HomeMy WebLinkAbout4103_GreensboroMSWLF_GWMR_DIN27847_20160926White Street Landfill – Phase II
Permit No. 41-03
Assessment Monitoring September 2016
Greensboro, North Carolina
S&ME Project No. 1584-98-081C
Prepared for:
The City of Greensboro
Prepared by:
S&ME, Inc.
8646 W Market St, Suite 105
Greensboro, NC 27409
January 11, 2017
White Street Landfill - Phase II (Permit # 41-03)
Water Quality Monitoring Report
Greensboro, North Carolina
S&ME Project No. 1584-98-081C
January 11, 2017 ii
Table of Contents
1.0 Executive Summary...............................................................................................1
GROUNDWATER QUALITY......................................................................................................................1
Volatile and Semi-Volatile Organic Compounds:.............................................................................1
Inorganic Constituents (Metals):.........................................................................................................1
SURFACE WATER QUALITY.....................................................................................................................2
ADDITIONAL ASSESSMENT ACTIVITIES..............................................................................................2
2.0 Introduction............................................................................................................3
3.0 Scope Of Work.......................................................................................................3
4.0 Methods Employed...............................................................................................3
4.1 Monitoring Well Sampling..............................................................................................3
4.2 Statistical Analysis of Data..............................................................................................4
4.2.1 Software...............................................................................................................................4
4.2.2 Statistical Methods-Groundwater Analyses.......................................................................5
4.3 Stream Sampling...............................................................................................................6
5.0 Results......................................................................................................................6
5.1 Groundwater Analytical Results....................................................................................6
5.1.1 Phase II Appendix II Assessment Monitoring....................................................................6
Volatile Organic Compounds:.............................................................................................................6
Inorganic Constituents (Metals):.........................................................................................................7
Pesticides/Herbicides:...........................................................................................................................7
Other Targeted Appendix II Parameters:...........................................................................................7
5.2 Statistical Results..............................................................................................................8
5.2.1 Historical.............................................................................................................................8
5.2.1.1 Descriptive Statistics........................................................................................................8
5.2.1.2 Time vs. Concentration Graphs......................................................................................8
5.2.1.3 Non-Parametric Tolerance Limit Tests........................................................................10
5.3 Hydraulic Conductivity.................................................................................................11
5.4 Groundwater Flow Direction and Rate.......................................................................11
5.5 Surface Water..................................................................................................................12
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5.6 Quality Assurance..........................................................................................................12
6.0 CAP Monitoring Activities................................................................................13
Additional Groundwater Quality Monitoring ........................................................................................13
Sentinel Monitoring Wells and NES Well II-9.................................................................................13
MNA Monitoring ................................................................................................................................13
Assessment Well II-3B ........................................................................................................................14
7.0 References.............................................................................................................14
8.0 Certification..........................................................................................................15
Appendices
Tables
Figures
Appendix I – Groundwater Sampling Field Data Sheets
Appendix II – Laboratory Analytical Reports
Appendix III – Time vs Concentration Charts
Appendix IV – CAP Monitoring Laboratory Analytical Reports and Summary Tables
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Water Quality Monitoring Report
Greensboro, North Carolina
S&ME Project No. 1584-98-081C
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1.0 Executive Summary
Between September 26 and September 28, 2016, thirteen monitoring wells and five stream locations
which monitor the Phase II portion of the White Street Landfill were sampled as part of the routine semi-
annual monitoring program. Monitoring wells II-1, II-2, II-3, II-4A, II-5, II-6, II-7, II-7B, II-8, II-12, MW-13
and MW-14 comprise the groundwater monitoring system for the Phase II solid waste disposal area of the
landfill. Monitoring well MW-13 serves as a background well for both the Phase I and the Phase II areas.
Monitor well MW-14 serves as a background well for Phase II. All sampling was conducted according to
North Carolina Solid Waste Management Guidelines. Samples were analyzed by a North Carolina certified
laboratory. Samples collected from the Phase II area were submitted for analysis using the North Carolina
Appendix II assessment monitoring list. Samples from surface water locations SW-1, SW-2, SW-3, SW-4,
and SW-5 were analyzed for the federal Appendix I constituents.
GROUNDWATER QUALITY
During the September 2016 compliance monitoring event, it appears that the following NCAC 2L
groundwater quality standards (2L Standards) were exceeded.
Volatile and Semi-Volatile Organic Compounds:
♦Benzene was detected at concentrations of 1.5 µg/L and 2.1 µg/L in compliance wells II-3 and II-6,
respectively. The 2L Standard for benzene is 1 µg/L.
♦1,4-Dichlorobenzene was detected at a concentration of 8.6 µg/L in compliance well II-1. The 2L
Standard for 1,4-Dichlorobenzene is 6 µg/L.
♦1,1-Dichloroethane was detected at concentrations of 8.6 µg/L and 12 µg/L in compliance wells II-
2 and II-3, respectively. The 2L Standard for 1,1-Dicloroethane is 6 µg/L.
♦Vinyl chloride was detected at concentrations of 3.1 µg/L and 1.4 µg/L at compliance wells II-2
and II-9. Vinyl chloride was also detected in sentinel monitoring well SMW-3 at a concentration
of 1.5 µg/L. The 2L Standard for Vinyl Chloride is 0.03 µg/L.
♦Bis (2-ethylhexyl) phthalate was detected in compliance monitoring wells II-4A and II-7 at
estimated concentrations of 5.0 µg/L and 3.3 µg/L, exceeding the 2L Standard of 3.0 µg/L. Based
on the historic database, this was the first detection of this compound at well II-4A and the
second detection at well II-7. Resampling for verification testing of this compound at these wells
is recommended for these apparent exceedances of the corresponding 2L Standard.
Inorganic Constituents (Metals):
Groundwater analytical results indicate inorganic constituents cobalt and vanadium were detected with
concentrations greater than the Interim Maximum Allowable Concentration (IMAC). S&ME previously
prepared an Alternate Source Demonstration (ASD) for metals at the Facility. The ASD demonstrated that
cobalt and vanadium were naturally occurring in the in-situ soil at the Facility and at sufficient
concentrations within the soil to influence groundwater quality. Based on the results of the ASD, the
detection of cobalt and vanadium at concentrations above the IMAC values or 2L Standards was not likely
due to a release by the Facility, but instead may be attributed to the natural occurrence of these metals in
the native, residual soil. This finding is also supported by time vs concentration plots for these
groundwater constituents, which generally depict relatively stable concentrations over time.
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No other Appendix II constituents were detected at concentrations greater than the published 2L
Standard or IMAC during this monitoring event. The presence of estimated concentrations of o-Toluidine
at compliance monitoring wells II-1 and II-6 will be verified during the next semi-annual monitoring event.
SURFACE WATER QUALITY
Three volatile organic compounds and several inorganic constituents were reported in one or more of the
samples collected. Based on the sampled locations and the reported concentrations, the compounds
detected in the surface water samples likely stem from up-stream and off-site sources.
ADDITIONAL ASSESSMENT ACTIVITIES
During 2010, monitoring well II-3B was installed to assess groundwater quality conditions down-gradient
of well II-3; however, at a point prior to reaching the compliance boundary. For the groundwater sample
collected at well II-3B during September 2016, the analytical results report no volatile organic compounds
were detected at concentrations that exceed the corresponding 2L Standards. This is the 11
th monitoring
event to indicate that the portion of the landfill monitored by well II-3B is currently in compliance with
applicable groundwater quality standards. The detection of concentrations greater than the 2L Standards
at well II-3 reflects the close proximity of this well to the limits of waste. It is our opinion that the
analytical data for well II-3 is informative; however, the proximity of well II-3B to the compliance boundary
makes it is a better indicator of groundwater compliance in accordance with the permit.
A Corrective Action Plan (CAP) was prepared by S&ME and approved by the North Carolina Department
of Environmental Quality (NCDEQ) for Phase II of the White Street Landfill. The CAP specifies
phytoremediation coupled with Monitored Natural Attenuation (MNA) to restore groundwater quality.
CAP related groundwater monitoring activities completed contemporaneously with the September 2016
water quality monitoring event included:
♦Collection and analysis of groundwater samples from each of the three CAP specified sentinel
monitoring wells, SMW-1, SMW-3, and SMW-4. The September 2016 analytical results for volatile
organic compounds indicated that groundwater quality at sentinel wells SMW-1 and SMW-4 met
the CAP specified cleanup goals, the 2L Standards. At sentinel well SMW-3 the estimated
concentration for vinyl chloride was greater than the CAP specified cleanup goal.
♦Monitoring wells II-7, II-7B, and II-1 function as both routine compliance monitoring wells and
CAP sentinel monitoring wells. The September 2016, groundwater analytical results for
monitoring wells II-7 and II-7B indicated that volatile organic compound concentrations at these
points met the CAP specified cleanup goals, the 2L Standards. Only monitoring well II-1 exhibited
groundwater quality which does not meet the CAP specified cleanup goals, the 2L Standards.
♦Groundwater samples were obtained from a select group of monitoring wells utilized to evaluate
the MNA component of the CAP. The collected samples were analyzed in the field and/or in the
laboratory for MNA indicator parameters.
These CAP related items are briefly discussed in this report; however, these CAP monitoring activities and
associated findings will be discussed in greater detail in the Corrective Action Evaluation Report (CAER) to
be prepared during 2017.
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2.0 Introduction
White Street Landfill is a Solid Waste Management Facility (SWMF) located at the north end of White
Street in northeastern Greensboro. S&ME, Inc. (S&ME) was contracted by the City of Greensboro to
complete this Phase II Appendix II assessment/detection monitoring event. Phase II of the landfill is a
closed Municipal Solid Waste (MSW) landfill with an active Construction & Demolition (C&D) landfill piggy
backed on top, covered by Solid Waste Permit #41-03. Nine (9) down-gradient monitoring wells located
along the perimeter of the Phase II disposal area, one bedrock monitor well (II-7B), two NES wells (II-3B
and II-9), and one background monitoring well (MW-13) located approximately 4,300 feet southwest of
the Phase II area were sampled. Up-gradient monitor well (MW-14) was not sampled since it was found
to be dry. Five surface water samples were collected from North Buffalo Creek and one of its tributaries in
the vicinity of the Facility.
In addition to the routine semi-annual assessment monitoring program activities, groundwater samples
were collected and analyzed from the Corrective Action Plan sentinel monitoring wells SMW-1, SMW-3,
and SMW-4, and Nature and Extent Study (NES) monitoring well II-3B and II-9.
This report discusses the field procedures, field measurements, analytical results, and presents the
statistical evaluation results for the September 2016 water quality monitoring event.
3.0 Scope Of Work
To complete the scope of work, S&ME completed the following tasks:
♦Sampled 12 compliance network monitoring wells and five surface water locations.
♦Sampled sentinel monitoring wells SMW-1, SMW-3, and SMW-4 and NES wells II-3B and II-9.
♦Obtained field values for pH, temperature, dissolved oxygen (DO), turbidity, oxidation-reduction
potential (ORP), and conductivity at each groundwater sample location.
♦Collected depth to water measurements during well purging to monitor drawdown.
♦Had groundwater samples analyzed for the North Carolina Solid Waste Appendix II constituents
by a North Carolina certified laboratory, using State approved methods.
♦Had the surface water samples analyzed for the North Carolina Solid Waste Appendix I
constituents by a North Carolina certified laboratory, using State approved methods.
♦Had the sentinel monitoring wells and NES well samples analyzed for Appendix II constituents by
a North Carolina certified laboratory using State approved methods.
♦Prepare a groundwater contour map and calculated groundwater flow rates.
♦Prepared and submitted reports to the City of Greensboro and the NCDEQ.
4.0 Methods Employed
4.1 Monitoring Well Sampling
The groundwater monitoring well sampling took place between September 26 and September 28, 2016.
The monitoring well locations are shown on Figure 1. A representative from S&ME opened each well and
measured the static water level from the top edge of the PVC casing in wells. An electronic water level
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indicator was used to obtain depth to water measurements. These data are summarized in Table 1. With
dedicated MicroPurge™pumps previously installed in each well, the total well depth sounding data
reported for the sampling events completed during September 1997 and May 1998 were used to
determine the volume of water in the monitoring wells.
In accordance with the facility's approved Water Quality Monitoring Plan, wells II-1, II-2, II-3, II-4A, II-5, II-
6, II-7, II-8, II-12, and MW-13 were purged using the dedicated Micro Purge™pumps. Up-gradient well
MW-14 was not sampled as it was found to be dry. Sentinel monitoring wells SMW-1, SMW-3, and SMW-
4 and NES wells II-9, II-3B, and II-7B were also sampled using dedicated Micro Purge™pumps. At each
well, the purge rate and the drawdown of the water table were monitored as an indicator of how much
stress the purging placed on the aquifer. The purge rates were calculated by recording the time required
to fill a graduated cylinder. The purging flow rate was approximately 100 milliliters/minute (ml/min.).
During purging, the depth to water was periodically monitored and recorded on the groundwater
sampling field data sheets. For this sampling event, the measured drawdown in the wells was generally
less than 1 foot.
The purge water from the monitoring wells was monitored in the field for pH, temperature, DO, ORP, and
conductivity using a flow-through cell and multi-meter. Typically, a sample was collected when three
consecutive readings for each individual field parameter fluctuated by no more than 10 percent, between
each equipment volume. The target stabilization goal of less than 10% change was generally reached
prior to collection of the groundwater samples. Turbidity was measured separately, with field
measurements less than or equal to 10 NTUs, as a target criteria. Even with the use of low flow sampling
methods, turbidity values at some wells remained higher than the target criteria during purging.
Accordingly, some samples were collected based upon professional judgment without meeting the
turbidity goal. The field data collected during sampling was recorded on the groundwater sampling field
data sheets, which are included in Appendix I.
Groundwater samples were collected from the dedicated Teflon tubing at each of the wells with dedicated
well sampling pumps. Immediately upon collection, each sample was placed in laboratory supplied
containers, placed in a cooler with ice, and placed under chain-of custody. The sampling technician wore
nitrile gloves that were changed between wells to minimize the possibility of cross contamination.
During the September 2106 event Phase II groundwater samples (II-1, II-2, II-3, II-4A, II-5, II-6, II-7, II-7B,
II-8, II-12, and MW-13) were analyzed for Appendix II constituents. Sentinel monitoring wells SMW-1,
SMW-3, SMW-4 and NES wells II-3B and II-9 were also analyzed for the Appendix II constituents.
Analyses were conducted by Environmental Conservation Laboratories, a North Carolina certified
laboratory. Laboratory Analytical Reports are attached in Appendix II.
4.2 Statistical Analysis of Data
4.2.1 Software
All data were analyzed using ChemStat 6.2 software package. An Excel file was used to input and create
the Data files based on the recent and historic laboratory data. The Excel file was then converted to .txt
tab delimited file for use by the ChemStat software. The following procedures were used to carry out the
statistical analyses of the compliance data for each constituent.
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4.2.2 Statistical Methods-Groundwater Analyses
In accordance with the NCDEQ-Solid Waste Management Rules 15A NCAC 13B, Section 1632, historical
up-gradient and cross-gradient groundwater monitoring data collected from the background
groundwater monitoring wells that comprise the Subtitle D monitoring well system were pooled and the
analytical results were used to create a statistical baseline for statistically significant increases in
constituent concentrations.
In accordance with the DEHNR-Solid Waste Management Rules 15A NCAC 13B, Sections 1632 (dated
1/7/97), several rounds of samples were collected from groundwater monitoring wells that comprise the
Subtitle D monitoring well system and the analytical results were used to create a statistical baseline for
statistically significant increases in constituent concentrations. This sampling round (October 2016) will be
incorporated into the baseline for the next round of sampling.
The following procedure is used to analyze each new data set:
♦A descriptive statistics program is run to provide the following information:
♦mean
♦standard deviation
♦variance
♦percentage non-detects
♦Time versus concentration graphs were prepared for each parameter detected at quantified
values and used to evaluate data trends and to identify potential data outliers.
♦Normality/Data Distribution Tests were run and used to determine the statistical distribution of
the database for each quantified parameter. The data distribution test results were utilized to
determine if a data set exhibits a normal, log-normal or non-normal distribution. Due to the large
number of non-detects for many of the wells and the lack of normality in the data sets, non-
parametric statistical methods were deemed appropriate for the evaluation of the current
compliance data set.
♦A statistical Upper limit was calculated for each of the detected parameter data sets utilizing Non-
Parametric Tolerance Limits. Then the compliance data were compared via Inter-Well
comparisons to the statistical Upper limit to determine if an SSI had occurred.
♦Data showing statistically significant increases across the site are examined to determine the
validity of results.
Due to chronic groundwater turbidity issues, monitoring well II-4 was replaced with compliance well II-4A
during 2013. Given that these wells are adjacent to each other and since they essentially monitor the
same portion of the surficial aquifer, the historic analytical data set for monitoring well II-4 was merged
with the data for monitoring well II-4A for the statistical tests discussed and presented herein.
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4.3 Stream Sampling
Surface water sampling took place on September 26, 2016. Four stream samples (SW-1, SW-3, SW-4, and
SW-5) were collected from North Buffalo Creek, which flows along the northwestern side of the White
Street Landfill. One surface water sample (SW-2) was collected from a tributary of North Buffalo Creek.
The locations of the stream samples are shown in Figure 2.
SW-1 was collected upstream from the landfill near the US Highway 29 Bridge. SW-2 was collected from
a southern tributary of North Buffalo Creek just before it joins the main creek west of the landfill entrance.
SW-3 was collected downstream of the North Buffalo Wastewater Treatment Plant outfall and upstream of
the landfill. SW-4 was collected downstream of the landfill at a USGS gauging station located on North
Buffalo Creek about three-quarters of a mile north of the landfill. SW-5 was collected from North Buffalo
Creek immediately downstream of the Phase II landfill disposal area.
The surface water samples were collected by immersing laboratory supplied containers in the water to be
sampled. After collection, the surface water samples were packed on ice and placed under chain-of-
custody. Stream samples SW-1, SW-2, SW-3, SW-4 and SW-5 were analyzed for Appendix I constituents.
5.0 Results
5.1 Groundwater Analytical Results
5.1.1 Phase II Appendix II Assessment Monitoring
Wells II-1, II-2, II-3, II-4A, II-5, II-6, II-7, II-7B, II-8, II-12, MW-13 and MW-14 comprise the monitoring
system for the Phase II area.Table 3 provides a summary of the Appendix II constituents detected in the
Phase II area groundwater monitoring wells during this event.Table 4 provides a summary of the
constituents and concentrations that exceed corresponding NCAC 2L groundwater quality standards (2L
Standards) or corresponding Interim Maximum Allowable Concentrations (IMAC). For reference,Table 3
and Table 4 also provide the Federal Maximum Contaminant Level (MCL).Appendix II contains the
laboratory analytical reports of the September 2016 sampling event.
Volatile Organic Compounds:
As summarized in Table 3, groundwater analytical results indicate thirteen volatile organic compounds
were detected during the September 2016 sampling event, at one or more monitoring well locations. Of
the detected volatile organic compounds, the following 15A NCAC 2L groundwater quality standards (2L
Standards) were exceeded (see Table 4).
♦Benzene was detected at concentrations of 1.5 µg/L and 2.1 µg/L in compliance wells II-3 and II-6,
respectively. The 2L Standard for benzene is 1 µg/L.
♦1,4-Dichlorobenzene was detected at a concentration of 8.6 µg/L in compliance well II-1. The 2L
Standard for 1,4-Dichlorobenzene is 6 µg/L.
♦1,1-Dichloroethane was detected at concentrations of 8.6 µg/L and 12 µg/L in compliance wells II-
2 and II-3, respectively. The 2L Standard for 1,1-Dicloroethane is 6 µg/L.
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Water Quality Monitoring Report
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S&ME Project No. 1584-98-081C
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♦Vinyl chloride was detected at concentrations of 3.1 µg/L and 1.4 µg/L at compliance wells II-2
and II-9. Vinyl chloride was also detected in sentinel monitoring well SMW-3 at a concentration
of 1.5 µg/L. The 2L Standard for Vinyl Chloride is 0.03 µg/L. Semi-Volatile Organic Compounds:
As summarized in Table 3, groundwater analytical indicate two semi-volatile organic compounds were
detected during the September 2016 sampling event.
♦o-Toluidine was detected at compliance monitoring wells II-1 and II-6 with estimated
concentrations. Currently, there is no published 2L Standard or IMAC for this compound.
♦Bis (2-ethylhexyl) phthalate was detected at compliance monitoring wells II-2, II-4A, II-5, II-7, and
II-8. The estimated concentrations of 5.0 µg/L and 3.3 µg/L detected in compliance monitoring
wells II-4A and II-7, respectively, were greater than the 2L Standard of 3.0 µg/L but less than the
Federal MCL of 6.0 µg/L. This compound is a commonly known field contaminant.
Inorganic Constituents (Metals):
As summarized in Table 3, analytical results for samples collected from Phase II groundwater monitoring
wells report detections of antimony, arsenic, barium, cadmium, cobalt, copper, lead, mercury, nickel,
vanadium, and zinc at one or more monitoring well locations during the September 2016 sampling event.
Each of the reported concentrations of these inorganic constituents was below their corresponding NCAC
2L groundwater standard or Interim Maximum Concentrations (IMAC) value with the exception of cobalt
and vanadium.
Cobalt and vanadium were detected in the groundwater samples collected from one or more wells during
this monitoring event. Many of these detections were either “J” flag estimated concentrations or
quantified concentrations exceed the corresponding IMACs. Between 2006 and 2007 S&ME prepared an
Alternate Source Demonstration (ASD) for metals at the Facility. The ASD demonstrated that cobalt and
vanadium were naturally occurring in the in-situ soil at the Facility and at sufficient concentrations within
the soil to influence groundwater quality. The reported concentrations of cobalt and vanadium during the
September 2016 sampling event are below the predicted groundwater concentrations calculated for using
a default dilution attenuation factor (DAF). As a result, the detection of cobalt and vanadium above their
respective IMAC values or 2L Standard may be attributed to the natural occurrence of these metals in the
native residual soil at the facility.
Pesticides/Herbicides:
No Appendix II organochlorine pesticides were detected above the method detection limits or the solid
waste section limits during this monitoring event.
No Appendix II chlorinated herbicides were detected above the method detection limits or the solid waste
section limits during this monitoring event.
Other Targeted Appendix II Parameters:
For the groundwater samples collected, no target polychlorinated biphenols (PCBs), sulfate, and cyanide
were detected above the method detection limits or the solid waste section limits during this monitoring
event.
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5.2 Statistical Results
5.2.1 Historical
The monitoring well network for Phase II of the White Street Landfill was upgraded in the winter of 1995
with the addition of four new monitoring wells (II-6, II-7, II-8 and MW-14). Monitoring well II-7B was
installed in December 2000, while monitoring wells II-9, II-10, II-11 and II-12 were added in March 2005,
as part of a nature and extent study. Monitoring well II-12 replaced compliance well I-5. NES wells II-3B,
II-9, II-10, and II-11 and Sentinel Wells SMW-1, SMW-3, and SMW-4 are not part of the compliance well
network; therefore, they are not included in the compliance required statistical tests discussed herein.
5.2.1.1 Descriptive Statistics
The statistics program calculates the pooled mean, background mean, pooled standard deviation,
background standard deviation, rank sum, rank mean and variance for each constituent detected.
5.2.1.2 Time vs. Concentration Graphs
This graph displays a plot of the concentration of one parameter for a single well over time. The
concentration is plotted along the vertical axis and the sample dates are plotted along the horizontal axis.
These graphs are used to visually examine changes in concentration over time for a parameter at a given
well. Time series plots for select constituents detected during this monitoring event are contained in
Appendix III. An evaluation of the time vs. concentration plots suggests:
Appendix II - Volatile Organic Compounds
♦The time series plots for concentrations of 1,1-dichloroethane suggest a trend of increasing
concentrations at monitoring well II-3, which generally plateaued after 2007. The data set for
monitoring wells II-1, II-3B, and II-9 suggest relatively stable concentrations over time, whereas
the data for monitoring wells II-4 and II-7B suggest trends of declining concentrations over time.
♦The time series plots for the concentrations of 1,2-dichlorobenzene in monitoring wells II-1 and II-
6 depicted periodic detections of estimated concentrations.
♦The time series plots for the concentrations of 1,4-dichlorobenzene depict rising concentrations at
monitoring well II-1, whereas the concentrations at monitoring wells II-2, II-4A, and II-6 depict
fluctuating concentrations with no definitive long-term trends recognized.
♦The time series plots for the concentrations of benzene in monitoring wells II-3, II-4A, and II-6
show minor fluctuations in reported concentrations following the change to the lower SWSL.
With concentration changes of less or equal to 1 µg/L considered insignificant, the reported
concentrations were considered stable.
♦The time series plots for the concentrations of chlorobenzene in wells II-1, II-4A, II-6, II-8, and II-9
suggests that the detections of this constituent appear to coincide with the promulgation of the
revised SWSL. Following the revised SWSL this compound has been periodically detected with no
clear concentration trends over time.
♦The time series plot for the concentrations of chloroethane in well II-4A evidence four periodic
detections in the monitored history.
♦The time series plot of the concentrations of cis-1,2-dichloroethene in monitoring wells II-3 and
II-9 evidence periodic detections, with no clear concentration trends for the values reported
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following the promulgation of the revised SWSL. At monitoring well II-2 a trend of rising
concentrations over time, which generally plateaued after 2009 is suggested by the data set.
♦The time series plots of the concentrations of naphthalene in monitoring well II-6 indicate this
parameter was detected periodically similar concentrations over time.
♦The time series plot for concentrations of tetrachloroethene in monitoring wells II-2 and II-7B
depicts long term trends of declining concentrations over time.
♦The time series plot for concentrations of trichloroethene in monitoring well II-2 depicts a long
term trend of declining concentrations over time.
♦The time series plot for concentrations of tetrahydrofuran in monitoring wells II-4A and II-8 depict
relatively stable concentrations overtime, whereas the concentrations at monitoring well II-7B
exhibited much greater variability.
♦The time series plot for concentrations of vinyl chloride in monitoring well II-2 depicts relatively
stable concentrations over time. Whereas monitoring wells II-9 depict periodic detections
separated by events reporting non-detections.
♦The time series plot for the concentrations of total xylenes in monitoring well II-6 suggests that
the first detection of this constituent coincided with the promulgation of the revised SWSL.
Following the revised SWSL, there is a slight downward trend in the concentrations.
Appendix II - Semi-Volatile Organic Compounds
♦The time series plot for the concentrations of bis (2-ethylhexyl) phthalate revealed that these were
the first detections at wells II-4A, II-5 and II-8, the second detection at well II-7, and the third time
it was detected at well II-2. Each detection was an estimated concentration below the SWSL.
♦The time series plot for the concentrations of o-toluidine in wells II-1 and II-6 suggests that this
was the first detection of this constituent in well II-1 and the only the second detection of this
constituent at well II-6.
Appendix II - Metals
♦The time series plot for concentrations of antimony in well II-6 depicts a high percentage of non-
detects in the data set. With only seven detected concentrations, each estimated, no obvious
concentration trends were recognized.
♦The time series plot for concentrations of arsenic in wells II-4A, II-6, II-7, and II-12 depict a high
percentage of non-detects in each data set. Each detected concentration was estimated and
followed by one or more events reporting non-detections.
♦The time series plots for concentrations of barium in the majority of the compliance wells show
minor variations in detected concentrations with no obvious trends observed. Background well
MW-13 exhibits similar fluctuations in detected concentrations as those observed at many down-
gradient compliance wells. A slight upward trend in concentrations over time was suggested by
the data for well II-8. Wells II-5 and II-7 depict trends of rising concentration beginning in 2014.
♦The time series plot for cadmium in well II-9 depicts four detections since 2005, with no
discernible concentration trend apparent.
♦Time series plots of the concentrations of cobalt in wells II-1, II-3B, II-5, II-6, II-7, II-8, and II-9
suggest fluctuating concentrations over time, with no obvious or consistent trends over time
recognized. The plots for wells II-3 and II-12 suggests declining cobalt concentrations over time.
♦The time series plots for concentrations of copper in the compliance wells depict no trends of
rising concentrations over time.
White Street Landfill - Phase II (Permit # 41-03)
Water Quality Monitoring Report
Greensboro, North Carolina
S&ME Project No. 1584-98-081C
January 11, 2017 10
♦The time series plots for concentrations of lead in wells II-3B and II-12 evidence periodic
detections of estimated concentrations.
♦The time series plots for concentrations of mercury in well II-3 evidence periodic detections of
estimated concentrations following the change to the lower SWSL. No obvious trend of
concentration changes over time was recognized.
♦The time series plots for concentrations of nickel in wells II-3, II-3B, II-4A, II-5, II-6, II-7, II-9, and II-
12 exhibit relatively stable concentrations. Following the change to the lower SWSL, data for
monitoring wells II-1 and II-8 exhibit a slight upward trends over time.
♦The time series plots for concentrations of vanadium in compliance wells II-2, II-4A, II-8, II-12, and
background well MW-13 exhibit no obvious trends of rising or falling concentrations. The plots
for compliance well II-7B exhibits a trend of slight declining concentrations.
♦The time series plots for concentrations of zinc in compliance wells II-3, II-5, II-6, II-7B, II-8, and
background well MW-13 generally exhibit periodic detections with the detected concentrations
relatively stable. The data set for well II-9 depicts two concentration spikes during 2014 and one
during the spring of 2016. Following these events the zinc concentrations return to levels at or
below the SWSL. Although unproven, we infer that these spikes in concentrations are likely
related to temporal flooding of this low-lying area along Buffalo Creek, rather than indicative of a
release from the landfill.
Analytical data from future monitoring events will be used to re-evaluate the trends interpreted from the
time series plots.
5.2.1.3 Non-Parametric Tolerance Limit Tests
Non-Parametric Tolerance Limits computations were employed in order to calculate the appropriate
statistical upper limit for each of the quantified monitored parameters. In order to determine if any
individual parameter concentration detected during this monitoring event represents a statistically
significant increase over the historic background concentrations, once the respective upper limit was
obtained, the compliance data were compared via an Inter-Well Comparison to the statistical upper limit
to determine if a statistically significant increase (SSI) may have occurred. For parameters suggested to
exhibit an SSI by Inter-Well comparisons, the corresponding time vs concentration plot was review and an
Intra-Well comparison was preformed to assess spatial variability and the potential relevance of the Inter-
Well comparison suggested SSI.
The statistical tests applied suggest that volatile organic, semi-volatile organics, and inorganic parameters
were detected during this monitoring event at concentrations that exceed the corresponding statistical
upper limit. The statistical tests applied suggest that cobalt, nickel, 1,1-dichloroethane, 1,4-
dichlorobenzene, chlorobenzene, cis 1,2-dichloroethene, bis (2-ethylhexyl) phthalate, and o-toluidine were
detected during the September 2016 monitoring event with concentrations that exceed their
corresponding statistically computed upper limit. The Inter-Well comparison tests of the compliance
results to the statistical upper limits suggest the following represent a SSI over the historic background
concentrations:
♦current cobalt concentration at compliance wells II-1 and II-6,
♦current nickel concentrations at compliance wells II-6 and II-8,
♦current 1,1-dichloroethane concentrations at compliance wells II-2 and II-3,
♦current 1,4-dichlorobenzene concentration at compliance well II-1,
White Street Landfill - Phase II (Permit # 41-03)
Water Quality Monitoring Report
Greensboro, North Carolina
S&ME Project No. 1584-98-081C
January 11, 2017 11
♦current chlorobenzene concentration at compliance well II-6,
♦current cis-1,2-dichloroethene concentration at compliance wells II-2.
A review of the time vs concentration plots indicate no consistent trends for rising concentrations for
these constituents, with the following exceptions:
♦nickel at well II-8,
Several years ago, the NCDEQ-SWS added tetrahydrofurans to the assessment monitoring constituents
list for C&D landfills. Consequently, the historic data set for this compound is limited to 10 data points for
each well. Therefore, the statistical power of the intra-well and inter-well non-parametric tolerance limits
tests is reduced. Additional time series data is needed to understand the significance of the data trends.
Prior SSIs triggered the Assessment Monitoring across Phase II. Certain constituent concentrations
required Corrective Measures that are currently conducted for portions of Phase II.
5.3 Hydraulic Conductivity
In-situ hydraulic conductivity tests were performed by BPA Environmental and Associates Inc. (BPA) on
wells I-5, II-1, II-2, II-3, II-4, II-5 and MW-13 on February 2-5, 1996. The data from these tests yielded
hydraulic conductivity values ranging from 0.042 feet/day in II-5 to 0.380 feet/day in II-3. A complete
discussion of the test methods and calculations was presented in BPA’s February 1996 report “In-Situ
Hydraulic Conductivity Testing, White Street Landfill, Greensboro, North Carolina”. In situ hydraulic
conductivity tests were performed by HDR Engineering, Inc. on monitoring wells II-6, II-7, II-8 and MW-14
in the fall of 1995. In-situ hydraulic conductivity tests were performed by S&ME on monitoring well II-4A
in the fall of 2013. The hydraulic conductivity’s determined ranged from 0.221 feet/day at well II-6 to
2.353 feet/day in well II-8. These data were used to calculate groundwater flow velocities across the site.
5.4 Groundwater Flow Direction and Rate
The static water levels in the Phase II monitoring wells were measured during September 2016. The depth
to the water table ranged from 6.48 to 20.21 feet below the top of well casing. Groundwater and well
casing elevation data are presented in Table 1. A groundwater contour map was constructed using the
data collected during September 2016 and is presented as Figure 3. The groundwater gradient at each
well was calculated assuming a constant groundwater gradient along the flow line between adjacent
groundwater elevation contours or between the well and the nearest contour. Groundwater flow lines
were drawn through each well based upon the groundwater elevation data collected during this
monitoring event. The groundwater elevation data collected during this monitoring event indicates that
the groundwater beneath Phase II generally flows toward the northwest, toward Buffalo Creek. This is, in
general, consistent with the results from previous monitoring events.
Based on a variation of Darcy’s Law, the rate of groundwater movement within the regolith aquifer was
calculated at each monitoring well using the following equation:
White Street Landfill - Phase II (Permit # 41-03)
Water Quality Monitoring Report
Greensboro, North Carolina
S&ME Project No. 1584-98-081C
January 11, 2017 12
V = Ki ÷ N Where V = velocity (ft/day)
K = hydraulic conductivity (ft/ft)
i = groundwater gradient (ft/ft)
n =effective porosity (dimensionless)
Calculated hydraulic conductivity and gradient values and estimated effective porosity values for each well
were used in the velocity calculations. The 20 percent effective porosity value is based on porosity and
specific yield versus grain size distribution relationships presented in Fetter (1988), and is typical of the
types of soils (predominantly silts and sandy silts with some clays) comprising the regolith at the landfill.
The calculated groundwater velocities ranged from 0.008 feet/day to 0.260 feet/day and are summarized
in Table 5.
5.5 Surface Water
Five surface water samples were collected on September 26, 2016. The results of the laboratory analyses
for Appendix I constituents in the surface water samples are summarized in Tables 6 and 7.Appendix II
contains the complete laboratory reports. The following summarizes the exceedances of the 2B
Standards. The complete laboratory analytical report is included in Appendix II.
♦No target constituents were detected above the 2B Standards during the September 2016
sampling event, except for copper. The copper concentrations upstream of the facility were
similar to those detected down-stream. Upstream sources includes a municipal wastewater
treatment plant. Based on these findings, the Phase 2 is not believe to be the source of the
apparent copper 2B Standard exceedance.
5.6 Quality Assurance
A qualitative review of the data was performed to verify that the detected concentrations in the laboratory
report were of known quality. A formal, quantitative data validation was not performed. Laboratory-
assigned data qualifiers were evaluated to verify that rejected or unsupportable data were not included in
the dataset. Quality control data provided in the laboratory reports were also reviewed. No rejected or
otherwise unacceptable quality data were reported from the laboratory.
A duplicate sample was collected from monitoring well MW-13, as "Duplicate II,” and analyzed for the
Appendix II constituents. No target semi-volatile organic compounds, organochlorine pesticides,
chlorinated herbicides, or poly biphenyl compounds were detected in either sample suggesting good
method precision. A comparison of the two datasets reveals that the detected compounds and the
concentrations reported for sample MW-13 show good correlation with the duplicate sample results. This
finding suggests good method precision.
Each of the monitoring wells in Phase II were sampled using dedicated micro-purge pumps. Therefore, no
equipment rinse samples were collected for analyses. Trip blank samples accompanied the sample bottles
from the time they left the laboratory until they returned to the laboratory. The trip blank sample for the
September 2016 monitoring event was analyzed for Appendix II volatile organic constituents. Laboratory
QC samples were analyzed for all constituents included in this sampling event. The results of the
duplicate, trip blank, and laboratory QC sample analyses are included in Appendix II.
White Street Landfill - Phase II (Permit # 41-03)
Water Quality Monitoring Report
Greensboro, North Carolina
S&ME Project No. 1584-98-081C
January 11, 2017 13
6.0 CAP Monitoring Activities
Additional Groundwater Quality Monitoring
The following additional investigations were conducted contemporaneously with the September 2016,
semi-annual compliance monitoring event.
1.In support of the Corrective Action Plan (CAP) developed and implemented for Phase II,
groundwater samples were collected at Sentinel monitoring wells SMW-1, SWM-3, SMW-4, and
NES monitoring well II-9 and submitted for laboratory analysis for Appendix II constituents.
2.In support of the CAP developed and implemented for Phase II, groundwater samples were
collected at monitoring wells II-1, II-9, and SMW-3 and submitted for laboratory analysis using
various analytical methods, to measure certain monitored natural attenuation (MNA) indicator
parameters. Monitoring well MW-14 ordinarily sampled with the suite of wells was not sampled
during this event since it was found to be dry.
3.To further evaluate and validate groundwater quality in the region down-gradient of compliance
well II-3, a groundwater sample was collected at monitoring well II-3B and submitted for analysis
for Appendix II constituents.
The monitoring well locations are depicted on Figure 4. Complete laboratory reports are included in
Appendix IV.
The following provides a brief summary of the analytical results.
Sentinel Monitoring Wells and NES Well II-9
Vinyl chloride was detected at Sentinel monitoring wells SMW-3. This finding suggests that the areas of
concern represented by this well is not yet compliant with the CAP specified groundwater clean-up goals.
During this event vinyl chloride was detected in NES well II-9 at a concentration greater than the
corresponding 2L Standard. No other volatile organic compounds were detected at well II-9 with
concentrations greater than the corresponding 2L Standards. Sentinel well SMW-3 is located along the
estimated flow path for shallow groundwater migrating from NES well II-9 toward the Compliance
Boundary. The analytical results for sentinel well SMW-3 suggest that the areas of concern represented
by this well has not achieved the CAP specified groundwater clean-up goals. It is important to note that
the concentration detected during this event was less than the 5.0 µg/L detected in NES well II-9 on
9/8/10, and predating the installation of the CAP specified northern EBuffer.
Tables IV-1A, IV-1B, IV-1C, IV-1D, IV-1E contained in Appendix IV, provides a summary of recent
Appendix I volatile organic constituent analytical results for wells II-1, II-2, II-6, II-7, II-7B, II-9, SMW-1,
SMW-3, and SMW-4. The tables also summarize the data for the companion wells, located along the
individual groundwater flow path, between a sentinel well and limits of waste.
MNA Monitoring
MNA parameters were collected and measured in groundwater samples collected at wells II-1, II-9, and
SMW-3. The data collected is being complied and examined as indicator that MNA processes are
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Water Quality Monitoring Report
Greensboro, North Carolina
S&ME Project No. 1584-98-081C
January 11, 2017 14
occurring in portions of the shallow aquifer monitored by these wells. The MNA assessment finding will be
presented and discussed in detail in a future Corrective Action Evaluation Report.
Assessment Well II-3B
No Appendix I volatile organic constituents were detected above the corresponding 2L Standards at
assessment well II-3B. Well II-3B is located along the estimated flow path for shallow groundwater
migrating from the landfill toward monitoring well II-3, and further down-gradient toward Buffalo Creek
and the compliance boundary. The analytical results for well II-3B confirm the prior groundwater quality
assessment findings. The data suggests that shallow groundwater migrating from well II-3, achieves
compliance with the 2L Standards prior to reaching the point of compliance. Assessment well II-3B is
located in a position that is a better measure of groundwater compliance for this portion of the monitored
unit, rather than the location of well II-3.
7.0 References
Fetter, C. W., 1988, Applied Hydrogeology, New York; Macmillian Publishing Company, 1988, 592 pp.
North Carolina Administrative Code, Title 15A, Department of Environment, Health and Natural Resources,
Division of Environmental Management, Subchapter 2L, Classifications and Water Quality Standards
Applicable to the Groundwaters of North Carolina, Sections .0100, .0200, and .0300; from the
Environmental Management Commission Raleigh, North Carolina.
North Carolina Administrative Code, Title 15A, Department of Environment, Health and Natural Resources,
Division of Environmental Management, Subchapter 2B, Classifications and Water Quality Standards
Applicable to the Surface Waters of North Carolina, Section .0200; from the Environmental Management
Commission, Raleigh, North Carolina.
North Carolina Administrative Code, Title 15A, Department of Environment, Health and Natural Resources,
Division of Solid Waste Management, subchapter 13B, Solid Waste Management, Section .1600.
White Street Landfill - Phase II (Permit # 41-03)
Water Quality Monitoring Report
Greensboro, North Carolina
S&ME Project No. 1584-98-081C
January 11, 2017 15
8.0 Certification
I hereby certify this 11
th day of January 2017 that this report was prepared by me or under my direct
supervision.
______________________________
Edmund Q.B. Henriques, L.G.
Senior Geologist / Project Manager
Technical support provided by:
______________________________
B. Summers Long
Staff Professional
Appendices
Tables
TABLE 1
WELL CONSTRUCTION AND GROUNDWATER ELEVATION DATA
PHASE 2 - PERMIT # 41-03
WHITE STREET LANDFILL
GREENSBORO, NORTH CAROLINA
S&ME PROJECT NO. 1584-98-081C
Well ID
Date
Installed Type
Total
Depth
Well
Diameter
Depth to
Top of
Screen
Well
Screen
Interval Geology of Screened Northing Easting Ground Elevation
Top of
Casing
Elevation
Depth to
Groundwater1 Groundwater
Elevation
Interval NAD 83 NAD 83 NAVD 88 NAVD 88
9/26/2016 -
9/28/2016
9/26/2016 -
9/28/2016
(feet)(inches)(feet)(feet)(feet msl.)(feet msl.)(feet)(μs/cm)
II-1 7/14/1989 Compliance 25 2 15 15-25 water table aquifer 863027.3314 1787495.6766 not measured 702.78 15.90 686.88
II-2 7/14/1989 Compliance 34 2 24 24-34 water table aquifer 864184.3539 1788403.6364 not measured 704.59 20.05 684.54
II-2B 7/10/2007 NES 29 2 14 14-29 water table aquifer 864268.6031 1788403.4707 not measured 698.84 not measured not sampled
II-3 7/14/1989 Compliance 33 2 23 23-33 water table aquifer 864245.1544 1789031.9589 not measured 699.37 16.67 682.70
II-3B 6/3/2011 NES 28 2 13 13-28 water table aquifer 864365.2295 1789116.1385 not measured 694.49 14.13 680.36
II-4A 8/13/2013 Compliance 28 2 13 13-28 water table aquifer 863581.7689 1789359.9497 not measured 707.25 14.68 692.57
II-5 7/14/1989 Compliance 29 2 19 19-29 water table aquifer 863032.9389 1789345.4003 not measured 722.01 6.48 715.53
II-6 7/14/1989 Compliance 20 2 7.5 7.5-20 water table aquifer 862513.6388 1787002.3258 not measured 704.39 14.24 690.15
II-7 7/14/1989 Compliance 28 2 12.5 12.5-27.5 water table aquifer 863701.8380 1787823.6893 not measured 697.75 14.09 683.66
II-7B 12/11/2000 NES 104 2 90.7 90.7-103.5 bedrock aquifer 863703.7309 1787839.3286 not measured 700.86 17.25 683.61
II-8 7/14/1989 Compliance 35 2 20 20-35 water table aquifer 861207.1750 1786938.1186 not measured 717.76 9.55 708.21
II-9 3/21/2005 NES 25 2 10 10-25 water table aquifer 863924.1830 1787952.6658 not measured 696.78 11.68 685.10
II-10 3/21/2005 NES 23 2 9 9-24 water table aquifer 863511.6877 1787802.3724 not measured 703.78 not measured not sampled
II-11 3/22/2005 NES 27 2 12 12-27 water table aquifer 864183.7253 1788058.432 not measured 701.63 not measured not sampled
II-12 3/22/2005 NES 20 2 5 5-20 water table aquifer 862084.6402 1786802.0936 not measured 699.80 11.99 687.81
SMW-1 7/8/2010 CAP 18 2 8 8-18 water table aquifer 864374.8279 1788376.0728 not measured 692.87 11.46 681.41
SMW-3 7/8/2010 CAP 25 2 10 10-25 water table aquifer 863983.9035 1787857.4169 not measured 694.16 10.20 683.96
SMW-4 7/8/2010 CAP 24 2 9 9-24 water table aquifer 862512.4617 1786835.2747 not measured 697.43 11.05 686.38
MW-13 7/14/1989 Background 34 2 19 19-34 water table aquifer 858763.9106 1783188.5206 not measured 741.24 20.21 721.03
MW-14 7/14/1989 Background 35 2 20 20-35 water table aquifer 859453.8757 1788632.2264 not measured 786.65 dry dry
City of Greensboro provided the top of casing elevations and ground surface elevations
Well Construction details obtained from Well Construction Records reported by BPA Environmental & Engineering, Inc.
feet bgs. = feet below ground surface
feet msl. = feet mean sea level
Depth to Groundwater
1 = below top of casing
Groundwater Elevation = calculated groundwater elevation
T:\Projects\1998\ENV\081C White Street Landfill (2014)\2016 Compliance Monitoring\Fall 2016\Phase 2\Phs2_September_2016_Tables.xlsx
TABLE 2
SUMMARY OF GROUNDWATER SAMPLING FIELD PARAMETERS
PHASE 2 - PERMIT # 41-03
WHITE STREET LANDFILL
GREENSBORO, NORTH CAROLINA
S&ME PROJECT NO. 1584-98-081C
DATE WELL WELL TOC DEPTH TO WATER ODOR PURGE PUMP WELL EVAC PURGED TEMP pH SPEC ORP DO Ferrous TURBIDITY
ID DEPTH ELEV.WATER ELEVATION METHOD RATE VOLUME VOLUME DRY?COND Iron
(feet)(feet msl.)(feet)(feet msl.)(mL/min) (gallons)(liters)(yes/no) (deg C)(SU)(μs/cm)(mV-NHE) (mg/L)(mg/L)(NTU)
9/27/2016 II-1 25 702.78 15.90 686.88 None low flow 100 1.48 1.3 no 19.30 6.20 2.618 NM 0.38 NM 0.33
9/28/2016 II-2 29 704.59 20.05 684.54 None low flow 100 1.46 2.0 no 21.82 6.00 0.988 26 2.03 NM 0.30
9/28/2016 II-3 30 699.37 16.67 682.70 None low flow 100 2.17 0.9 no 16.75 5.63 0.457 69 1.03 NM 6.26
9/26/2016 II-3B 25 694.49 14.13 680.36 None low flow 100 1.77 0.9 no 20.45 6.16 0.548 61.0 0.29 NM 0.56
9/28/2016 II-4A 30 707.25 14.68 692.57 None low flow 100 2.50 1.0 no 18.73 5.90 1.611 87 2.30 NM 0.47
9/28/2016 II-5 16 722.01 6.48 715.53 None low flow 100 1.55 1.0 no 22.56 6.22 0.815 42 2.44 NM 3.12
9/28/2016 II-6 17 704.39 14.24 690.15 None low flow 100 0.45 1.3 no 17.92 6.58 2.522 -72.0 2.15 NM 16.99
9/27/2016 II-7 27 697.75 14.09 683.66 None low flow 100 2.10 0.9 no 19.11 5.58 0.646 103 0.84 NM 4.31
9/27/2016 II-7B 101 700.86 17.25 683.61 None low flow 100 13.65 0.9 no 18.66 9.22 0.485 94.1 0.50 NM 1.78
9/26/2016 II-8 32.5 717.76 9.55 708.21 None low flow 100 3.74 0.8 no 22.22 6.07 3.124 50 0.50 NM 1.79
9/27/2016 II-9 32.5 696.78 11.68 685.10 None low flow 100 3.39 0.8 no 17.18 6.11 0.758 19 0.38 NM 2.40
9/26/2016 II-12 22.8 699.80 11.99 687.81 None low flow 100 1.76 1.0 no 19.82 6.42 0.768 -48 0.17 NM 3.74
9/26/2016 SMW-1 15 692.87 11.46 681.41 None low flow 100 0.58 0.8 no 18.00 5.68 0.329 24 0.42 NM 3.10
9/27/2016 SMW-3 32.5 694.16 10.20 683.96 None low flow 100 3.63 0.9 no 17.86 6.45 0.712 34 0.28 NM 1.42
9/26/2016 SMW-4 20.5 697.43 11.05 686.38 None low flow 100 1.54 1.0 no 17.54 5.83 0.845 42 0.30 NM 0.32
9/27/2016 MW-13 33 741.24 20.21 721.03 None low flow 100 2.08 0.8 dry 18.06 6.54 0.34 42.20 4.81 NM 21.3
9/27/2016 MW-14 34 786.65 dry dry dry dry dry dry dry d dry dry dry dry dry dry dry
Notes:
1. TEMP = groundwater temperature, measured in degrees Celsius
2. Pump Rate, measured in milliliters/minute
3. SPEC COND = Specific Conductance, measured in μs/cm indicates micro Siemens per centimeter.
4. SU indicates Standard Units.
5. NTU indicates Nephelometric Turbidity Units.
6. ORP = Oxidation Reduction Potential, mV-NHE indicates millivolts-Normal Hydrogen Electrode.
7. EVAC = evacuated volume of groundwater
8. DO = dissolved oxygen, measured in milligrams per liter
NC SWSL NCAC 2L NCDEQ Federal
Well ID II-1 II-2 II-3 II-3B II-4A II-5 II-6 II-7 II-7B II-8 II-9 II-12 MW-13 SWM-1 SMW-3 SMW-4 Standards IMAC MCLs
Sample ID 4301-II1 4301-II2 4301-II3 4301-II3B 4301-II4A 4301-II5 4301-II-6 4301-II7 4301-II-7B 4103-II8 4103-II9 4103-II12 4103-MW13 410-SMW1 410-SMW3 410-SMW4
Date Collected 09/27/16 09/28/16 09/28/16 09/26/16 928/2016 09/28/16 09/28/16 09/27/16 09/27/16 09/26/16 09/27/16 09/26/16 09/28/16 09/26/16 09/27/16 09/26/16
Detected Analytes (ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)
75 1,1-Dichloroethane 0.76 J 8.6 12 0.81J 1.0J <0.13 <0.13 <0.13 0.63J <0.13 4.6J <0.13 <0.13 <0.13 5.6 <0.13 5 6 NS NS
69 1,2-Dichlorobenzene 0.57 J <0.19 <0.19 <0.19 <0.19 <0.19 0.55J <0.19 <0.19 <0.19 <0.19 <0.19 <0.19 <0.19 <0.19 <0.19 5 20 NS 600
71 1,4-Dichlorobenzene 8.6 2.2 <0.19 <0.19 1.2 <0.19 4.3 <0.19 <0.19 <0.19 <0.19 <0.19 <0.19 <0.19 <0.19 <0.19 1 6 NS 75
16 Benzene <0.15 <0.15 1.5 <0.15 0.67J <0.15 2.1 <0.15 <0.15 <0.15 <0.15 <0.15 <0.15 <0.15 <0.15 <0.15 1 1 NS 5
39 Chlorobenzene 4.3 <0.17 <0.17 <0.17 2.7J <0.17 6.4 <0.17 <0.17 1.7J 0.40J <0.17 <0.17 <0.17 <0.17 <0.17 3 50 NS 100
41 Chloroethane <0.23 <0.23 <0.23 <0.23 0.62J <0.23 <0.23 <0.23 <0.23 <0.23 <0.23 <0.23 <0.23 <0.23 <0.23 <0.23 10 3,000 NS NS
78 cis-1,2-Dichloroethene <0.15 20 1.1 J <0.15 <0.15 <0.15 <0.15 <0.15 <0.15 <0.15 8.0 <0.15 <0.15 <0.15 12 <0.15 5 70 NS 70
148 Naphthalene <0.11 <0.11 <0.11 <0.11 <0.11 <0.11 1.5J <0.11 <0.11 <0.11 <0.11 <0.11 <0.11 <0.11 <0.11 <0.11 10 6 NS NS
192 Tetrachloroethene <0.17 0.69J <0.17 <0.17 <0.17 <0.17 <0.17 <0.17 0.44 J <0.17 <0.17 <0.17 <0.17 <0.17 <0.17 <0.17 1 0.7 NS 5
201 Trichloroethene <0.15 1.4 <0.15 <0.15 <0.15 <0.15 <0.15 <0.15 <0.15 <0.15 <0.15 <0.15 <0.15 <0.15 <0.15 <0.15 1 3 NS 5
458 Tetrahydrofuran <0.80 <0.80 <0.80 <0.80 1.4 <0.80 <0.80 <0.80 50 7.0 <0.80 <0.80 <0.80 <0.80 <0.80 <0.80 NS NS NS NS
211 Vinyl Chloride <0.32 3.1 <0.32 <0.32 <0.32 <0.32 <0.32 <0.32 <0.32 <0.32 1.4 <0.32 <0.32 <0.32 1.5 <0.32 1 0.03 NS 2
346 Xylenes (Total)<0.45 <0.45 <0.45 <0.45 <0.45 <0.45 1.4J <0.45 <0.45 <0.45 <0.45 <0.45 <0.45 <0.45 <0.45 <0.45 5 500 NS 10
NC SWSL NCAC 2L NCDEQ Federal
Well ID II-1 II-2 II-3 II-3B II-4A II-5 II-6 II-7 II-7B II-8 II-9 II-12 MW-13 SWM-1 SMW-3 SMW-4 Standards IMAC MCLs
Sample ID 4301-II1 4301-II2 4301-II3 4301-II3B 4301-II4A 4301-II5 4301-II-6 4301-II7 4301-II-7B 4103-II8 4103-II9 4103-II12 4103-MW13 410-SMW1 410-SMW3 410-SMW4
Date Collected 09/27/16 09/28/16 09/28/16 09/26/16 09/28/16 09/28/16 09/28/16 09/27/16 09/27/16 09/26/16 09/27/16 09/26/16 09/28/16 09/26/16 09/27/16 09/26/16
Detected Analytes (ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)
111 Bis(2-ethylhexyl)Phthalate <1.7 3.0J <1.7 <1.7 5.0J 2.3J <1.7 3.3J <1.7 2.6J <1.7 <1.7 <1.7 <1.7 <1.7 <1.7 15 3 NS 6
197 o-Toluidine 1.3J <1.1 <1.1 <1.1 <1.1 <1.1 1.2J <1.1 <1.1 <1.1 <1.1 <1.1 <1.1 <1.1 <1.1 <1.1 10 NS NS NS
NC SWSL NCAC 2L NCDEQ Federal
Well ID II-1 II-2 II-3 II-3B II-4A II-5 II-6 II-7 II-7B II-8 II-9 II-12 MW-13 SWM-1 SMW-3 SMW-4 Standards IMAC MCLs
Sample ID 4301-II1 4301-II2 4301-II3 4301-II3B 4301-II4A 4301-II5 4301-II-6 4301-II7 4301-II-7B 4103-II8 4103-II9 4103-II12 4103-MW13 410-SMW1 410-SMW3 410-SMW4
Date Collected 09/27/16 09/28/16 09/28/16 09/26/16 09/28/16 09/28/16 09/28/16 09/27/16 09/27/16 09/26/16 09/27/16 09/26/16 09/28/16 09/26/16 09/27/16 09/26/16
Detected Analytes (ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)
13 Antimony <0.220 <0.220 <0.220 <0.220 <0.220 <0.220 0.244 J <0.220 <0.220 <0.220 <0.220 <0.220 <0.220 <0.220 <0.220 <0.220 6 NS 1 6
14 Arsenic <6.80 <6.80 <6.80 <6.80 9.78 J <6.80 9.30 J 7.45 J <6.80 <6.80 <6.80 6.87 J <6.80 <6.80 <6.80 <6.80 10 10 NS 0.010
15 Barium 346 50.9J 189 175 177 204 205 186 11.9J 146 108 379 85.1J 114 219 182 100 700 NS 2,000
34 Cadmium <0.360 <0.360 <0.360 <0.360 <0.360 <0.360 <0.360 <0.360 <0.360 <0.360 0.375 <0.360 <0.360 <0.360 <0.360 <0.360 1 2 NS 5
53 Cobalt 50.2 <1.10 10.6 1.35 J <1.10 15.4 26.2 1.60 J <1.10 2.29 J 3.97 J 3.05 J <1.10 43.4 2.88 J 1.50 J 10 NS 1 NS
54 Copper 5.98 J 3.27 J 2.63 J 3.04 J 3.31 J 2.97 J 4.37 J 5.13 J 3.95 J 8.28 J 4.47 J <1.60 3.10 J 4.68 J 3.04 J 3.74 J 10 1,000 NS 1,300
131 Lead <3.10 <3.10 <3.10 3.52 J <3.10 <3.11 <3.12 <3.13 <3.14 <3.15 <3.10 3.13 J <3.10 <3.10 <3.10 <3.10 10 15 NS 0
132 Mercury <0.170 <0.171 0.248 <0.170 <0.170 <0.170 <0.170 <0.170 <0.170 <0.170 <0.170 <0.170 <0.170 <0.170 <0.170 <0.170 0.2 1 NS 0.002
152 Nickel 28.1 J <2.20 12.7 J 5.74 J 35.9 J 8.05 J 51.5 6.69 J <2.20 51.5 3.44 J 8.85 J <2.20 6.47 J <2.20 7.49 J 50 100 NS NS
209 Vanadium <1.40 2.08 J <1.40 <1.40 1.89 J <1.40 <1.40 <1.40 1.61 J 1.96 J <1.40 2.07 J 3.74 J 4.92 J <1.40 <1.40 25 NS 0.3 NS
213 Zinc <4.40 <4.40 5.23 J <4.40 <4.40 7.93 J 8.75 J <4.40 6.36 J 14.8 58.0 <4.40 4.65 52.6 <4.40 5.91 J 10 1,000 NS 5,000
ug/L =concentrations reported in micrograms per liter (ug/L)NS = No Standard
< = concentration is less than the method detection limit NA = constituent not analyzed
NC SWSL =North Carolina Solid Waste Section Limit J =Parameters are estimated values between the detection limit and the NC SWSL.
NCAC 2L Standards =15A North Carolina Administrative Code 2L .0200, Groundwater Quality Standards for Class GA groundwater JB =analyte detected in method blank and at a concentrations between the detection limit and the NC SWSL
NCDEQ IMAC = North Carolina Interim Maximum Allowable Concentration highlighted cells indicate detected concentration
Federal MCL = Federal Maximum Concentration Limit concentrations in bold exceed the NCAC 2L standard or IMAC
Appendix II Volatile Organic Compounds
Solid Waste
Section ID #
Appendix II Semivolatile Organic Compounds
Solid Waste
Section ID #
Sample Locations
Sample Locations
Solid Waste
Section
ID #
Sample Locations
Appendix II Metals
S&ME PROJECT NO. 1584-98-081C
TABLE 3
SUMMARY OF GROUNDWATER ANALYSES RESULTS - DETECTIONS
PHASE 2 - PERMIT # 41-03
WHITE STREET LANDFILL
GREENSBORO, NORTH CAROLINA
TABLE 4
SUMMARY OF GROUNDWATER STANDARD EXCEEDANCES
PHASE 2 - PERMIT # 41-03
WHITE STREET LANDFILL
GREENSBORO, NORTH CAROLINA
S&ME PROJECT NO. 1584-98-081C
NCAC 2L NCDEQ Federal
Well ID II-1 II-2 II-3 II-3B II-4A II-5 II-6 II-7 II-7B II-8 II-9 II-12 MW-13 SMW-1 SMW-3 SMW-4 Standards IMAC MCLs
Sample ID 4301-II1 4301-II2 4301-II3 4301-II3B 4301-II4A 4301-II5 4301-II-6 4301-II7 4301-II-7B 4103-II8 4103-II9 4103-II12 4103-MW13410-SMW1410-SMW3 410-SMW4
Date Collected 09/27/16 09/28/16 09/28/16 09/26/16 09/28/16 09/28/16 09/28/16 09/27/16 09/27/16 09/26/16 09/27/16 09/26/16 09/28/16 09/26/16 09/27/16 09/26/16
Detected Analytes (ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)
75 1,1-Dichloroethane 8.6 12 6 NS NS
71 1,4-Dichlorobenzene 8.6 6 NS 75
16 Benzene 1.5 2.1 1 NS 5
211 Vinyl Chloride 3.1 1.4 1.5 0.03 NS 2
111 Bis(2-ethylhexyl)Phthalate 5.0J 3.3J 3 NS 6
NCAC 2L NCDEQ Federal
Well ID II-1 II-2 II-3 II-3B II-4A II-5 II-6 II-7 II-7B II-8 II-9 II-12 MW-13 SMW-1 SMW-3 SMW-4 Standards IMAC MCLs
Sample ID 4301-II1 4301-II2 4301-II3 4301-II3B 4301-II4A 4301-II5 4301-II-6 4301-II7 4301-II-7B 4103-II8 4103-II9 4103-II12 4103-MW13410-SMW1410-SMW3 410-SMW4
Date Collected 09/27/16 09/28/16 09/28/16 09/26/16 09/28/16 09/28/16 09/28/16 09/27/16 09/27/16 09/26/16 09/27/16 09/26/16 09/28/16 09/26/16 09/27/16 09/26/16
Detected Analytes (ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)
53 Cobalt 10.6 1.35 J 15.4 26.2 1.60 J 2.29 J 3.97 J 3.05 J 43.4 2.88 J 1.50 J NS 1 NS
209 Vanadium 2.08 J 1.89 J 1.61 J 1.96 J 2.07 J 3.74 J 4.92 J NS 0.3 NS
ug/L =concentrations reported in micrograms per liter (ug/L)
NCAC 2L Standards =15A North Carolina Administrative Code 2L .0200, GW Quality Standards for Class GA groundwater.
Concentration greater than the NCAC 2L Standards or NCDEQ IMAC are shown in bold
NCDEQ IMAC =Interim Maximum Allowed Concentration, NCDEQ
Federal MCL =Maximum Concentration Levels, USEPA
NS =no MCL listed by USEPA, or no NCAC 2L Standard, or no IMAC
Appendix II Volatile Organic Compounds
Solid
Waste
Section
ID #
Sample Locations
Appendix II Metals (totals)
Solid
Waste
Section
ID #
Sample Locations
Appendix II Semi-Volatile Organics
PHASE 2 - PERMIT # 41-03
Well No.Hydraulic Porosity Gradient Groundwater
Conductivity September 2016 Velocity
(K = feet/day)(n = %)(I = feet/foot)(V= feet/day)
II-1 0.119 0.2 0.022 0.013
II-2 0.329 0.2 0.018 0.030
II-3 0.380 0.2 0.008 0.016
II-4A 0.295 0.2 0.041 0.060
II-5 0.042 0.2 0.038 0.008
II-6 0.221 0.2 0.019 0.020
II-7 1.077 0.2 0.011 0.061
II-8 2.353 0.2 0.022 0.260
MW-14 0.740 0.2 dry dry
SMW-1 0.858 0.2 0.011 0.046
SMW-3 0.630 0.2 0.010 0.033
SMW-4 0.469 0.2 0.023 0.054
Notes: Hydraulic Conductivity's from slug test data by BPA Environmental & Engineering Inc.
HDR Engineering, S&ME Inc.
Porosity values from published literature, based on soil types
Gradients are based upon groundwater elevation data from this monitoring event
Velocity calculated using V = KI/n
TABLE 5
GROUNDWATER VELOCITY DATA
WHITE STREET LANDFILL
GREENSBORO, NORTH CAROLINA
S&ME PROJECT NO. 1584-98-081
T:\Projects\1998\ENV\081C White Street Landfill (2014)\2016 Compliance Monitoring\Fall 2016\Phase 2\Phs2_September_2016_Tables.xlsx
NC SWSL NCAC 2B
Sample Location SW-1 SW-2 SW-3 SW-4 SW-5 Standards
Sample ID 4103-SW1 4103-SW2 4103-SW3 4103-SW4 4103-SW5
Date Collected 09/26/16 09/26/16 09/26/16 09/26/16 09/26/16
Detected Analytes (µg/L)(µg/L)(µg/L)(µg/L)(µg/L)(µg/L)(µg/L)
3 Acetone <10 11 J <10 <10 11 J 100 no standard
44 Chloroform <0.18 <0.18 1.6 J <0.18 <0.18 5 no standard
196 Toluene <0.14 1.1 <0.14 <0.14 <0.14 1 11
NC SWSL NCAC 2B
Sample Location SW-1 SW-2 SW-3 SW-4 SW-5 Standards*
Sample ID 4103-SW1 4103-SW2 4103-SW3 4103-SW4 4103-SW5
Date Collected 09/26/16 09/26/16 09/26/16 09/26/16 09/26/16
Detected Analytes (µg/L)(µg/L)(µg/L)(µg/L)(µg/L)(µg/L)(µg/L)
13 Antimony <0.220 <0.220 <0.220 <0.220 0.479 J 6 no standard
15 Barium 44.8 J 52.8 J 17.6 J 27.9 J 33.9 J 100 1000
53 Cobalt <1.10 1.30 J <1.10 <1.10 <1.10 10 no standard
54 Copper 4.52 J 2.57 J 6.61 J 6.03 J 8.07 J 10 2.7
152 Nickel <2.20 <2.20 3.54 J 3.34 J 6.44 J 50 25
194 Thallium 0.190 J 0.124 J 0.205 J 0.187 J 0.316 J 5.5 no standard
209 Vanadium 1.95 J <1.40 <1.40 1.64 J 4.58 J 25 no standard
213 Zinc 5.08 J 5.21 J 20.0 16.4 27.7 10 36
< = concentrations is less than the method detection limit shown
NC SWSL =North Carolina Solid Waste Section Limit
J = Concentration reported greater than the method detection limit but less than the SWSL, thus it is considered estimated
* = Title 15A NCAC 2B Standards for all Water Supply Classifications
S&ME PROJECT NO. 1584-98-081C
TABLE 6
SUMMARY OF SURFACE WATER ANALYSES RESULTS - DETECTIONS
PHASE 2 - PERMIT # 41-03
WHITE STREET LANDFILL
GREENSBORO, NORTH CAROLINA
Appendix II Volatile Organic Compounds
Solid
Waste
Section
ID #
Sample Locations
Appendix II Metals (totals)
Solid
Waste
Section
ID #
Sample Locations
Sample Location SW-1 SW-2 SW-3 SW-4 SW-5 NC SWSL NCAC 2B
Sample ID 4103-SW1 4103-SW2 4103-SW3 4103-SW4 4103-SW5 Standards*
Date Collected 09/26/16 09/26/16 09/26/16 09/26/16 09/26/16
Detected Analytes (µg/L)(µg/L)(µg/L)(µg/L)(µg/L)(µg/L)(ug/L)
54 Copper 4.52 J 6.61 J 6.03 J 8.07 J 10 2.7
ug/L = concentrations reported in micrograms per liter (ug/L)
< = concentrations is less than the method detection limit shown
NC SWSL = North Carolina Solid Waste Section Limit
* = Title 15A NCAC 2B Standards for all Water Supply Classifications
J =
Blank cell indicates no 2B Standard exceedance detected.
Concentration reported greater than the method detection limit but less than the SWSL, thus it is considered
estimated
Appendix II Constituents
TABLE 7
SUMMARY OF 2B SURFACE WATER STANDARD EXCEEDANCES
PHASE 2 - PERMIT # 41-03
WHITE STREET LANDFILL
GREENSBORO, NORTH CAROLINA
S&ME PROJECT NO. 1584-98-081C
Solid
Waste
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WHITE STREET LANDFILL
GREENSBORO, NORTH CAROLINA
AS SHOWN DSB/RDM EQBH
1584-98-081B OCTOBER 2013 1
PHASE II
SURFACE WATER SAMPLING POINTMONITORING WELL LOCATION 2 LEGEND:
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PHASE II WHITE STREET LANDFILL GREENSBORO, NORTH CAROLINA AS SHOWNDSB/RDMBSL 1584-98-081NOVEMBER 20162 SURFACE WATER SAMPLING LOCATIONS 0GRAPHIC SCALE 800 400 800 SCALE: 1" = 800'
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GROUNDWATER FLOW MAP
WHITE STREET LANDFILL
GREENSBORO, NORTH CAROLINA
AS SHOWN DSB/RDM BSL
1584-98-081C NOVEMBER 2016 3
PHASE II
SURFACE WATER SAMPLING POINTGROUNDWATER ELEVATION (SEPTEMBER 2016)MONITORING WELL LOCATIONGROUNDWATER FLOW DIRECTIONGROUNDWATER CONTOUR LINE 2 LEGEND:
0
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DETAILED SITE MAP
WHITE STREET LANDFILL
GREENSBORO, NORTH CAROLINA
AS SHOWN DSB/RDM BSL
1584-98-081C NOVEMBER 2016 4
PHASE II
0 GRAPHIC SCALE200100200SCALE: 1" = 200'OFF-SITE PROPERTY OWNED BY GROUNDWATER CONTOUR LINE MONITORING WELL LOCATIONTHE CITY OF GREENSBORO LEGEND:PROPERTY OFTHE CITY OF GREENSBORO
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GROUNDWATER ELEVATION (SEPTEMBER 2016)(680.36)
Appendix I – Groundwater Sampling Field Data Sheets
Location:
Project No.:
Source Well:
Locked?:Yes:x No:
Sampled By:
feet
feet
9.10 feet
Purge Method
Sample Method 1045 Stop 1140
Purge Rate ml/min
Control Settings On: 2.0 sec.1140 Stop 1230
Off: 28.0 sec.
Pressure: 25 psi
2" well:
height:9.1 x .163 =1.4833
gallons liters x
Yes No x
*Stabilization Parameters
Ferrous Iron = mg/L
Time Date Temp pH Conductivity *D.O.*Turbidity DTW
1045 9/27/2016 15.90
1050 9/27/2016 18.85 6.31 2.534 3.52 6.95 16.20
1055 9/27/2016 18.85 6.26 2.354 2.48 1.63 16.30
1100 9/27/2016 18.92 6.22 2.470 1.57 1.09 16.38
1105 9/27/2016 18.93 6.21 2.521 1.03 0.78 16.45
1110 9/27/2016 19.00 6.21 2.545 0.83 0.37 16.50
1115 9/27/2016 19.00 6.20 2.562 0.63 0.38 16.55
1120 9/27/2016 19.03 6.20 2.577 0.56 0.45 16.55
1125 9/27/2016 19.80 6.20 2.590 0.45 0.46 16.60
1130 9/27/2016 19.18 6.20 2.602 0.42 0.39 16.60
1135 9/27/2016 19.22 6.20 2.614 0.38 0.34 16.66
1140 9/27/2016 19.33 6.20 2.618 0.38 0.33 16.65
Final Readings 1140 9/27/2016 19.30 6.20 2.618 0.38 0.33 16.65
* C units mS/cm mg/L NTU
Bradley Keyse
55 Minutes
Tuesday, September 27, 2016
25.00
GROUNDWATER SAMPLING FIELD DATA
Water Level & Well Data
White Street Landfill
1584-98-081
4103-II1
Tuesday, September 27, 2016
1140
Overcast
71 *F
Height of water column:
Bladder Pump
Depth to water from measuring point:15.90
Measuring point:Top of Casing
Well Purging & Sample Collection
Bladder Pump
Depth to well bottom from measuring point:
Was well purged dry
Field Analyses
Volume of water in well
Volume of water removed 5.5
100
Location:Purge Date:
Project No.:Purge Time:
Source Well:Sample Date:
Sample Time:
Locked?:Yes:x No:Weather:
Sampled By:Air Temp:
feet
feet
8.95 feet
Purge Method
Sample Method Start 1010 Stop 1130
Purge Rate ml/min
Control Settings On: 2.0 sec.Start 1130 Stop 1210
Off: 28.0 sec.
Pressure: 25 psi
2" well:
height:8.95 x .163 =1.45885
gallons liters x
Yes No x
*Stabilization Parameters
The check valve in II-2's pump needs to be repaired/replaced
Time Date Temp pH Conductivity *ORP *D.O.*Turbidity DTW
1010 9/28/2016 20.05
1015 9/28/2016 18.81 7.00 1.069 -24.1 3.74 9.73 20.55
1020 9/28/2016 18.82 6.73 0.979 -17.0 2.99 3.12 20.59 7%
1025 9/28/2016 19.24 6.62 0.958 -10.5 3.00 1.51 20.59
1030 9/28/2016 19.73 6.59 0.960 -5.6 2.83 1.24 20.58
1035 9/28/2016 20.48 6.57 0.972 1.4 2.46 0.90 20.59
1040 9/28/2016 20.69 6.57 0.976 4.3 2.30 0.25 20.60
1045 9/28/2016 21.17 6.57 0.977 7.9 2.33 1.17 20.59 1%
1050 9/28/2016 21.11 6.55 0.981 12.0 2.51 0.85 20.60
1055 9/28/2016 21.05 6.54 0.982 14.1 2.58 0.30 20.60
1100 9/28/2016 21.17 6.54 0.983 16.1 2.59 0.72 20.6
1105 9/28/2016 21.01 6.53 0.982 18.3 2.32 0.92 20.61
1110 9/28/2016 21.23 6.53 0.982 20.8 2.4 0.99 20.62
1115 9/28/2016 21.41 6.52 0.984 23.8 2.24 0.87 20.64
1120 9/28/2016 21.78 6.52 0.985 24.9 2.31 0.85 20.64
1125 9/28/2016 21.9 6.51 0.986 25.7 2.04 0.78 20.65
1130 9/28/2016 21.82 6 0.988 26.4 2.03 0.3 20.67
Final Readings 1130 9/28/2016 21.82 6.00 0.988 26 2.03 0.30 20.67
* C units mS/cm mV mg/L NTU
Was well purged dry
Field Analyses
Volume of water in well
Volume of water removed 8.0
Bladder Pump
100
Measuring point:Top of Casing
Well Purging & Sample Collection
Bladder Pump Purge Time
Sample Collection Time
GROUNDWATER SAMPLING FIELD DATA
Water Level & Well Data
Depth to water from measuring point:20.05
1130
Sunny
78 *FBradley Keyse
Depth to well bottom from measuring point:29.00
Height of water column:
Wednesday, September 28, 2016
80 Minutes
Wednesday, September 28, 2016
White Street Landfill
1584-98-081
4103-II2
Location:Purge Date:
Project No.:Purge Time:
Source Well:Sample Date:
Sample Time:
Locked?:Yes:x No:Weather:
Sampled By:Air Temp:
feet
feet
feet
Purge Method
Sample Method Start 710 Stop 750
Purge Rate ml/min
Control Settings On: 2.5 sec.Start 750 Stop 830
Off: 27.5 sec.
Pressure: 25 psi
2" well:
height:13.33 x .163 =2.17279
gallons liters x
Yes No x
*Stabilization Parameters
The check valve in II-3's pump needs to be repaired/replaced
Time Date Temp pH Conductivity *ORP *D.O.*Turbidity DTW
710 9/28/2016 16.67
715 9/29/2016 Adjusting flow rate to 100 mL/min, missed readings 16.95
720 9/30/2016 16.41 5.70 0.464 75.3 1.39 40.70 17.14
725 10/1/2016 16.54 5.68 0.463 70.3 1.12 28.35 17.09
730 10/2/2016 16.64 5.67 0.461 68.1 1.30 17.87 17.09
735 10/3/2016 16.65 5.66 0.459 67.9 1.17 10.92 17.09
740 10/4/2016 16.69 5.65 0.458 68.3 1.20 8.78 17.09
745 10/5/2016 16.71 5.64 0.457 68.8 1.12 5.48 17.09
750 10/6/2016 16.75 5.63 0.457 69.2 1.03 6.3 17.07
Final Readings 750 10/6/2016 16.75 5.63 0.457 69 1.03 6.26 17.07
* C units mS/cm mV mg/L NTU
Cleaned out the
flow through cell
at 710 due to an
ant colony being
located in the
water line,
stopping up the
influent port of the
flow through cell
GROUNDWATER SAMPLING FIELD DATA
Water Level & Well Data
White Street Landfill
1584-98-081
4103-II3
Wednesday, September 28, 2016
750
Sunny
66 *FBradley Keyse
Depth to water from measuring point:16.67
40 Minutes
Wednesday, September 28, 2016
Depth to well bottom from measuring point:30.00
Height of water column:13.33
Bladder Pump
100 Sample Collection Time
Measuring point:Top of Casing
Well Purging & Sample Collection
Bladder Pump Purge Time
Was well purged dry
Field Analyses
Volume of water in well
Volume of water removed 4.0
Location:Purge Date:
Project No.:Purge Time:
Source Well:Sample Date:
Sample Time:
Locked?:Yes:x No:Weather:
Sampled By:Air Temp:
feet
feet
feet
Purge Method
Sample Method Start 1510 Stop 1555
Purge Rate ml/min
Control Settings On: 3.0 sec.Start 1555 Stop 1635
Off: 27.0 sec.
Pressure: 23 psi
2" well:
height:10.87 x .163 =1.77181
gallons liters x
Yes No x
*Stabilization Parameters
Time Date Temp pH Conductivity *ORP *D.O.*Turbidity DTW
1510 9/26/2016 14.13
1515 9/26/2016 14.29
1520 9/26/2016 20.61 6.29 0.573 58.0 1.24 1.95 14.34
1525 9/26/2016 20.61 6.29 0.573 58.0 1.24 1.95 14.34
1530 9/26/2016 Pump power issue, missed readings, didn't purge from 1525-1530
1535 9/26/2016 20.46 6.20 0.556 59.7 0.88 0.83 14.36
1540 9/26/2016 20.16 6.18 0.550 60.7 0.57 0.63 14.39
1545 9/26/2016 20.19 6.16 0.546 61.1 0.34 0.47 14.41
1550 9/26/2016 20.74 6.16 0.547 60.7 0.34 0.53 14.43
1555 9/26/2016 20.45 6.16 0.548 61.0 0.29 0.56 14.46
Final Readings 1555 9/26/2016 20.45 6.16 0.548 61 0.29 0.56 14.46
* C units mS/cm mV mg/L NTU
Field Analyses
Volume of water in well
Volume of water removed 3.5
Bladder Pump
100 Sample Collection Time
Was well purged dry
Measuring point:Top of Casing
Well Purging & Sample Collection
Bladder Pump Purge Time
Depth to well bottom from measuring point:25.00
Height of water column:10.87
Bradley Keyse
Depth to water from measuring point:14.13
Ovrecast
75 *F
Water Level & Well Data
Monday, September 26, 2016
40 Minutes
Monday, September 26, 2016
GROUNDWATER SAMPLING FIELD DATA
White Street Landfill
1584-98-081
4103-II3B
1555
Location:Purge Date:
Project No.:Purge Time:
Source Well:Sample Date:
Sample Time:
Locked?:Yes:x No:Weather:
Sampled By:Air Temp:
feet
feet
feet
Purge Method
Sample Method Start 1350 Stop 1435
Purge Rate ml/min
Control Settings On: 2.8 sec.Start 1435 Stop 1515
Off: 27.2 sec.
Pressure: 20 psi
2" well:
height:15.32 x .163 =2.49716
,liters x
Yes No x
*Stabilization Parameters
Time Date Temp pH Conductivity *ORP *D.O.*Turbidity DTW
1350 9/28/2016 14.68
1355 9/28/2016 19.24 6.05 1.602 79.1 2.81 2.39 14.89
1400 9/28/2016 18.60 5.97 1.602 81.0 2.57 0.96 14.89
1405 9/28/2016 18.77 5.95 1.608 81.5 2.73 1.01 14.89
1410 9/28/2016 18.89 5.94 1.608 82.4 2.68 0.40 14.89
1415 9/28/2016 18.80 5.92 1.607 83.9 2.52 0.66 14.90
1420 9/28/2016 18.93 5.91 1.608 84.8 2.19 0.28 14.90
1425 9/28/2016 18.83 5.90 1.612 85.6 2.30 0.94 14.91
1430 9/28/2016 18.86 5.90 1.611 86.2 2.30 0.26 14.96
1435 9/28/2016 18.73 5.90 1.611 87.1 2.30 0.47 14.93
Final Readings 1435 9/28/2016 18.73 5.90 1.611 87 2.30 0.47 14.93
* C units mS/cm mV mg/L NTU
Was well purged dry
Field Analyses
Volume of water removed 4.5
Volume of water in well
45 Minutes
Wednesday, September 28, 2016
Measuring point:Top of Casing
Depth to water from measuring point:14.68
Depth to well bottom from measuring point:30.00
Height of water column:
Bladder Pump
100 Sample Collection Time
Well Purging & Sample Collection
Bladder Pump Purge Time
Wednesday, September 28, 2016
15.32
GROUNDWATER SAMPLING FIELD DATA
Water Level & Well Data
1435
Overcast
78 *F
White Street Landfill
1584-98-081
4103-II4A
Bradley Keyse
Location:Purge Date:
Project No.:Purge Time:
Source Well:Sample Date:
Sample Time:
Locked?:Yes:x No:Weather:
Sampled By:Air Temp:
feet
feet
feet
Purge Method
Sample Method Start 1220 Stop 1305
Purge Rate ml/min
Control Settings On: 2.0 sec.Start 1305 Stop 1345
Off: 28.0 sec.
Pressure: 15 psi
2" well:
height:9.52 x .163 =1.55176
gallons liters x
Yes No x
*Stabilization Parameters
The check valve in II-5's pump needs to be repaired/replaced
Time Date Temp pH Conductivity *ORP *D.O.*Turbidity DTW
1220 9/28/2016 6.48
1225 9/28/2016 22.10 6.58 0.747 46.8 3.12 6 6.95
1230 9/28/2016 22.07 6.40 0.786 47.4 2.65 4.18 7.14
1235 9/28/2016 21.94 6.29 0.823 45.9 2.73 2.11 7.28
1240 9/28/2016 22.19 6.27 0.837 45.5 3.01 1.70 7.43
1245 9/28/2016 22.26 6.24 0.846 44.9 2.44 0.58 7.64
1250 9/28/2016 22.27 6.23 0.847 44.0 2.49 2.22 7.77
1255 9/28/2016 21.91 6.23 0.833 43.7 2.34 1.94 7.93
1300 9/28/2016 22.21 6.23 0.821 42.1 2.38 1.81 7.98
1305 9/28/2016 22.56 6.22 0.815 42.2 2.44 3.12 8.01
Final Readings 1305 9/28/2016 22.56 6.22 0.815 42 2.44 3.12 8.01
* C units mS/cm mV mg/L NTU
GROUNDWATER SAMPLING FIELD DATA
Water Level & Well Data
White Street Landfill
1584-98-081
4103-II5
Wednesday, September 28, 2016
1305
Partly Sunny
78 *FBradley Keyse
Depth to water from measuring point:6.48
45 Minutes
Wednesday, September 28, 2016
Depth to well bottom from measuring point:16.00
Height of water column:9.52
Bladder Pump
100 Sample Collection Time
Measuring point:Top of Casing
Well Purging & Sample Collection
Bladder Pump Purge Time
Was well purged dry
Field Analyses
Volume of water in well
Volume of water removed
Location:Purge Date:
Project No.:Purge Time:
Source Well:Sample Date:
Sample Time:
Locked?:Yes:x No:Weather:
Sampled By:Air Temp:
Water Level & Well Data
feet
feet
feet
Purge Method
Sample Method Start 850 Stop 945
Purge Rate ml/min
Control Settings On: 2.5 sec.Start 1530 Stop 1620
Off: 27.5 sec.
Pressure: 20 psi
2" well:
height:2.76 x .163 =0.44988
gallons liters x
Yes No x
*Stabilization Parameters
The check valve in II-6's pump needs to be repaired/replaced, possible redevelopment needed
Time Date Temp pH Conductivity *ORP *D.O.*Turbidity DTW
850 9/28/2016 14.24
855 9/28/2016 17.79 6.18 1.229 77.9 3.77 15.31 14.88
900 9/28/2016 17.99 6.34 1.770 41.8 3.41 14.01 14.88
905 9/28/2016 17.80 6.44 2.238 5.0 2.89 15.01 15.12
910 9/28/2016 17.78 6.49 2.368 -20.1 2.78 18.23 15.24
915 9/28/2016 17.70 6.55 2.427 -44.7 3.11 21.36 15.32
920 9/28/2016 17.78 6.50 2.441 -55.2 2.51 21.52 15.22
925 9/28/2016 17.79 6.58 2.463 -63.1 2.33 19.99 15.50
930 9/28/2016 17.81 6.58 2.478 -65.8 2.11 19.00 <15.55
935 9/28/2016 17.93 6.58 2.504 -69.8 2.18 20.75 <15.55
940 9/28/2016 17.86 6.58 2.510 -70.9 2.28 24.49 <15.55
945 9/28/2016 17.92 6.58 2.522 -71.5 2.15 25.60 <15.55
1530 +14.22
1535 57.49 14.61
1540 26.86 14.98
1550 -15.30
1600 Metals sample 16.99 <15.55
1610 15.78 <15.55
Final Readings 945 9/28/2016 17.92 6.58 2.522 -72 2.15 16.99 <15.55
* C units mS/cm mV mg/L NTU
GROUNDWATER SAMPLING FIELD DATA
White Street Landfill
1584-98-081
4103-II6
Wednesday, September 28, 2016
55 Minutes
Wednesday, September 28, 2016
1530
Overcast
78 *FBradley Keyse
Depth to water from measuring point:14.24
Depth to well bottom from measuring point:17.00
Height of water column:2.76
Bladder Pump
100 Sample Collection Time
Measuring point:Top of Casing
Well Purging & Sample Collection
Bladder Pump Purge Time
Flow rates varied
between 60
mL/min and
100mL/min
between 0930
and 0945
Was well purged dry
Field Analyses
Volume of water in well
Volume of water removed 5.0
Location:Purge Date:
Project No.:Purge Time:
Source Well:Sample Date:
Sample Time:
Locked?:Yes:x No:Weather:
Sampled By:Air Temp:
feet
feet
feet
Purge Method
Sample Method Start 1520 Stop 1605
Purge Rate ml/min
Control Settings On: 4 sec.Start 1605 Stop 1645
Off: 26 sec.
Pressure: 52 psi
2" well:
height:83.75 x .163 =13.65125
gallons liters x
Yes No x
*Stabilization Parameters
Time Date Temp pH Conductivity *ORP *D.O.*Turbidity DTW
1520 9/27/2016 17.25
1525 9/27/2016 17.51
1530 9/27/2016 18.97 8.52 0.465 100.5 3.03 1.07 18.45
1535 9/27/2016 18.63 8.78 0.464 100.2 1.52 1.09 18.96
1540 9/27/2016 19.97 8.97 0.470 97.8 1.30 1.11 19.31
1545 9/27/2016 19.21 9.07 0.477 96.6 0.85 1.07 19.75
1550 9/27/2016 19.17 9.14 0.480 95.6 0.73 1.20 20.15
1555 9/27/2016 18.88 9.18 0.483 95.1 0.63 1.45 20.54
1600 9/27/2016 18.71 9.20 0.483 94.8 0.54 1.16 20.81
1605 9/27/2016 18.66 9.22 0.485 94.1 0.5 1.78 21.1
1645
Final Readings 1605 9/27/2016 18.66 9.22 0.485 94.1 0.50 1.78 21.10
* C units mS/cm mV mg/L NTU
GROUNDWATER SAMPLING FIELD DATA
Water Level & Well Data
White Street Landfill
1584-98-081
4103-II7b
Tuesday, September 27, 2016
1605
Sunny
78 *FBradley Keyse
Depth to water from measuring point:17.25
45 Minutes
Tuesday, September 27, 2016
Depth to well bottom from measuring point:101.00
Height of water column:83.75
Bladder Pump
Sample Collection Time
Measuring point:Top of Casing
Well Purging & Sample Collection
Bladder Pump Purge Time
Was well purged dry
Field Analyses
Volume of water in well
Volume of water removed 4.5
Location:Purge Date:
Project No.:Purge Time:
Source Well:Sample Date:
Sample Time:
Locked?:Yes:x No:Weather:
Sampled By:Air Temp:
At approx 1650 hrs, the well cap from II-7b was placed on II-7. A new air connection is needed for II-7b
feet
feet
feet
Purge Method
Sample Method Start 1700 Stop 1740
Purge Rate ml/min
Control Settings On: 3.0 sec.Start 740 Stop 1820
Off: 27.0 sec.
Pressure: 20 psi
2" well:
height:12.91 x .163 =2.10433
gallons liters x
Yes No x
*Stabilization Parameters
Time Date Temp pH Conductivity *ORP *D.O.*Turbidity DTW
1700
1705 9/27/2016 19.06 5.95 0.620 68 0.94 27.58 14.47
1710 9/27/2016 19.22 5.77 0.644 73.0 0.58 23.43 14.53
1715 9/27/2016 19.25 5.72 0.650 76.6 0.54 15.00 14.89 14.89
1720 9/27/2016 18.88 5.66 0.641 85.5 1.00 8.26 14.66
1725 9/27/2016 19.21 5.63 0.648 89.7 0.69 5.86 14.71
1730 9/27/2016 19.17 5.61 0.649 95.1 0.70 3.77 14.73
1735 9/27/2016 19.13 5.6 0.648 99.3 0.79 5.39 14.75
1740 9/27/2016 19.11 5.58 0.646 103.4 0.84 4.31 14.76
Final Readings 1740 9/27/2016 19.11 5.58 0.646 103 0.84 4.31 14.76
* C units mS/cm mV mg/L NTU
Cleaned out the
flow through cell
between the
1715 and 1720
readings
Field Analyses
Volume of water in well
Volume of water removed 4.0
Blader Pump
100 Sample Collection Time
Was well purged dry
Measuring point:Top of Casing
Well Purging & Sample Collection
Blader Pump Purge Time
Depth to well bottom from measuring point:27.00
Height of water column:12.91
Bradley Keyse
Depth to water from measuring point:14.09
Sunny
77 *F
Water Level & Well Data
Tuesday, September 27, 2016
40 Minutes
Tuesday, September 27, 2016
GROUNDWATER SAMPLING FIELD DATA
White Street Landfill
1584-98-081
4103-II7
1740
Location:Purge Date:
Project No.:Purge Time:
Source Well:Sample Date:
Sample Time:
Locked?:Yes:x No:Weather:
Sampled By:Air Temp:
feet
feet
feet
Purge Method
Sample Method Start 1345 Stop 1420
Purge Rate ml/min
Control Settings On: 2.5 sec.Start 1420 Stop 1500
Off: 27.5 sec.
Pressure: 25 psi
2" well:
height:22.95 x .163 =3.74085
gallons liters x
Yes No x
*Stabilization Parameters
Time Date Temp pH Conductivity *ORP *D.O.*Turbidity DTW
1345 9/26/2016 9.55
1350 9/26/2016 21.72 6.07 2.872 70.6 3.06 1.73 9.77
1355 9/26/2016 21.26 6.07 2.991 59.6 1.82 1.10 9.85
1400 9/26/2016 21.42 6.08 3.040 52.2 1.56 1.33 9.84
1405 9/26/2016 21.27 6.08 3.065 48.9 0.96 1.32 9.85
1410 9/26/2016 21.39 6.07 3.074 49.8 0.81 1.56 9.84
1415 9/26/2016 21.91 6.07 3.102 49.0 0.62 1.76 9.84
1420 9/26/2016 22.22 6.07 3.124 49.8 0.50 1.79 9.81
Final Readings 1420 9/6/2016 22.22 6.07 3.124 50 0.50 1.79 9.81
* C units mS/cm mV mg/L NTU
GROUNDWATER SAMPLING FIELD DATA
Water Level & Well Data
White Street Landfill
1584-98-081
4103-II8
Monday, September 26, 2016
1420
Overcast
73 *FBradley Keyse
Depth to water from measuring point:9.55
35 Minutes
Monday, September 26, 2016
Depth to well bottom from measuring point:32.50
Height of water column:22.95
Blader Pump
100 Sample Collection Time
Measuring point:Top of Casing
Well Purging & Sample Collection
Blader Pump Purge Time
Was well purged dry
Field Analyses
Volume of water in well
Volume of water removed 3.5
Location:Purge Date:
Project No.:Purge Time:
Source Well:Sample Date:
Sample Time:
Locked?:Yes:No:X Weather:
Sampled By:Air Temp:
feet
feet
feet
Purge Method
Sample Method Start 725 Stop 805
Purge Rate ml/min
Control Settings On: 2 sec.Start 805 Stop 855
Off: 28 sec.
Pressure: 25 psi
2" well:
height:20.82 x .163 =3.39366
gallons liters x
Yes No x
*Stabilization Parameters
Ferrous Iron = 1.47 mg/L ( 1,470 ug/L) [Collected with Metals Bottle a 0820 hrs]
Time Date Temp pH Conductivity *ORP *D.O.*Turbidity DTW
725 9/27/2016 11.68
730 9/27/2016 Missed readings, adjusted flow rate up to 100 mL/min 11.91
735 9/27/2016 17.28 6.08 0.679 39.5 1.64 8.13 12.04
740 9/27/2016 17.11 6.09 0.715 31.6 1.00 12.83 12.16
745 9/27/2016 17.06 6.11 0.739 25.7 0.70 11.04 12.28
750 9/27/2016 17.06 6.12 0.752 22.3 0.51 8.05 12.38
755 9/27/2016 17.01 6.12 0.756 20.8 0.45 5.92 12.48
800 9/27/2016 17.09 6.11 0.756 19.6 0.46 3.21 12.56
805 9/27/2016 17.18 6.11 0.758 18.8 0.38 2.40 12.63
Final Readings 805 9/27/2016 17.18 6.11 0.758 19 0.38 2.40 12.63
* C units mS/cm mV mg/L NTU
Field Analyses
Volume of water in well
Volume of water removed 4.0
Blader Pump
100 Sample Collection Time
Was well purged dry
Measuring point:Top of Casing
Well Purging & Sample Collection
Blader Pump Purge Time
Depth to well bottom from measuring point:32.50
Height of water column:20.82
Bradley Keyse
Depth to water from measuring point:11.68
Overcast
67 *F
Water Level & Well Data
Tuesday, September 27, 2016
40 Minutes
Monday, September 26, 2016
GROUNDWATER SAMPLING FIELD DATA
White Street Landfill
1584-98-081
4103-II9
805
Location:Purge Date:
Project No.:Purge Time:
Source Well:Sample Date:
Sample Time:
Locked?:Yes:x No:Weather:
Sampled By:Air Temp:
feet
feet
feet
Purge Method
Sample Method Start 1645 Stop 1730
Purge Rate ml/min
Control Settings On: 2.5 sec.Start 1730 Stop 1810
Off: 27.5 sec.
Pressure: 25 psi
2" well:
height:10.81 x .163 =1.76203
gallons liters X
Yes No x
8
*Stabilization Parameters
Time Date Temp pH Conductivity *ORP *D.O.*Turbidity DTW
1645 9/26/2016 11.99
1650 9/26/2016 20.82 6.35 0.718 47.0 0.71 27.2 12.62
1655 9/26/2016 20.42 6.36 0.715 21.8 0.47 11.2 12.86
1700 9/26/2016 20.04 6.38 0.707 -3.8 0.81 8.9 13.01
1705 9/26/2016 20.24 6.40 0.722 -22.4 0.34 7.9 13.16
1710 9/26/2016 20.25 6.41 0.732 -32.4 0.24 6.8 13.25
1715 9/26/2016 19.94 6.41 0.741 -37.6 0.19 5.3 13.36
1720 9/26/2016 19.88 6.42 0.751 -41.1 0.18 4.8 13.46
1725 9/26/2016 19.82 6.42 0.759 -44.6 0.17 4.3 13.49
1730 9/26/2016 19.82 6.42 0.768 -47.6 0.17 3.7 13.59
Final Readings 1730 9/26/2016 19.82 6.42 0.768 -48 0.17 3.74 13.59
* C units mS/cm mV mg/L NTU
Field Analyses
Volume of water in well
Volume of water removed 5.0
Bladder Pump
100 Sample Collection Time
Was well purged dry
Measuring point:Top of Casing
Well Purging & Sample Collection
Bladder Pump Purge Time
Depth to well bottom from measuring point:22.80
Height of water column:10.81
Bradley Keyse
Depth to water from measuring point:11.99
Overcast
76 *F
Water Level & Well Data
Monday, September 26, 2016
45 Minutes
Monday, September 26, 2016
GROUNDWATER SAMPLING FIELD DATA
White Street Landfill
1584-98-081
4103-II12
1730
Location:Purge Date:
Project No.:Purge Time:
Source Well:Sample Date:
Sample Time:
Locked?:Yes:x No:Weather:
Sampled By:Air Temp:
Duplicate sample was collected with MW-13 (time on containers is 0700 hrs)
feet
feet
feet
Purge Method
Sample Method Start 1330 Stop 1400
Purge Rate ml/min
Control Settings On: 2.0 sec.Start 1400 Stop
Off: 28.0 sec.
Pressure: 25 psi
2" well:
height:12.79 x .163 =2.08477
gallons liters x
Yes No x
*Stabilization Parameters
Time Date Temp pH Conductivity *ORP *D.O.*Turbidity DTW
1315 9/27/16 20.21
1320 9/27/16
1325 9/27/16 Pump issues, did not record
1330 9/27/16 20.62 6.88 0.386 28.4 4.73 5.66 20.35
1335 9/27/16 19.50 6.73 0.361 31.4 4.99 3.92 20.61
1340 9/27/16 19.07 6.88 0.354 33.6 4.81 2.37 20.72
1345 9/27/16 18.62 6.62 0.348 36.3 4.89 3.11 21.13 6.36
1350 9/27/16 18.47 6.59 0.344 38.1 4.55 1.77 21.17
1355 9/27/16 18.27 6.56 0.341 40.3 4.64 2.02 21.22
1400 9/27/16 18.06 6.54 0.336 42.2 4.81 1.28 21.3
Final Readings 1400 9/27/2016 18.06 6.54 0.336 42.2 4.81 1.28 21.30
* C units mS/cm mV mg/L NTU
GROUNDWATER SAMPLING FIELD DATA
Water Level & Well Data
White Street Landfill
1584-98-081
4103-MW13
Tuesday, September 27, 2016
1340
Partly Sunny
73 *FBradley Keyse
Depth to water from measuring point:20.21
30 Minutes
Tuesday, September 27, 2016
Depth to well bottom from measuring point:33.00
Height of water column:12.79
Bladder Pump
100 Sample Collection Time
Measuring point:Top of Casing
Well Purging & Sample Collection
Bladder Pump Purge Time
Was well purged dry
Field Analyses
Volume of water in well
Volume of water removed 3.0
Location:Purge Date:
Project No.:Purge Time:
Source Well:Sample Date:
Sample Time:
Locked?:Yes:x No:Weather:
Sampled By:Air Temp:
feet
feet
feet
Purge Method
Sample Method Start Stop
Purge Rate ml/min
Control Settings On: 3.0 sec.Start Stop
Off: 27.0 sec.
Pressure: 28 psi
2" well:
height:34 x .163 =5.542 mg/L
gallons liters x
6.5
Yes No x
*Stabilization Parameters
20.46
6.88
1405
-
Final Readings
* C units mS/cm mV mg/L NTU
Field Analyses
Volume of water in well
Volume of water removed
Was well purged dry
Ferrous Iron:
GROUNDWATER SAMPLING FIELD DATA
Water Level & Well Data
Depth to water from measuring point:
Overcast
*F
White Street Landfill
1584-98-081
4103-MW14
Tuesday, September 27, 2016
Minutes
Tuesday, September 27, 2016
Bradley Keyse
Measuring point:
Depth to well bottom from measuring point:
100
Top of Casing
Well Purging & Sample Collection
Bladder Pump
34.00
Purge Time
Sample Collection Time
Bladder Pump
Height of water column:34.00
Location:Purge Date:
Project No.:Purge Time:
Source Well:Sample Date:
Sample Time:
Locked?:Yes:No:x Weather:
Sampled By:Air Temp:
feet
feet
feet
Purge Method
Sample Method Start 905 Stop 945
Purge Rate ml/min
Control Settings On: 2.3 sec.Start 945 Stop 1035
Off: 26.7 sec.
Pressure: 25 psi
2" well:
height:22.3 x .163 =3.6349
gallons liters x
Yes No x
*Stabilization Parameters
Ferrous Iron = mg/L
Time Date Temp pH Conductivity *ORP *D.O.*Turbidity DTW
905 9/27/2016 10.20
910 9/27/2016 18.29 6.55 0.687 47.8 2.73 18.29 10.31
915 9/27/2016 18.06 6.50 0.709 44.2 1.35 10.86 10.38
920 9/27/2016 17.91 6.49 0.725 41.1 0.65 2.09 10.42
925 9/27/2016 17.80 6.47 0.727 39.2 0.40 1.49 10.49
930 9/27/2016 17.84 6.47 0.724 38.0 0.41 1.63 10.49
935 9/27/2016 17.83 6.46 0.720 36.9 0.39 1.35 10.53
940 9/27/2016 17.82 6.45 0.716 35.3 0.28 1.57 10.54
945 9/27/2016 17.86 6.45 0.712 34.2 0.28 1.42 10.57
Final Readings 945 9/27/2016 17.86 6.45 0.712 34 0.28 1.42 10.57
* C units mS/cm mV mg/L NTU
Field Analyses
Volume of water in well
Volume of water removed 4.0
Blader Pump
100 Sample Collection Time
Was well purged dry
Measuring point:Top of Casing
Well Purging & Sample Collection
Blader Pump Purge Time
Depth to well bottom from measuring point:32.50
Height of water column:22.30
Bradley Keyse
Depth to water from measuring point:10.20
Overcast
68 *F
Water Level & Well Data
Tuesday, September 27, 2016
40 Minutes
Tuesday, September 27, 2016
GROUNDWATER SAMPLING FIELD DATA
White Street Landfill
1584-98-081
4103-SMW-3
945
Location:Purge Date:
Project No.:Purge Time:
Source Well:Sample Date:
Sample Time:
Locked?:Yes:No:x Weather:
Sampled By:Air Temp:
feet
feet
feet
Purge Method
Sample Method Start 1025 Stop 1105
Purge Rate ml/min
Control Settings On: 2.5 sec.Start 1110 Stop 1150
Off: 27.5 sec.
Pressure: 20 psi
2" well:
height:3.54 x .163 =0.57702
Gallons Liters X
Yes No x
*Stabilization Parameters
Time Date Temp pH Conductivity *ORP *D.O.*Turbidity DTW
1025 9/26/2016 11.46
1030 9/26/2016 11.78
1035 9/26/2016 17.62 5.66 0.359 50.1 2.23 6.4 11.88
1040 9/26/2016 17.68 5.68 0.370 38.7 1.06 6.4 11.96
1045 9/26/2016 17.78 5.72 0.369 32.8 0.79 5.2 12.10
1050 9/26/2016 17.88 5.72 0.359 28.7 0.60 5.4 12.23
1055 9/26/2016 17.93 5.71 0.346 27.1 0.48 5.4 12.34
1100 9/26/2016 17.96 5.69 0.336 27.1 0.44 4.5 12.48
1105 9/26/2016 18.00 5.68 0.329 24.2 0.42 3.1 12.58
Final Readings 1105 9/26/2016 18.00 5.68 0.329 24 0.42 3.10 12.58
* C units mS/cm mV mg/L NTU
Field Analyses
Volume of water in well
Volume of water removed 4.0
Blader Pump
100 Sample Collection Time
Was well purged dry
Measuring point:Top of Casing
Well Purging & Sample Collection
Blader Pump Purge Time
Depth to well bottom from measuring point:15.00
Height of water column:3.54
Bradley Keyse
Depth to water from measuring point:11.46
Overcast
69 *F
Water Level & Well Data
Monday, September 26, 2016
40 Minutes
Monday, September 26, 2016
GROUNDWATER SAMPLING FIELD DATA
White Street Landfill
1584-98-081
4103-SMW-1
1110
Location:Purge Date:
Project No.:Purge Time:
Source Well:Sample Date:
Sample Time:
Locked?:Yes:No:x Weather:
Sampled By:Air Temp:
feet
feet
feet
Purge Method
Sample Method Start 1205 Stop 1250
Purge Rate ml/min
Control Settings On: 5 sec.Start 1250 Stop 1330
Off: 25 sec.
Pressure: 60 psi
2" well:
height:9.45 x .163 =1.54035
gallons liters x
Yes No x
*Stabilization Parameters
Time Date Temp pH Conductivity *ORP *D.O.*Turbidity DTW
1205 11.05
1210 9/26/2016 17.95 6.10 1.019 32.5 3.84 1.60 11.16
1215 9/26/2016 17.83 6.04 1.011 33.7 2.25 2.78 11.20
1220 9/26/2016 17.78 6.02 1.013 33.5 1.11 0.60 11.27
1225 9/26/2016 17.67 5.98 0.927 33.9 0.64 0.49 11.31
1230 9/26/2016 17.67 5.90 0.890 34.8 0.50 0.42 11.33
1235 9/26/2016 17.66 5.87 0.862 37.5 0.40 0.21 11.40
1240 9/26/2016 17.59 5.85 0.856 38.6 0.35 0.34 11.43
1245 9/26/2016 17.60 5.84 0.848 40.7 0.31 0.40 11.49
1250 9/26/2016 17.54 5.83 0.845 42.3 0.30 0.32 11.54
Final Readings 1250 9/26/2016 17.54 5.83 0.845 42 0.30 0.32 11.54
* C units mS/cm mV mg/L NTU
GROUNDWATER SAMPLING FIELD DATA
Water Level & Well Data
White Street Landfill
1584-98-081
4103-SMW-4
Monday, September 26, 2016
1250
Overcast
71 *FBradley Keyse
Depth to water from measuring point:11.05
45 Minutes
Monday, September 26, 2016
Depth to well bottom from measuring point:20.50
Height of water column:9.45
Blader Pump
90 Sample Collection Time
Measuring point:Top of Casing
Well Purging & Sample Collection
Blader Pump Purge Time
Was well purged dry
Field Analyses
Volume of water in well
Volume of water removed 3.5
Location:Purge Date:
Project No.:Purge Time:
Source Well:Sample Date:
Sample Time:
Locked?:Yes:x No:Weather:
Sampled By:Air Temp:
feet
feet
0.00 feet
Purge Method
Sample Method Start Stop
Purge Rate ml/min
Control Settings On:sec.Start Stop
Off:sec.
Pressure:psi
2" well:
height:0 x .163 =0
gallons liters
Yes No
*Stabilization Parameters
Time Date Temp pH Conductivity *ORP *D.O.*Turbidity DTW
Final Readings 1210 9/26/2016 21.60 7.22 293.000
* C units mS/cm
Measuring point:
Monday, September 26, 2016
Monday, September 26, 2016
Height of water column:
Sample Collection Time
Depth to well bottom from measuring point:
Well Purging & Sample Collection
Purge Time
Field Analyses
Volume of water in well
Volume of water removed
Was well purged dry
Blank
Water Level & Well Data
Depth to water from measuring point:
1210
1584-98-081
White Street Landfill
4112-SW1
Gary Simcox
Sunny
75 *F
Summit Avenue Bridge
Location:Purge Date:
Project No.:Purge Time:
Source Well:Sample Date:
Sample Time:
Locked?:Yes:x No:Weather:
Sampled By:Air Temp:
feet
feet
0.00 feet
Purge Method
Sample Method Start Stop
Purge Rate ml/min
Control Settings On:sec.Start Stop
Off:sec.
Pressure:psi
2" well:
height:0 x .163 =0
gallons liters x
Yes No x
*Stabilization Parameters
Time Date Temp pH Conductivity *ORP *D.O.*Turbidity DTW
Final Readings 1130 9/26/2016 20.60 6.75 214.000
* C units mS/cm
Depth to well bottom from measuring point:
Monday, September 26, 2016
Monday, September 26, 2016
White Street Landfill
1584-98-081
4112-SW2
White Street and Nealtown Road
Height of water column:
Measuring point:
Well Purging & Sample Collection
Purge Time
GROUNDWATER SAMPLING FIELD DATA
Water Level & Well Data
Depth to water from measuring point:
1505
Cloudy
75 *FGary Simcox
Sample Collection Time
Was well purged dry
Field Analyses
Volume of water in well
Volume of water removed
Location:Purge Date:
Project No.:Purge Time:
Source Well:Sample Date:
Sample Time:
Locked?:Yes:No:Weather:
Sampled By:Air Temp:
feet
feet
feet
Purge Method
Sample Method Start Stop
Purge Rate ml/min
Control Settings On:sec.Start Stop
Off:sec.
Pressure:psi
2" well:
height:0 x .163 =0
gallons liters
Yes No x
*Stabilization Parameters
Time Date Temp pH Conductivity *ORP *D.O.*Turbidity DTW
Final Readings 1345 9/26/2016 23.80 7.21 439.000
* C units mS/cm
Was well purged dry
Field Analyses
Volume of water in well
Volume of water removed
GROUNDWATER SAMPLING FIELD DATA
Water Level & Well Data
Depth to water from measuring point:
1345
75 *F
White Street Landfill Monday, September 26, 2016
Monday, September 26, 2016
1584-98-081
4112-SW3
Gary Simcox
Cloudy
Waste Water Treatment Plant
Depth to well bottom from measuring point:
Purge Time
Measuring point:
Sample Collection Time
Well Purging & Sample Collection
Height of water column:0.00
Location:Purge Date:
Project No.:Purge Time:
Source Well:Sample Date:
Sample Time:
Locked?:Yes:x No:Weather:
Sampled By:Air Temp:
feet
feet
feet
Purge Method
Sample Method Start Stop
Purge Rate ml/min
Control Settings On:sec.Start Stop
Off:sec.
Pressure:psi
2" well:
height:0 x .163 =0
gallons liters
Yes No
*Stabilization Parameters
Time Date Temp pH Conductivity *ORP *D.O.*Turbidity DTW
Final Readings 1245 9/26/2016 22.50 7.30 412.000
* C units mS/cm
GROUNDWATER SAMPLING FIELD DATA
Water Level & Well Data
1245
Cloudy
75 *F
White Street Landfill Monday, September 26, 2016
1584-98-081
4112-SW4
Gary Simcox
Rankin Mill Road Bridge
Sample Collection Time
Was well purged dry
Purge Time
Volume of water in well
Field Analyses
Monday, September 26, 2016
Measuring point:
Depth to water from measuring point:
Depth to well bottom from measuring point:
Height of water column:0.00
Volume of water removed
Well Purging & Sample Collection
Location:Purge Date:
Project No.:Purge Time:
Source Well:Sample Date:
Sample Time:
Locked?:Yes:x No:Weather:
Sampled By:Air Temp:
feet
feet
feet
Purge Method
Sample Method Start Stop
Purge Rate gpm
Control Settings On:sec.Start Stop
Off:sec.
Pressure:psi
2" well:
height:0 x .163 =0
gallons x liters
Yes No x
*Stabilization Parameters
Time Date Temp pH Conductivity *ORP *D.O.*Turbidity DTW
Final Readings 1100 9/26/2016 22.60 7.34 427.000
* C units mS/cm
Was well purged dry
Field Analyses
Volume of water in well
Volume of water removed 0.0
GROUNDWATER SAMPLING FIELD DATA
Water Level & Well Data
Depth to water from measuring point:
1100
75 *F
White Street Landfill Monday, September 26, 2016
Tuesday, September 06, 2016
1584-98-081
4112-SW5
Gary Simcox
Cloudy
Below monitor well II-3
Depth to well bottom from measuring point:
Purge Time
Measuring point:
Sample Collection Time
Well Purging & Sample Collection
Height of water column:0.00
Appendix II – Laboratory Analytical Reports
Appendix III – Time vs Concentration Charts
Appendix IV – CAP Monitoring Laboratory Analytical Reports
and Summary Tables
AOC II-2 Wells
Sample Locations
NC
SWSL NCAC 2L
Well ID II-2 II-2 II-2 II-2 II-2 II-2 II-2 II-2 II-2 II-2 II-2 II-2 II-2 SMW-1 SMW-1 SMW-1 SMW-1 SMW-1 SMW-1 SMW-1 SMW-1 SMW-1 SMW-1 SMW-1 SMW-1 SMW-1 Std.
Date Collected 4/1/10 10/6/10 5/10/11 10/12/11 10/31/12 4/30/13 4/30/13 4/24/14 10/3/14 4/15/15 10/5/15 4/19/16 9/28/16 8/2/10 10/11/10 10/7/11 4/19/12 10/25/12 5/3/13 9/17/13 4/24/14 10/7/14 4/15/15 10/7/15 4/19/16 9/26/16
units (ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)
1,1-Dichloroethane 16 17 16 12 11 14 11 10 8.4 7.1 ND 9.5 8.6 ND ND ND ND ND ND ND ND ND ND ND ND ND 5 6
1,1-Dichloroethene 0.45 J 0.49J ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 5 7
1,2-Dichloroethane ND ND ND ND ND 0.40 J ND ND ND ND 0.98 J ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 70
1,2-Dichlorobenzene ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 5 20
1,4-Dichlorobenzene 0.61 J 0.54 J 0.87 J ND 0.94 J 1.2 1.5 2.0 1.3 1.3 ND 2.5 2.2 ND ND ND ND ND ND ND ND ND ND ND ND ND 1 6
4-Methyl 2-Pentanone ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 100 ns
Acetone ND 5.2 J ND ND ND ND ND ND ND ND ND ND ND ND 1.5 J ND ND ND ND ND ND ND ND ND ND ND 100 6,000
Benzene 1.2 0.67 J ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 1
Chlorobenzene 0.62 J 0.74 J 0.78 J 0.99 J 0.74 J 0.88 J 0.89 J 1.0 J 0.72 J 0.64 J ND 0.87 J ND ND ND ND ND ND ND ND ND ND ND ND ND ND 3 50
Chloroethane ND 0.57 J ND ND ND ND 0.47 J ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 10 3,000
Chloromethane ND ND ND ND ND ND ND ND ND ND 1.3 1.3 ND 0.40 J ND ND ND ND ND ND ND ND ND ND ND ND 1 3
cis 1,2-dichloroethene 20 23 21 21 23 29 26 26 21 19 ND 21 20 ND ND ND ND ND ND ND ND ND ND ND ND ND 5 70
Tetrachloroethene 4.2 3.6 2.9 ND 2.7 2.4 2.1 2.7 1.3 0.85 J ND 1.4 0.69J ND ND ND ND ND ND ND ND ND ND ND ND ND 1 0.7
Toluene ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 600
Trichloroethene 4.1 3.6 3.3 ND 2.9 3.2 2.4 2.5 1.2 1.2 ND 2.0 1.4 ND ND ND ND ND ND ND ND ND ND ND ND ND 1 3
Tetrahydrofuran ND ND 10 ND ND 2.7 ND ND ND ND ND NA NA NA NA NA NA NA ND ND ND ND ND ND NE NS
Trichlorofluoromethane 2.7 2.3 1.2 ND 0.88 J 0.73 J 0.48 J 0.55 J ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 2,000
Vinyl Chloride 4.8 5.4 5.1 3.5 2.2 5.6 3.6 4.6 2.6 2.5 ND 4.2 3.1 ND ND ND ND ND ND ND ND ND ND ND ND ND 1 0.03
Xylenes (total)ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 5 500
ND = compound not detected
J = Parameters are estimated values between the detection limit and the NC SWSL.
ns = no corresponding NCAC 2L groundwater quality standard
NC SWSL= North Carolina Solid Waste Section Limit (minimum detection limits)
NCAC 2L std. = 15A North Carolina Administrative Code 2L .0200, Groundwater Quality Standards for Class GA groundwater
Quantities highlighted in orange were detected above the 2L standards
NA = Parameter not analyzed during the specified event
S&ME PROJECT NO. 1584-98-081C
TABLE IV-1A
SUMMARY OF GROUNDWATER ANALYTICAL RESULTS
DETECTED VOLATILE ORGANIC COMPOUNDS
SELECT WELLS LOCATED WITHIN WHITE STREET LANDFILL - PHASE II
GREENSBORO, NORTH CAROLINA
T:\Projects\1998\ENV\081C White Street Landfill (2014)\2016 Compliance Monitoring\Fall 2016\Phase 2\Appendix IV CAP Tables.xlsx
AOC II-6 Wells
Sample Locations
NC
SWSL NCAC 2L
Well ID II-6 II-6 II-6 II-6 II-6 II-6 II-6 II-6 II-6 II-6 II-6 II-6 II-6 II-6 SMW-4 SMW-4 SMW-4 SMW-4 SMW-4 SMW-4 SMW-4 SMW-4 SMW-4 SMW-4 SMW-4 SMW-4 Std.
Date Collected 4/1/10 10/6/10 5/9/11 10/10/11 4/19/12 10/26/12 4/30/13 4/30/13 4/23/14 10/2/14 4/14/15 10/6/15 4/19/16 9/28/16 8/2/10 10/11/10 4/19/12 10/25/12 5/3/13 9/17/13 4/24/14 10/7/14 4/15/15 10/7/15 4/18/16 9/26/16
units (ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)
1,1-Dichloroethane ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 5 6
1,1-Dichloroethene ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 5 7
1,2-Dichlorobenzene 0.43 J 0.51 J ND ND ND 0.50 J ND 0.50 J ND 0.46 J ND ND ND 0.55J ND ND ND ND ND ND ND ND ND ND ND ND 5 20
1,4-Dichlorobenzene 3.4 4.7 ND 4.0 0.51 J 4.8 ND 3.2 ND 3.8 ND 2.8 0.72 J 4.3 ND ND ND ND ND ND ND ND ND ND ND ND 1 6
4-Methyl 2-Pentanone ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 100 ns
Acetone 5.4 J ND ND ND ND 9.8 J ND 7.1 J ND 16 J ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 100 6,000
Benzene 1.6 2.2 ND 2.4 ND 2.3 ND 1.6 ND 2.0 ND 1.4 ND 2.1 ND ND ND ND ND ND ND ND ND ND ND ND 1 1
Chlorobenzene 4.5 7.4 ND 6.8 0.71 J 5.7 ND 4.3 ND 5.8 ND 3.6 0.73 J 6.4 ND ND ND ND ND ND ND ND ND ND ND ND 3 50
Chloroethane ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 10 3,000
Chloromethane ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 3
Naphthalene NA NA NA NA NA NA NA NA NA 2.5 J ND ND ND 1.5J NA NA NA NA NA NA NA ND ND ND ND ND 10 6
cis 1,2-dichloroethene ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 5 70
Tetrachloroethene ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 0.7
Toluene ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 600
Trichloroethene ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 3
Tetrahydrofuran NA NA NA 34 4.0 23 ND 18 ND 29 1 32 ND ND NA NA NA NA NA NA ND ND ND ND ND ND NE NS
Trichlorofluoromethane ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 2,000
Vinyl Chloride ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 0.03
Xylenes (total)1.8 J 4.0 J ND 5.5 ND 2.6 J ND 1.8 J ND 1.9 J ND 0.77 J ND 1.4J ND ND ND ND ND ND ND ND ND ND ND ND 5 500
ND = compound not detected
J = Parameters are estimated values between the detection limit and the NC SWSL.
ns = no corresponding NCAC 2L groundwater quality standard
NC SWSL= North Carolina Solid Waste Section Limit (minimum detection limits)
NCAC 2L std. = 15A North Carolina Administrative Code 2L .0200, Groundwater Quality Standards for Class GA groundwater
Quantities highlighted in orange were detected above the 2L standards
TABLE IV-1B
SUMMARY OF GROUNDWATER ANALYTICAL RESULTS
DETECTED VOLATILE ORGANIC COMPOUNDS
SELECT WELLS LOCATED WITHIN WHITE STREET LANDFILL - PHASE II
GREENSBORO, NORTH CAROLINA
S&ME PROJECT NO. 1584-98-081C
T:\Projects\1998\ENV\081C White Street Landfill (2014)\2016 Compliance Monitoring\Fall 2016\Phase 2\Appendix IV CAP Tables.xlsx
Southern E-Buffer Wells
Sample Locations
NC
SWSL NCAC 2L
Well ID II-1 II-1 II-1 II-1 II-1 II-1 II-1 II-1 II-1 II-1 II-1 II-1 II-1 II-1 Std
Date Collected 4/1/10 10/6/10 5/9/11 10/10/11 4/17/12 10/26/12 4/30/13 9/11/13 4/24/14 10/6/14 4/14/15 10/7/15 4/18/16 9/27/16
units (ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)
1,1-Dichloroethane 2.3 J 3.0 J 1.1 J 1.7 J 1.2 J 1.6 J 0.77 J 0.89 J 0.79 J 0.53 J 0.45 J 0.86 J 0.46 J 0.76J 5 6
1,1-Dichloroethene ND ND ND ND ND ND ND ND ND ND ND ND ND ND 5 7
1,2-Dichlorobenzene ND 0.43 J ND ND ND 0.41 J ND ND ND 0.61 J ND ND 0.55 J 0.57J 5 20
1,4-Dichlorobenzene 6.5 7.5 4.0 7.6 4.6 7.7 3.4 4.3 5.6 8.2 5.4 7.6 7.9 8.6 1 6
4-Methyl 2-Pentanone 5.1 J ND ND ND ND ND ND ND ND ND ND ND ND ND 100 ns
Acetone ND ND ND ND ND 3.3 J ND 4.0 J ND ND ND ND ND ND 100 6,000
Benzene 1.1 1.2 0.78 J 0.98 J 0.91 J 1.5 0.45 J 1.1 ND 1.1 0.73 J 1.2 0.78 J ND 1 1
Chlorobenzene 2.2 J 3.2 1.2 J 4.0 2.0 3.5 1.4 J 2.9 J 3.0 4.3 2.0 3.4 3.3 4.3 3 50
Chloroethane 0.95 J 1.6 J ND ND ND ND ND ND ND ND ND 0.94 J ND ND 10 3,000
Chloromethane ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 3
cis 1,2-dichloroethene 3.3 J 4.2 J 0.88 J ND 2.1 J 3.0 J 1.3 J 2.6 J 0.43 J 1.1 J ND ND ND ND 5 70
Tetrachloroethene ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 0.7
Toluene ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 600
Trichloroethene 0.53 J 0.48 J ND ND ND ND ND ND ND ND ND ND ND ND 1 3
Tetrahydrofuran NA NA NA 11 4.4 10 5.5 6.5 14 13 8.2 21 7.1 ND NE NS
Trichlorofluoromethane ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 2,000
Vinyl Chloride 0.90 J 1.4 ND ND 0.52 J 1.3 ND 0.43 J ND ND ND ND ND ND 1 0.03
Xylenes (total)ND ND ND ND ND ND ND ND ND ND ND ND ND ND 5 500
ND = compound not detected
J = Parameters are estimated values between the detection limit and the NC SWSL.
ns = no corresponding NCAC 2L groundwater quality standard
NC SWSL= North Carolina Solid Waste Section Limit (minimum detection limits)
NCAC 2L std. = 15A North Carolina Administrative Code 2L .0200, Groundwater Quality Standards for Class GA groundwater
Quantities highlighted in orange were detected above the 2L standards
S&ME PROJECT NO. 1584-98-081C
TABLE IV-1C
SUMMARY OF GROUNDWATER ANALYTICAL RESULTS
DETECTED VOLATILE ORGANIC COMPOUNDS
SELECT WELLS LOCATED WITHIN WHITE STREET LANDFILL - PHASE II
GREENSBORO, NORTH CAROLINA
T:\Projects\1998\ENV\081C White Street Landfill (2014)\2016 Compliance Monitoring\Fall 2016\Phase 2\Appendix IV CAP Tables.xlsx
Northern Ebuffer Wells
Sample Locations
NC
SWSL NCAC 2L
Well ID II-9 II-9 II-9 II-9 II-9 II-9 II-9 II-9 II-9 II-9 II-9 II-9 SMW-3 SMW-3 SMW-3 SMW-3 SMW-3 SMW-3 SMW-3 SMW-3 SMW-3 SMW-3 SMW-3 SMW-3 SMW-3 SMW-3 Std.
Date Collected 4/29/10 10/7/11 4/19/12 10/25/12 4/30/13 9/18/13 4/24/14 10/7/14 10/7/14 10/7/15 4/18/16 9/27/16 8/2/10 10/11/10 10/7/11 4/19/12 10/23/12 5/3/13 9/18/13 4/24/14 10/7/14 4/15/15 10/8/15 4/18/16 4/18/16 9/27/16
units (ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)
1,1-Dichloroethane ND 5.8 6.9 9.6 7.9 9.9 ND 6.5 5.7 5.8 0.42 J 4.6J 4.2 J 3.8 J 0.88 J 5.4 5.0 4.5 J 5.6 5.8 5.6 6.2 3.7 J 5.5 5.5 5.6 5 6
1,1-Dichloroethene ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 5 7
1,2-Dichlorobenzene ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 5 20
1,4-Dichlorobenzene ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 6
4-Methyl 2-Pentanone ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 100 ns
Acetone ND ND ND ND ND ND ND ND ND ND ND ND 3.0 J ND ND ND ND ND ND ND ND ND ND ND ND ND 100 6,000
Benzene ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 1
Chlorobenzene ND ND ND ND ND 0.52 J ND 0.62 J ND 0.60 J ND 0.40J ND ND ND ND ND ND ND ND ND ND 1.9 J ND ND ND 3 50
Chloroethane ND ND ND ND ND 0.81 J ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 10 3,000
Chloromethane ND ND ND ND ND ND ND ND ND ND ND ND 0.44 J 0.61 J ND ND ND ND ND ND ND ND ND ND ND ND 1 3
cis 1,2-dichloroethene 11 16 16 24 23 26 ND 17 14 13 0.83 J 8.0 6.9 7.8 1.2 J 12 12 14 15 14 16 15 7.6 12 12 12 5 70
Tetrachloroethene ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 0.44 J ND ND ND ND ND ND 1 0.7
Toluene ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 600
Trichloroethene ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 0.40 J 0.60 J ND ND ND ND ND ND 1 3
Tetrahydrofuran NA NA NA NA NA NA NA ND ND ND ND ND NA NA NA NA NA NA NA ND ND ND ND ND ND ND NE NS
Trichlorofluoromethane ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 2,000
Vinyl Chloride 0.66 J 0.69 J 1.0 J 2.4 0.79 J 4.0 ND 2.6 ND 2.2 ND 1.4 0.49 J 0.68 J ND ND ND 0.74 J 1.3 J 1.7 2.0 1.6 0.72 J 1.6 1.6 1.5 1 0.03
Xylenes (total)ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 5 500
ND = compound not detected
J = Parameters are estimated values between the detection limit and the NC SWSL.
ns = no corresponding NCAC 2L groundwater quality standard
NC SWSL= North Carolina Solid Waste Section Limit (minimum detection limits)
NCAC 2L std. = 15A North Carolina Administrative Code 2L .0200, Groundwater Quality Standards for Class GA groundwater
Quantities highlighted in orange were detected above the 2L standards
TABLE IV-1D
SUMMARY OF GROUNDWATER ANALYTICAL RESULTS
DETECTED VOLATILE ORGANIC COMPOUNDS
SELECT WELLS LOCATED WITHIN WHITE STREET LANDFILL - PHASE II
GREENSBORO, NORTH CAROLINA
S&ME PROJECT NO. 1584-98-081C
T:\Projects\1998\ENV\081C White Street Landfill (2014)\2016 Compliance Monitoring\Fall 2016\Phase 2\Appendix IV CAP Tables.xlsx
AOC II-7 Wells
Sample Locations
NC
SWSL NCAC 2L
Well ID II-7 II-7 II-7 II-7 II-7 II-7 II-7 II-7 II-7 II-7 II-7 II-7 II-7 II-7 II-7B II-7B II-7B II-7B II-7B II-7B II-7B II-7B II-7B II-7B II-7B II-7B II-7B std
Date Collected 4/1/10 10/6/10 5/9/11 10/13/11 4/17/12 10/31/12 4/30/13 9/13/13 4/24/14 10/2/14 4/14/15 10/6/15 4/19/16 9/27/16 4/1/10 10/6/10 10/13/11 4/17/12 10/31/12 4/30/13 9/13/13 4/24/14 10/2/14 4/14/15 10/6/15 4/20/16 9/27/16
units (ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)(ug/L)
1,1-Dichloroethane 1.1 J 0.42 J ND ND 0.65 J 0.79 J ND ND ND ND ND ND ND ND ND ND ND 0.64 J 0.85 J 0.90 J ND 0.54 J ND 0.89 J 0.79 J 1.2 J 0.63J 5 6
1,1-Dichloroethene ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 5 7
1,2-Dichlorobenzene ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 5 20
1,4-Dichlorobenzene 0.53 J ND ND ND 0.42 J ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 6
4-Methyl 2-Pentanone ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 100 ns
Acetone 2.0 J ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 2.2 J ND ND ND ND ND ND 100 6,000
Benzene 0.64 J ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 1
Chlorobenzene ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 3 50
Chloroethane ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 10 3,000
Chloromethane ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 3
cis 1,2-dichloroethene 3.6 J ND ND ND 0.79 J 0.48 J ND ND ND ND ND ND ND ND ND ND ND 0.58 J 0.44 J ND ND ND ND ND ND ND ND 5 70
Tetrachloroethene 0.56 J ND ND ND ND 0.52 J ND ND ND ND ND ND ND ND 0.57 J 0.57 J ND 0.41 J 0.52 J 0.48 J ND 0.51 J ND ND ND 0.44 J 0.44 J 1 0.7
Toluene 1.0 ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 600
Trichloroethene ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 3
Tetrahydrofuran NA NA NA ND ND ND ND ND ND ND 0.40 J ND ND ND NA NA ND 130 170 150 18 140 ND 5.6 ND 50 50 NE NS
Trichlorofluoromethane ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 2,000
Vinyl Chloride 0.80 J ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 1 0.03
Xylenes (total)ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND ND 5 500
ND = compound not detected
J = Parameters are estimated values between the detection limit and the NC SWSL.
ns = no corresponding NCAC 2L groundwater quality standard
NC SWSL= North Carolina Solid Waste Section Limit (minimum detection limits)
NCAC 2L std. = 15A North Carolina Administrative Code 2L .0200, Groundwater Quality Standards for Class GA groundwater
Quantities highlighted in orange were detected above the 2L standards
S&ME PROJECT NO. 1584-98-081C
TABLE IV-1E
SUMMARY OF GROUNDWATER ANALYTICAL RESULTS
DETECTED VOLATILE ORGANIC COMPOUNDS
SELECT WELLS LOCATED WITHIN WHITE STREET LANDFILL - PHASE II
GREENSBORO, NORTH CAROLINA
T:\Projects\1998\ENV\081C White Street Landfill (2014)\2016 Compliance Monitoring\Fall 2016\Phase 2\Appendix IV CAP Tables.xlsx