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4302_Harnett_DunnErwinCDLF_Oct2016_2ndSemiAnnual_DIN27461_20170118
DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 This page intentionally left blank. DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 Octo This ober 201 Harne NC S Harne L document is inte for the pu 6 Ground ett County Solid Was P ett County S P.O Lillington, N Jan © 2017 S ended for the sol urpose agreed on dwater M y Dunn-Er te Permit Prepared for: Solid Waste O. Box 940 orth Carolin nuary 2017 Prepared by: Smith Gardner, I le use of the clien n by the client and Monitorin rwin Land t No. 43-0 e Departmen na 27546 7 Inc. ent for which it wa d Smith Gardner ng Repor dfill 02 nt as prepared and r, Inc. rt DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 This page intentionally left blank. DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 October 2016 Groundwater Monitoring Report Harnett County Dunn-Erwin Landfill NC Solid Waste Permit 43-02 Prepared For: Harnett County Solid Waste Department Lillington, North Carolina S+G Project No. Harnett-DE 13-2 Madeline German, P.G. Project Geologist Joan A. Smyth, P.G. Senior Hydrogeologist January 2017 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 1/18/2017 1/18/2017 This page intentionally left blank. DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 Harnett County Dunn-Erwin Landfill October 2016 Groundwater Monitoring Report January 2017 Table of Contents Page i Harnett County Dunn-Erwin Landfill NC Solid Waste Permit No. 43-02 October 2016 Groundwater Monitoring Report Table of Contents Page 1.0 INTRODUCTION .......................................................................................................... I 2.0 SITE HYDROGEOLOGY ................................................................................................. I 3.0 SAMPLING LOCATIONS .............................................................................................. I 4.0 SAMPLING PROCEDURES ......................................................................................... II 5.0 FIELD & LABORATORY RESULTS .............................................................................. II 5.1 Field Results .............................................................................................................. ii 5.2 Laboratory Analysis ................................................................................................... ii 5.3 Laboratory Results .................................................................................................... ii 5.3.1 Inorganic Constituents ................................................................................. iii 5.3.2 Organic Constituents ................................................................................... iii 5.3.3 Surface Water Results ................................................................................. iii 6.0 GROUNDWATER CHARACTERIZATION ..................................................................... III 7.0 CORRECTIVE ACTION ............................................................................................... IV 8.0 CONCLUSIONS .......................................................................................................... V FIGURE Figure 1 Groundwater Potentiometric Map TABLES Table 1 Groundwater Well Details & Elevations Table 2 Field Parameters Table 3 Detected Inorganic Constituents Table 4 Detected Organic Constituents Table 5 Groundwater Velocity Calculations Table 6 MNA Parameter Summary APPENDICES Appendix A Well Logs Appendix B Laboratory Analytical Report Appendix C Time vs. Concentration Graphs DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 Harnett County Dunn-Erwin Landfill October 2016 Groundwater Monitoring Report January 2017 Table of Contents Page ii This page intentionally left blank. DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 Harnett County Dunn-Erwin Landfill October 2016 Groundwater Monitoring Report January 2017 Table of Contents Page i 1.0 INTRODUCTION The Harnett County Dunn-Erwin Landfill is located at NC State Road 1724/449 Daniel’s Road, Dunn, North Carolina. The facility contains an active C&D landfill, active LCID landfill and closed unlined MSW landfill under Solid Waste Permit #43-02. Solid Waste Management Rule 15A NCAC 13B .0544 requires semi-annual groundwater monitoring with reports submitted to NCDENR. A transfer station also operates at this location under SWS permit #43-07T. This report presents the results from the semi-annual monitoring event conducted October 20- 21, 2016. Included in this report are a field procedure summary, laboratory analyses, summary tables, graphs and groundwater characterization. 2.0 SITE HYDROGEOLOGY According to the 1985 North Carolina Geological Map the landfill is situated in the Coastal Plain Physiographic Province. The Dunn–Erwin area in Harnett County is underlain by the cretaceous age Middendorf formation that is primarily light gray sand, sandstone and mudstone which acts as a confining unit. The Middendorf formation was deposited in a deltaic system and varies from 15m to over 100m thick1. Groundwater depths historically range from 5 ft to 25 ft below ground surface (bgs) across the facility. Groundwater generally flows west toward Steward Creek and south to an unnamed tributary of Stewart Creek. There are minor seasonal variations in the flow pattern, but overall flow direction is consistent. 3.0 SAMPLING LOCATIONS The sampling event, performed by Smith Gardner, Inc. (S+G) personnel, utilized the groundwater monitoring network that includes thirteen monitoring wells (MW-1, MW-2, MW-4, MW-9, MW-10, MW-16, MW-32, MW-33, MW-34, MW-35, MW-53, MW-56 and MW-57) located around the landfill perimeter, three piezometers (PZ-41, GP-28 and GP-30W) and four surface water sampling points (SW-1, SW-2, SW-3 and SW-4) up and downstream of the landfill. GP—30 was damaged by site equipment and unable to be sampled this event, PZ-47S was used as a replacement however it went dry and only the indicator parameters were able to be collected this event. SW-4 was also unable to be sampled during this event because it was dry. Figure 1 illustrates sampling locations. Available well logs are included in Appendix A. 1 Sohl, Norman F. and Owens, James P. “Cretaceous Stratigraphy of the Carolina Coastal Plain”. The Geology of the Carolinas. University of Tennessee Press, 1991. p191-220. DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 Harnett County Dunn-Erwin Landfill October 2016 Groundwater Monitoring Report January 2017 Table of Contents Page ii 4.0 SAMPLING PROCEDURES Sampling methods followed the protocol outlined in the North Carolina Water Quality Monitoring Guidance Document for Solid Waste Facilities (DENR, DWM) and the approved site Water Quality Monitoring Plan2. Each well was gauged to determine groundwater depth and then purged three to five well volumes or until dry. Groundwater depths and elevations are presented in Table 1. Samples were collected by S+G personnel in laboratory prepared containers for the specified analytical procedures. Groundwater samples and quality control blanks were properly preserved, placed on ice and transported to the laboratory facility within the specified hold times for each analysis. 5.0 FIELD & LABORATORY RESULTS 5.1 Field Results Temperature, pH, turbidity and specific conductance were measured in the field at the time of sampling via direct read instruments. The field parameter results are summarized in Table 2 and remain consistent with previously reported sampling events. 5.2 Laboratory Analysis Samples were transported to Environment 1, Inc., (Greenville, NC) a North Carolina certified laboratory (Wastewater ID: 10). Analysis included Appendix I metals and VOCs for monitoring network locations. The Pace Analytical Lab Microseeps was subcontracted by Environment 1 to perform the methane analysis. Analysis performed this event followed Solid Waste Section (SWS) approved methods as reported on the laboratory report included in Appendix B. 5.3 Laboratory Results Analytical results were compared to the NCDWM Solid Waste Section Quantitation Limits (SWSLs), 15A NCAC 2L.0200 (2LStandard), SWS Groundwater Protection (GWP) Standards and Federal Maximum Contaminant Levels (MCL). Surface water results were compared with the NCAC 2B Standard for Class C waters (2B Standards). Most constituents were reported either below the Method Detection Limit (MDL) or were non-quantifiable values, which are noted as “J-values”. “J-values” are defined by the lab as between the MDL and SWSL. 2 Water Quality Monitoring Plan, Harnett County Dunn Erwin Landfill, Smith Gardner, Inc., October 2013. DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 Harnett County Dunn-Erwin Landfill October 2016 Groundwater Monitoring Report January 2017 Table of Contents Page iii Time versus concentration graphs are presented in Appendix C for the constituents detected above their respective 2L or GWP Standards this event. 5.3.1 Inorganic Constituents Iron (MW-2, MW-53, MW-57 and GP-28) was the only inorganic constituent detected in samples at concentrations above their 2L Standards for this event. Two inorganic parameters were detected in samples from this event at concentrations at or above their GWP Standards: Beryllium (MW-4); Cobalt (MW-34. Inorganic detections are summarized in Table 3. 5.3.2 Organic Constituents The following four constituents were detected at concentrations above their respective 2L Standards: 1,1-Dichloroethane (GP-28W); Benzene (MW-53, MW-57 and GP-28W); Methylene Chloride (GP-28W); and Tetrachloroethene (GP-28W). Tetrahydrofuran was reported at a concentration above its MDL in the sample collected from MW-53, however, standards have not been established for this parameter. Organic detections are provided in Table 4. 5.3.3 Surface Water Results Surface water sample analysis indicated no inorganic or organic constituents were detected above 2B Standards for Class C waters. 6.0 GROUNDWATER CHARACTERIZATION A potentiometric surface map was prepared from groundwater data for this sampling event. The data indicates that groundwater is flowing generally south and southwest towards Stewarts Creek, its tributary and associated wetlands that bisect the site. This is consistent with groundwater flow patterns previously reported for the site. The potentiometric surface map is attached as Figure 1. DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 Harnett County Dunn-Erwin Landfill October 2016 Groundwater Monitoring Report January 2017 Table of Contents Page iv Groundwater flow velocities during the sampling event were calculated for monitoring wells using the equation: V = Ki/n where: K = hydraulic conductivity i = groundwater gradient n = porosity Groundwater flow velocities ranged from 0.186 ft/day (MW-9) to 2.13 x 10-5 ft/day (MW-16). These calculated flow velocities are included in Table 5. 7.0 CORRECTIVE ACTION The facility has been in Corrective Action since 2009. In accordance with the Corrective Action Plan3 phytoremediation was implemented at the edge of the unlined MSW landfill. The trees range from approximately 3 to 5 feet in height, with trunks about two inches thick. In November 2013, a Request for Corrective Action Evaluation4, which summarized recent water quality improvements at the compliance boundary and requested a two year evaluation period prior to implementation of additional remedial strategies, was approved by NCDENR. In accordance with this request S+G has evaluated water quality at the site over the past two years. Monitoring locations MW-9 and MW-10 addressed in the CAP continue to remain unimpacted by VOCs; however low levels of VOCs are still detected in MW-53 and GWP-28W. Select MNA parameters analyzed this event are presented in Table 6. A corrective action evaluation report was submitted to DEQ in September 2016 recommending: 1. Continuing maintenance of the phytoremediation area 2. Adjust the monitoring wells analyzed for MNA parameters (remove MW-9, MW-10, GP- 30W and add MW-57, PZ-47s 3. Add existing monitoring well PZ-47S to the monitoring network These recommendations were approved5 by DEQ October 6, 2016 and will be implemented for water quality monitoring moving forward. 3 C.T.Clayton, Sr., P.E. Revised Corrective Action Plan, October 9, 2009. 4 Smith Gardner, Inc. Revised Request for Corrective Action Evaluation, November 8, 2013. 5 Letter from Elizabeth Werner, DEQ, to Amanda Bader, P.E., Harnett County, DIN 26810, October 6, 2016. DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 Harnett County Dunn-Erwin Landfill October 2016 Groundwater Monitoring Report January 2017 Table of Contents Page v 8.0 CONCLUSIONS In general, detected constituents from this event are consistent with historical analytical data. VOC detections above the 2L Standard were reported in samples from wells MW-53, MW-57 and PZ-41S which are located within the 250 foot compliance boundary. VOC detections above 2L were also reported in samples from GP-28W, which is located beyond the compliance boundary but is more than 500 feet from the facility boundary. The facility will continue semi-annual monitoring with the next event scheduled for April 2017. A summary report will be submitted to NCDEQ following laboratory sample analysis. DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 Harnett County Dunn-Erwin Landfill October 2016 Groundwater Monitoring Report January 2017 Table of Contents Page vi This page intentionally left blank. DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 FIGURES October 2016 Groundwater Monitoring Report Harnett County Dunn-Erwin Landfill NC Solid Waste Permit No. 43-02 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 This page intentionally left blank. DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 SW-2 MW-2 TOC = 198.01 DTW = 14.98 GWE = 183.03 MW-3R MW-5 MW-6MW-7MW-8 MW-11 MW-13 MW-14 MW-15 MW-23 MW-31 MW-58 MW-59 MW-7B MW-6B MW-23B SW-4 PZ-41STOC = 207.96 DTW = 14.60 GWE = 193.36 MW-1TOC = 235.67 DTW = 24.74 GWE = 210.93 MW-4TOC = 184.20 DTW = 8.34 GWE = 175.86 MW-9 TOC = 206.00 DTW = 9.63 GWE = 196.37 MW-10TOC = 204.73 DTW = 8.91 GWE = 195.82GP-28 TOC = 204.26 DTW = 9.63 GWE = 194.63 GP-30W (DAMAGED) MW-56TOC = 198.11 DTW = 6.24 GWE = 191.87 MW-57 TOC = 201.33 DTW = 6.27 GWE = 195.06 MW-53 TOC = 209.59 DTW = 11.58 GWE = 198.01 PZ-47S SW-1 SW-2 SW-3 MW-2 TOC = 198.01 DTW = 14.98 GWE = 183.03 MW-3R MW-5 MW-6MW-7MW-8 MW-11 MW-12 MW-13 MW-14 MW-15 MW-23 MW-31 MW-32TOC = 183.84 DTW = 6.59 GWE = 177.25 MW-33 TOC = 173.88 DTW = 6.38 GWE = 167.50 MW-58 MW-59 MW-7B MW-6B MW-23B SW-4 PZ-41STOC = 207.96 DTW = 14.60 GWE = 193.36 MW-1TOC = 235.67 DTW = 24.74 GWE = 210.93 MW-4TOC = 184.20 DTW = 8.34 GWE = 175.86 MW-9 TOC = 206.00 DTW = 9.63 GWE = 196.37 MW-10TOC = 204.73 DTW = 8.91 GWE = 195.82 MW-16 TOC = 195.61 DTW = 2.58 GWE = 193.03 MW-34TOC = 194.06 DTW = 4.73 GWE = 189.33 MW-35 TOC = 181.77 DTW = 2.10 GWE = 179.67 GP-28 TOC = 204.26 DTW = 9.63 GWE = 194.63 GP-30W (DAMAGED) MW-56TOC = 198.11 DTW = 6.24 GWE = 191.87 MW-57TOC = 201.33 DTW = 6.27 GWE = 195.06 MW-53 TOC = 209.59 DTW = 11.58 GWE = 198.01 PZ-47S PROJECT TITLE: DRAWING TITLE: REV. DATE DESCRIPTION DESIGNED: DRAWN: APPROVED: PROJECT NO: SCALE: FILENAME: PREPARED BY: PREPARED FOR: SHEET NUMBER:DRAWING NUMBER: DATE: G: \ C A D \ H a r n e t t C o u n t y \ H a r n e t t - D E - 1 3 - 2 \ s h e e t s \ H A R N E T T - D 0 1 1 5 . d w g - 1 / 1 8 / 2 0 1 7 9 : 4 8 A M SEAL SEAL SMITHGARDNER ENGINEERS + 14 N. Boylan Avenue, Raleigh NC 27603 NC LIC. NO. C-0828 (ENGINEERING) 919.828.0577 Electronic files are instruments of service provided by Smith Gardner, Inc. for the convenience of the intended recipient(s), and no warranty is either expressed or implied. Any reuse or redistribution of this document in whole or part without the written authorization of Smith Gardner, Inc., will be at the sole risk of the recipient. If there is a discrepancy between the electronic files and the signed and sealed hard copies, the hard copies shall govern. Use of any electronic files generated or provided by Smith Gardner, Inc., constitutes an acceptance of these terms and conditions. © 2017 Smith Gardner, Inc. HARNETT COUNTY SOLID WASTE DEPARTMENT LILLINGTON NORTH CAROLINA DUNN-ERWIN LANDFILL GROUNDWATER MONITORING POTENTIOMETRIC GROUNDWATER SURFACE MAP OCTOBER 2016 M.M.G. T.R.S. HARNETT-DE 13-2 AS SHOWN DEC 2016 HARNETT-D0115 FIG.1 MW-1 GWE DTW TOC DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 Th i s p a g e i n t e n t i o n a l l y l e f t b l a n k . Do c u S i g n E n v e l o p e I D : 6 8 6 6 E 7 6 C - B 5 0 8 - 4 C C E - 9 A 5 2 - 7 F 8 B 3 8 0 7 8 1 1 9 TABLES October 2016 Groundwater Monitoring Report Harnett County Dunn-Erwin Landfill Solid Waste Permit No. 43-02 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 This page intentionally left blank. DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 Ta b l e 1 Gr o u n d w a t e r W e l l D e t a i l s & E l e v a t i o n s Ha r n e t t C o u n t y D u n n - E r w i n L a n d f i l l Oc t o b e r 2 0 - 2 1 , 2 0 1 6 By:MK Date: 1/9/2017 Mo n i t o r i n g Lo c a t i o n We l l In s t a l l a t i o n Da t e We l l Di a m e t e r (i n c h e s ) To t a l W e l l De p t h ( f t . bg s ) Gr o u n d Su r f a c e El e v a t i o n (f t . a m s l ) TO C El e v a t i o n (f t . a m s l ) De p t h t o Wa t e r (f t . b g s ) Wa t e r T a b l e El e v a t i o n ( f t . am s l ) Sc r e e n In t e r v a l ( f t . bg s ) Screen Geology MW - 1 N A 2 6 6 * 2 1 1 . 4 7 23 5 . 6 7 24 . 7 4 21 0 . 9 3 N A N A MW - 2 9 / 2 3 / 1 9 9 4 2 3 0 1 8 3 . 9 1 19 8 . 0 1 14 . 9 8 18 3 . 0 3 1 5 - 3 0 s i l t y c l a y MW - 4 9 / 2 3 / 1 9 9 4 2 2 0 1 7 7 . 7 3 18 4 . 2 0 8. 3 4 17 5 . 8 6 9 - 1 9 m o t t l e d c l a y MW - 9 N A 2 1 4 . 0 5 * 1 9 5 . 4 5 20 6 . 0 0 9. 6 3 19 6 . 3 7 N A N A MW - 1 0 3 / 8 / 2 0 0 1 2 2 3 1 9 4 . 7 8 20 4 . 7 3 8. 9 1 19 5 . 8 2 8 - 2 3 N A MW - 1 6 N A 2 2 4 . 6 * 1 9 2 . 8 8 19 5 . 6 1 2. 5 8 19 3 . 0 3 N A N A MW - 3 2 N A 2 4 3 * 1 7 8 . 6 4 18 3 . 8 4 6. 5 9 17 7 . 2 5 N A N A MW - 3 3 N A 2 24 * 1 6 8 . 8 8 1 7 3 . 8 8 6 . 3 8 1 6 7 . 5 0 N A N A MW - 3 4 N A 2 19 * 1 9 2 . 0 6 1 9 4 . 0 6 4 . 7 3 1 8 9 . 3 3 N A N A MW - 3 5 N A 2 38 * 1 8 1 . 3 7 1 8 1 . 7 7 2 . 1 0 1 7 9 . 6 7 N A N A MW - 5 3 6 / 3 0 / 2 0 1 0 2 15 1 9 7 . 7 9 2 0 9 . 5 9 1 1 . 5 8 1 9 8 . 0 1 5 - 1 5 s a n d / c l a y w i t h s a n d MW - 5 6 6 / 2 9 / 2 0 1 0 2 16 1 9 3 . 8 1 1 9 8 . 1 1 6 . 2 4 1 9 1 . 8 7 4 - 1 4 c l a y e y s a n d MW - 5 7 6 / 2 9 / 2 0 1 0 2 14 1 9 6 . 2 3 2 0 1 . 3 3 6 . 2 7 1 9 5 . 0 6 4 - 1 4 s i l t y s a n d w i t h c l a y PZ - 4 1 S N A N A 1 8 . 5 1 9 2 . 8 1 2 0 7 . 9 6 1 4 . 6 0 1 9 3 . 3 6 1 3 . 5 - 1 8 . 5 N A GP - 2 8 N A N A 1 5 . 5 * 1 9 7 . 0 6 2 0 4 . 2 6 9 . 6 3 1 9 4 . 6 3 N A N A GP - 3 0 W 1 0 / 1 7 / 2 0 0 2 1 20 1 9 4 . 1 9 2 0 8 . 7 6 - - 6 - 1 6 s i l t y s a n d NO T E : 1. ) To p o f C a s i n g E l e v a t i o n s f r o m t h e G r o u n d w a t e r M o n i t o r i n g r e p o r t A p r i l 2 0 1 3 , p r e p a r e d b y C . T . C l a y t o n , S r . , P . E . I n c . , 4 /20 /2013 2. ) * W e l l D e p t h m e a s u r e d i n f i e l d O c t o b e r 2 0 1 4 3. ) G r o u n d s u r f a c e e l e v a t i o n i n t e r p r e t e d f r o m f r o m t o p o g r a p h y i n C A D 4. ) N A = N o t A v a i l a b l e 5. ) D e p t h t o W a t e r i n M W - 4 w a s n o t r e c o r d e d t h i s e v e n t 6. ) G P - 3 0 W w a s d e s t r o y e d b y s i t e a c t i v i t y s i n c e t h e s p r i n g m o n i t o r i n g e v e n t a n d c o u l d n o t b e s a m p l e d H:\ P r o j e c t s \ G r o u n d w a t e r M o n i t o r i n g \ 2 . G r o u n d w a t e r M o n i t o r i n g R e p o r t s \ H a r n e t t \ 0 8 O c t o b e r 2 0 1 6 \ D u n n E r w i n \ O c t 1 6 h a r n t D E g w t a b l e s _R 1 . x l s x Do c u S i g n E n v e l o p e I D : 6 8 6 6 E 7 6 C - B 5 0 8 - 4 C C E - 9 A 5 2 - 7 F 8 B 3 8 0 7 8 1 1 9 Ta b l e 2 Fi e l d P a r a m e t e r s Ha r n e t t C o u n t y D u n n - E r w i n L a n d f i l l Oc t o b e r 2 0 - 2 1 , 2 0 1 6 By: MK Date: 1/9/2017 Mo n i t o r i n g Lo c a t i o n pH ( s t d u n i t s ) Sp e c i f i c Co n d u c t i v i t y (u m h o s / c m ) Te m p e r a t u r e ( o C) Tu r b i d i t y (N T U ) MW - 1 6. 0 1 62 1 8 . 4 7 63 . 4 M W - 2 4 . 6 1 8 2 2 0 . 0 8 8 . 2 6 MW - 4 4 . 3 7 8 1 2 1 . 3 5 1 3 . 2 M W - 9 5 . 3 3 3 4 2 2 . 0 3 6 0 . 5 MW - 1 0 5 . 6 6 6 3 2 2 . 5 5 2 1 M W - 1 6 5 . 4 6 4 3 1 9 . 3 0 4 3 . 5 M W - 3 2 5 . 9 2 1 3 2 1 8 . 7 8 2 1 . 8 M W - 3 3 5 . 1 2 6 2 2 0 . 5 9 5 . 9 MW - 3 4 5 . 3 5 1 1 0 2 0 . 1 0 7 7 . 2 MW - 3 5 5 . 5 4 7 1 1 9 . 6 3 1 4 . 7 MW - 5 3 4 . 9 3 2 6 0 2 1 . 8 7 9 . 9 7 MW - 5 6 5 . 7 8 7 0 2 0 . 6 0 4 8 MW - 5 7 5 . 1 5 9 9 2 2 1 . 5 0 2 2 6 PZ - 4 1 S 5 . 1 6 1 1 3 2 1 . 8 6 5 4 . 9 GP - 2 8 4 . 6 2 1 3 3 1 9 . 6 1 1 4 4 SW - 1 4 . 7 5 7 0 2 5 . 3 0 1 7 . 3 SW - 2 5 . 2 0 7 0 2 5 . 4 0 2 1 . 1 SW - 3 5 . 4 4 8 0 2 6 . 3 0 4 0 . 6 NO T E : 1) F i e l d d a t a c o l l e c t e d b y S + G p e r s o n n e l 2) S W - 4 w a s u n a b l e t o b e s a m p l e d t h i s e v e n t b e c a u s e i t w a s d r y . 3) G P - 3 0 W w a s n o t m e a s u r e d b e c a u s e i t w a s d a m a g e d H:\ P r o j e c t s \ G r o u n d w a t e r M o n i t o r i n g \ 2 . G r o u n d w a t e r M o n i t o r i n g R e p o r t s \ H a r n e t t \ 0 8 O c t o b e r 2 0 1 6 \ D u n n E r w i n \ O c t 1 6 h a r n t D E g w t a b l e s _R 1 . x l s x Do c u S i g n E n v e l o p e I D : 6 8 6 6 E 7 6 C - B 5 0 8 - 4 C C E - 9 A 5 2 - 7 F 8 B 3 8 0 7 8 1 1 9 Ta b l e 3 De t e c t e d I n o r g a n i c C o n s t i t u e n t s Ha r n e t t C o u n t y D u n n E r w i n L a n d f i l l Oc t o b e r 2 0 - 2 1 , 2 0 1 6 By: MK Date: 1/9/2017 Mo n i t o r i n g Lo c a t i o n MD L S W S L 2L o r G W P * St a n d a r d MC L 2B St a n d a r d MW - 1 M W - 2 M W - 4 M W - 9 M W - 1 0 M W - 1 6 M W - 3 2 M W - 3 3 M W - 3 4 M W - 3 5 M W - 5 3 M W - 5 6 M W - 5 7 G P - 2 8 W P Z - 4 1 S S W - 1 S W - 2 S W - 3 An t i m o n y 0 . 0 5 6 1 * 6 6 4 0 < M D L < M D L < M D L < M D L 0 . 0 8 J < M D L < M D L < M D L < M D L < M D L 0 . 0 7 J < M D L < M D L 0 . 0 6 J 0 . 0 7 J 0 . 0 6 J 0 . 0 6 J < M D L Ar s e n i c 0 . 6 6 1 0 1 0 1 0 1 0 < M D L < M D L < M D L < M D L < M D L < M D L < M D L 1 . 4 J 1 . 8 J < M D L 2 . 1 J < M D L 1 . 4 J < M D L 1 . 4 J 3 . 4 J 2 . 2 J 2 . 9 J Ba r i u m 0 . 0 2 1 0 0 7 0 0 2 0 0 0 2 0 0 0 0 0 0 4 1 . 3 J 5 8 . 0 J 1 0 9 1 4 . 8 J 1 3 . 8 J 2 3 . 9 J 7 4 . 4 J 7 1 . 7 J 3 7 1 5 0 J 1 2 6 5 9 . 6 J 2 3 5 9 8 . 4 J 6 9 . 5 J 4 3 . 5 J 3 7 . 2 J 4 7 . 1 J Be r y l l i u m 0 . 0 4 1 4 * 4 6 . 5 1 2 4 0. 1 J 0 . 0 8 J 0 . 3 4 J 0 . 0 9 J 2 2 1 0 . 5 5 J 0 . 5 8 J 2 0 . 3 9 J 0 . 0 8 J 0 . 0 4 J < M D L < M D L Ca d m i u m 0 . 0 5 1 2 5 2 0 . 0 8 J < M D L < M D L < M D L < M D L < M D L < M D L < M D L 0 . 0 9 J < M D L < M D L < M D L < M D L 0 . 1 0 J 0 . 0 6 J < M D L < M D L < M D L Ch r o m i u m , t o t a l 0 . 0 6 1 0 1 0 1 0 0 5 0 0 . 1 4 J < M D L < M D L 2 . 5 J 1 . 5 J 1 . 1 J 0 . 2 3 J 0 . 2 2 J 0 . 9 7 J < M D L 0 . 3 1 J 0 . 5 6 J 1 . 1 J 8 . 7 J 1 . 3 J 0 . 7 3 J 0 . 8 3 J 0 . 8 5 J Co b a l t 0 . 0 4 1 0 1 * N E 2 7 0 0 . 4 6 J 1 . 2 J 2 . 8 J 0 . 3 6 J 0 . 4 5 J 0 . 6 5 J 0 . 1 7 J 1 . 1 J 12 0. 4 7 J 1 . 1 J 0 . 9 J 4 . 9 J 0 . 9 5 J 8 . 9 J 1 . 6 J 1 . 0 J 1 . 7 J Co p p e r 0 . 0 7 1 0 1 0 0 0 1 3 0 0 7 1 . 1 J 0 . 6 2 J 1 . 9 J 1 . 8 J 1 . 9 J 1 . 4 J 0 . 6 9 J 0 . 5 3 J 3 . 4 J 0 . 6 9 J 1 . 3 J 1 . 4 J 2 . 4 J 3 . 1 J 2 . 2 J 1 . 1 J 1 . 2 J 0 . 8 6 J Ir o n 5 . 2 3 3 0 0 3 0 0 3 0 0 1 0 0 0 N A 76 6 NA N A N A N A N A N A N A N A 10 8 6 3 NA 64320 2 2 1 1 5 NA N A N A N A Le a d 0 . 0 6 1 0 1 5 1 5 2 5 1 . 2 J 0 . 4 2 J 0 . 7 0 J 1 . 8 J 1 . 4 J 1 . 7 J 0 . 3 8 J 0 . 2 2 J 1 . 9 J 0 . 6 4 J 1 . 4 J 1 . 7 J 3 . 3 J 7 . 4 J 1 . 7 J 0 . 5 3 J 0 . 4 8 J 0 . 5 5 J Me r c u r y 0 . 0 4 0 1 2 0 N A < M D L N A 0 . 3 8 0 . 0 5 J N A N A N A N A N A 0 . 2 7 N A N A N A N A N A N A N A Ni c k e l 0 . 0 6 5 0 1 0 0 N E 8 8 0 . 8 9 J 1 . 4 J 2 . 8 J 0 . 4 J 0 . 6 9 J 1 . 3 J 0 . 7 6 J 1 . 4 J 3 . 0 J 0 . 9 2 J 2 . 3 J 0 . 8 6 J 3 . 9 J 1 . 9 J 1 . 2 J 0 . 9 9 J 0 . 8 3 J 0 . 8 4 J Se l e n i u m 0 . 5 4 1 0 2 0 5 0 5 < M D L < M D L 1 . 0 J < M D L < M D L < M D L 0 . 6 3 J < M D L 2 . 6 J < M D L 1 . 4 J < M D L 4 J 0 . 7 3 J < M D L < M D L < M D L < M D L Th a l l i u m 0 . 0 5 5 . 5 0 . 2 8 * 2 0 . 2 4 < M D L < M D L 0 . 1 1 J < M D L < M D L < M D L < M D L < M D L < M D L < M D L 0 . 1 2 J < M D L 0 . 0 8 J 0 . 0 6 J 0 . 0 8 J < M D L 0 . 1 0 J < M D L Va n a d i u m 0 . 3 6 2 5 0 . 3 * N E N E 1 . 4 J < M D L < M D L 6 . 1 J 3 . 2 J 2 . 2 J 1 . 2 J 0 . 7 7 J 3 . 5 J < M D L 1 J 1 . 9 J 3 . 8 J 1 2 . 9 J 3 . 0 J 2 . 3 J 1 . 7 J 2 . 1 J Zi n c 1 . 6 1 1 0 1 0 0 0 50 0 0 2 50 5 . 1 J 8 . 1 J 2 3 2 . 0 J 2 . 6 J 4 . 5 J 1 3 1 5 1 8 4 . 3 J 4 J 4 . 3 J 9 . 7 J 1 4 3 4 5 . 3 J 6 . 7 J 5 . 1 J NO T E : MD L - M e t h o d D e t e c t i o n L i m i t SW S L - S o l i d W a s t e S e c t i o n Q u a n t i t a t i o n L i m i t s 2L - G r o u n d w a t e r S t a n d a r d s ( 1 5 A N C A C 2 L 0 2 0 0 ) GW P - G r o u n d w a t e r P r o t e c t i o n S t a n d a r d s ( n o t e d b y * ) MC L - F e d e r a l M a x i m u m C o n t a m i n a n t L i m i t 2B - N C A C 2 B S t a n d a r d f o r C l a s s C w a t e r s NE - D e t e c t i o n l i m i t n o t e s t a b l i s h e d Bo l d - D e t e c t i o n a b o v e 2 L o r G W P S t a n d a r d J - L a b o r a t o r y d e f i n e d a s b e t w e e n t h e M D L a n d S W S L < M D L - N o t d e t e c t e d a t o r a b o v e t h e M e t h o d D e t e c t i o n L i m i t NA - P a r a m e t e r n o t a n a l y z e d * - N a t i o n a l S e c o n d a r y D r i n k i n g W a t e r R e g u l a t i o n To t a l C h r o m i u m w a s d e t e c t e d i n t h e e q u i p m e n t b l a n k a t a c o n c e n t r a t i o n o f 0 . 0 9 J t h i s e v e n t . Ta b l e u n i t s a r e p r e s e n t e d i n u g / l . An a l y s i s b y E n v i r o n m e n t 1 I n c o r p o r a t e d , R e p o r t d a t e d 1 1 / 2 8 / 2 0 1 6 . C l i e n t I D # 6 0 4 0 . H: \ P r o j e c t s \ G r o u n d w a t e r M o n i t o r i n g \ 2 . G r o u n d w a t e r M o n i t o r i n g R e p o r t s \ H a r n e t t \ 0 8 O c t o b e r 2 0 1 6 \ D u n n E r w i n \ O c t 1 6 h a r n t D E g w t a b l e s _R 1 . x l s x Do c u S i g n E n v e l o p e I D : 6 8 6 6 E 7 6 C - B 5 0 8 - 4 C C E - 9 A 5 2 - 7 F 8 B 3 8 0 7 8 1 1 9 Th i s p a g e i n t e n t i o n a l l y l e f t b l a n k . Do c u S i g n E n v e l o p e I D : 6 8 6 6 E 7 6 C - B 5 0 8 - 4 C C E - 9 A 5 2 - 7 F 8 B 3 8 0 7 8 1 1 9 Ta b l e 4 De t e c t e d O r g a n i c C o n s t i t u e n t s Ha r n e t t C o u n t y D u n n E r w i n L a n d f i l l Oc t o b e r 2 0 - 2 1 , 2 0 1 6 By: MK Date: 1/9/2017 Mo n i t o r i n g L o c a t i o n M D L S W S L 2L St a n d a r d MC L M W - 2 M W - 3 3 M W - 3 4 M W - 3 5 M W - 5 3 P Z - 4 1 S M W - 5 6 M W - 5 7 G P - 2 8 W S W - 3 1, 1 - D i c h l o r o e t h a n e 0 . 2 0 5 6 N E < M D L 0 . 2 J < M D L < M D L 4 . 2 J 0 . 3 J 0 . 2 J 1 . 9 J 8.7 <MDL 1, 4 - D i c h l o r o b e n z e n e 0 . 3 9 1 6 7 5 < M D L < M D L < M D L < M D L 3 . 4 < M D L < M D L 1 . 8 2 . 1 < M D L Ac e t o n e 9 . 0 6 1 0 0 6 0 0 0 N E 9 . 7 J < M D L 5 3 . 9 0 J < M D L 6 8 . 3 J < M D L < M D L < M D L < M D L 9 . 8 J Be n z e n e 0 . 2 4 1 1 5 < M D L < M D L < M D L < M D L 3. 2 0. 4 J < M D L 1. 9 2 . 5 <MDL Ca r b o n D i s u l f i d e 0 . 2 3 1 0 0 7 0 0 N E < M D L < M D L < M D L 0 . 3 J < M D L < M D L < M D L < M D L < M D L < M D L Ci s - 1 , 2 - D i c h l o r e t h e n e 0 . 2 5 5 7 0 7 0 < M D L 0 . 8 J < M D L < M D L 3 . 1 J 1 J < M D L 3 . 4 J 5 . 5 < M D L Ch l o r o b e n z e n e 0 . 3 0 3 5 0 1 0 0 < M D L < M D L < M D L < M D L 1 . 6 J < M D L < M D L < M D L 1 . 3 J < M D L Ch l o r o e t h a n e 0 . 4 8 1 0 3 0 0 0 N E < M D L < M D L < M D L < M D L 0 . 8 J < M D L < M D L < M D L < M D L < M D L Me t h y l e n e C h l o r i d e 0 . 6 4 1 5 N E < M D L < M D L < M D L < M D L 4 . 4 < M D L < M D L < M D L 7.5 <MDL Te t r a c h l o r o e t h e n e 0 . 1 7 1 0 . 7 5 < M D L < M D L < M D L < M D L 0 . 6 J < M D L < M D L < M D L 1.2 <MDL Tr i c h l o r o e t h e n e 0 . 2 3 1 3 5 < M D L < M D L < M D L < M D L 0 . 5 J < M D L < M D L < M D L 0 . 9 J < M D L To l u e n e 0 . 2 3 1 6 0 0 1 0 0 0 < M D L < M D L < M D L < M D L < M D L < M D L < M D L < M D L < M D L 0 . 4 J Vi n y l C h l o r i d e 0 . 6 3 1 0 . 0 3 2 < M D L < M D L < M D L < M D L 0 . 9 J 0 . 8 J < M D L < M D L < M D L < M D L Te t r a h y d r o f u r a n 0 . 3 9 N E N E N E < M D L < M D L < M D L < M D L 2 . 2 < M D L < M D L < M D L < M D L < M D L NO T E : MD L - Me t h o d D e t e c t i o n L i m i t SW S L - So l i d W a s t e S e c t i o n Q u a n t i t a t i o n L i m i t s 2L - Gr o u n d w a t e r S t a n d a r d s ( 1 5 A N C A C 2 L 0 2 0 0 ) MC L - F e d e r a l M a x i m u m C o n t a m i n a n t L i m i t Bo l d - De t e c t i o n a b o v e 2 L S t a n d a r d J - L a b o r a t o r y d e f i n e d a s b e t w e e n t h e M D L a n d S W S L <M D L - No t d e t e c t e d a t o r a b o v e t h e M e t h o d D e t e c t i o n L i m i t NE - St a n d a r d N o t E s t a b l i s h e d Ta b l e i s p r e s e n t e d i n u n i t s o f u g / l . An a l y s i s b y E n v i r o n m e n t 1 I n c o r p o r a t e d , R e p o r t d a t e d 1 1 / 2 8 / 2 0 1 6 . C l i e n t I D # 6 0 4 0 . H: \ P r o j e c t s \ G r o u n d w a t e r M o n i t o r i n g \ 2 . G r o u n d w a t e r M o n i t o r i n g R e p o r t s \ H a r n e t t \ 0 8 O c t o b e r 2 0 1 6 \ D u n n E r w i n \ O c t 1 6 h a r n t D E g w t a b l e s _R 1 . x l s x Do c u S i g n E n v e l o p e I D : 6 8 6 6 E 7 6 C - B 5 0 8 - 4 C C E - 9 A 5 2 - 7 F 8 B 3 8 0 7 8 1 1 9 Ta b l e 5 Gr o u n d w a t e r V e l o c i t y C a l c u l a t i o n s Ha r n e t t C o u n t y D u n n E r w i n L a n d f i l l Oc t o b e r 2 0 - 2 1 , 2 0 1 6 By: MG Date: 6/22/2016 Mo n i t o r i n g Lo c a t i o n Wa t e r T a b l e El e v a t i o n (f t . a m s l ) Hy d r a u l i c Co n d u c t i v i t y (c m / s e c ) Es t i m a t e d Po r o s i t y Hy d r a u l i c Gr a d i e n t (f t . / f t . ) Gr o u n d w a t e r Ve l o c i t y (c m / s e c ) Gr o u n d w a t e r Ve l o c i t y (f t / d a y ) MW - 1 21 0 . 9 3 7. 9 0 E - 0 7 0 . 2 8 0 . 0 9 3 0 2 . 6 2 E - 0 7 7. 4 4 E - 0 4 MW - 2 18 3 . 0 3 3. 5 0 E - 0 5 0 . 2 8 0 . 0 2 8 9 3 . 6 1 E - 0 6 1. 0 2 E - 0 2 MW - 4 17 5 . 8 6 1. 2 0 E - 0 5 0 . 2 8 0 . 0 5 1 8 2 . 2 2 E - 0 6 6. 2 9 E - 0 3 MW - 9 19 6 . 3 7 8. 6 0 E - 0 4 0 . 2 8 0 . 0 2 1 4 6 . 5 6 E - 0 5 1. 8 6 E - 0 1 MW - 1 0 19 5 . 8 2 3. 0 0 E - 0 6 0 . 2 8 0 . 0 2 7 7 2 . 9 7 E - 0 7 8. 4 2 E - 0 4 MW - 1 6 19 3 . 0 3 7. 3 0 E - 0 8 0 . 2 8 0 . 0 2 8 9 7 . 5 2 E - 0 9 2. 1 3 E - 0 5 MW - 3 2 17 7 . 2 5 2. 9 0 E - 0 6 0 . 2 8 0 . 0 2 1 2 2 . 1 9 E - 0 7 6. 2 1 E - 0 4 MW - 3 3 1 6 7 . 5 0 4 . 1 0 E - 0 6 0. 2 8 0. 0 2 5 0 3. 6 6 E - 0 7 1. 0 4 E - 0 3 Av e r a g e : 2. 5 7 E - 0 2 NO T E : 1)2) P o r o s i t y v a l u e s e s t i m a t e d f r o m M c W o r t e r a n d S u n a d a ( 1 9 7 7 ) ( h t t p : / / w e b . e a d . a n l . g o v / r e s r a d / d a t a c o l l / p o r o s i t y . h t m ) 3) V e l o c i t y C a l c u l a t e d f r o m V = K * i / n V = v e l o c i t y K = H y d r a u l i c C o n d u c t i v i t y i = G r a d i e n t n = P o r o s i t y 4) H y d r a u l i c G r a d i e n t M e a s u r e d f r o m A p r i l 2 0 1 6 P o t e n t i o m e t r i c S u r f a c e Hy d r a u l i c C o n d u c t i v i t y v a l u e s f r o m W i t h e r s a n d R a v e n e l " E v a l u a t i o n o f G r o u n d w a t e r F l o w a n d Di r e c t i o n " , N o v e m b e r 1 9 9 4 e x c e p t M W - 9 a n d M W - 1 0 w h i c h w e r e o b t a i n e d f r o m E N S O L " R e s u l t s o f H: \ P r o j e c t s \ G r o u n d w a t e r M o n i t o r i n g \ 2 . G r o u n d w a t e r M o n i t o r i n g R e p o r t s \ H a r n e t t \ 0 8 O c t o b e r 2 0 1 6 \ D u n n E r w i n \ O c t 1 6 h a r n t D E g w t a b l e s _R 1 . x l s x Do c u S i g n E n v e l o p e I D : 6 8 6 6 E 7 6 C - B 5 0 8 - 4 C C E - 9 A 5 2 - 7 F 8 B 3 8 0 7 8 1 1 9 Ta b l e 6 MN A P a r a m e t e r S u m m a r y Ha r n e t t C o u n t y D u n n E r w i n L a n d f i l l Oc t o b e r 2 0 - 2 1 , 2 0 1 6 By: MK Date: 1/9/2017 MD L S W S L M W - 2 M W - 5 3 M W - 5 7 G P - 2 8 PZ - 4 7 S Di s s o l v e d O x y g e n ( m g / L ) N E N E 4 . 3 5 2 . 1 8 5 5 . 1 4 7 . 5 9. 4 6 Ox y g e n R e d u c t i o n P o t e n t i a l ( m v ) N E N E 2 6 2 . 2 1 6 3 . 2 1 0 4 . 8 2 3 6 . 7 14 2 . 4 Al k a l i n k i t y , m g / l 1 1 2 < M D L 5 < M D L N A Ni t r a t e N i t r o g e n a s N , m g / l 0 . 0 0 4 1 0 < M D L 0 . 7 9 J <M D L 2. 9 5 J NA To t a l O r g a n i c C a r b o n , m g / l 0 . 1 1 < M D L 4 . 3 1. 3 4 3. 3 3. 4 4 Ch l o r i d e , m g / l 5 5 1 8 5 0 21 8 30 NA Me t h a n e , u g / l 0 . 0 2 7 N E 8 . 6 6 6 0 0 84 0 46 0 0 0. 0 9 8 J NO T E : MD L - M e t h o d D e t e c t i o n L i m i t SW S L - S o l i d W a s t e S e c t i o n Q u a n t i t a t i o n L i m i t s J- NE - N o t E s t a b l i s h e d BO L D - A b o v e S W S L NA - N o t A n a l y z e d In d i c a t o r p a r a m e t e r s f o r P Z - 4 7 S w e r e c o l l e c t e d t o r e p l a c e P Z - 3 0 S t h a t w a s d a m a g e d . P Z - 4 7 S w e n t d r y b e f o r e a l l b o t t l e s c o u l d b e filled. An a l y s i s b y E n v i r o n m e n t 1 I n c o r p o r a t e d , R e p o r t d a t e d 1 1 / 2 8 / 2 1 0 6 . C l i e n t I D # 6 0 4 0 . an d M i c r o s e e p s , P a c e W o r k o r d e r # 2 0 7 4 2 La b o r a t o r y d e f i n e d B y E n v i r o n m n e t 1 a s b e t w e e n t h e M D L a n d S W S L ; a n d b y m i c r o s e e p s as a n e s t i m a t e d c o n c e n t r a t i o n g r e a t e r t h a n t h e s e t M D L a n d l e s s t h a n t h e s e t P Q L H: \ P r o j e c t s \ G r o u n d w a t e r M o n i t o r i n g \ 2 . G r o u n d w a t e r M o n i t o r i n g R e p o r t s \ H a r n e t t \ 0 8 O c t o b e r 2 0 1 6 \ D u n n E r w i n \ O c t 1 6 h a r n t D E g w t a b l e s _R 1 . x l s x Do c u S i g n E n v e l o p e I D : 6 8 6 6 E 7 6 C - B 5 0 8 - 4 C C E - 9 A 5 2 - 7 F 8 B 3 8 0 7 8 1 1 9 Th i s p a g e i n t e n t i o n a l l y l e f t b l a n k . Do c u S i g n E n v e l o p e I D : 6 8 6 6 E 7 6 C - B 5 0 8 - 4 C C E - 9 A 5 2 - 7 F 8 B 3 8 0 7 8 1 1 9 Appendix A Well Logs October 2016 Groundwater Monitoring Report Harnett County Dunn-Erwin Landfill Solid Waste Permit No. 43-02 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 This page intentionally left blank. DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 This page intentionally left blank. DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 Appendix B Laboratory Analytical Report October 2016 Groundwater Monitoring Report Harnett County Dunn-Erwin Landfill NC Solid Waste Permit No. 43-02 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 This page intentionally left blank. DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 Appendix C Time vs. Concentration Graphs October 2016 Groundwater Monitoring Report Harnett County Dunn-Erwin Landfill NC Solid Waste Permit No. 43-02 DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 This page intentionally left blank. DocuSign Envelope ID: 6866E76C-B508-4CCE-9A52-7F8B38078119 Pa g e 1 1, 1 - D i c h l o r o e t h a n e Ti m e - S e r i e s G r a p h o f G P - 2 8 W Sa m p l e D a t e C o n c e n t r a t i o n ( p p b ) 05101520 1 2 / 4 / 2 0 1 3 5 / 3 / 2 0 1 4 9 / 3 0 / 2 0 1 4 2 / 2 7 / 2 0 1 5 7 / 2 8 / 2 0 1 5 1 2 / 2 5 / 2 0 1 5 5/23/2016 10/21/2016 Do c u S i g n E n v e l o p e I D : 6 8 6 6 E 7 6 C - B 5 0 8 - 4 C C E - 9 A 5 2 - 7 F 8 B 3 8 0 7 8 1 1 9 Pa g e 1 Be n z e n e Mu l t i - W e l l T i m e - S e r i e s G r a p h Sa m p l e D a t e C o n c e n t r a t i o n ( p p b ) 0123456 MW - 5 3 MW - 5 7 GP - 2 8 W 1 0 / 2 0 / 2 0 1 0 8 / 2 9 / 2 0 1 1 7 / 7 / 2 0 1 2 5 / 1 6 / 2 0 1 3 3 / 2 6 / 2 0 1 4 2 / 2 / 2 0 1 5 1 2 / 1 2 / 2 0 1 5 10/21/2016 Do c u S i g n E n v e l o p e I D : 6 8 6 6 E 7 6 C - B 5 0 8 - 4 C C E - 9 A 5 2 - 7 F 8 B 3 8 0 7 8 1 1 9 Pa g e 1 Be r y l l i u m , t o t a l Ti m e - S e r i e s G r a p h o f M W - 4 Sa m p l e D a t e C o n c e n t r a t i o n ( p p b ) 05101520 1 / 1 / 1 9 9 5 2 / 1 1 / 1 9 9 8 3 / 2 5 / 2 0 0 1 5 / 6 / 2 0 0 4 6 / 1 7 / 2 0 0 7 7 / 2 9 / 2 0 1 0 9/9/2013 10/21/2016 Do c u S i g n E n v e l o p e I D : 6 8 6 6 E 7 6 C - B 5 0 8 - 4 C C E - 9 A 5 2 - 7 F 8 B 3 8 0 7 8 1 1 9 Pa g e 1 Co b a l t , t o t a l Ti m e - S e r i e s G r a p h o f M W - 3 4 Sa m p l e D a t e C o n c e n t r a t i o n ( p p b ) 05101520 1 2 / 4 / 2 0 1 3 5 / 3 / 2 0 1 4 9 / 3 0 / 2 0 1 4 2 / 2 7 / 2 0 1 5 7 / 2 8 / 2 0 1 5 1 2 / 2 5 / 2 0 1 5 5/23/2016 10/21/2016 Do c u S i g n E n v e l o p e I D : 6 8 6 6 E 7 6 C - B 5 0 8 - 4 C C E - 9 A 5 2 - 7 F 8 B 3 8 0 7 8 1 1 9 Pa g e 1 Ir o n , t o t a l Mu l t i - W e l l T i m e - S e r i e s G r a p h Sa m p l e D a t e C o n c e n t r a t i o n ( p p b ) 0 10 0 0 0 20 0 0 0 30 0 0 0 40 0 0 0 50 0 0 0 60 0 0 0 70 0 0 0 MW - 2 GP - 2 8 W MW - 5 3 MW - 5 7 1 2 / 4 / 2 0 1 3 5 / 3 / 2 0 1 4 9 / 3 0 / 2 0 1 4 2 / 2 7 / 2 0 1 5 7 / 2 8 / 2 0 1 5 1 2 / 2 5 / 2 0 1 5 5/23/2016 10/21/2016 Do c u S i g n E n v e l o p e I D : 6 8 6 6 E 7 6 C - B 5 0 8 - 4 C C E - 9 A 5 2 - 7 F 8 B 3 8 0 7 8 1 1 9 Pa g e 1 Di c h l o r o m e t h a n e ( M e t h y l e n e c h l o r i d e ) Ti m e - S e r i e s G r a p h o f G P - 2 8 W Sa m p l e D a t e C o n c e n t r a t i o n ( p p b ) 05101520 1 2 / 4 / 2 0 1 3 5 / 3 / 2 0 1 4 9 / 3 0 / 2 0 1 4 2 / 2 7 / 2 0 1 5 7 / 2 8 / 2 0 1 5 1 2 / 2 5 / 2 0 1 5 5/23/2016 10/21/2016 Do c u S i g n E n v e l o p e I D : 6 8 6 6 E 7 6 C - B 5 0 8 - 4 C C E - 9 A 5 2 - 7 F 8 B 3 8 0 7 8 1 1 9 Pa g e 1 Te t r a c h l o r o e t h e n e ( - e t h y l e n e ) Ti m e - S e r i e s G r a p h o f G P - 2 8 W Sa m p l e D a t e C o n c e n t r a t i o n ( p p b ) 00. 511. 522. 53 1 2 / 4 / 2 0 1 3 5 / 3 / 2 0 1 4 9 / 3 0 / 2 0 1 4 2 / 2 7 / 2 0 1 5 7 / 2 8 / 2 0 1 5 1 2 / 2 5 / 2 0 1 5 5/23/2016 10/21/2016 Do c u S i g n E n v e l o p e I D : 6 8 6 6 E 7 6 C - B 5 0 8 - 4 C C E - 9 A 5 2 - 7 F 8 B 3 8 0 7 8 1 1 9 Th i s p a g e i n t e n t i o n a l l y l e f t b l a n k . Do c u S i g n E n v e l o p e I D : 6 8 6 6 E 7 6 C - B 5 0 8 - 4 C C E - 9 A 5 2 - 7 F 8 B 3 8 0 7 8 1 1 9