Jobsite Type Test: Flex wall permeameter, falling -head rising-tailwater Type Saturation: Vacuum and back pressure to achieve 100 ± 5% saturation Type Sample: 2.8-inch diameter, Undisturbed SAMPLE ID. HYDRAULIC CONDUCTIVITY K (cm/s) ST-03 3.72X 10-7 ST-04 1.10X 10-6 ST-05 3.97X 10-7 Notes: 1) Permeant liquid: De -aired Tap Water 2) Confining Pressure: 5 psi Respectfully Submitted, OASIS CONSULTING SERVICES D.W. Donnie Whisler Laboratory Manager, Technical Director Rev 10-11-19 OASIS CONSULTING SERVICES REPORT OF ATTERBERG LIMITS TEST RESULTS (ASTM D4318) Project Name- Anson Landfill Phase 4 Cell 2 Lab#: 5210 Project Number: 235005 Location ST-03 Technician KS/VP Test Date: 8/8/2023 Type of Test: Atterberg Limits Checked by RR USCS Classification: CH-MH Sample Description: Orange brown sandy silty CLAY (CH-MH) Boring n/a Depth n/a 60 H 50 C- X w G 4C z U a J a 30 2C 10 7 4 00 10 16 20 30 40 50 60 70 LIQUID LIMIT (LL) -USCS Classification is based on the Atterberg Limit test and the Grain Size Analysis results. Liquid Limit 55 Plastic Limit 30 Plasticity Index 25 PASSING # 200 65% For classification of fine-grained soils of and fine-grained friaction of coarse-grolne / soils \�� /40000, Equation of "A -line Horizontal at PI=4 to LL=25.5, oe then PI-0.73 (LL-20) Equat ion of "U"- I ine Vertical at LL=16 to PI=7 / G`- then PI= 0.9 (ZZ � oti 61 MH 0li OH MLoR OL I , OV ;? iVV IN OASIS CONSULTING SERVICES REPORT OF ATTERBERG LIMITS TEST RESULTS (ASTM D4318) Project Name: Anson Landfill Phase 4 Cell 2 Lab#: 5210 Project Number: 235005 Location ST-04 Technician KS/VP Test Date: 8/8/2023 'Type of Test: Atterberg Limits Checked by RR USCS Classification: MH 'Sample Description: Orange brown sandy SILT (MH) with rock fragments Boring n/a Depth n/a 60 H 50 0. X w 0 40 z V H N a J a 30 2C 10 7 4 00 10 16 20 30 40 56 60 70 LIQUID LIMIT (LL) *USCS Classification is based r Liquid Limit 62 Plastic Limit 33 Plasticity Index 29 rhere Limit test and the Grain Size Analysis results. PASSING # 200 63.4% For classification of fine- rained soils Of and fine-grained f ract ion of coarse-graine]/d J000OO/ soils Equation of Al - line Horizontal at PI=4 to LL=25.5, `` �11 then PI-0.73 (LL-20) ``�� �•p�' Equation of"U"-line Vertical at LL=16 to PI=7 / G� then PI=0.9(LL-8) I � I • MH O'R OH I MLoR OL -- I i ov w wv W OASIS CONSULTING REPORT OF ATTERBERG LIMITS TEST RESULTS (ASTM D4318) SERVICES Project Name: Anson Landfill Phase 4 Cell 2 Lab#: 5210 Project Number: 235005 Location ST-05 Technician KS/VP Test Date: 8/8/2023 Type of Test: Atterberg Limits Checked by RR USCS Classification: MH-CH Sample Description:. Orange brown sandy clayey SILT (MH-ch) with rock fragments Boring n/a Depth n/a 'USCS Classification is based on the Atterberg Limit test and the Grain Size Analysis results. PASSING # 200 63.8% Liquid Limit 51 Plastic Limit 1 27 Plasticity Index 24 60 For classification of fine- rained soils ondTns-grained fraction of coarse -grains soils. H 50 - Equation of �A -I ine i Horizontal at PI=4 to LL=25.5, f/ w then PI-0.73(LL-20) 4 z Equation of "U"-line Vertical at LL=16 to PI=7 G >' then PI = 0.9 (LL-6) 30 U � J 0 / {g` a 10 7.----"vM _ MLOROL 4 - I 00 10 16 20 30 40 50 60 LIQUID LIMIT (LL) MH 6,00H 70 60 90 100 110 OASIS CONSULTING SERVICES 45 Woodstock Street Roswell, Georgia 30075 Phone: (678) 739-2400 HYDRAULIC CONDUCTIVITY TEST REPORT (ASTM D5084 - Method C) DATE: 07/30/2023 JOB NO.: 235005 LAB NO: 5208 PROJECT: Anson County Landfill CLIENT: Waste Connections Received from: Jobsite Type Test: Flex wall permeameter, falling -head rising-tailwater Type Saturation: Vacuum and back pressure to achieve 100 ± 5% saturation Type Sample: 2.8-inch diameter, Undisturbed SAMPLE ID. HYDRAULIC CONDUCTIVITY K (cm/s) ST-06 9.91 X 10-' ST-07 6.44X 10-7 ST-08 8.87X 10-7 ST-09 8.37X 10-7 Notes: 1) Permeant liquid: De -aired Tap Water 2) Confining Pressure: 5 psi Respectfully Submitted, OASIS CONSULTING SERVICES Donnie Whisler Laboratory Manager, Technical Director Rev 10-11-19