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Home My WebLink About6019_MecklenburgFoxHole_GWMR_DIN27956_20160504May 2016 Semi-Annual Monitoring Report Foxhole Landfill - Permit # 60-19 Charlotte, North Carolina S&ME Project No. 1356-07-003 Prepared for: Mecklenburg County LUESA 700 North Tryon Street Charlotte, North Carolina 28202 Prepared by: S&ME, Inc. 9751 Southern Pine Boulevard Charlotte, NC 28273 August 1, 2016 S&ME, Inc. | 9751 Southern Pine Boulevard | Charlotte, NC 28273 | p 704.523.4726 | f 704.525.3953 | www.smeinc.com August 1, 2016 Mecklenburg County LUESA 700 North Tryon Street Charlotte, North Carolina 28202 Attention:Amber Grzymski Reference:May 2016 Semi-Annual Monitoring Report Foxhole Landfill - Permit # 60-19 Charlotte, North Carolina S&ME Project No. 1356-07-003 Dear Ms. Grzymski: S&ME Inc. (S&ME) has completed the May 2016 Semi-Annual Monitoring and Reporting for Mecklenburg County’s Foxhole Landfill. This report presents the results of the first monitoring event of the year for the facility. S&ME appreciates the continued opportunity to provide services to you and Mecklenburg County. If you have any questions or need additional information regarding this report, please contact Ed Henriques at (336) 553-1209. Sincerely, S&ME, Inc. Amanda Bloom Edmund Q.B. Henriques, L.G. Staff Professional Project Manager/Senior Geologist NC Geology License No. C-145 cc: Jaclynne Drummond, NCDENR – Solid Waste Section May 2016 Semi-Annual Monitoring Report Foxhole Landfill - Permit # 60-19 Charlotte, North Carolina S&ME Project No. 1356-07-003 August 1, 2016 ii Table of Contents 1.0 Introduction............................................................................................................1 2.0 Groundwater Levels and Flow............................................................................1 3.0 Analytical Data ......................................................................................................1 3.1 Monitoring Well Sampling..............................................................................................2 3.1.1 Volatile Organic Compounds..............................................................................................2 3.1.2 Metals..................................................................................................................................2 3.2 Surface Water Sampling..................................................................................................2 3.2.1 Volatile Organic Compounds..............................................................................................2 3.2.2 Metals..................................................................................................................................3 4.0 Statistical Analysis................................................................................................3 Appendices Appendix I – Drawings Appendix II – Tables Appendix III – Well Sampling Logs and Laboratory Reports Appendix IV – Statistical Analysis Procedure Sheets May 2016 Semi-Annual Monitoring Report Foxhole Landfill - Permit # 60-19 Charlotte, North Carolina S&ME Project No. 1356-07-003 August 1, 2016 1 1.0 Introduction S&ME, Inc. (S&ME) was contracted by Mecklenburg County to provide groundwater and surface water monitoring services at the Highway 521 Landfill “Foxhole” located at 17131 Lancaster Highway in Charlotte, North Carolina. This monitoring event was conducted on May 4 and 5, 2016. This report presents the results of the first monitoring event for the year 2016 at the facility, which included the sampling of one (1) background groundwater monitoring well (MW-1R), ten (10) compliance groundwater monitoring wells (MW-2R, MW-3, MW-7, MW-8, MW-10, MW-10A, MW-11, MW-11A, MW- 12, and MW-13), and two (2) surface water locations (SW-1 and SW-2). Please note that five (5) compliance wells (MW-4, MW-5, MW-6, MW-6A and MW-9) were abandoned in 2011 and 2012 as part of the Phase 2 landfill expansion. The next monitoring event is scheduled for November 2016. 2.0 Groundwater Levels and Flow The water table elevations and our interpretation of the groundwater surface expressed as a potentiometric map along with groundwater flow direction are shown on Drawing 1 of 1 located in Appendix I – Drawings. Based upon the groundwater elevations in the vicinity of the landfill, groundwater in this area is projected to flow from west to east toward Two-Mile Creek. Groundwater levels obtained during the May 2016 monitoring event, as well as monitoring well construction data, are presented in Table 1 located in Appendix II – Tables. The hydraulic gradient (i) in the vicinity of each well was estimated by calculating the vertical difference between the groundwater elevation at each well and one or more nearby contour lines from Drawing 1 of 1 - Groundwater Surface Map. This value was then divided by the horizontal distance measured from the well to the selected groundwater elevation contour line. Groundwater velocity was calculated by multiplying the gradient (i) by the hydraulic conductivity (k) and dividing by the estimated effective porosity (ne) of the aquifer.Table 2 in Appendix II summarizes the groundwater flow rates for the monitoring wells. 3.0 Analytical Data Analytical results for the landfill monitoring wells are summarized in Table 4 in Appendix II. Groundwater detections at or above the 15A NCAC 2L .0202 Groundwater Standards (2L Standards) and/or Solid Waste Groundwater Protection Standards (SW GWP Standards) are highlighted in gray. Field measurements of pH, conductivity, and temperature are summarized in Table 3 in Appendix II. Well sampling logs containing this information are included in Appendix III. Analytical results for the surface water sampling locations are summarized in Table 5 in Appendix II. Surface water detections at or above the 15A NCAC 2B Freshwater Standards (2B Standards) are highlighted in gray. The monitoring wells and surface water locations were sampled for Appendix I volatile organic compounds and metals. May 2016 Semi-Annual Monitoring Report Foxhole Landfill - Permit # 60-19 Charlotte, North Carolina S&ME Project No. 1356-07-003 August 1, 2016 2 3.1 Monitoring Well Sampling 3.1.1 Volatile Organic Compounds Chloroform was detected in groundwater monitoring well MW-7 at a concentration of 2.7 J micrograms per liter (ug/L), which is less than the 2L Standard of 70 µg/L. Due to the proximity of monitoring well MW-7 to a sewer line, it is likely that the detection of chloroform is not from a release from the landfill, but from the adjacent sewer line. 3.1.2 Metals One or more inorganic constituents (metals) were detected in each of the groundwater monitoring wells sampled. Concentrations of antimony, barium, beryllium, copper, nickel, and zinc were detected at concentrations less than their respective 2L Standard and SW GWP Standard. Chromium was detected at a 23.0 µg/L in compliance monitoring well MW-10A, a concentration greater than its respective 2L Standard of 10 µg/L. Cobalt was detected at above its respective SW GWP Standard of 1 µg/L in compliance groundwater monitoring wells MW-2R and MW-10 at concentrations of 5.09 J µg/L and 1.22 J µg/L, respectively. It is important to point out that cobalt was also detected in background well MW-1R at a concentration of 1.22 J µg/L, which also exceeds the published SW GPS Standard of 1 µg/L. Cobalt has generally been detected in this background well since monitoring commenced in 1999. Vanadium was at concentrations greater than its respective GWP ST standard of 0.3 µg/L in compliance groundwater monitoring wells MW-3, MW-10, MW-10A, MW-11A, MW-12, and MW-13 at concentrations ranging from 1.94 J to 17.0 J µg/L. It is important to point out that vanadium was also detected in background well MW-1R at a concentration of 5.56 J µg/L, which is greater than the published SW GPS Standard of 0.3 µg/L. Vanadium has been detected frequently in this background well since monitoring commenced in 1999. The metals detected in the monitoring wells during the May 2016 monitoring event are summarized in Table 4 in Appendix II. Based on previous metals concentrations in the background groundwater monitoring well MW-1/1R, it appears that the metals concentrations are from naturally occurring dissolved metals extracted from suspended solids (silts and clays) collected during sample extraction rather than an anthropogenic source. 3.2 Surface Water Sampling 3.2.1 Volatile Organic Compounds No volatile organic compounds were detected in the surface water samples during the May 2016 sampling event. May 2016 Semi-Annual Monitoring Report Foxhole Landfill - Permit # 60-19 Charlotte, North Carolina S&ME Project No. 1356-07-003 August 1, 2016 3 3.2.2 Metals Two or more inorganic constituents (metals) were detected in the surface water samples. Concentrations of barium, chromium, vanadium, and zinc were detected in both surface water samples at concentrations below their respective 2B Standard. Copper was detected in both surface water samples at concentratio7ns that appear to be greater than the 2B Standards. Based on the groundwater analytical results for compliance wells, these detections of copper are not thought to be related to a release from the facility’s landfill unit. 4.0 Statistical Analysis S&ME compared the water quality data with the 2L Standards and the SW GWP standards and performed a statistical evaluation of the data. S&ME utilized three statistical methods to evaluate statistically significant increases between the compliance monitoring wells and the background monitoring well (MW- 1/1R). The first method utilized was a one-way parametric Analysis of Variance (Parametric ANOVA). The parametric ANOVA analysis is recommended by the 1992 guidance document for parameters with fewer than 15% non-detects in a specific well. The second method used was the Kruskal-Wallis non-parametric rank method. The Kruskal-Wallis method is recommended by the 1992 guidance document for parameters that have 15% to 90% non- detects in a specific well. The third method used was an inter-well non-parametric prediction limit. The prediction limit was used for parameters with greater than 90% non-detects in a specific well. The 1992 guidance document recommends this method when a significant portion of the samples are non-detect. Table 6 in Appendix II summarizes the results of the statistical analysis. Please note that Chloroform showed a statistical increase over background in compliance monitoring well MW-7. As discussed above in Section 3.1.1, detections of Chloroform in monitoring well MW-7 are likely due to MW-7’s proximity to an adjacent sewer line and not a release from the landfill. Copies of the analytical procedures used to perform the analysis used by the ChemStat software are included in Appendix IV. It is important to point out that time vs concentrations charts for concentrations of vanadium in wells MW-3, MW-10, MW-10A, MW-11A, MW-12, and MW-13 in MW-10A generally depict stable or declining concentrations over time. These observations are further supported by Mann-Kendall trend analyses indicating no evidence of an upward trend for vanadium concentrations over time in these wells. The historical concentrations of vanadium in MW-10A are likely indicative of turbidity in the well. The majority of the wells on site have historically had detections of vanadium above the published 2L standard concentration, including background monitoring well MW-1R. Time vs concentrations charts for cobalt in wells MW-2R and MW-10 generally depict stable or declining concentrations over time, which is further supported by Mann-Kendall trend analyses indicating no evidence of an upward trend in these wells. May 2016 Semi-Annual Monitoring Report Foxhole Landfill - Permit # 60-19 Charlotte, North Carolina S&ME Project No. 1356-07-003 August 1, 2016 4 Mann-Kendall trend analysis of chromium in MW-10, indicated evidence of an upward trend. The historic concentrations of chromium in well MW-10 exhibit noteworthy variability, likely related to differences in turbidity in the well during sample collection. It is noted that the 2L Standards do not apply to sediment or other particulate matter preserved in groundwater samples as a result of groundwater sample collection procedures or well construction issues. The presence of cobalt and vanadium in the background well coupled with no evidence of upward trends for these constituents provides evidence of their natural occurrence in the facility’s groundwater. 15A NCAC 02L .0202 contains a provision for instances where a naturally occurring substances exceed the published standards, such that standard shall be the naturally occurring concentration. Appendices Appendix I – Drawings L L L L L PHASE 1, CELL 2(AS-BUILT) P H A S E 1 , C E L L 1 ( A S B U I L T ) P H A S E 2 PROJECT NUMBER: DATE:F I G U R E N O . SCALE: DRAWN BY: CHECKED BY:DRAWING NUMBER:WWW.SMEINC.COM 3201 SPRING FOREST RD, RALEIGH, NC 27616 NC ENGINEER LICENSE #F-0176 1 BTR1356-07-003 JULY 20161" = 300' FOXHOLE LANDFILL (PERMIT #60-19) CHARLOTTE, NORTH CAROLINA GROUNDWATER CONTOUR MAP - MAY 2016 B-2613 3 0 0 6 0 0 ( I N F E E T ) G R A P H I C S C A L E 0 ( I N F E E T ) G R A P H I C S C A L E Q:\PROJECTS\2007\1356-07-003\CAD\B2613.dwg, FIG1, 8/1/2016 11:52:23 AM, 1:1 Appendix II – Tables LATITUDE LONGITUDE GROUND TOH DTW - TOH GW ELEV. (MM/DD/YY)(ft)(ft-MSL) MW-1R 03/23/09 35.0164638° -080.8495912° 687.40 690.65 +3 .00 to 33.0 33.0 to 48.0 0.0 to 29.0 29.0 to 31.0 #2 31.0 to 48.0 SAP 32.47 658.18 MW-2R 02/16/10 35.0129978° -080.8487614° 660.90 663.80 +2.90 to 20.0 20.0 to 35.0 0.0 to 16.0 16.0 to 18.0 #2 18.0 to 35.0 SAP 28.67 635.13 MW-3 03/19/99 35.0162047° -080.8459443° 641.68 644.08 +2.25 to 10.0 10.0 to 25.0 0.0 to 5.0 5.0 to 8.0 #1 8.0 to 25.0 SAP 16.67 627.41 MW-7 03/16/99 35.0168592° -080.8441975° 634.81 637.90 +2.86 to 10.0 10.0 to 25.0 0.0 to 5.0 5.0 to 7.0 #1 7.0 to 25.0 SAP 21.90 616.00 MW-8 03/08/99 35.0160863° -080.8419354° 618.90 620.19 +2.35 to 10.0 10.0 to 25.0 0.0 to 5.0 5.0 to 8.0 #1 8.0 to 25.0 SAP 18.42 601.77 MW-10 04/02/99 35.0148756° -080.8403383° 624.23 627.03 +2.65 to 25.0 25.0 to 40.0 0.0 to 21.0 21.0 to 23.0 #1 23.0 to 40.0 SAP 31.72 595.31 MW-10A 03/31/99 35.0148756° -080.8403383° 624.30 627.32 +2.65 to 55.0 55.0 to 60.0 0.0 to 50.0 50.0 to 53.0 #1 53.0 to 60.0 SAP 32.25 595.07 MW-11 03/06/99 35.0133929° -080.8392855° 593.53 595.67 +1.47 to 7.0 7.0 to 22.0 0.0 to 3.0 3.0 to 5.0 #1 5.0 to 22.0 SAP 9.06 586.61 MW-11A 02/26/99 35.0133929° -080.8392855° 594.12 596.38 +1.62 to 40.0 40.0 to 45.0 0.0 to 36.0 36.0 to 38.0 #1 38.0 to 45.0 SAP 10.19 586.19 MW-12 10/02/12 35.0105705° -080.8450554° 633.10 636.07 +2.94 to 15.7 15.7 to 30.7 0.0 to 11.0 11.0 to 14.0 #2 14.0 to 31.2 SAP 18.62 617.45 MW-13 10/03/12 35.0122690° -080.8405290° 619.30 622.36 +3.04 to 23.0 23.0 to 38.0 0.0 to 18.0 18.0 to 21.0 #2 21.0 to 38.5 SAP 25.70 596.66 Notes: (ft-MSL)Feet Mean Sea Level #1 Filter Sand Fine to Very Fine Grained Silica Sand (ft-bls)Feet Below Land Surface Bentonite Bentonite Pellets TOH Top of Hinge Sch. 40 Schedule 40 Pipe Ground Ground Surface 0.010 Slot 0.010-Inch Machine-Slotted Pipe DTW Depth to Water Neat Cement Cement Mixture without Bentonite GW ELEV.Groundwater Elevation NA Not Available #2 Filter Sand Medium to Fine Grained Silica Sand SAP Saprolite The "A" suffix on the well locations indicates the deep well of the pair. May 2016 2-INCH, SCH. 40, PVC 2-INCH, 0.010 SLOT, PVC NEAT CEMENT BENTONITE (decimal degrees)(ft-MSL)(ft-bls)(ft-bls)(ft-bls) SCREEN INTERVAL GROUT INTERVAL SEAL INTERVAL FILTER PACK SIZE FILTER PACK INTERVAL GEOLOGY IN SCREEN INTERVAL(ft-bls)(ft-bls) Table 1 Well Construction Summary and Water Level Data Mecklenburg County Highway 521 Landfill - Foxhole S&ME Project No: 1356-07-003 WELL ID INSTALL DATE GPS COORDINATES SURVEY ELEVATIONS CASING INTERVAL Table 2 May 2016 - Groundwater Flow Velocity Mecklenburg County Highway 521 Landfill "Foxhole" Permit # 60-19 S&ME Project No. 1356-07-003 Well Identification Hydraulic Conductivity (K) ft/yr Effective Porosity (n e) % Hydraulic Gradient (i) ft/ft Seepage Velocity (v) ft/yr 6019 MW-1R 3.3E+02 0.15 0.030 66 6019 MW-2R 6.6E+02 0.13 0.030 152 6019 MW-3 3.6E+02 0.09 0.030 118 6019 MW-7 1.3E+03 0.20 0.030 192 6019 MW-8 1.6E+03 0.20 0.021 171 6019 MW-10 5.0E+02 0.23 0.014 31 6019 MW-11 1.9E+02 0.25 0.011 8 6019 MW-12 3.1E+02 0.27 0.014 16 6019 MW-13 2.8E+03 0.25 0.015 166 Notes: (1) Hydraulic Conductivity was calculated from slug tests performed after well construction. (2) Effective porosity was estimated from soils collected within the saturated portion of screen interval during well construction (3) Hydraulic gradient calculated by measuring linear feet between selected contour intervals. (4) Seepage velocity v = (K*i)/n e Well ID DTW TOH (ft-bls) pH Temp (°C) Conductanc e (μS) 6019 MW-1R 32.47 5.93 17.8 61 6019 MW-2R 28.67 5.20 15.8 35 6019 MW-3 16.67 6.20 15.9 70 6019 MW-7 21.90 5.83 16.2 87 6019 MW-8 18.42 5.48 15.6 69 6019 MW-10 31.72 5.94 18.1 61 6019 MW-10A 32.25 10.84 17.8 202 6019 MW-11 9.06 5.52 16.2 290 6019 MW-11A 10.19 6.19 18.3 214 6019 MW-12 18.62 6.60 16.8 110 6019 MW-13 25.70 6.15 15.7 56 Notes: (1) μS = microSiemens (2) ft-bls = feet below land surface (3) °C = degrees Celsius Table 3 May 2016 - Field Parameters in Groundwater Monitoring Wells Mecklenburg County Highway 521 Landfill "Foxhole" Permit # 60-19 S&ME Project No. 1356-07-003 EPA Appendix I Volatile Organic Compounds Method 8260 (µg/L) NCDEQ SWSL 15A NCAC 2L Solid Waste GWP ST 6019 MW-1R 6019 MW-2R 6019 MW-3 6019 MW-7 6019 MW-8 6019 MW-10 6019 MW-10A 6019 MW-11 6019 MW-11A 6019 MW-12 6019 MW-13 Chloroform 5 70 NE 2.7 J EPA Appendix I Metals Method 6010B/6020 (µg/L) Antimony 6 NE 1 0.407 J 0.294 J 0.238 J 0.306 J Barium 100 700 NE 81.7 J 65.7 J 35.6 J 16.5 J 18.6 J 40.4 J 9.71 J 52.0 J 24.3 J 25.9 J 56.6 J Beryllium 1 NE 4 0.335 J 0.121 J 0.114 J Chromium 10 10 NE 6.98 J 2.10 J 4.34 J 23.0 3.39 J 5.32 J 1.87 J Cobalt 10 NE 1 1.22 J 5.09 J 3.41 J Copper 10 1000 NE 4.18 J 18.7 2.05 J Nickel 50 100 NE 14.8 J 3.65 J 2.28 J 3.60 J 4.09 J Vanadium 25 NE 0.3 5.56 J 4.85 J 3.50 J 17.0 J 6.08 J 5.08 J 1.94 J Zinc 10 1000 NE 16.0 10.5 5.43 J Notes: (1) µg/L = micrograms per liter (parts per billion) (2) 15A NCAC 2L = North Carolina Groundwater Quality Standards (3) GWP ST = Solid Waste Groundwater Protection Standard (4) NE = No established standard (5) J = Reported value is between method detection limit (MDL) and method reporting limit (MRL) (6) B = Analyte was detected in associated laboratory method blank. (7) Bold and highlighted indicates above 15A NCAC 2L or SW GWP standard (8) Target analytes not shown were reported as below detection limits (9) SWSL = North Carolina Department of Environmtental Quality (NCDEQ), Solid Waste Section Limit established in 2007 Table 4 May 2016 - Detected Analytes in Groundwater Monitoring Wells Mecklenburg County Highway 521 Landfill "Foxhole" Permit # 60-19 S&ME Project No. 1356-07-003 Table 5 May 2016 - Detected Analytes in Surface Water Samples Mecklenburg County Highway 521 Landfill "Foxhole" Permit # 60-19 S&ME Project No. 1356-07-003 EPA Appendix I Metals Method 6010B/6020 (µg/L) 15A NCAC 2B SW-1 SW-2 EPA Appendix I Metals Method 6010B/6020 (µg/L) Barium 1,000 34.8 J 36.0 J Chromium 24 2.80 J 2.73 J Copper 2.7 2.82 J 4.51 J Vanadium NE 4.89 7.12 J Zinc 36 6.71 4.83 J Notes: (1) µg/L = micrograms per liter (parts per billion) (3) NE = No established standard (4) J = Reported value is between method detection limit (MDL) and method reporting limit (MRL) (5) B = Analyte was detected in associated laboratory method blank (6) Bold and highlighted indicates concentration potentially greater than 15A NCAC 2B (7) Compounds not shown were not detected. (8) Target analytes not shown were reported as below detection limits No Volatile Organic Compounds Detected in Surface Water Samples (2) 15A NCAC 2B = North Carolina Surface Water Quality Standards, most stringent of Freshwater, Water Supply or Human Health Chloroform MW-7 65 KW TRUE sewer line probable source Antimony MW-3 89 PL FALSE MW-8 94 PL FALSE MW-10A 81 KW FALSE Barium MW-2R 45 KW FALSE MW-3 39 KW FALSE MW-7 49 KW FALSE MW-8 47 KW FALSE MW-10 39 KW FALSE MW-10A 47 KW FALSE MW-11 47 KW FALSE MW-11A 47 KW FALSE MW-12 0 PA FALSE MW-13 0 PA FALSE Beryllium MW-2R 84 KW FALSE MW-10A 94 PL FALSE Chromium MW-2R 58 KW FALSE MW-3 50 KW FALSE MW-10A 6 PA FALSE MW-11A 44 KW FALSE MW-12 0 PA FALSE MW-13 30 KW FALSE Cobalt MW-2R 6 PA FALSE MW-10 94 PL FALSE Copper MW-2R 45 KW FALSE MW-10A 47 KW FALSE Nickel MW-2R 52 KW FALSE MW-10 86 KW FALSE MW-11 86 KW FALSE MW-12 0 PA FALSE Statistical Analysis Method SSI Comments Table 6 May 2016 - Statistical Analysis Mecklenburg County Highway 521 Landfill "Foxhole" Permit # 60-19 S&ME Project No. 1356-07-003 Parameter Well ID Percent Non-Detect Statistical Analysis Method SSI Comments Table 6 May 2016 - Statistical Analysis Mecklenburg County Highway 521 Landfill "Foxhole" Permit # 60-19 S&ME Project No. 1356-07-003 Parameter Well ID Percent Non-Detect Vanadium MW-3 47 KW FALSE MW-10 47 KW FALSE MW-10A 39 KW FALSE MW-11A 47 KW FALSE MW-12 0 PA FALSE MW-13 10 PA FALSE Zinc MW-2R 52 KW FALSE MW-12 40 KW FALSE Notes: (1)SSI = Statistically Significant Increase (2)PA = One Way Parametric Analysis of Variance (Parametric ANOVA) Parametric ANOVA analysis is recommended by the 1992 guidance document for parameters with fewer than 15% non-detects in a specific well. (3)KW = Kruskal Wallis Non-Parametric Rank Analysis Kruskal-Wallis method is recommended by the 1992 guidance document for parameters that have 15% to 90% non-detects in a specific well. (4)PL = Non-Parametric Inter-Well Prediction Limit Analysis Prediction limit was used for parameters with greater than 90% non-detects in a specific well. The 1992 guidance document recommends this method when a significant portion of the samples are non-detect. Appendix III – Well Sampling Logs and Laboratory Reports Appendix IV – Statistical Analysis Procedure Sheets