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Home My WebLink About9226_Shotwell_CDLF_June2016GWLFGMonitoring_DIN26719_20160609Groundwater Monitoring Report June 2016 Semi-Annual Monitoring Event Shotwell Construction and Demolition Debris Landfill Wake County, North Carolina NC Solid Waste Permit No. 92-26 Prepared for: Shotwell Landfill, Inc. 4724 Smithfield Road Wendell, North Carolina Prepared by: ELM Site Solutions, Inc. P.O. Box 97607 Raleigh, North Carolina 27624 919-792-3733 August 2016 2 TABLE OF CONTENTS 1.0 Introduction 2.0 Field Methods 2.1 Groundwater and Surface Water Monitoring 2.2 Landfill Gas Monitoring 3.0 Field and Analytical Results 3.1 Groundwater Results 3.2 Surface Water Results 3.3 Landfill Gas Results 4.0 Groundwater Characterization 5.0 Summary and Conclusions Tables 1 Monitoring Well Construction Data and Groundwater Elevations – June 8, 2016 2 Stabilized Groundwater Field Parameter Measurements – June 9 and 10, 2016 3 Summary of Analytical Results – June 9 and 10, 2016 4 Historical Landfill Gas Monitoring Data 5 Groundwater Velocity Data Figures 1 Water Table Contour Map – June 8, 2016 Appendices A Field Sample Collection Records B Landfill Gas Monitoring Data Forms (March and June 2016) C Laboratory Analytical Report 3 1.0 Introduction From June 8 through 10, 2016, groundwater and surface water monitoring was completed at the Shotwell Construction and Demolition Debris Landfill in Wendell, North Carolina. This monitoring event satisfies requirements of the detection monitoring program under Solid Waste Permit No. 92-26 and Solid Waste Regulations 15A NCAC 13B .0544. The following report summarizes sampling procedures, field and laboratory results and groundwater characterization as required by North Carolina Solid Waste Regulations. The North Carolina Department of Environmental Quality (NCDEQ) Environmental Monitoring Reporting Form is included with the document. In addition to groundwater and surface water monitoring, 11 landfill gas monitoring wells (LG-1 through LG-11) were monitored in March and June 2016 to satisfy requirements in the facility’s Solid Waste Permit. Landfill gas monitoring results are also summarized herein. 2.0 Field Methods 2.1 Groundwater and Surface Water Monitoring Groundwater gauging and sampling was completed at eight (8) monitoring wells (MW-1A, MW-3A, MW-4S, MW-4D, MW-5, MW-6, MW-7, and MW-8). Surface water sampling was completed at three (3) established locations (SW-1, SW-2, and SW-3). Groundwater and surface water monitoring locations are shown on Figure 1. During the monitoring event, the wells were inspected for signs of damage or unusual conditions. The wells were found to be in good condition and free of obstructions. Low-flow (micro-purge) sampling procedures were used for well purging and groundwater sampling during the June 2016 sampling event, except for well MW-1A as discussed below. Sample collection procedures were consistent with industry standard practices. The monitoring wells were gauged with a decontaminated electric water level meter to determine the depth to groundwater and then micro-purged at a rate of approximately 100 to 300 milliliters per minute using new disposable tubing attached to a peristaltic pump. A disposable bailer was used to purge and sample well MW-1A because the depth to water exceeded the maximum depth capability of the peristaltic pump. Well MW-1A was purged until essentially dry. A summary of well construction, depth to groundwater, and groundwater elevation data is provided in Table 1. Field parameters consisting of temperature, pH, specific conductivity, turbidity, dissolved oxygen (DO), and oxidation-reduction potential (ORP) were measured at regular (i.e., approximate three (3) to five (5) minute) intervals using a Horiba Model U-52 Multi-parameter Water Quality Analyzer and flow-through cell during micro-purging until parameters stabilized to within approximately 10%. Field parameters were not measured at well MW-1A. Groundwater samples were collected in laboratory containers provided by Environmental Conservation Laboratories (ENCO), a North Carolina certified laboratory, for Appendix I volatile organic compounds (VOCs) by United States Environmental Protection Agency (EPA) Method 4 8260B, Appendix I metals by EPA Methods 6010C/6020A, mercury by EPA Method 7470A, chloride and sulfate by EPA Method 300.0, total alkalinity by EPA Method 310.2 and total dissolved solids (TDS) by SM 2540C. Surface water samples were submitted to ENCO for Appendix I VOCs and 15 metals. Samples were transported to the laboratory under chain-of-custody protocols and analyzed at or below the specified NCDEQ Solid Waste Section Limits (SWSLs). Sample collection record sheets are provided in Appendix A. 2.2 Landfill Gas Monitoring Eight (8) landfill gas monitoring wells (LG-1 through LG-8) were installed at the site in June 2011 as presented in the Spring 2011 Groundwater Monitoring Report. Three (3) additional landfill gas monitoring wells (LG-9, LG-10, and LG-11) were installed at the site in October 2012 as sentinel downgradient wells for LG-3 and LG-4 that had registered elevated methane levels. In June 2014, landfill gas well LG-8 was abandoned and replaced with LG-8R located near groundwater monitoring well MW-1A. Landfill gas monitoring well locations are shown on Figure 1. Landfill gas quarterly monitoring events were conducted on March 15, 2016, and June 8, 2016, during this reporting period. Percent lower explosive limit (% LEL) measurements and other applicable parameters (i.e., % methane by volume, % oxygen and % carbon dioxide) were recorded at the landfill gas monitoring wells using a laboratory calibrated LandTec GEM 2000 instrument. Landfill Gas Monitoring Data Forms for the reporting period are provided in Appendix B. 3.0 Field and Analytical Results 3.1 Groundwater Results As noted in Section 2 above, field parameters including temperature, pH, specific conductivity, turbidity, DO and ORP were measured and recorded during well purging activities. Stabilized field parameter measurements are provided in Table 2 along with the approximate total volume of water purged. Groundwater analytical results indicated that no VOCs were detected above their respective 15A NCAC 2L Standard (North Carolina Groundwater Quality Standard, or Interim Maximum Allowable Concentration, hereinafter referred to as the 2L Standard). Metals were detected above their respective 2L Standard as follows: Cobalt: MW-6, MW-7 and MW-8. The concentrations detected in the samples collected from MW-7 and MW-8 were estimated (i.e., “J” flagged) indicating the reported concentration was between the method detection limit (MDL) and the method reporting limit (MRL). Iron: MW-1A, MW-6, and MW-8. Manganese: MW-4D, MW-6, and MW-8. Vanadium: MW-1A and MW-8. Both concentrations were “J” flagged values. 5 No additional target compounds were detected in the groundwater samples that exceeded their respective 2L Standard. Total alkalinity concentrations were detected in MW-4S, MW-4D, MW-5, MW-6 and MW-8 but a 2L Standard for total alkalinity has not been established. Groundwater analytical results are summarized in Table 3 and the laboratory analytical report is provided in Appendix C. For quality assurance/quality control, a trip blank accompanied the samples and a duplicate sample (Duplicate) was collected at well MW-5. The duplicate results compared favorably with the MW-5 results other than the detection of chloroform in the duplicate sample, a typical laboratory contaminant. The trip blank did not contain any VOCs above the laboratory MDL. 3.2 Surface Water Results Surface water analytical results indicated that no VOCs were detected in the samples collected above their respective 15A NCAC 2B Surface Water Standard (hereinafter referred to as the 2B Standards, or National Criteria per EPA). Regarding metals, vanadium was detected at estimated concentrations (“J” flagged) in the samples collected at SW-1 and SW-3. No 2B Standard has been established for vanadium. Surface water analytical results are summarized in Table 3 and the laboratory analytical report is provided in Appendix C. 3.3 Landfill Gas Results As noted above, quarterly landfill gas monitoring events were conducted on March 15, 2016, and June 8, 2016, at 11 landfill gas monitoring wells and the scale house during the reporting period. As historically observed, wells LG-3 and LG-4 exhibited greater than 100% of the lower explosive limit (LEL) during the reporting period (i.e., 126% and 494% LEL at LG-3 in March and June, respectively, and 516% and 422% LEL at LG-4 in March and June, respectively). Percent LEL measurements recorded at downgradient sentinel wells LG-9 and LG-11 exhibited 0% LEL during the reporting period. Downgradient sentinel well LG-10 exhibited 4% LEL. Replacement well LG-8R exhibited 14% and 23% LEL during the reporting period. Historical landfill gas monitoring data are summarized in Table 4. 4.0 Groundwater Characterization A water table contour map was prepared from the well gauging data collected on June 8, 2016, as shown on Figure 1. According to the figure, shallow groundwater continues to migrate generally toward the southwest as historically observed. The data also indicates shallow groundwater flow in the central portion of the site is generally toward the south and the intermittent stream on-site. The horizontal groundwater velocity was estimated from a previously calculated hydraulic conductivity value at well MW-5 using the equation V = KI/n where: V = estimated horizontal velocity K = calculated hydraulic conductivity from slug testing 6 I = estimated shallow hydraulic gradient n = estimated effective porosity The estimated shallow groundwater velocity ranged from 0.016 feet/day south of the intermittent stream to 0.068 feet/day north of the intermittent stream as shown on Figure 1 and Table 5. 5.0 Summary and Conclusions No VOCs were detected in groundwater or surface water above their respective 2L Standard. Four (4) inorganic analytes (cobalt, iron, manganese, and vanadium) were detected at concentrations at or above their respective 2L Standard in groundwater at the site as follows: • Cobalt – MW-6, MW-7, and MW-8 (MW-7 and MW-8 at estimated values); • Iron – MW-1A, MW-6, and MW-8; • Manganese – MW-4D, MW-6, and MW-8; • Vanadium – MW-1A and MW-8 (both at estimated values). Detections of these inorganic analytes are consistent with historical site data and believed to be originating from natural geologic conditions as discussed in prior reports. Vanadium was detected in surface water samples SW-1 and SW-3 at estimated concentrations. A 2B Standard has not been established for vanadium. Vanadium has historically been detected at these two (2) surface water locations at estimated values. Elevated % LEL readings continue to be observed at wells LG-3 and LG-4. The % LEL at LG-3 increased to above 100% in December 2014 and has remained above 100% since that time after being at or below 54% during and prior to January 2013. The % LEL at LG-4 appears to be generally stable since November 2012 (i.e., fluctuating between 422% and 806%). The downgradient sentinel landfill gas wells for LG-3 and LG-4 (LG-9, LG-10 and LG-11) continue to indicate that off-site migration of landfill gas is not occurring. Monitoring results from LG-10 have historically remained at zero but indicated a 4% LEL reading during the June 2016 event. Percent LEL measurements obtained from downgradient wells LG-9 and LG-11 remained at zero during the reporting period. Quarterly landfill gas monitoring will continue at the site with the next two (2) events scheduled for September and December 2016. Semi-annual groundwater monitoring will continue at the site with the next event scheduled for December 2016. FIGURES E X I S T I N G 2 ' C O N T O U R E X I S T I N G 1 0 ' C O N T O U R ( S E E R E F E R E N C E 2 ) A P P R O X I M A T E P R O P E R T Y L I N E P R O P E R T Y L I N E ( N O T S U R V E Y E D ) A P P R O X I M A T E W E T L A N D S ( S E E R E F E R E N C E 4 ) ( S E E R E F E R E N C E 1 ) 1 0 0 ' U N D I S T U R B E D B U F F E R ( M E E T S T Y P E A E X I S T I N G M O N I T O R I N G W E L L E X I S T I N G S O I L B O R I N G E X I S T I N G S U R F A C E W A T E R M O N I T O R I N G P O I N T S T R E A M / W A T E R B O U N D A R Y P E R M I T T E D C & D W A S T E L I M I T S 2 0 0 ' P R E F E R R E D S O L I D W A S T E B U F F E R E X I S T I N G W A S T E ( L C I D A N D C & D ) W E T L A N D S / S T R E A M I M P A C T A R E A ( S E E R E F E R E N C E 5 ) S O I L B O R R O W A R E A ( I N A C C O R D A N C E W I T H R E N D E R E D I M A G E V I E W L O C A T I O N A N D L I N E O F S I G H T W A T E R S U P P L Y W E L L S U P P L E M E N T A L L A N D S C A P I N G R E Q U I R E D F O R T Y P E A B U F F E R R E Q U I R E M E N T S E X C E P T A S N O T E D ) ( S E E L A N D S C A P I N G P L A N I N S E T ) W A K E C O U N T Y S T O R M W A T E R O R D I N A N C E S ) P R O P O S E D P E R M A N E N T S E D I M E N T B A S I N ( L O C A T I O N S M A Y V A R Y ) S T O R M W A T E R C H A N N E L ( L O C A T I O N S M A Y V A R Y ) N E U S E R I V E R B U F F E R ( S E E R E F E R E N C E 7 ) WATER TABLE CONTOUR MAP - JUNE 8, 2016 WENDELL - WAKE COUNTY SHOTWELL C&D LANDFILL PLAN REVISIONS F I G U R E 1 S C A L E : 1 " = 2 0 0 ' D A T E : 0 6 - 0 8 - 2 0 1 6 P R O J E C T : 1 0 0 1 - 1 1 - 1 0 3 T h i s d r a w i n g i s t h e p r o p e r t y o f E L M S i t e S o l u t i o n s , I n c a n d i s n o t t o b e r e p r o d u c e d o r c o p i e d i n w h o l e o r i n p a r t . I t i s o n l y t o b e u s e d f o r t h e p r o j e c t a n d s i t e s p e c i f i c a l l y i d e n t i f i e d h e r e i n a n d i s n o t t o b e u s e d o n a n y o t h e r p r o j e c t . I t i s t o b e r e t u r n e d u p o n r e q u e s t . NO.DATE DESCRIPTION 4724 SMITHFIELD ROAD NORTH CAROLINA L A N D F I L L G A S M O N I T O R I N G W E L L A A P O T E N T I A L L A N D F I L L G A S M O N I T O R I N G W E L L NC SOLID WASTE PERMIT NO. 92-26 N O R T H W A T E R T A B L E C O N T O U R L I N E G E N E R A L G R O U N D W A T E R F L O W D I R E C T I O N TABLES MW‐1A 09/27/06 28 ‐ 38 2" PVC 268.58 41.2 34.67 233.91 MW‐3A 02/21/07 10 ‐ 20 2" PVC 224.41 33.0 13.67 210.74 MW‐4S 03/08/01 10 ‐ 25 2" PVC 220.87 32.0 22.56 198.31 MW‐4D 03/07/01 39 ‐ 49 2" PVC 220.87 52.4 22.57 198.30 MW‐5 03/06/01 4 ‐ 19 2" PVC 216.66 22.3 7.35 209.31 MW‐6 02/21/07 15 ‐ 25 2" PVC 239.45 33.2 20.55 218.90 MW‐7 03/01/11 16 ‐ 26 2" PVC 248.73 28.6 13.58 235.15 MW‐811/06/13 16 ‐ 26 2" PVC 264.20 29.0 15.15 249.05 Notes: ft BGS = Feet below ground surface. ft BTOC = Feet below top of casing. ft MSL = Feet above mean sea level. NM = Not measured. Shotwell Construction & Demolition Debris Landfill Table 1 Monitoring Well Construction Data and Groundwater Elevations June 8, 2016 Measured Total Depth (ft BTOC) Depth to Water (ft BTOC) Water Level Elevation (ft MSL) Well ID Date Constructed Screen Interval per Well Logs (ft BGS) Top of Casing Elevation (ft MSL) Well Diameter and Material Wendell, North Carolina Table 2 Stabilized Groundwater Field Parameter Measurements MW‐1A* NM NM NM NM NM NM NM MW‐3A 3.0 16.3 4.77 0.067 0.0 0.62 332 MW‐4S 2.5 15.1 5.73 0.133 0.7 0.59 39 MW‐4D 2.0 15.8 6.06 0.408 2.0 1.04 123 MW‐5 2.5 15.9 5.19 0.063 7.0 0.00 582 MW‐6 3.0 15.6 5.58 0.071 2.5 0.47 25 MW‐7 2.5 13.9 4.80 0.048 4.6 0.00 560 MW‐8 2.5 15.1 5.73 0.172 6.4 0.00 236 Notes: C = Degrees celsius. STU = Standard units. mS/cm = Millisiemens per centimeter. NTU = Nephelometric Turbidity Units. mg/L = Milligrams per liter. mV = Millivolts. Shotwell Construction & Demolition Debris Landfill June 9 and 10, 2016 Sample ID Temperature (degrees C)pH (STU) Oxidation Reduction Potential (mV) Specific Conductivity (mS/cm) Wendell, North Carolina Turbidity (NTU) Dissolved Oxygen (mg/L) Volume Purged (Gallons) MW ‐1A M W ‐3A M W ‐4S M W ‐4D M W ‐5 Du p l i c a t e (M W ‐5) M W ‐6M W ‐7M W ‐8SW ‐1SW ‐2SW ‐3 An t i m o n y 6 1 5 . 6 < 0 . 2 2 0 < 0 . 2 2 0 < 0 . 2 2 0 < 0 . 2 2 0 0 . 3 0 9 J < 0 . 2 2 0 < 0 . 2 2 0 < 0 . 2 2 0 < 0 . 2 2 0 < 0 . 2 2 0 < 0 . 2 2 0 < 0 . 2 2 0 Ba r i u m 1 0 0 7 0 0 1 0 0 0 5 0 . 2 J 1 1 3 7 8 . 0 J 1 8 4 3 3 . 7 J 3 4 . 1 J 2 0 2 5 1 . 6 J 7 7 . 0 J 7 7 . 3 J 4 6 . 6 J 4 5 . 1 J Be r y l l i u m 1 4 6 . 5 0 . 3 6 2 J 2 . 0 1 0 . 3 3 6 J 0 . 1 8 6 J 0 . 4 9 2 J 0 . 5 1 0 J 2 . 2 9 0 . 2 5 7 J < 0 . 1 0 0 < 0 . 1 0 0 < 0 . 1 0 0 < 0 . 1 0 0 Ch l o r i d e N E 2 5 0 , 0 0 0 23 0 , 0 0 0 42 0 0 J 4 8 0 0 J 5 5 0 0 1 7 , 0 0 0 4 7 0 0 J N A 3 8 0 0 J 6 4 0 0 7 0 0 0 N A N A N A Ch l o r o f o r m 5 7 0 5 . 6 < 0 . 1 8 < 0 . 1 8 < 0 . 1 8 < 0 . 1 8 < 0 . 1 8 0 . 6 0 J < 0 . 1 8 < 0 . 1 8 < 0 . 1 8 < 0 . 1 8 < 0 . 1 8 < 0 . 1 8 Co b a l t 1 0 1 3 < 1 . 1 0 < 1 . 1 0 < 1 . 1 0 < 1 . 1 0 < 1 . 1 0 < 1 . 1 0 21 . 9 2 . 5 8 J 1 . 3 3 J 1.16 J < 1 . 1 0 < 1 . 1 0 Ir o n 3 0 0 3 0 0 1 0 0 0 72 0 <2 2 . 0 2 5 4 J 1 7 6 J < 2 2 . 0 < 2 2 . 0 53 7 0 <2 2 . 0 66 2 NA N A N A Ma n g a n e s e 5 0 5 0 2 0 0 9 . 2 8 J 2 5 . 1 J 2 9 . 9 J 24 2 26 . 6 J 2 9 . 3 J 68 3 33 . 3 J 14 7 NA N A N A Me r c u r y 0 . 2 1 0 . 0 1 2 < 0 . 1 7 0 < 0 . 1 7 0 < 0 . 1 7 0 < 0 . 1 7 0 0 . 1 7 2 J 0 . 2 1 1 0 . 7 2 8 < 0 . 1 7 0 < 0 . 1 7 0 N A N A N A Ni c k e l 5 0 1 0 0 2 5 < 2 . 2 0 < 2 . 2 0 < 2 . 2 0 < 2 . 2 0 < 2 . 2 0 < 2 . 2 0 3 . 6 5 J < 2 . 2 0 2 . 2 4 J < 2 . 2 0 < 2 . 2 0 < 2 . 2 0 Su l f a t e as SO 4 2 5 0 , 0 0 0 25 0 , 0 0 0 25 0 , 0 0 0 <2 9 0 0 1 8 , 0 0 0 J 3 6 , 0 0 0 J 1 3 0 , 0 0 0 J D <2 9 0 0 N A < 2 9 0 0 3 5 0 0 J 3 8 , 0 0 0 JNANANA Th a l l i u m 5 . 5 0 . 2 0 . 2 4 0 . 1 4 1 J < 0 . 1 1 0 < 0 . 1 1 0 < 0 . 1 1 0 < 0 . 1 1 0 < 0 . 1 1 0 0 . 1 7 0 J 0 . 1 2 6 J < 0 . 1 1 0 < 0 . 1 1 0 < 0 . 1 1 0 < 0 . 1 1 0 To t a l Al k a l i n i t y as Ca C O 3 NE N E N E < 1 4 , 0 0 0 < 1 4 , 0 0 0 2 7 , 0 0 0 9 7 , 0 0 0 2 5 , 0 0 0 N A 3 8 , 0 0 0 < 1 4 , 0 0 0 6 2 , 0 0 0 N A N A N A To t a l Di s s o l v e d So l i d s N E 5 0 0 , 0 0 0 NE 5 2 , 0 0 0 6 6 , 0 0 0 1 2 0 , 0 0 0 36 0 , 0 0 0 <5 0 , 0 0 0 N A 5 0 , 0 0 0 < 5 0 , 0 0 0 2 0 0 , 0 0 0 NA N A N A Va n a di um 2 5 0 .3 NE 1. 7 0 J <1 . 4 0 <1 . 4 0 <1 . 4 0 <1 . 4 0 <1 . 4 0 <1 . 4 0 <1 . 4 0 2 .82 J 1.93 J < 1 . 4 0 2 .45 J No t e s : Al l un i t s in mi c r o g r a m s pe r li t e r (u g / l ) . NC SW S L = NC So l i d Wa s t e Se c t i o n Lim i t . NC A C 2L St a n d a r d = NC Gr o u n d w a t e r Qu a l i t y St a n d a r d , or In t e r i m Ma x i m u m Al l o w a b l e Co n c e n t r a t i o n . NC A C 2B St a n d a r d = NC Su r f a c e Wa t e r Qu a l i t y St a n d a r d , or Na t i o n a l Cr i t e r i a pe r EP A . NE = No t es t a b l i s h e d . "< " = Co n c e n t r a t i o n is le s s th a n in d i c a t e d me t h o d de t e c t i o n li m i t . NA = No t an a l y z e d . J = Va l u e is be t w e e n me t h o d de t e c t i o n li m i t an d me t h o d re p o r t i n g li m i t . B = De t e c t e d in as s o c i a t e d me t h o d bl a n k . D = Sa m p l e wa s an a l y z e d at di l u t i o n . Sh a d e d / b o l d e d va l u e s ar e at or ab o v e th e NC 2L St a n d a r d fo r gr o u n d w a t e r , or th e NC 2B St a n d a r d fo r su r f a c e wa t e r . Sa m p l e ID Ta b l e 3 Su m m a r y of An a l y t i c a l Re s u l t s Sh o t w e l l Co n s t r u c t i o n & De m o l i t i o n De b r i s La n d f i l l Ju n e 9 an d 10 , 20 1 6 We n d e l l , No r t h Ca r o l i n a De t e c t e d Co n s t i t u e n t s NC SW S L NC A C 2L St a n d a r d , or IM A C NC A C 2B St a n d a r d , or EP A Surface Water Gr o u n d w a t e r Table 4 Historical Landfill Gas Monitoring Data Shotwell Construction Demolition Landfill Wendell, North Carolina Sample Sample Sample Sample Tube Time % CH4 Location Date Time Purge (sec.)Pumped (sec.)By Volume 7/14/2011 1100 >60 >60 0.0 0.0 21.0 0.1 10/11/2011 1040 >60 >60 0.0 0.0 20.7 0.0 12/8/2011 1400 >60 >60 0.0 0.0 21.0 0.1 3/8/2012 1125 >60 >60 0.0 0.0 20.8 0.26/12/2012 1600 >60 >60 0.0 0.0 20.3 0.112/7/2012 1000 >60 >60 0.0 0.0 21.4 0.2 9/18/2013 1130 >60 >60 0.0 0.0 19.9 0.1 12/17/2013 1220 >60 >60 0.0 0.0 20.8 0.13/11/2014 1035 >60 >60 0.0 0.0 20.7 0.16/3/2014 1240 >60 >60 0.0 0.0 19.9 0.19/17/2014 1105 >60 >60 0.0 0.0 20.7 0.1 12/15/2014 1225 >60 >60 0.0 0.0 21.0 0.1 3/31/2015 1330 >60 >60 0.0 0.0 21.1 0.06/23/2015 1000 >60 >60 0.0 0.0 21.0 0.19/16/2015 1305 >60 >60 0.0 0.0 20.2 0.112/14/2015 1125 >60 >60 0.0 0.0 20.4 0.2 3/15/2016 1145 >60 >60 0.0 0.0 20.6 0.1 6/8/2016 1540 >60 >60 0.0 0.0 20.9 0.0 6/20/2011 1150 >60 >120 0.1 2.0 14.9 7.4 10/11/2011 1105 >60 >120 0.0 0.0 14.3 8.212/8/2012 1440 >60 >120 0.0 0.0 15.2 8.73/8/2012 1150 >60 >120 0.2 5.0 15.1 8.2 6/12/2012 1215 >60 >60 0.0 0.0 8.1 13.7 6/18/2012 1030 >60 >60 0.0 0.0 14.1 8.9 11/19/2012 1130 >60 >60 0.0 0.0 21.6 0.0 12/7/2012 850 >60 >60 0.0 0.0 13.6 9.1 6/27/2013 1045 >60 >60 0.2 3.0 12.8 9.1 9/18/2013 1155 >60 >60 0.0 0.0 12.6 9.3 12/17/2013 1515 >60 >60 0.1 2.0 14.4 8.5 3/11/2014 1210 >60 >60 0.0 0.0 14.0 7.4 6/3/2014 1510 >60 >60 0.0 0.0 13.0 7.1 9/17/2014 1130 >60 >60 0.0 0.0 11.6 9.6 12/15/2014 1310 >60 >60 0.0 0.0 11.7 10.3 3/31/2015 1245 >60 >60 0.0 0.0 12.2 8.8 6/23/2015 1050 >60 >60 0.0 0.0 11.2 10.6 9/16/2015 1220 >60 >60 0.0 0.0 10.4 11.9 12/14/2015 1340 >60 >60 0.0 1.0 7.4 14.1 3/15/2016 1240 >60 >60 0.0 0.0 8.6 12.2 6/8/2016 1405 >60 >60 0.0 0.0 7.5 13.9 6/20/2011 1210 >60 >120 0.3 6.0 8.0 11.0 10/11/2011 1122 >60 >120 0.4 8.0 3.8 17.7 12/8/2011 1500 >60 >120 0.0 0.0 5.2 17.0 3/8/2012 1210 >60 >120 0.2 4.0 6.8 15.2 6/12/2012 1200 >60 >60 0.0 0.0 4.0 17.6 6/18/2012 1020 >60 >60 0.0 0.0 3.6 18.8 11/19/2012 1140 >60 >60 0.0 0.0 7.4 14.5 12/7/2012 900 >60 >60 0.0 0.0 4.5 17.3 6/27/2013 1035 >60 >60 0.1 2.0 4.0 16.5 9/18/2013 1210 >60 >60 0.0 0.0 16.7 3.3 12/17/2013 1500 >60 >60 0.0 0.0 5.3 16.6 3/11/2014 1205 >60 >60 0.0 0.0 7.1 13.3 6/3/2014 1520 >60 >60 0.0 0.0 3.6 14.6 9/17/2014 1135 >60 >60 0.0 0.0 2.7 18.7 12/15/2014 1320 >60 >60 0.0 0.0 2.9 18.4 3/31/2015 1230 >60 >60 0.0 0.0 5.2 14.5 6/23/2015 1100 >60 >60 0.0 0.0 3.7 17.0 9/16/2015 1125 >60 >60 0.0 0.0 4.5 18.4 12/14/2015 1348 >60 >60 0.0 0.0 3.1 18.3 3/15/2016 1250 >60 >60 0.0 0.0 4.0 15.5 6/8/2016 1420 >60 >60 0.0 0.0 1.5 17.7 6/20/2011 1223 >60 >120 0.5 9.0 12.1 3.1 10/11/2011 1138 >60 >120 2.0 40.0 3.3 10.1 12/8/2011 1515 >60 >120 0.0 1.0 21.0 0.4 3/8/2012 1230 >60 >120 2.1 42.0 6.1 9.3 6/12/2012 1100 >60 >60 5.5 110 0.7 12.0 6/18/2012 1010 >60 >60 5.8 116 0.7 13.2 6/21/2012 915 >60 >60 5.6 112 0.6 12.5 6/22/2012 925 >60 >60 5.9 118 0.7 12.7 8/23/2012 1555 >120 >120 2.4 48.0 9.8 8.1 10/16/2012 1125 >120 >120 3.8 76.0 10.1 8.2 11/19/2012 1111 >60 >60 3.8 76.0 6.7 11.7 12/7/2012 905 >60 >60 6.9 138 0.5 15.7 1/22/2013 1130 >60 >60 2.7 54.0 0.9 14.9 2/15/2013 1135 >60 >60 2.4 49.0 2.3 14.3 3/15/2013 1020 >60 >60 0.0 0.0 20.6 0.6 4/17/2013 1000 >60 >60 0.0 0.0 20.6 0.0 6/27/2013 1020 >60 >60 0.9 19.0 1.5 16.4 9/18/2013 1220 >60 >60 0.6 13.0 17.2 2.6 12/17/2013 1450 >60 >60 1.1 22.0 15.4 5.3 3/11/2014 1225 >60 >60 0.0 1.0 16.4 3.3 6/3/2014 1555 >60 >60 0.7 14.0 13.7 4.9 9/17/2014 1145 >60 >60 1.3 27.0 15.0 5.1 12/15/2014 1340 >60 >60 6.0 120 0.0 20.4 3/31/2015 1200 >60 >60 0.0 0.0 6.0 13.7 6/23/2015 1120 >60 >60 12.6 252 0.0 19.8 9/16/2015 1140 >60 >60 16.5 330 0.0 24.0 12/14/2015 1415 >60 >60 12.6 252 0.0 24.0 3/15/2016 1345 >60 >60 6.3 126 0.0 21.1 6/8/2016 1445 >60 >60 24.7 494 0.1 25.2 LG‐2 LG‐3 % LEL % O2 % CO2 Scale House LG‐1 Page 1 of 3 Table 4 Historical Landfill Gas Monitoring Data Shotwell Construction Demolition Landfill Wendell, North Carolina Sample Sample Sample Sample Tube Time % CH4 Location Date Time Purge (sec.)Pumped (sec.)By Volume % LEL % O2 % CO2 6/20/2011 1234 >60 >120 0.2 4.0 18.7 1.1 10/11/2011 1153 >60 >120 0.0 0.0 18.7 2.9 12/8/2011 1530 >60 >120 0.2 4.0 16.0 5.6 3/8/2012 1250 >60 >120 1.2 24.0 2.7 11.6 6/12/2012 1030 >60 >60 12.6 252 0.1 13.2 6/18/2012 1000 >60 >60 12.9 258 0.4 14.1 6/21/2012 930 >60 >60 11.5 230 1.8 12.2 6/22/2012 940 >60 >60 8.5 170 7.6 8.1 8/23/2012 1535 >120 >120 20.9 418 0.0 16.3 10/16/2012 1255 >120 >120 7.2 144 15.7 4.4 11/19/2012 1200 >60 >60 27.4 548 21.3 15.3 12/7/2012 940 >60 >60 39.5 790 0.5 15.0 1/22/2013 1140 >60 >60 29.4 588 0.4 14.1 2/15/2013 1055 >60 >60 29.6 594 0.2 14.2 3/15/2013 1010 >60 >60 31.7 634 0.0 14.5 4/17/2013 1020 >60 >60 23.4 468 4.7 10.8 6/27/2013 1100 >60 >60 34.0 680 0.1 18.0 9/18/2013 1310 >60 >60 38.3 766 0.0 21.6 12/17/2013 1430 >60 >60 40.3 806 0.0 19.9 3/11/2014 1235 >60 >60 30.1 602 1.4 16.1 6/3/2014 1625 >60 >60 29.4 588 0.0 20.2 9/17/2014 1210 >60 >60 37.5 750 0.0 26.4 12/15/2014 1405 >60 >60 37.0 740 0.0 23.9 3/31/2015 1115 >60 >60 27.8 556 0.6 20.7 6/23/2015 1150 >60 >60 32.8 656 0.1 25.4 9/16/2015 1210 >60 >60 23.6 472 0.0 29.0 12/14/2015 1435 >60 >60 27.9 558 0.0 27.9 3/15/2016 1415 >60 >60 25.8 516 0.0 23.4 6/8/2016 1555 >60 >60 21.1 422 0.8 26.6 6/20/2011 1410 >60 >120 0.0 0.0 16.7 4.4 10/11/2011 1212 >60 >120 0.3 5.0 16.0 5.4 12/8/2011 1545 >60 >120 0.0 0.0 16.9 5.4 3/8/2012 1310 >60 >120 0.0 0.0 16.6 5.0 6/12/2012 900 >60 >60 0.0 0.0 16.0 5.3 6/18/2012 1100 >60 >60 0.0 0.0 16.5 5.5 11/19/2012 1055 >60 >60 0.0 0.0 20.5 2.2 12/7/2012 950 >60 >60 0.0 0.0 16.9 5.2 6/27/2013 955 >60 >60 0.2 3.0 16.1 5.2 9/18/2013 1320 >60 >60 0.0 0.0 15.2 5.8 12/17/2013 1355 >60 >60 0.0 1.0 15.8 9.0 3/11/2014 1130 >60 >60 0.0 0.0 15.5 5.3 6/3/2014 1655 >60 >60 0.0 0.0 14.7 5.2 9/17/2014 1220 >60 >60 0.0 0.0 14.2 6.3 12/15/2014 1425 >60 >60 0.0 0.0 14.6 6.9 3/31/2015 1100 >60 >60 0.0 0.0 13.9 6.8 6/23/2015 1155 >60 >60 0.0 0.0 13.8 6.1 9/16/2015 1230 >60 >60 0.0 0.0 14.7 6.6 12/14/2015 1253 >60 >60 0.0 0.0 13.7 7.1 3/15/2016 1225 >60 >60 0.0 0.0 14.2 6.1 6/8/2016 1610 >60 >60 0.0 0.0 13.8 6.5 6/20/2011 1423 >60 >120 0.0 0.0 15.9 3.5 10/11/2011 1230 >60 >120 0.0 0.0 13.8 7.3 12/8/2011 1655 >60 >120 0.0 0.0 15.0 7.3 3/8/2012 1325 >60 >120 0.0 0.0 15.6 5.9 6/12/2012 1400 >60 >60 0.0 0.0 14.9 6.3 6/18/2012 1115 >60 >60 0.0 0.0 15.6 6.8 11/19/2012 950 >60 >60 0.0 0.0 21.4 6.3 12/7/2012 1005 >60 >60 0.0 0.0 18.0 4.2 6/27/2013 1035 >60 >60 0.2 3.0 14.9 6.4 9/18/2013 1335 >60 >60 0.0 0.0 16.6 4.8 12/17/2013 1230 >60 >60 0.0 0.0 15.6 5.8 3/11/2014 1045 >60 >60 0.0 0.0 15.2 5.9 6/3/2014 1250 >60 >60 0.0 0.0 13.4 6.9 9/17/2014 1225 >60 >60 0.0 0.0 11.5 9.1 12/15/2014 1235 >60 >60 0.0 0.0 14.6 6.9 3/31/2015 1330 >60 >60 0.0 0.0 13.2 17.5 6/23/2015 1400 >60 >60 0.0 0.0 12.3 8.2 9/16/2015 1300 >60 >60 0.0 0.0 11.9 8.9 12/14/2015 1132 >60 >60 0.0 0.0 11.9 9.0 3/15/2016 1155 >60 >60 0.0 0.0 12.6 7.7 6/8/2016 1620 >60 >60 0.0 0.0 12.4 8.1 6/20/2011 1437 >60 >120 0.0 0.0 13.0 3.1 10/11/2011 1355 >60 >120 0.8 17.0 10.0 6.9 12/8/2011 1635 >60 >120 0.0 0.0 10.9 6.6 3/8/2012 1335 >60 >120 0.0 0.0 9.0 6.7 6/12/2012 1500 >60 >60 0.0 0.0 7.0 8.8 6/18/2012 1130 >60 >60 0.0 0.0 7.6 9.1 11/19/2012 1010 >60 >60 0.0 0.0 18.0 2.4 12/7/2012 1035 >60 >60 0.0 0.0 11.7 6.2 6/27/2013 830 >60 >60 0.2 3.0 3.2 12.6 9/18/2013 1350 >60 >60 0.0 0.0 3.3 12.9 12/17/2013 1245 >60 >60 0.1 1.0 6.7 10.0 3/11/2014 1100 >60 >60 0.7 14.0 1.2 13.8 6/3/2014 1310 >60 >60 0.3 7.0 0.0 14.8 9/17/2014 1235 >60 >60 0.7 15.0 0.2 16.2 12/15/2014 1435 >60 >60 0.7 15.0 0.0 17.3 3/31/2015 1315 >60 >60 1.3 27.0 0.5 15.1 6/23/2015 1345 >60 >60 1.5 29.0 0.1 16.2 9/16/2015 1250 >60 >60 1.0 20.0 0.0 18.4 12/14/2015 1141 >60 >60 1.7 35.0 0.0 18.7 3/15/2016 1205 >60 >60 1.5 29.0 0.0 16.2 6/8/2016 1625 >60 >60 1.4 28.0 0.1 17.1 LG‐7 LG‐4 LG‐5 LG‐6 Page 2 of 3 Table 4 Historical Landfill Gas Monitoring Data Shotwell Construction Demolition Landfill Wendell, North Carolina Sample Sample Sample Sample Tube Time % CH4 Location Date Time Purge (sec.)Pumped (sec.)By Volume % LEL % O2 % CO2 6/20/2011 1500 >60 >120 0.0 1.0 15.1 3.5 10/11/2011 1420 >60 >120 1.3 27.0 11.9 8.5 12/8/2011 1615 >60 >120 0.1 3.0 13.6 8.7 3/8/2012 1350 >60 >120 0.4 9.0 11.1 8.4 6/12/2012 1530 >60 >60 0.3 6.0 9.8 10.7 6/18/2012 1145 >60 >60 0.3 6.0 9.8 10.7 11/19/2012 1045 >60 >60 0.3 6.0 12.8 8.9 12/7/2012 1020 >60 >60 0.4 8.0 11.3 9.4 6/27/2013 930 >60 >60 0.4 8.0 7.5 11.1 9/18/2013 1440 >60 >60 0.2 4.0 7.5 10.6 12/17/2013 1300 >60 >60 0.1 2.0 8.5 10.0 3/11/2014 1110 >60 >60 0.0 1.0 7.0 11.1 6/3/2014 1330 >60 >60 0.0 0.0 5.7 11.5 9/17/2014 1305 >60 >60 0.0 0.0 17.0 1.0 12/15/2014 1450 >60 >60 0.0 0.0 6.1 7.6 3/31/2015 1300 >60 >60 0.0 0.0 6.4 7.3 6/23/2015 1335 >60 >60 0.8 15.0 0.3 10.5 9/16/2015 1240 >60 >60 1.7 35.0 0.4 12.0 12/14/2015 1210 >60 >60 1.3 27.0 1.1 13.2 3/15/2016 1215 >60 >60 0.8 14.0 0.7 12.8 6/8/2016 1640 >60 >60 1.1 23.0 0.0 13.9 10/16/2012 1135 >120 >120 0.0 0.0 17.5 3.7 11/19/2012 1130 >60 >60 0.0 0.0 20.6 1.6 12/7/2012 915 >60 >60 0.0 0.0 17.3 4.6 1/22/2013 1125 >60 >60 0.0 0.0 17.4 4.3 2/15/2013 1040 >60 >60 0.0 0.0 16.6 4.7 3/15/2013 1025 >60 >60 0.0 0.0 16.7 4.6 4/17/2013 950 >60 >60 0.0 0.0 15.6 4.7 6/27/2013 1030 >60 >60 0.2 3.0 14.9 5.6 9/18/2013 1240 >60 >60 0.0 0.0 13.0 6.6 12/17/2013 1445 >60 >60 0.0 0.0 15.0 6.2 3/11/2014 1155 >60 >60 0.0 0.0 14.4 5.4 6/3/2014 1545 >60 >60 0.0 0.0 13.3 5.2 9/17/2014 1150 >60 >60 0.0 0.0 12.0 6.9 12/15/2014 1335 >60 >60 0.0 0.0 12.9 7.2 3/31/2015 1215 >60 >60 0.0 0.0 12.1 6.2 6/23/2015 1130 >60 >60 0.0 0.0 11.7 6.2 9/16/2015 1130 >60 >60 0.0 0.0 12.1 8.0 12/14/2015 1410 >60 >60 0.0 0.0 12.3 7.8 3/15/2016 1340 >60 >60 0.0 0.0 12.2 6.4 6/8/2016 1440 >60 >60 0.0 0.0 11.7 6.7 10/16/2012 1155 >120 >120 0.0 0.0 18.8 2.6 11/19/2012 1145 >60 >60 0.0 0.0 18.0 4.5 12/7/2012 925 >60 >60 0.0 0.0 15.3 6.8 1/22/2013 1115 >60 >60 0.0 0.0 14.6 6.9 2/15/2013 1025 >60 >60 0.0 0.0 14.3 6.8 3/15/2012 1032 >60 >60 0.0 0.0 20.2 0.6 4/17/2013 1007 >60 >60 0.0 0.0 14.0 6.4 6/27/2013 1050 >60 >60 0.2 3.0 12.0 7.5 9/18/2013 1250 >60 >60 0.0 0.0 19.0 1.1 12/17/2013 1435 >60 >60 0.0 0.0 11.4 9.0 3/11/2014 1145 >60 >60 0.0 0.0 11.3 7.4 6/3/2014 1610 >60 >60 0.0 0.0 9.8 7.6 9/17/2014 1200 >60 >60 0.0 0.0 9.5 9.3 12/15/2014 1350 >60 >60 0.0 0.0 10.1 9.7 3/31/2015 1145 >60 >60 0.0 0.0 10.4 8.0 6/23/2015 1140 >60 >60 0.0 0.0 9.2 8.3 9/16/2015 1150 >60 >60 0.0 0.0 10.2 9.8 12/14/2015 1423 >60 >60 0.0 0.0 9.5 9.8 3/15/2016 1355 >60 >60 0.0 0.0 8.7 7.9 6/8/2016 1455 >60 >60 0.2 4.0 7.9 8.7 10/16/2012 1210 >120 >120 0.0 0.0 17.2 3.2 11/19/2012 1130 >60 >60 0.0 0.3 21.6 0.0 12/7/2012 1000 >60 >60 0.0 0.0 21.4 0.2 1/22/2013 1110 >60 >60 0.0 0.0 21.1 0.2 2/15/2013 1050 >60 >60 0.0 0.0 21.5 0.3 3/15/2013 1012 >60 >60 0.0 0.0 20.7 0.3 4/17/2013 1013 >60 >60 0.0 0.0 17.7 2.4 6/27/2013 1110 >60 >60 0.1 0.2 12.1 6.6 9/18/2013 1300 >60 >60 0.0 0.0 16.4 2.8 12/17/2013 1420 >60 >60 0.0 0.0 20.2 0.8 3/11/2014 1140 >60 >60 0.0 0.0 20.2 0.2 6/3/2014 1620 >60 >60 0.0 0.0 9.5 5.7 9/17/2014 1205 >60 >60 0.0 0.0 9.0 7.3 12/15/2014 1400 >60 >60 0.0 0.0 8.2 7.9 3/31/2015 1130 >60 >60 0.0 0.0 12.5 4.7 6/23/2015 1155 >60 >60 0.0 0.0 8.0 7.0 9/16/2015 1200 >60 >60 0.0 0.0 13.4 4.5 12/14/2015 1430 >60 >60 0.0 0.0 9.9 7.3 3/15/2016 1405 >60 >60 0.0 0.0 12.4 4.6 6/8/2016 1550 >60 >60 0.0 0.0 10.4 5.3 CH4 = Methane; O2 = Oxygen; CO2 = Carbon Dioxide; LEL = Lower Explosive Limit 5% CH4 = 100% LEL Landfill gas data were collected using a calibrated Landtec GEM 2000, or GEM 2000 Plus. Shaded/bolded values indicated greater than 100% LEL (greater than 5% methane). LG‐11 LG‐8 LG‐8R LG‐9 LG‐10 Page 3 of 3 Table 5 Groundwater Velocity Data MW‐4D 5.15E‐03 0.28 NA NA NA 0.020 1.14E‐05 0.016 0.083 4.75E‐05 0.068 Notes: NA = Not available. MW‐4D is the only deep well on site. Velocity calculated from: V=KI/n. Hydraulic conductivity results from slug testing. Effective porosity estimated from McWorter & Sunada (1977). Hydraulic gradient from Figure 1. MW‐5 1.43E‐04 0.25 Shotwell Constructon & Demolition Debris Landfill Well ID Hydraulic Conductivity (K) (ft/min) Effective Porosity (n) (%) Velocity (V) (ft/day) Hydraulic Gradient (I) (ft/ft) Velocity (V) (ft/min) Wendell, North Carolina APPENDICES APPENDIX A FIELD SAMPLE COLLECTION RECORDS APPENDIX B LANDFILL GAS MONITORING DATA FORMS APPENDIX C LABORATORY ANALYTICAL REPORT Page 1 of 77 Page 2 of 77 Page 3 of 77 Page 4 of 77 Page 5 of 77 Page 6 of 77 Page 7 of 77 Page 8 of 77 Page 9 of 77 Page 10 of 77 Page 11 of 77 Page 12 of 77 Page 13 of 77 Page 14 of 77 Page 15 of 77 Page 16 of 77 Page 17 of 77 Page 18 of 77 Page 19 of 77 Page 20 of 77 Page 21 of 77 Page 22 of 77 Page 23 of 77 Page 24 of 77 Page 25 of 77 Page 26 of 77 Page 27 of 77 Page 28 of 77 Page 29 of 77 Page 30 of 77 Page 31 of 77 Page 32 of 77 Page 33 of 77 Page 34 of 77 Page 35 of 77 Page 36 of 77 Page 37 of 77 Page 38 of 77 Page 39 of 77 Page 40 of 77 Page 41 of 77 Page 42 of 77 Page 43 of 77 Page 44 of 77 Page 45 of 77 Page 46 of 77 Page 47 of 77 Page 48 of 77 Page 49 of 77 Page 50 of 77 Page 51 of 77 Page 52 of 77 Page 53 of 77 Page 54 of 77 Page 55 of 77 Page 56 of 77 Page 57 of 77 Page 58 of 77 Page 59 of 77 Page 60 of 77 Page 61 of 77 Page 62 of 77 Page 63 of 77 Page 64 of 77 Page 65 of 77 Page 66 of 77 Page 67 of 77 Page 68 of 77 Page 69 of 77 Page 70 of 77 Page 71 of 77 Page 72 of 77 Page 73 of 77 Page 74 of 77 Page 75 of 77 Page 76 of 77 Page 77 of 77