HomeMy WebLinkAboutSF_F_NCN000410534_20220902_FRB_PASI(2)Staley PCE Wells
NCN 000 410 534
Site Reassessment References
August 2022
1) United States Environmental Protection Agency (EPA) 40 Code of Federal
Regulations - Part 300, Hazard Ranking System, July 1, 2019, Available On-line at:
https://semspub.epa.gov/work/HQ/100002489.pdf
2) United States Environmental Protection Agency, Superfund Chemical Data
Matrix, Appendix B, Updated July, 2022. Query at:
https://www.epa.gov/superfund/superfund-chemical-data-matrix-scdm-query
3) Parker, Stuart F., NC DEQ Superfund Section: “Site Inspection Report, Staley
PCE Wells site, EPA ID NCN 000 410 534, Staley, Randolph County, NC. September
2012.
4) Google Maps imagery for Staley, Randolph County, NC.
https://www.google.com/maps
5) Gamble, James M., NC DENR Superfund Section: “Pre-CERCLIS Screening
Assessment (PSA)”, Staley PCE Wells, Staley, Randolph County, NC”. October 27,
2010.
6) Gamble, James M., NC DENR Superfund Section: “Preliminary Assessment
(PA), Staley PCE Wells, Staley, Randolph County, NC”. October 28, 2010.
7) NC DEQ Superfund Section Inactive Hazardous Sites Branch: Correspondence,
maps and Summary Table pertaining to residential well sampling, Staley PCE Wells site,
December 2017.
8) Parker, Stuart F., NC DEQ Superfund Section: “Supplemental Site Inspection
Report, Staley PCE Wells site, EPA ID NCN 000 410 534, Staley, Randolph County,
NC. August 15, 2014.
9) S&ME, Inc., Raleigh, NC: “Soil Vapor Assessment, Staley PCE/Browns Grocery,
Liberty, NC”, NC ID: NCN 000 410 534, August 24, 2016.
10) NC DEQ Superfund Section Inactive Hazardous Sites Branch: ARC GIS IHSB
Map Viewer:
https://ncdenr.maps.arcgis.com/apps/webappviewer/index.html?id=1ff22e6cebe44424b64
df2fa4c5fc759
11) US EPA Vapor Intrusion Screening (VISL) Level Calculator Output. August 5,
2022: https://epa-visl.ornl.gov/cgi-bin/visl_search
12) Parker, Stuart F, NC Superfund Section: SRR Passive Soil Gas Sampling Field
Notes. July 22 and August 4, 2022.
REFERENCE 1
Pt. 300, App. A 40 CFR Ch. I (7-1-19 Edition)
involuntarily obtains ownership or control of property by virtue of its function as sovereig·n; (2)Acquisitions by or transfers to a government entity or its agent (including governmental lending and credit institutions, loan guarantors, loan insurers, and financial reg·ulatory entities which acquire security interests or properties of failed private lending or depository institutions) acting as a conservator or receiver pursuant to a clear and direct statutory mandate or reg·ulatory authority; (3)Acquisitions or transfers of assetsthroug·h foreclosure and its equivalents (as defined in 40 OFR 300.ll00(d)(l)) or other means by a Federal, state, or local government entity in the course of administering a g·overnmental loan or loan guarantee or loan insurance progTam; and (4)Acquisitions by or transfers to a government entity pursuant to seizure or forfeiture authority. (b)Nothing· in this section or in OEROLA section 101(20)(D) or section 101(35)(A)(ii) affects the applicability of 40 OFR 300.1100 to any security interest, property, or asset acquired pursuant to an involuntary acquisition or transfer, as described in this section. NOTE TO PARAGRAPHS (a)(3) AND (b OF THIS SECTION: Reference to 40 CFR 300.1100 is a reference to the provisions regarding secured creditors in CERCLA sections 101(20)(:E)-(G), 42 U.S.C. 9601(20)(:E)-(G). See Section 2504(a) of the Asset Conservation, Lender Liability, and Deposit Insurance Protection Act, Public Law, 104---208, 110 Stat. 3009-462, 3009-468 (1996). APPENDIX A TO PART 300-THE HAZARD RANKING SYSTEM Table of Contents List of Figures List of Tables 1.0. Introduction. 1.1 Definitions. 2.0 Evaluations Common to Multiple Path-ways. 2.1 Overview. 2.1.1 Calculation of HRS site score. 2.1.2 Calculation of pathway score. 2.1.3 Common evaluations. 2.2 Characterize sources. 2.2.1 Identify sources. 2.2.2 Identify hazardous substances associated with a source. 2.2.3 Identify hazardous substances available to a pathway. 2.3 Likelihood of release. 2.4 Waste characteristics. 2.4.1 Selection of substance potentially posing· greatest hazard. 2.4.1.1 Toxicity factor. 2.4.1.2 Hazardous substance selection. 2,4,2 Hazardous waste quantity, 2.4.2.l Source hazardous waste quantity. 2.4.2.1.1 Hazardous constituent quantity. 2.4.2.1.2 Hazardous wastestream quantity. 2.4.2,1.3 Volume. 2.4.2.1.4 Area. 2.4.2.1.5 Calculation of source hazardous waste quantity value, 2.4.2.2 Calculation of hazardous waste quantity factor value, 2.4,3 Waste characteristics factor category value. 2.4.3.1 Factor category value. 2.4.3.2 Factor category value, considering bioaccumulation potential. 2,5 Targets. 2.5,l Determination of level of actual con-tamination at a sampling location. 2.6.2 Comparison to benchmarks. 3,0 Ground Water Migration Pathway, 3,0,1 General considerations, 3.0.1.1 Ground water target distance limit. 3.0.1.2 Aquifer boundaries. 3.0.1.2,1 Aquifer interconnections, 3,0,1.2.2 Aquifer discontinuities, 3.0.1.3 Karst aquifer. 3.1 Likelihood of release, 3,1.1 Observed release, 3,1,2 Potential to release, 3.1.2.l Containment, 3.1.2.2 Net precipitation, 3.1.2.3 Depth to aquifer. 3.1.2.4 Travel time. 3,1.2.5 Calculation of potential to release factor value, 3.1.3 Calculation of likelihood of release factor category value. 3.2 Waste characteristics, 3,2,1 Toxicity/mobility, 3.2.1.l Toxicity. 3.2.1.2 Mobility, 3.2.1.3 Calculation of toxicity/mobility factor value, 3,2,2 Hazardous waste quantity, 3,2.3 Calculation of waste characteristics factor category value, 3,3 Targets. 3.3,l Nearest well, 3.3,2 Population. 3.3.2.l Level of contamination. 3.3.2.2 Level I concentrations. 3.3,2,3 Level II concentrations, 3.3.2.4 Potential contamination, 3,3,2,5 Calculation of population factor value, 3,3,3 Resources. 3,3.4 Wellhead Protection Area, 3,3,5 Calculation of targets factor category value, 3.4 Ground water migration score for an aquifer, 110
1
REFERENCE 2
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Superfund Chemical Data
Matrix (SCDM) Query
Last Update: July 2022
Report URL: https://www.epa.gov/superfund
/superfund%2Dchemical%2Ddata%2Dmatrix%2Dscdm%2Dquery?substanceAuto=&c=000127%2D18%2D4&
c=000079%2D01%2D6&b=b1&b=b6
Substance: Tetrachloroethylene
[CASRN 000127-18-4]
Query Accessed: 8/6/2022
Benchmarks: Ground Water Pathway
Tetrachloroethylene [CASRN 000127-18-4]
Parameter Value Unit
MCL 5.00E-03 mg/L
MCLG ----
Cancer Risk 3.71E-02 mg/L
Non-Cancer Risk 1.20E-01 mg/L
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Benchmarks: Subsurface Intrusion Component
Tetrachloroethylene [CASRN 000127-18-4]
Parameter Value Unit
Cancer Risk 1.08E-02 mg/m
Non-Cancer Risk 4.17E-02 mg/m
3
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Substance: Trichloroethylene
[CASRN 000079-01-6]
Query Accessed: 8/6/2022
Benchmarks: Ground Water Pathway
Trichloroethylene [CASRN 000079-01-6]
Parameter Value Unit
MCL 5.00E-03 mg/L
MCLG ----
Cancer Risk 1.19E-03 mg/L
Non-Cancer Risk 1.00E-02 mg/L
Benchmarks: Subsurface Intrusion Component
Trichloroethylene [CASRN 000079-01-6]
Parameter Value Unit
Cancer Risk 4.78E-04 mg/m
Non-Cancer Risk 2.09E-03 mg/m
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REFERENCE 3
TABLE OF CONTENTS
EXECUTIVE SUMMARY
1.0 INTRODUCTION ...............................................................................................................1
2.0 SITE DESCRIPTION, OPERATIONAL HISTORY
AND WASTE CHARACTERISTICS ................................................................................1
2.1 Site Location ............................................................................................................1
2.2 Site Description ........................................................................................................1
2.3 Site Operational and Regulatory History ................................................................2
2.3.1 Brown’s Grocery ..........................................................................................2
2.3.2 Discovery of Groundwater PCE Contamination..........................................2
2.3.3 CERCLA Investigation ................................................................................3
3.0 WASTE / SOURCE SAMPLING ......................................................................................4
4.0 GROUNDWATER PATHWAY .........................................................................................4
4.1 Hydrogeologic Setting .............................................................................................4
4.2 Groundwater Targets ...............................................................................................4
4.3 Groundwater Sampling ............................................................................................5
4.4 Groundwater Conclusions ........................................................................................7
5.0 SURFACE WATER PATHWAY .......................................................................................7
5.1 Hydrologic Setting ...................................................................................................7
5.2 Surface Water Targets..............................................................................................8
5.3 Surface Water Pathway Sampling ...........................................................................8
5.4 Surface Water Pathway Results ...............................................................................8
5.5 Surface Water Pathway Conclusions .......................................................................8
6.0 SOIL EXPOSURE AND AIR PATHWAYS ......................................................................8
7.0 SI SUMMARY AND CONCLUSIONS ..............................................................................9
LIST OF FIGURES
Figure 1: 4-mile Radius with Community Wells (GIS)
Figure 2: Site Layout Map and Potable Wells
Figure 3: Pre-SI Groundwater Contaminant Summary
Figure 4: November 2010 Groundwater PCE Sampling Results
Figure 5: May 2011 Groundwater PCE Sampling Results
Figure 6: December 2011 Groundwater PCE Sampling Results
Figure 7: Surface Water Pathway to 15 Miles
LIST OF TABLES
Table 1: November 2010 Groundwater Sampling Results
Table 2: May 2011 Groundwater Sampling Results
Table 3: December 2011 Groundwater Sampling Results
Table 4: Groundwater PCE Detection Summary
LIST OF APPENDICES
Appendix A: SI Sample Location Geographic Coordinates
Appendix B: SI Sample Analytical Data Reports
Appendix C: Well Owner Access Forms
EXECUTIVE SUMMARY
The Staley PCE Wells (formerly Staley TCE Wells) site is located near the
intersection of NC Highway 49, and Whites Chapel Road, west of Staley, Randolph
County, NC. State officials discovered tetrachloroethene (PCE) groundwater
contamination in 2006, when sampling residential wells near the adjacent Brown’s Exxon
(Brown’s Grocery) petroleum underground storage tank (UST) site at the intersection.
State and County investigation from 2006 to 2010 confirmed that PCE
contamination locally exceeded drinking-water limits in several contiguous domestic
wells. In 2010, at the request of the NCDENR Superfund Section, the EPA conducted a
Removal Action, installing filtration units on four of the contaminated domestic wells at
the site.
Subsequent to the EPA Removal Action, the NC Superfund Section conducted
iterative SI sampling events during November 2010, May 2011 and December 2011. The
SI sampling events delineated the area where residential wells contained PCE
contamination and quantified low-level trichloroethene (TCE) contamination in some
wells. SI sampling confirmed the continuing effectiveness of the filtration units installed
by the EPA. Sampling also identified a fifth residential well in need of filtration, which
(along with maintenance at the other four wells) is being addressed using the NC
Division of Waste Management (DWM) Inactive Hazardous Sites Cleanup Fund.
Three local small businesses and an electric utility station are potential sources for
the PCE contamination of groundwater at the site. No subsurface exploration or
candidate source sampling was conducted as part of the SI.
The entire study area within a 4-mile radius of the site depends on groundwater as
a drinking-water source. Most supplies consist of individual residential wells; only two
community residential supply wells were identified, and no municipal groundwater well
systems operate inside the study area.
SI sampling revealed intermittent, low-level PCE contamination in a single
surface spring located down gradient (west) from the contaminated domestic wells. This
and a second spring to the north are the likely probable points of entry (PPEs) to the site’s
15-mile surface water pathway, which extends west and then south and southeast past
Franklinville and Ramseur, NC. The lower pathway includes Sandy Creek and a
municipal reservoir. However, the nearest mapped wetland and surface water intake are
located 3.6 and 8 miles downstream from the PPEs, respectively. Due to the intermittent
contamination, contaminant volatility and limited stream flow near the site, no further
surface water pathway sampling was conducted as part of the SI.
In summary, the SI results indicate groundwater contamination associated with an
unknown source. All 5 wells with contamination exceeding health-based drinking water
benchmarks are now equipped with carbon filtration units monitored and maintained by
the NC DWM.
REFERENCE 4
REFERENCE 5
.^«si
NCDENR
North Carolina Department of Environment and Natural Resources
Dexter Matthews, Director Division of Waste Management Beverly Eaves Perdue, Governor
Dee Freeman, Secretary
October 27, 2010
Ms. Carolyn Callihan yi-^Xr- > _>-^t\ «- 7,
Superfund Site Evaluation Section CV f^Q'f^^ -t/Ty
US EPA Region IV Waste Division f H » ^ A^i/
61 Forsyth Street, 11th Floor P f\ ^
Atlanta, GA 30303-3104
Subject: Pre-CERCLl^^te Assessment (PSA)
Staley^ree-Wells
CERCLIS ID No. NCN 000 410 534
6488 Whites Chapel Road
Staley, Randolph County, NC 27355
Dear Ms. Callihan:
NC Superfiind Section has completed the Pre-CERCLIS Site Assessment (PSA) for the
Staley TCE Wells site in Randolph County, NC. Based on the impact at ground water targets, the
number of surrounding targets, and the absence of an altemate water source for the community,
the NC Superfiand Section recommends additional assessment under CERCLA.
The Staley TCE Wells site is the location of a PCE and TCE ground water plume from an
unknown source. State records indicate that PCE was first detected in five drinking water wells
in February 2006. As part of an environmental investigation of a nearby petroleum plume, an
environmental consultant tested nearby drinking water wells. PCE is not associated with the
petroleum release; which prompted the UST Section to contact the county health department.
Additional sampling by the county health department confirmed the presence of PCE. Project
highlights are as follows:
1. The site is located near Staley, Randolph County NC. The site location is 35.7902°
north latitude and 79.5971° west longitude. (Ref! 1) The site reference point is the
location ofthe well with the highest PCE concentrations. The property address at that
location is 6488 Whites Chapel Road, Staley, NC 27355. The surrounding
countryside is rural residential interspersed with large undeveloped tracts.
Staley TCE Wells
NCN 000 410 534
PSA October 27,2010
Page 2 of 3
2. Ground water is the sole source of potable water for the surrounding community.
Twenty-nine area water wells have been tested. Fifteen of the wells contain at least
trace concentrations of PCE and / or TCE. The highest concentration detected was
163 fig/1 PCE at 6488 Whites Chapel Road. Currently, there is no altemative water
source for the community. NC Superfiind Section staff estimated the population
within four miles of the site by examining aerial images (dated 2007). Each house
was assumed to have a well and a population equal to the estimated per household
population. (Ref 2) Estimated populations using ground water for drinking are: 90
within y* mile, 141 between % and Vi mile, 267 between Vi and 1 mile, 658 between 1
and 2 miles, 1414 between 2 and 3 miles, and 1795 between 3 and 4 miles.
Approximately eights well within % mile remain untested.
3. Twenty-nine area water wells have been sampled in connection with either the
Brown's Grocery US I site or Randolph County Health Departments" monitoring of
the PCE plume. Sample events have occurred over the last four years; the same set of
wells was not sampled each time. Table 2 (Ref 3) presents the highest concentration
detected in each well.
4. USEPA installed filter systems at two houses in March 2010. USEPA continues to
maintain the filter systems. Several other residents are being supplied with bottled
water. (Ref. 4)
Due to the number of residences using ground water and the lack of an altemative in the
area, the NC Superfiind Section Recommends that additional assessment be conducted under
CERCLA.
If you have any questions or need additional information you may contact Jim Bateson by
phone at (919)508-8449 or via email atjames.bateson@ncdenr.gov.
Sincerely,
^.77.77 ' -- '^ /•„.nj> A/. /^vw» y_,/.-^ y^^a,;^^-^
mes M. Gamble, P.G. jfm Bateson, Head
Hydrogeologist Site Evaluation and Removal Branch
NC Superfund Section NC Superfund Section
Cc: site screening file
Approved by: COAJLLf^ (^rillckZU^ Date: ///s//^
Carolyn Cal|((/ian, NC Site Management Secfion, EPA Region 4 Superfiind
Attachments
Pre-CERCLIS Screening Assessment Checklist / Decision Form
Staley TCE Wells
NCN 000 410 534
PSA October 27, 2010
Page 3 of 3
List of References
1. Latitude and Longitude Calculafion Worksheet and Site Location Map
2. Ground Water Use within 4 Miles
3. Summary of Laboratory Analytical Data and PCE and TCE in Ground Water Map
4. February 2010 USEPA Pollution Report
Reference 1
Latitude and Longitude Calculation Worksheet
and Site Location Map
LATITUDE AND LONGITUDE CALCULATION WORKSHEET #2
LI USING ENGINEER'S SCALE (1/60)
SITE NAME: STALEY TCE WELLS CERCLIS #: NCN 000 410 534
AKA: 0 SSID:
ADDRESS: 6488 Whites Chapel Road
CITY: Staley STATE: NC ZIP CODE: 27355
SITE REFERENCE POINT: location of well with TCE
USGS QUAD MAP NAME:
SCALE: 1 : 24,000 MAP DATS: 1974
MAP DATUM 1927
TOWNSHIP:
SECTION:
MERIDIAN:
_N/S
1/4
RANGE:
1/4
-
E/W
1/4
1983 (CIRCLE ONE)
COORDINATES FROM LOWER RIGHT (SOUTHEAST) CORNER OF 7.5' MAP (attach photocopy)
LONGITUDE: 79 ° 30 ' 0.00 " LATITUDE: 35 ° 45 '0.00
COORDINATES FROM LOWER RIGHT (SOUTHEAST) CORNER OF 2.5' GRID CELL:
LONGITUDE: 79 ° 35 ' 0.00 " LATITUDE: 35 ° 45 '0.00
CALCULATIONS: LATITUDE (7.5' QUADRANGLE MAP)
A) NUMBER OF RULER GRADUATIONS FROM LATITUDE GRID LINE TO SITE REF POINT: 438
B) MULTIPLY (A) BY 0.3304 TO CONVERT TO SECONDS:
A X 0.3304 = 144.72 "
C) EXPRESS IN MINUTES AND SECONDS (1' = 60") : 2 ' 24.72 "
ADD TO STARTING LATITUDE: 35 ° 45 ' 0.00 " + 2 ' 24.72
SITE LATITUDE: 35 O 47 ' 24.72 "
35.7902 °
CALCULATIONS: LONGITUDE (7.5' QUADRANGLE MAP)
A) NUMBER OF RULER GRADUATIONS FROM RIGHT LONGITUDE LINE TO SITE REF POINT: 150
B) MULTIPLY (A) BY 0.3304 TO CONVERT TO SECONDS:
A X 0.3304 = 49.56 "
C) EXPRESS IN MINUTES AND SECONDS (1' = 60") : 0 ' 49.56 "
D) ADD TO STARTING LATITUDE: 79 ° 35 ' 0.00 " + 0 ' 49.56
SITE LONGITUDE: 79 ° 35 ' 49.56 "
79.5971 °
INVESTIGATOR: Matt Gamble DATE: 10/25/2010
C:\Documents and Settings\jmgamble.DWMNET\My Documents\SERB ProjectsVSTALEY TCE WELLS\NC Superfund InvestigationsMnformation and
Analysis\Spatial Data\LibertyTCE_WellsLatLongCalcSheet
10/25/2010
79'3730-W
35°4730"N
35*45'0'
35M7'30"N
79'3r30"W
W-
County Location Map Extent: Randolph County
USGS 7,5 Minute Topographic Quadrangle: Liberty
Coordinates of approxiinate center of Liberty Town Well
Longitude: 79° 35'49.56" Latitude: 35" 47'24,72"
79.5971° 35.7902°
Site Location Map
Site Name: STALEY TCE WELLS
Site Number: NCN 000 410 534
Scale: 1:24,000
Date: October 25, 2010
Figure 1 by: NCDENR DWM
Reference 2
Ground Water Use within 4 Miles
staley TCE Wells
NCN 000 410 534
Pre-CERCLIS Site Assessment, October 27, 2010
Table 1 Groundwater Use within
Distance (miles)
0 to 1/4
1/4 to 1/2
1/2 to 1
lto2
2 to 3
3 to 4
Totals
4 Miles
Houses
35
55
104
257
552
701
1704
Wells
Level 1 Level 1!^
8 7
1
Other
20
54
104
257
552
701
Population
Total
90
141
267
658
1414
1795
4365
Level 1^
21
0
0
0
0
0
21
Level 11^
18
3
0
0
0
0
21
Potential Weighted Population "
51 53
138 102
267 52
658 94
1414 212
1795 131
4323 644
Number of houses counted by NC Superfund Section staff from 2007 aerial Imagery of Randolph and Chatham Counties. Each house is assumed to have a well.
2.56 Average houshold size estimate for 2006-2008 by US Census Bureau.
^ Level 1 contamination refers to the presence of PCE at a concentration greater than the reference dose of 1.6 pg/l in drinking w/ater (SCDM July 2009).
\evel II contamination refers to the presence of PCE below/the concentration ofthe reference dose of 1.6 pg/l in drinkingwater (SCDM July 2009).
^ Population is the number of houses (wells) times the average household size.
" Weighted population value as taken from HRS Final Rule Table 3-12.
Page 1 of 1 Prepared by NCDENR Division of Waste Management - Superfund Section
Reference 3
Summary of Laboratory Analytical Data
And PCE and TCE in Ground Water Map
L.
staley TCE Wells
NCN 000 410 534
PSA October 27, 2010
Table 2 Water Well Sample Summary j
Address
6488 Whites Chapel Road, Staleey, NC 27355
6456 Whites Chapel Road, Staley, NC 27355
6466 Whites Chapel Road, Staley, NC 27355
3141 NCHWY49N, Liberty
6533 Whites Chapel Road, Liberty, NC 27355
3139 NC Hwy 49 N., Liberty
6521 Whites Chapel Rd.
6487 Whites Chapel Road
1647 Smith Adkins Road, Liberty, NC 27298
3349 NC Hwy 49, Liberty, NC 27298
3318 NC Highway 49, Liberty, NC 27298
1458 Debora Drive, Liberty, NC 27298
6461 Wites Chapel Rd.
6511 and 6487 Whites Chapel Rd.
6498 Whites Chapel Rd., Staley
6335 Old Staley Road, Staley, NC 27355
3129 NCHWY49N (UBERTY)
3235 NCHwy49N, Liberty
3103 NCHWY49N (UBERTY)
6431 Whites Chapel Rd.
3106 NCHWY49N (UBERTY)
3128 NC HWY 49 N,UBERTy, NC 27298
3212 NC Hwy 49 N, Liberty, NC 27298
6345 and 6347 Goldfield Rd, Uberty, NC 27298
3252 NC Hwy 49 N and 6322 Old Staley Rd
6406 Goldfield Rd., Staley
6377 0ldStaleyRd., Staley
6399 Old Staley Rd., Staley
6398 and 6376 Goldfield Rd.
1 Randolph County Health Department.
2 Pyramid Environmental, Inc. - a private consulting firm hired by
3 USEPA Science and Ecosytem Support Division
J - estimated value
Q-2 - value is greater than the method detection limit but less tha
JDate
January 26, 2010
February 9, 2006
March 10, 2010
March 10, 2010
March 3, 2010
March 10,2010
February 9, 2006
March 9, 2010
March 3, 2010
March 3, 20)0
March 3, 2010
March 3, 2010
March 9, 2010
March 9, 2010
March 9, 2010
March 3, 2010
March 10,2010
March 10, 2010
February 9, 2006
March 10, 2010
December 14, 2010
March 10, 2010
March 10, 2010
December 14, 2010
December 14, 2010
December 14, 2010
December 15, 2010
December 14, 2010
December 14, 2010
jSampled By |
1
2
1
1
3
1
2
1
3
3
3
3
1
1
1
3
1
1
2
1
2
1
1
2
2
2
2
2
2
he NC UST Section - Federal Trust Fund Branch to
n the reporting limit.
Max PCE 1
163 J
37
26.5
15.9
3.6
3.2
3.0
1.9
1.4
1.1
0.22 J, Q-2
0.21 J, Q-2
trace
trace
trace
ND
ND
ND
BQL
ND
BQL
ND
ND
ND
BQL
BQL
BQL
BQL
BQL
complete investigations
Max TCE
0.28 J
BQL
trace
ND
ND
trace
ND
0.16 J
ND
ND
ND
ND
ND
ND
ND
ND
ND
BQL
ND
BQL
ND
ND
ND
BQL
BQL
BQL
BQL
BQL
|otherContam|notes j
,Q-2
,Q-2
trace MTBE
petroleum
petroleum
petroleum
petroleum
petroleum
petroleum
petroleum
associated with Brown's Grocery
TCE result is from March 3, 2010
sampling by SESD.
trace MTBE and PCE in trip blank
marked as lab error
trace MTBE in trip blank marked as lab
error
trace MTBE in trip blank marked as lab
error
sample was out of protocol for
temperature, possible lab
contaminants MTBE, Acetone
sample was out of protocol for
temperature, possible lab
contaminants MTBE, Acetone
trace MTBE in trip blank noted as lab
error
trace MTBE in trip blank marked as lab
error
sampled as SW-3 by Pyramid
Environmental in Feb 2006 and Dec
2009.
trace MTBE In trip blank marked as lab
error
trace acetone and MTBE marked as lab
error
this is the replacement well for Brown's
Grocery
Page 1 of 1 Prepared by NCDENR Division of Waste Management - Superfund Section
PCE 0.21 ug/l
n n\
Wells Distance rings are drawn from the intersection of NC Hwy 49 and Whites Chapel Road.
County location
^ ^ /-* r\r\f\ Base map IS hillshade from 2007 Ldar fnagnry
AbSOlUtG SC3i6 1 "D 000 availablefromNCDcpanmeniofTransponaion.
di?[ccied (petfoteum compouids present in ^ome welb)
Contour interval is 5 feel and is based on
2007 Lidar elevation measurements.
V\fell locations estimated from aerial images
dated 2007.
PCE and TCE in Ground Water
Site Name: Staley TCE Wells
Site Number: NCP 000 410 534
Figure: PSA Ref. 3 Fig. 1
Date: October 27, 2010
Prepared by: NCDWM
Reference 4
February 2010 USEPA Pollution Report
Page 1 of 3
U.S. ENVIRONMENTAL PROTECTION AGENCY
POLLUTION/SITUATION REPORT
Staley PCE Wells - Removal Polrep
,<toar>...
c/EFA
EMERC5ENCY
.RESPONSE
l?«.Qi
UNITED STATES ENVIRONMENTAL PROTECTION AGENCY
Region IV
Subject:
To:
From:
Date:
POLREP#1
Initial
Stalev PCE Wells
B462
Staley, NC
Latitude: 35.7898799 Longitude: -79.5972790
Kenneth Rhame. OSC
2/23/2010
Reporting Period: 2/23/2010 to 4/14/2010
1. Introduction
1.1 Background
Site Number: B462
D.O. Number:
Response .Authority': CERCL.A
Response Lead: EP.A
NPL Status: Non NPL
Mobilization Date: 2/23/2010
Demob Date:
CERCLIS ID:
ERNS No.:
FPN#:
Contract Number:
.Action .Memo Date:
Response Type:
Incident Category:
Operable Unit:
Start Date:
Completion Date:
RCRIS ID:
State Notification:
Reimbursable Account #:
Emergency
Removal Action
2/23/2010
DENR - Superfund
1.1.1 Incident Categorj'
US EPA Region 4 conducted a Emergency Response to provide bottled water to residents with
potentially impacted wells contaminated with perchloroethylene (PCE). PCE was detected in
samples collected by NCDENR and the C'ounl\ Health Dept.
1.1.2 Site Description
NCDENR has requested EPA technical assistance in an incident in Staley. NC involving the
discoverv of perchloroethylene (PCE) in local residential water supply wells. OSC Rhame
responding with ERRS and START to provide bottled water to potentially impacted residents
mhtml:file://C:\Documents and Settings\jmgamble.DWMNET.My Documents\SERB Proj... 11/2/2010
Page 2 of 3-
and conduct water sampling at private wells. NC DENR and County Health Dept began
collecting samples in the community as part of a investigation being conducted related to a
abandoned gas station. Brown's E.\.\on, located on NC Hwy 49 and Whites Chapel Road.
1.1.2.1 Location
Residential Wells in the vacinity of Whites Chapel Road and NC Hwy 49.
1.1.2.2 Description of Threat
Samples collected by NC DENR and the County Health Department indicate concentrations of
PCE above the removal action level of (12 ppb).
1.1.3 l*reliminary Removal As.se.ssment/Removal Site Inspection Results
NC DENR and County Health Dept. detected PCE in the residential well samples up to 67.9
ppb. EPA lo.xicologist have reviewed the data and recommended that the EPA Emergency
Response and Removal Branch (ERRB) provide bottled water to the residents exceeding MCLs
until EPA data could be collected confirming the state and county data.
Current .\ctivities
2.1 Operations Section
2.1.1 Narrative
On 2/24/2010 EPA delivered water to the residents exceeding MCLs and RALs. Residents that
exceeded the RALs were given guidance to reduce exposures, ranging from not using the water
lo limiting bathing times and venting with open windows or fan during bathing etc. Bottled
water will continue to be provided until EPA collects and confirms the data. ATSDR has been
contacted and requested to consult with residents having impacted wells.
2.1.2 Response .Actions to Date
HP.A confirmed NC Di-NR and County Health Dept. data indicating that RALs for PCE was
exceeded. l:P.As results showed PCI: in concentrations up to 150 ppb. Water filtration systems
were installed on 3,''21 and completed on 3/22. The resident having the highest concentrations
(15o ppbj icl'uscd to allow EPA lo install a vvater filtration unit. This resident was advised ofthe
dangers involved with continuing to use the well water. This resident wanted EPA to construct
another well. EPA consulted with teclinical advisors that advised against installation of new
wells due lo the geology ofthe area and the chemical characteristics of PCE. it is unlikely that a
new well would resolve the exposure long lerm. All residents remain on bottled water being
provided by HP.A until samples can be collected and analyzed from the filters indicating that the
filters are working properly.
EPA continues lo provide bottled w alcr and lo discuss the desire to install a filter for the resident
having the highest concenlralion (150 ppb) PCE.
2.1.3 Enforcement .Activities. Identity' of Potentially Responsible Parties (PRPs)
No responsible parties have yet been identified.
2.1.4 Progress Metrics
Waste Stream Medium Quantity Manifest # Treatment Disposal
mhiml:filc:/.C:\Documcnls and Scllings\jmgamble.DWMNFr<My Documents\SERB Proj... 11/2/2010
Page 3 of 3
2.2 Planning Section
2.2.1 Anticipated Activities
Addtional Sampling is needed to insure all impacted wells have t)een identified.
2.2.1.1 Planned Response Activities
Continue to discuss the need for a filter to be installed at the resident that refused the EPA Filter
Agreement.
2.2.1.2 Next Steps
Maintain Filters for 1 year. Sample Filters Quarterly.
Attempt to Identify Source (PRP).
Identify other potentially impacted homes.
2.2.2 Issues
Resident Denying EPA Filter Installation
2.3 Logistics Section
2.4 Finance Section
2.5 Safety Officer
2.6 Liaison Officer
2.7 Information OfTicer
3. Participating Entities
3.1 Unified Command
3.2 Cooperating and Assisting Agencies
4. Personnel On Site
5. Definition of Terms
6. Additional sources of information
6.1 Internet location of additional information/reports
6.2 Reporting Schedule
7. Situational Reference Materials
mhtml:file://C:\Documents and Settings^jmgamble.DWMNETVMy Documents\SERB Proj... 11/2/2010
PRE-CERCLIS SCREENING ASSESSMENT CHECKLIST/DECISION
FORM
This checklist can assist the site investigator during the Pre-CERCLIS screening. It will be used to detennine
whether further steps in the site investigation process are required under CERCLA. Use additional sheets, if
necessary.
Checklist Preparer:
Site Name:
Matt Gamble / Hydrogeologist
O'ame/Tiilc)
401 Oberlin Road. Raleigh. North Carolina
(Address)
matt. gamble(fl).ncmail .net
(E-Mail Address)
Stalev TCE Wells
10/26/2010
(Date)
919-508-8487
(Phone)
Previous Names (if any):
Site Location:
Latitude; •'35.7902 °
6488 Whites Chapel Road
(Slrcel)
Stalev. Randolph County
(City)
Longitude; 19.597'l ^
Nonh Carolina 28173
(ST) (Zip)
Complete the following checklist. IfAyes^ is marked, please explain below.
1. Does the site already appear in CERCLIS?
2. Is the release from products that are pari ofthe structure of and result in exposure within, residential buildings
or businesses or communily structures'?
i. Does the site consist of a release of a naturally occurring substance in its unaltered form, or altered solely
through naturally occurring processes or phenomena, from a location where il is naturally found?
4. Is Ihe release inlo a public or private drinking water supply due lo deterioration of the system through ordinary
use?
5. Is some other program aclively involved with the site (i.e., another Federal, Stale, or Tribal program)?
6. Are the hazardous substances potentially released at Ihe site regulated under a statutory exclusion (i.e.,
petroleum, natural gas. natural gas liquids, synthetic gas usable for fuel, nonnal application of fertilizer,
release located in a workplace, naturally occurring, or regulated by the NRC. UMTRCA, or OSHA)?
7. Are the hazardous substances potentially released al the site excluded by policy considerations (e.g., defenal
lo RCRA Coneclivc Action)?
8. Is there sufficient documentation that clearly demonstrates that there is no potential for a release that could
cause adverse environmental or human health impacts (e.g., comprehensive remedial investigation equivalent
data showing no release above ARARs, completed removal action, documentation showing that no hazardous
substance releases have occuned, EPA approved risk assessment completed)?
YES
X
X
NO
X
X
X
X
X
X
Please explain all Aye^ answer(s), attach additional sheets if necessary:
Site Determination: X Enter the site into CERCLIS. Further assessment is recommended (explain
below).
The site is not recommended for placement into CERCLIS (explain below).
DECISION/DISCLSSION/RATIONALE:
Item 1 The site was entered into CERCLIS as a removal only site during the response of EPA's On-Scene
Coordinator's work to sample wells, supply local residents with bottled water and install filter systems on select
wells.
Item 5, The Randolph County Health Department periodically samples about 15 area wells to monitor the
situation.
Given the presence of impacted ground water targets, untested targets, and the lack of an altemate water
source, the North Carolina Superfund Section recommends that additional work be completed under CERCLA.
Although current data is reliable, it was not completed under CLP protocols and contaminant levels have increa.sed
over time in some wells: the section therefore recommends that an additional round of sampling be completed. This
sampling would confonn to EPA assessment protocol and analyses will be pyerformed by a CLP laboratory. Also.
surface water has not yet been .sampled and will be included in the additional sampling.
Regional EPA Reviewer:
State Agency/Tribe:
OJIMLLU^ Ihr'/o
'I'niit Name Sigiiaftjrc
C»n7/L€/ i/X7r^i
Print Nanjt/Sjgnalure
. Date
.//yyyjyyyp
Date
REFERENCE 6
NCDENR
North Carolina Department of Environment anci Natural Resources
Dexter Matthews, Director Division of Waste Management Beverly Eaves Perdue, Governor
Dee Freeman, Secretary
October 28, 2010
Ms. Carolyn Callihan
Superfund Site Evaluation Section TN A A-rkr>rz)v/^<d
US EPA Region IV Waste Division TH Hpp ^
61 Forsyth Street, 11th Floor U M I I O CPPC
Atlanta, GA 30303-3104 ' SI \/^arnxr\-hd
Subject: Preliminary Assessment (PA)
Staley T^Wells^^T^dC:
CERCLlSlDNCNOOO 410 534
6488 Whites Chapel Road
Staley, Randolph County, NC 27355
Dear Ms. Callihan:
The NC Superfiind Section completed a PA for the above reference site. This PA was
performed by the NC Superfimd Section under a cooperative agreement between the EPA and
the State of North Carolina. The site is located at 35.7902° north latitude and 79.5971° west
longitude, on Whites Chapel Road, southwest of the Town of Staley in Randolph County, NC
(Ref 1). The site is the location of a plume of PCE and TCE ground water contamination from
an unknown source. Fifteen residential supply wells have been impacted: four of them at
concentrations > the MCL for PCE, 5.0 ^g/l (SCDM July 2009).
This PA was performed to assess the potential threat to human health and the
environment posed by the presence of PCE and TCE in the ground water. The site was brought
to the attention of the NC Superfund Section by the Randolph County Health Department. They
were contacted by the NC Underground storage tank (UST) program when an investigation at
Brovm's Grocery discovered PCE in a water well. PCE is not associated with the petroleum
plume at Brovra's Grocery.
Potential Sources
As mentioned above, there is no known source for the PCE and TCE in the ground water.
There are three potential sources: Brown's Grocery, a nearby auto repair shop, and an electrical
substation. (Ref 1)
10855323
An Cnii'al Annortiinih; / Affinmotivo Ar^tir>r^ Cmnlcn/cir . ^r\ W. Dar'\rr\ari \ ^^\ 0/, DAC* fnnc.tmar Darior
U.S. EPA REGION IV
SDMS
POOR LEGIBILITY
PORTIONS OF THIS DOCUMENT MAY BE
DIFFICULT TO VIEW DUE TO THE QUALITY OF
THE ORIGINAL.
TO MAKE THE DOCUMENT READABLE, TRY
ONE OR MORE OF THE FOLLOWING:
From the Displays Settings in Windows Control Panel:
1. Set the Color Quality to the highest available: 24 bit or 36 bit.
2. Increase or decrease the Screen resolution.
From the iMonitor/Displav Controls:
1. For dark image page, increase the brightness and decrease the
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contrast.
** PLBASB CONTACT THS AfPROPMATH MCOHOS CairrB« TO VIBW THB MATBRIAL**
V. 2-040506
Staley TCE Wells
NCN 000 410 534
October 28, 2010 Preliminary Assessment
Paae2 of5 age 2 of;
Brown's Grocery is the location of a petroleum release. The UST Program's Federal
Trust Fund Branch is overseeing and financing investigations there. To date several UST's and
dispensers have been removed. About 35 cubic yards of petroleum contaminated soil was
removed from the site for disposal during the tank removals. Free phase petroleum is present in
several monitoring wells at the site. Multi phase extraction is being used to remove free product.
Neither PCE nor TCE are associated with the petroleum release. Attribution of the PCE and
TCE to the Brown's Grocery is unlikely given current information.
There is an auto body repair shop about 250 ft northeast from Brown's Grocery. The
water well at the repair shop shows trace concentrations of PCE. However, it is only in 2010 that
the PCE has been detected in the well. Samples in 2003 and 2009 did not detected PCE.
Additionally, the well there is approximately 750 ft away from the well with the highest PCE
concentrations. The PCE contamination cannot be firmly attributed to the repair shop on the
basis of currently available infonnation.
- There is an electrical substation directly across the street from 6488 Whites Chapel Road.
The substation is about Yz acre in size and is completely covered with a layer of gravel. The
substation'property is owned by Randolph County Electric Membership Corporation. Although
there are no signs of a release at the substation, its proximity to the site is suggestive.
Previous Investigations
The nearest environmental investigation is at the aforementioned Brown's Grocery.
(Ref 2) Twenty-nine drinking water wells have been sampled as a result of petroleum related
investigations at Brown's Grocery and monitoring of ground water quality by the Randolph
County Health Department. (Ref 4)
In February 2010. the NC Superfiind Section requested EPA Regional 4 Emergency
Response and Removal Branch (ERRB) to conduct a Removal Site Evaluation at the site. Their
evaluation included sampling ten water wells, providing bottled water to residents, and installing
water filtration systems. (Ref 4)
The NC Superfiind Section is not aware of any other investigation into the PCE and TCE
in ground water at the site.
Ground Water Pathway
The site is located in the Carolina Slate Belt geologic region of the state. Rocks in this
region are generally greenshcist grade metamorphic rocks derived from volcanic and
sedimentary parent rocks. Topography is characterized by relatively low rolling hills dissected
by a dendritic pattern of perennial streams with a stream occurring every few thousand feet on
average. Average annual precipitation in the area is 48.2 inches almost all falls as rain. (Ref 5)
Precipitation runs off to nearby streams and percolates down into the ground water
system. The streams are also recharged by groundwater moving through fractures, along
Staley TCE Wells
NCN'000 410 534
October 28. 2010 Preliminary Assessment
Page 3 of 5
foliation, or bedding planes in the underlying bedrock. Bedrock occurs at about 20 to 30 feet
below ground surface on hill tops and at the surface in stream beds. Recharge to the bedrock
occurs from the water table aquifer that generally occurs from the mantle of weathered rock
overlying the bedrock. This mantle is derived from the in-situ weathering of the underlying
rocks on the hilltops and slopes and in the stream beds is fluvial sediments transported from
upstream.
Hydraulic conductivity can be expected to range over several orders of magnitude from
the sediments to the bedrock. Pyramid Environmental completed several slug tests to estimate
hydraulic conductivity in the soils overlying bedrock and in the fractured bedrock. They
estimated hydraulic conductivity at 0.48 feet/day in the soils and 1.2 feet/day in the bedrock.
(Ref2:p. 11)
Drinking water wells in the area are generally installed into the bedrock aquifer and draw
water from the aforementioned fractures, foliation, and bedding planes. There may be occasional
"dug" wells that would extend no deeper than the partially weathered rock that immediately
overlies the bedrock. Water to these wells would come from the partially weathered rock and
overlying sediments. Table 1 shows the estimated population using ground water as a source of
drinking water.
As this is a plume from and unknown source, the nearest well is taken as the well with
the highest contaminant concentrations: its distance is taken to be 0. There are currently fifteen
water wells known to be impacted by PCE and / or TCE. (Ref 3, Figure 1).
In summary, the presence of impacted ground water targets shows that the groundwater
migration pathway is complete. Continued migration of contaminants along the pathway has the
potential to impact additional targets.
Surface Water Pathway
The site sits atop a high point relative to its surroundings. Surface water flow is radial
from the top of the hill. Area hydrography as prepared by the US Geological Survey, suggest
that as many as six springs may exist within YA to Yi mile of the site. There is currently no known
surface source; so the movement of contaminants over the surface is an unknown possibility.
However, groundwater issuing from the springs may contain contaminants. (Ref 6)
Although flow is radial away from the site, it all ends up in either Sandy Creek (via
tributaries) or Brush Creek. Sandy Creek is classified as WS-lII by the NC Division of Water
Quality. This designation means "Waters used as sources of water supply for drinking, culinary,
or food processing purposes where a more protective WS-I or II classification is not feasible.
These waters are also protected for Class C uses. WS-III waters are generally in low to
moderately developed watersheds." There are two surface water intakes along Sandy Creek at
about 8 and 8.2 miles downstream from the site; near the town of Ramseur. Brush Creek is
classified as Class C. Class C water bodies are defined as: "Waters protected for uses such as
secondary recreation, fishing, wildlife, fish consumption, aquatic life propagation, survival and
maintenance of biological integrity, and agriculture. Secondary recreation includes wading.
Staley TCE Wells
NCN 000 410 534
October 28, 2010 Preliminary Assessment
Page 4 of5
The NC Natural Heritage Program does not have any endangered species listed that occur
along the surface water migration pathway to the 15 mile target distance limit.
Soil Exposure and Air Pathway
As mentioned earlier there is no identified surface source of the contaminants at this time.
The soil and air exposure pathways are unaddressed.
Conclusions
The Staley TCE Wells site is a plume of PCE ahd TCE moving away fi-om an unknown
source. The presence of impact at ground water targets confirms that contamination is moving
via the ground water migrafion pathway. The presence of up to six springs within Yz mile of the
plume suggests that the surface water migration pathway may also be impacted.
The NC Superfund Section recommends that a Site Inspection (SI) be conducted at the
site. Infonnation gained from an Sl will support a detailed and accurate HRS score. The SI
should be designed to accomplish the following tasks:
1. Obtain a current snapshot of groundwater quality in the area; current groundwater
quality data is spread over several years. Complete a sampling event of all
drinking water wells within Y* mile of the site. Additionally water wells within Vi
mile in the apparent direction of migration should also be sampled.
2. Identify the precise locations of springs. Sample water and sediment at any
springs.
The NC Superfiind section recommends a phased approaish to the SI. The above water
sampling needs to be conducted in November of this year. Some residential wells in the site area
are yet untested. Groundwater table elevations are at their lowest this time of year in the
southeastern Piedmont. As a result, groundwater contaminant levels tend to be at relatively
undiluted, higher, concentrations during this seasoUj as well. The scale and scope of any
necessary second phase can be determined after obtaining results from the first phase. If Phase 1
results warrant further work, a second phase would be designed to include at least the following
tasks:
3. Identify Source(s).
4. Assess any potential risk related to vapor intrusion.
Please indicate your approval or recommended amendments to this PA. You may contact
Jim Bateson at 508-8449, orjames.bateson@ncdenr.gov if you have any questions.
Sincerely,
^Mf^ - • -
mes M. Gamble, P.G., Jifn Bateson, Head,
Hydrogeologist Site Evaluation and Removal Branch
NC Superfund Section NC Superfiind Section
Staley TCE Wells
NCN 000 410 534
October 28, 2010 Preliminary Assessment
Page 5 of 5
cc: Scott Ross, file
References:: 1. Site Location Map and Site Layout Map
2. Brown's Grocery CSA
3. Groundwater Summary and Usage
4. USEPA Pollution Report
5. Cliinate Infonnation
6. Surface Water Pathway
Approved by: ' Date:
Carolyn Callihan, NC Site Management Section
Reference 1
Site Location Map
And Site Layout Map
7r3T30-VJ 79'35'0"W
aSMffO-N'
35"47'30"N
79"35'0"W
w-
County Location Map Extent: Randolph County
USGS 7.5 Minute Topographic Quadrangle: Liberty
Coordinates of approximate center of Liberty Town Well
Longitude: 79° 35'49.56" Latitude: 35° 47'24.72"
79.5971° 35.7902°
Site Location Map
Site Name: STALEY TCE WELLS
Site Number: NCN 000 410 534
Scale: 1:24,000
Date: October 25, 2010
Figure by: NCDENR DWM
.Q
Q
PCE > 1.6 ug/l
PCE < 1.6 ug/l
No chloronated solvents detected
Distance rings are drawn from the intersection of NC Hwy 49 and Whites Chapel Road.
County location:
Absolute Scale 1;D,000 "".lablorromNCDcpaomcniofTransportaiion
Not tested
Potential Spring
.Stream
Contour inli^^'ai is 5 feci and ix based on
2007 Lidar elevation mcntiiiTcmcnis.
VU;II Incniions cstimalcd fram aerial images
dated 2(t07.
Site Layout
Site Name: Stalcy TCE Wells
Site Number: NCD 000410534
Figure: PA Ref. 1 Fig. 2
Dale: October 28, 2010
Prepared by: NCDWM
FIGURES :
1. USGS Topographic Map
2. Site Detail Map
3. Water Supply Well and Surrounding Properties Map
4. Potentiometric Surface Map (05-16-2001)
5. Potentiometric Surface Map (11-12-2003)
6. Benzene Isoconcentration Map (11-12-2003
7. Toluene Isoconcentration Map (11-12-2003)
8. Ethylbenzene Isoconcentration Map (11-12-2003)
9. Total Xylenes Isoconcentration Map (11-12-2003)
10. Total BTEX Isoconcentration Map (11-12-2003)
11. MTBE Isoconcentration Map (11-12-2003)
12. Cross-Section Location Map
13. Groundwater Concentration Cross-Section B-B' (Benzene)
14. Groundwater Concentration Cross-Section B-B' ( MTBE)
15. Groundwater Concentration Cross-Section C-C (Benzene)
16. Groundwater Concentration Cross-Section C-C (MTBE )
TABLES:
1. UST Information
2. Summary of Surrounding Properties & Supply Well Information
3. Monitoring Well Construction Details
4. Summary of Groundwater Elevations
5. Summary of Groundwater Analytical Results
6. Summary of Supply Well Analytical Results
APPENDICES:
A. Geophex : UST Closure Soil Data & Maps
B. Risk Characterization Report
C. Geophex : Soil Assessment Data & Cross Section A - A'
D. Soil Boring logs and Monitoring Well Construction Records
E. Standard Field Procedures
F. Bail Test Calculations and Forms
G. Groundwater Laboratory Results & Chain-of-Custody
REFERENCE 7
REFERENCE 8
1646 Mail Service Center, Raleigh, North Carolina 27699-1646
Phone: 919-707-8200 \ Internet: http://portal.ncdenr.org/web/wm
An Equal Opportunity \ Affirmative Action Employer – Made in part by recycled paper
North Carolina Department of Environment and Natural Resources
Pat McCrory
Governor
John E. Skvarla, III
Secretary
August 15, 2014
Ms. Carolyn Callihan
Superfund Site Evaluation Section
US EPA Region IV Waste Division
61 Forsyth Street, 11th Floor
Atlanta, GA 30303-3104
Subject: Supplemental Site Inspection
Staley PCE Wells
CERCLIS ID# NCN 000 410 534
6488 Whites Chapel Road
Staley, Randolph County, NC 27355
Sampling Date: Week of May 27, 2014
Dear Ms. Callihan:
Enclosed is the Supplemental Site Inspection (SI) report for the above-referenced site. The
current investigation was conducted in order to address laboratory analytical data quality issues
identified in SI samples collected on site during a May 2011 SI sampling event. This was the
second of three SI sampling events involving private domestic drinking water wells conducted at
Staley in 2010 and 2011. The Supplemental SI consisted of re-sampling at selected well locations.
The scope of the project was based on a comparison of the May 2011 data set with results from
previous sampling by US EPA Region 4 and Randolph County Health Department, and SI sampling
by NC Superfund in November 2010 and December 2011. Based on the Supplemental SI results,
the previous SI recommendation, for no further remedial action planned (NFRAP) status under
CERCLA, remains unchanged.
Site Location and Description:
The site is located adjacent to NC Highway 49, west of Staley in eastern Randolph County,
NC (Fig. 1). Site geographic coordinates are 35.7902o north latitude and -79.5971o west longitude.
This reference point is at the 4-way intersection of NC Highway 49 with Whites Chapel Road (on
the west) and Old Staley Road (on the east) (Figures 2-5). The above-cited site address is that of
the most severely contaminated domestic well at the site, approximately 400 feet west-northwest of
the intersection. The site is in a semi-rural neighborhood with mixed residential, agricultural and
light industrial use. The former Brown’s Grocery store stands vacant at the southern corner of NC
Highway 49 and Old Staley Road (Ref.1).
Ms Callihan
August 15, 2014
Page 2
Site Regulatory and Investigative History:
The Staley PCE Wells site contains tetrachloroethene (PCE) groundwater contamination
from an unidentified source. Site discovery occurred during the course of a petroleum underground
storage tank (UST) pollution investigation at the former Brown’s Grocery. In February 2006,
sampling by UST program contractors revealed PCE contamination in five domestic wells along
Whites Chapel Road and NC Highway 49. Additional sampling in 2009 and early 2010 revealed a
contiguous southwest-oriented cluster of PCE-contaminated residential wells, measuring
approximately 0.3 mile long and centered approximately 0.1 mile west of the intersection of Whites
Chapel Road and NC Highway 49 (Ref. 1).
The maximum detected PCE concentration (163 ug/L) occurred at 6488 Whites Chapel
Road. Three additional domestic wells, located at 6456 and 6466 Whites Chapel Road and 3141
NC Highway 49, contained PCE concentrations exceeding the 5 ug/L Maximum Contaminant Level
(MCL) and the 12 ug/L EPA Removal Action Level (RAL). In response, the USEPA installed
carbon filtration systems at these four domestic wells in 2010 (Ref. 1).
Prior to the Supplemental SI, the NC Superfund Section had conducted SI sampling events
in November 2010, May 2011 and December 2011 (Table 1, attached). The November 2010
sample results confirmed that the cluster of PCE-contaminated wells was located west of NC
Highway 49 and south of Smith Adkins Road. The May 2011 event expanded the areal extent of
sampling westward, adding eight domestic wells to further delineate the extent of groundwater
contamination (Fig. 2). Based on the May 2011 results, the scope of the December 2011 sampling
event was reduced to include fourteen domestic wells. These included eleven wells with previous
SI sample PCE concentrations exceeding 0.5 ug/l, and included all four domestic wells equipped by
the EPA with carbon filtration units (Refs 1-2).
The December 2011 results revealed that PCE concentration had increased above the 5 ug/l
MCL at a fifth domestic well, located at 6521 White’s Chapel Road; the NC Inactive Hazardous
Sites Branch (IHSB) subsequently equipped this well with a carbon filtration unit, and currently
maintains both this unit and three of the four units installed by the EPA. The fourth EPA unit is off
line, and use of the well has been discontinued (see below) (Refs. 1-2).
Purpose and Scope of Supplemental SI:
In early 2014, the EPA Region 4 reported that quality-assurance issues had been identified
in the laboratory data generated from the May 2011 SI sampling event (Ref. 3). Concern had arisen
that potential inaccuracies in the sample dataset could have resulted in an incomplete contaminant
exposure assessment for the well users. In response, NC Superfund Section personnel conducted a
comparison between each of the May 2011 sample results and available data from the other two SI
sampling events, and/or data generated by previous investigations.
Ms Callihan
August 15, 2014
Page 3
The May 2011 domestic well SI samples were collected at 40 locations, including pre- and
post-filtration at the four wells equipped by EPA with carbon filtration units. At 32 of the May 2011
sample locations, analytical results were consistent with corresponding SI sample results from
November 2010 and/or December 2011 (Table 1). At one (pre-filtration) sample location, the May
2011 PCE result was significantly elevated in comparison to the corresponding November 2010 and
December 2011 events. At 7 domestic well locations, along Whites Chapel Road and Seays Road,
sampling had been conducted only during the May 2011 sampling event; no other historical or SI
data were available for comparison.
In May 2014, prior to Supplemental SI sampling, NC Superfund Section personnel queried
the NC IHSB as to the monitoring and maintenance status for the five wells equipped with carbon
filtration units. The IHSB reported that four wells were on continued maintenance schedule, but
that the fifth unit, at 3141 NC Highway 49, had been disconnected. The owner at this address
reportedly had connected their home to the well at neighboring 3139 NC Highway 49 (Ref. 2). This
replacement well currently supplies three homes with drinking water. During the November 2010,
May 2011 and December 2011 SI sampling events, PCE concentrations at 3139 NC Highway 49
had ranged from 0.81 ug/L to 1.0 ug/L (Ref. 1). However, the increased water use at the
replacement well, combined with its proximity to more highly contaminated wells, indicated that
PCE concentrations in the replacement well might increase over time (Ref. 4).
Based on the above data comparison and findings, the NC Superfund Section recommended
re-sampling the following eight domestic wells:
Street address: Re-sampling Number:
5864 White’s Chapel Road ST501GW
6160 White’s Chapel Road ST502GW (and Duplicate)
6244 White’s Chapel Road ST503GW
1242 Seays Road ST540GW
1274 Seays Road ST542GW
1296 Seays Road ST543GW
1324 Seays Road ST544GW
3139 NC Highway 49 ST527GW
Supplemental SI Sampling and Results:
The NC Superfund Section conducted Supplemental SI sampling on May 28, 2014. The
property owner at 1242 Seays Road declined (by telephone, on May 16) to participate in this
sampling event; all of the remaining 7 samples were collected (Refs. 4-5).
Staley PCE Wells
Supplemental Site Inspection
References
1) Parker, Stuart F., Hydrogeologist, NCDENR, Superfund Section. Site Inspection Report,
Staley PCE Wells Site, CERCLIS ID# NCN 000 410 534, Staley, Randolph County, North
Carolina. September 21, 2012.
2) Antrilli, Vincent, NCDENR, Bernard Allen Program Manager, NCDENR Superfund
Section. Electronic communication on May 6, 2014.
3) Hill, Franklin, Director, USEPA Region 4, Letter to Dexter Matthews, Director, NC DENR
Division of Waste Management, May 21, 2014.
4) Parker, Stuart F., Hydrogeologist, NCDENR, Superfund Section. Sampling and Analysis
Plan/ Quality Assurance Project Plan: Staley PCE Wells Site, CERCLIS ID# NCN 000 410
534, Staley, Randolph County, North Carolina. May 8, 2014.
5) Parker, Stuart F., Hydrogeologist, NCDENR, Superfund Section. Supplemental Site
Inspection Sampling Field Notes, May 28, 2014.
REFERENCE 9
S&ME, Inc. | 3201 Spring Forest Road | Raleigh, NC 27616 | p 919.872.2660 | f 919.876.3958 | www.smeinc.com
August 24, 2016
North Carolina Department of Environmental Quality
Division of Waste Management, Superfund Section, Inactive Hazardous Sites Branch
1646 Mail Service Center
Raleigh, North Carolina 27699-1646
Attention: Ms. Bonnie Ware, P.G. Email: bonnie.ware@ncdenr.gov
Reference: Soil Vapor Assessment
Staley PCE/Brown's Grocery
Liberty, North Carolina
NC ID: NCN000410534
S&ME Project No. 4305-16-017
Dear Ms. Ware:
S&ME, Inc. (S&ME) is submitting this Soil Vapor Assessment Report for assessment activities conducted at
five residential properties located at 3349 NC Highway 49 North and 6533, 6521, 6498, and 6488 Whites
Chapel Road in Liberty, Randolph County, North Carolina (Attachment I, Figure 1). Our services were
performed in general accordance with S&ME’s Sampling and Analysis Plan (SAP)/Fee Proposal (S&ME
Proposal No. 43-1600124, REV-1) dated March 1, 2016. The SAP and fee proposal was approved by Mr.
Bruce Lefler of the NCDEQ, IHSB in a Task Authorization dated April 4, 2016. All services were conducted
under the terms and conditions of Contract #N14009i, dated September 26, 2014. This report presents the
purpose for the sampling event, the methods used to collect soil vapor samples, the results of the
laboratory analyses, and the conclusions based on the results of the analyses.
Project Background and Purpose
The five assessed properties are located downgradient from a former gas station (Brown’s Grocery)
location with confirmed groundwater contamination (volatile organic compounds (VOCs) and semi-
volatile organic compounds (SVOCs)) and also located near an automotive repair and sales business.
Previous water supply well investigations revealed the presence of tetrachloroethene (PCE) and 1‐2
dichloroethane (1‐2DCA) in groundwater in excess of applicable residential groundwater screening levels
for vapor intrusion pathway. The IHSB requested that S&ME perform soil vapor sampling at the five
residential properties to further investigate the potential for vapor intrusion.
Scope of Services
In accordance with the IHSB request and the approved SAP, the scope of services conducted consisted of
the collection of five soil vapor samples to assess for potential vapor intrusion into five residential
properties located at 3349 NC Highway 49 North and 6533, 6521, 6498, and 6488 Whites Chapel Road. A
soil vapor sample was not collected at 3318 NC Highway 49 North, as a signed Property Access
Soil Vapor Assessment
Staley PCE, Liberty, Randolph County, NC
NC ID: NCN000410534
S&ME Project No. 4305-16-017
August 24, 2016 2
Agreement could not be obtained for this property. This report presents the field methods of the
assessment conducted, the laboratory analytical results of the soil vapor samples that were collected and
comparison to applicable screening levels, and conclusions.
Methods
Health and Safety Plan
S&ME prepared a site-specific Health and Safety Plan (HASP) in general accordance with 29 CFR 1910.120,
which addressed the contaminants known or suspected to be present on-site, personal protective
equipment, monitoring performed during the field activities, and response actions to be taken in the
event monitoring thresholds are exceeded. To mitigate the potential for damage to underground utilities,
S&ME contacted NC One Call and retained the services of a private utility locating service (KCI
Technologies) to avoid damaging underground utilities at the boring locations for the soil vapor samples.
Soil Vapor Sampling
On May 9, 2016, S&ME personnel conducted the soil vapor sampling 3349 NC Highway 49 North and
6533, 6521, 6498, and 6488 Whites Chapel Road. S&ME subcontracted Quantex, Inc. to install the soil gas
implants (SGIs) with a Geoprobe® drill rig using direct push technology. Using push rods, five SGIs (SGI-1
through SGI-5) were installed at the locations shown on Figure 2 (Attachment I). Each SGI was installed
at an approximate depth of eight feet below ground surface (bgs). After advancing the rods and installing
the SGI, the annular space between the SGI and boring wall was filled with glass bead filter media to
approximately two inches above the top of the SGI screen. Granular bentonite was then placed above the
glass bead filter pack in lifts of approximately six-inches, and hydrated with deionized water between
bentonite lifts, until each boring was filled to the ground surface. The bentonite was then allowed to
hydrate for approximately one hour prior to sampling. The locations of the sampling points were recorded
using a Trimble® handheld GPS unit with sub-meter accuracy. The coordinates of each sample location
are listed in Table 1 in Attachment II. A photograph log is included in Attachment III. The construction
records for each SGI are included in Attachment II, Table 2. The sampling locations are shown on Figure
2 in Attachment I.
Following the SGI installations, S&ME performed a leak test on each SGI sampling apparatus by attaching
a brass T-connector to the SGI sample tubing and using Teflon® tubing to connect one end of the T-
connector to a batch-certified six liter summa canister with 1-hour regulator. Tubing was then connected
to the other side of the T-connector, fitted through a plastic shroud placed over the SGI tubing and
summa canister, and attached to a helium gas detector. Helium gas was then injected into the plastic
shroud. The SGI sampling array was monitored for leaks by monitoring for the presence of helium gas
within the tubing. Each SGI sampling array was considered leak-free as helium gas was not detected.
After successfully passing the leak test, three volumes of air were purged from the SGI sampling array
using a calibrated low-flow pump at a rate of approximately 100 milliliters per minute. After purging the
sampling array, the summa canister valve was opened for approximately one hour to allow the collection
of a soil vapor sample.
Soil Vapor Assessment
Staley PCE, Liberty, Randolph County, NC
NC ID: NCN000410534
S&ME Project No. 4305-16-017
August 24, 2016 3
After the samples were collected, the summa canisters were shipped under standard chain-of-custody
protocol to ESC Lab Sciences of Mt. Juliet, Tennessee, a North Carolina Certified laboratory, for analysis.
The samples were analyzed for the following VOCs by EPA Method TO-15: tetrachloroethene (PCE) and
PCE daughter products (trichloroethylene, cis- and trans-1,2-dichloroethene, 1,1-dichloroethene, and vinyl
chloride), and 1,2-DCA. The field sampling forms are included in Attachment III. Prior to leaving the
site, the tubing was removed and the boreholes were filled with a mixture of soil and bentonite clay.
Quality Assurance/Quality Control
S&ME collected one duplicate sample (DUPLICATE) of sample SGI-1 for Quality Assurance/Quality Control
(QA/QC) purposes. The QA/QC sample was analyzed for the same VOC constituents as the record sample
by Method TO-15. S&ME personnel were onsite to maintain chain-of-custody and to monitor the vacuum
on each flow regulator. In accordance with S&ME’s sampling protocol and the DWM Gas Intrusion
Guidance (April 2014), the vacuum in each Summa canister was not allowed to reduce to zero inches of
mercury (inches-Hg).
Results
Soil Vapor Sampling Results
Due to apparent clayey soil conditions, the Summa canisters used to collect soil vapor samples SGI-3 and
SGI-5 were not able to draw sufficient volumes of soil vapor for laboratory analysis. The vacuum at SGI-3
fell to 25 inches-Hg and the vacuum at SGI-5 fell to 19 inches-Hg. The target vacuum is less than
approximately five inches-Hg.
Soil vapor samples SGI-1 and DUPLICATE had reported concentrations of PCE above the laboratory
method analytical limit but below the IHSB Soil Gas Screening Levels (SGSLs). Soil vapor sample SGI-2
had a reported concentration of vinyl chloride above the laboratory method analytical limit but below the
SGSL. The laboratory analytical results for the soil vapor samples collected during the May 2016 sampling
event are presented in Table 3 in Attachment II and summarized on Figure 2 in Attachment I. A copy
of the laboratory analytical report and chain-of-custody is provided in Attachment IV.
Quality Assurance/Quality Control Results
Analytical results of the duplicate sample (DUPLICATE) agreed well with the record sample (SGI-1) results.
Conclusions
Based on the soil vapor sampling results from the May 2016 sampling event, the following conclusions are
presented:
1. The laboratory analytical results of the soil vapor sample SGI-1 indicate PCE was present in the
sample at a concentration greater than the laboratory analytical method limit, but less than the
PCE Residential SGSL of 278 µg/m3.
Attachments
Attachment I - Figures
DATE:
DRAWN BY:
3201 SPRING FOREST RD, RALEIGH, NC 27616
NC ENGINEER LICENSE #F-0176
SCALE:
PROJECT NO:
FIGURE NO.
WWW.SMEINC.COM STALEY PCE / BROWNS GROCERY - NCN000410534
LIBERTY, NORTH CAROLINA
1" = 2000'
BTR
JUNE 2016
4305-16-017
1
A-5955
VICINITY MAP
2000 4000
(IN FEET)GRAPHIC SCALE
0
(IN FEET)GRAPHIC SCALE
Q:\PROJECTS\2016\4305-16-017\CAD\A5955.dwg, FIG1, 6/14/2016 9:23:14 AM, 1:1
PROJECT NUMBER:
DATE:FIGURE NO.SCALE:
DRAWN BY:
CHECKED BY:DRAWING NUMBER:WWW.SMEINC.COM
3201 SPRING FOREST RD, RALEIGH, NC 27616
NC ENGINEER LICENSE #F-01762 BTR4305-16-017
JUNE 20161" = 100'
STALEY PCE / BROWNS GROCERY - NCN000410534
LIBERTY, NORTH CAROLINA
SAMPLE RESULTS MAP
B-2604100200 (IN FEET)GRAPHIC SCALE0 (IN FEET)GRAPHIC SCALEQ:\PROJECTS\2016\4305-16-017\CAD\B2604.dwg, FIG2, 6/14/2016 11:01:15 AM, 1:1
Attachment II – Tables
Address Sample ID Northing Easting Latitude Longitude
6498 Whites Chapel Road SG-1/DUPLICATE 742,926.540 1,822,971.694 35.789829 -79.596922
6488 Whites Chapel Road SG-2 742,981.370 1,822,896.007 35.789978 -79.597179
6521 Whites Chapel Road SG-3 743,126.212 1,823,230.956 35.790382 -79.596052
6533 Whites Chapel Road SG-4 743,075.477 1,823,389.555 35.790245 -79.595516
3349 Highway 49 North SG-5 743,266.314 1,823,582.899 35.790772 -79.594868
Notes:
Sample locations are in feet in the North Carolina State Plane Coordinate System (NAD83).
Latitude and longitude are reported in decimal degrees.Latitude and longitude are reported in decimal degrees.
S&ME Project No. 4305-16-017
TABLE 1
Sample Location Coordinates
Staley PCE/Brown's Grocery
Liberty, Randolph County, North Carolina
Site ID: NCN000410534
Address Sample ID Date Installed Boring Diameter
(inches)
Total Depth
(ft-bgs)
Implant
Placement Depth
(ft-bgs)
6498 Whites Chapel Road SGI-1/DUPLICATE 5/9/2016 2 10.0 8.0
6488 Whites Chapel Road SGI-2 5/9/2016 2 10.0 8.0
6521 Whites Chapel Road SGI-3 5/9/2016 2 10.0 8.0
6533 Whites Chapel Road SGI-4 5/9/2016 2 10.0 8.0
3349 Highway 49 North SGI-5 5/9/2016 2 10.0 8.0
Notes:
ft-bgs = feet below ground surface
Liberty, Randolph County, North Carolina
Site ID: NCN000410534
S&ME Project No. 4305-16-017
TABLE 2
Soil Gas Implant Installation Details
Staley PCE/Brown's Grocery
Sample ID Date Collected
6498 Whites Chapel Road SGI-1 5/9/2016 ND ND 15.8 ND ND
6498 Whites Chapel Road DUPLICATE (at SGI-1)5/9/2016 ND ND 18.8 ND ND
6488 Whites Chapel Road SGI-2 5/9/2016 ND ND ND ND 2.29
6521 Whites Chapel Road SGI-3*5/9/2016 NA NA NA NA NA
6533 Whites Chapel Road SGI-4 5/9/2016 ND ND ND ND ND
3349 Highway 49 North SGI-5*5/9/2016 NA NA NA NA NA
NE NE 278 13.9 76.8
NE NE 3,500 175 2790
Notes:
µg/m3: micrograms per cubic meter.
Constituents in Bold were reported at concentrations above the DWM Vapor Intrusion Residential SGSLs.
SGSL: Division of Waste Management Vapor Intrusion Soil Gas Screening Levels (September 2015 ).
NE: SGSL not established
ND: Constituent not reported above the method's detection limit.
NA: Not Analyzed.
* : Insufficient sample collected for laboratory analysis.
Residential SGSL
Non-Residential SGSL cis-1,2-Dichloroethene trans-1,2-Dichloroethene Tetrachloroethylene Address
TABLE 3
Soil Vapor Sample Analytical Results Summary
Staley PCE/Brown's Grocery
Liberty, Randolph County, North Carolina
Site ID: NCN000410534
S&ME Project No. 4305-16-017
Trichloroethylene Vinyl chloride Analyte
Volatile Organic Compunds by Method TO-15 (µg/m3)
Attachment III – Field Report
Hours Billed Millage Billed Signature of S&ME Personnel
14.25 hrs 194
S&ME, Inc. | 44 Buck Shoals Road, Ste C-3 | Arden, NC 28704 | p 828.687.9080 | f 828.687.8003 |www.smeinc.com
Environmental Field Report
Date:
May 9, 2016
Job Number:
4035-16-017
Project Name:
Staley TCE, ID: NCN000410534
Weather/Temperature:
Cloudy,79°F
Project Location:
Liberty, North Carolina
Notes By:
☒
☐
Present at the Site:
Bradley Keyse (S&ME)
Darren Cox (S&ME)
Quantex (Driller: Mike Allen)
On May 9, 2016, S&ME personnel, Mr. Bradley Keyse and Mr. Darren Cox visited the IHS-Staley
TCE project (NCDEQ Site ID NCN000410534) to conduct a limited soil vapor assessment. At 09:00 hrs,
S&ME arrived to the subject property to find Mr. Carl Whitlow, a private utility locator with KCI
Technologies, Inc. (KCI) and Mr. Mike Allen, driller with Quantex Environmental Drilling and Probing
(Quantex). All borings were cleared of underground utilities and a tailgate safety meeting was conducted
prior to starting the drilling services.
From 09:30 hrs to 14:15, Quantex installed five (5) soil gas implants (SGIs) on the following
properties using a track mounted Geoprobe and a macro-core sampler:
♦SGI-1: 6498 Whites Chapel Road,Liberty,NC,27298
♦SGI-2: 6488 Whites Chapel Road,Liberty,NC,27298
♦SGI-3: 6521 Whites Chapel Road,Liberty,NC,27298
♦SGI-4: 6533 Whites Chapel Road,Liberty,NC,27298
♦SGI-5:3349 Highway 49 North,Liberty,NC,27298
Prior to installing the SGIs,S&ME assessed the depth to groundwater in an offset boring by
collecting soil profiles in 5-foot intervals using direct push techniques with a Macro-Core®sampler.The
Macro-Core®sampler was advanced to a depth of 10 feet below ground surface (bgs).Groundwater was
not encountered within 10 feet bgs on any of the properties.The typical soil profile observed in the
borings consisted of red silty clay to an approximate depth of 7 feet bgs underlain by orange tan sandy
silts with clay to a depth of 10 feet bgs (termination of each offset boring).Each SGI,with the exception
of SGI-1,was installed between the water supply well and the residential structure on each property.
Using a Macro-Core®sampler the SGI sampling tool was installed to a depth of approximately eight feet
bgs.Following installation,S&ME performed a leak test by attaching a brass T-connector to the end of
the Teflon®sample tubing and used to connect an individually certified six liter Summa canister to one
end of the T-connector and a helium detector to the other end of the T-connector.Prior to connecting
the helium detector,a plastic shroud was placed over the SGI sampling array and Summa canister.The
open section of tubing from the T-connector was fitted through the shroud and attached to the helium
detector.S&ME then injected helium gas into the plastic shroud to concentrations ranging from 16.6%to
24.6%.
Equipment Used
MGD-2002 Helium Detector (Rental)
GPS
IHS- Staley TCE
Site ID NCN000410534
S&ME Project No. 4035-16-017
The sampling array was monitored for leaks by monitoring for the presence of helium within the tubing.
All the sampling arrays passed the helium leak tests. The helium detector was used to purge three
volumes of air from the sampling arrays. After purging the sampling arrays, the valve to the six-liter
Summa canisters were opened to allow the collection of a soil gas sample. One duplicate sample was
collected with record sample SGI-1 and analyzed for the same constituents as the record samples.
Collected samples were shipped under standard chain-of-custody protocol to a North Carolina Certified
laboratory (ESC Lab Sciences in Mt. Juliet, Tennessee) for analysis. The samples were analyzed for the
following VOCs by EPA Method TO-15: PCE and PCE daughter products (trichloroethylene, cis- and trans-
1,2-dichloroethene, 1,1-dichloroethene, and vinyl chloride), and 1,2-DCA.
After the soil vapor samples are collected, S&ME removed the top portion of the SGI tubing from
approximately one foot bgs and filled the remaining borehole with soil (note: the lower borehole contains
hydrated bentonite clay).
Attachments:
Site Map
Field Sampling Form
Chain-of-Custody
Site Photographs
1 of 2
Total Tubing (ft) Screen Zone (in) Total Tubing (ft) Screen Zone (in) Total Tubing (ft) Screen Zone (in) Total Tubing (ft) Screen Zone (in) Total Tubing (ft) Screen Zone (in)
13 12 13 12 10 12 11 12 11 12
Notes:SGI-1 was collected at 6498 White Chapel Rd SGI-3 was collected at 6521 White Chapel Rd Time Stamp:5/9/2016 20:42
SGI-2 was collected at 6488 White Chapel Rd SGI-4 was collected at 6533 Hwy 49 North
Duplicate was collected with SGI-1
Helium Detector Serial No.:41419 Calibration Date:5/2/2016
B. Keyse
Sampler Signature
Sampler Information
Sampled by B. Keyse B. Keyse B. Keyse B. Keyse
Flow rate (mL/min)75 75 21 14 71
Final Vacuum (in Hg)2 4 5 25 3
End Time 1200 1200 1433 1646 1405
1320
Initial Vacuum (in Hg)27 28 28 27 30
Sample Collection
Start Time 1120 1120 1143 1229
705
Total Purge Time (min)6.1 6.1 5.8 5.9 5.9
Enter SGI Cons. Details
→
Volume (x3) (mL)732 732 691 705
18.3
He Detected (y or n)Yes Yes Yes Yes Yes
Leak Test/ Purge
He Concentration (%)16.6 16.6 17.4 24.6
Barometric Pressure (in.)30.08 30.08 30.08 30.09 30.06
Ambient Temp (°F)72 72 75 76 78
Canister Volume (L)6 6 6 6 6
Regulator ID 649 432 644 517 415
Canister ID 849 979 1003 1205 1720
Soil Gas Implant
Sample ID SGI-1 Duplicate SGI-2 SGI-3 SGI-4
Sample Information
Sample Type Soil Gas Implant Soil Gas Implant Soil Gas Implant Soil Gas Implant
Weather: Cloudy, 72 °F
S&ME Personnel Present: Bradley Keyse and Summers Long
Additional Persons Present: Michael Allen (Quantex-Driller)
Project Name/Project Number: IHS-Staley / 4305-16-017, ID: NCN000410534 SGI SAMPLING FIELD FORMLocation: Highway 49 North Liberty North Carolina
Date: 5/9/2016
2 of 2
Total Tubing (ft) Screen Zone (in) Total Tubing (ft) Screen Zone (in) Total Tubing (ft) Screen Zone (in) Total Tubing (ft) Screen Zone (in) Total Tubing (ft) Screen Zone (in)
11 12
Notes:SGI-5 was collected at 3349 Hwy 49 North Time Stamp:5/9/2016 20:42
11 12
Regulator ID
Canister Volume (L)
Ambient Temp (°F)
Barometric P (in. Hg)
Total Purge Time (min)
20.2
Yes
1428
29Initial Vacuum (in Hg)
Final Vacuum (in Hg)
Start Time
He Detected (y or n)
Volume (x3) (mL)705 0 0
Soil Gas ImplantSample Type
Enter SGI Cons. Details
→
He Concentration (%)
79
30.07
SGI-5
1769
395
6
Sample ID
Canister ID
Project Name/Project Number:
Date:
Weather:
S&ME Personnel Present:
Additional Persons Present:
IHS-Staley / 4305-16-017, ID: NCN000410534
Highway 49 North Liberty North Carolina
5/9/2016
Cloudy, 72 °F
Bradley Keyse and Summers Long
Michael Allen (Quantex-Driller)
Location:
Sample Information
Leak Test/ Purge
41419 5/2/2016
Sampled by
Sampler Signature
#DIV/0!Flow rate (L/min)
Sampler Information
End Time
B. Keyse
29
1635
#DIV/0!
00
Helium Detector Serial No.:Calibration Date:
5.9 0.0 0.0 0.0 0.0
#DIV/0!#DIV/0!
Sample Collection
19
SGI SAMPLING FIELD FORM
Staley PCE/Brown's Grocery Site
Liberty, Randolph County, North Carolina
State ID NCN000410534
S&ME Project #: 4305-16-017
3201 Spring Forest Road
Raleigh, North Carolina 27616
Date: 5-9-16 Photographer: BK 1
Location / Orientation 6498 Whites Chapel Road
Remarks View of SGI-1 and water supply well locations.
Date: 5-9-16 Photographer: BK 2
Location / Orientation 6488 Whites Chapel Road
Remarks View of SGI-2 and water supply well locations.
Water Supply Well
SGI-1 /
Duplicate
Water Supply Well
SGI-2
Staley PCE/Brown's Grocery Site
Liberty, Randolph County, North Carolina
State ID NCN000410534
S&ME Project #: 4305-16-017
3201 Spring Forest Road
Raleigh, North Carolina 27616
Date: 5-9-16 Photographer: BK 3
Location / Orientation 6521 Whites Chapel Road
Remarks View of SGI-3 and water supply well locations.
Date: 5-9-16 Photographer: BK 4
Location / Orientation 6533 Whites Chapel Road
Remarks View of SGI-4 and water supply well locations.
Water Supply Well
SGI-3
Water Supply Well
SGI-4
Staley PCE/Brown's Grocery Site
Liberty, Randolph County, North Carolina
State ID NCN000410534
S&ME Project #: 4305-16-017
3201 Spring Forest Road
Raleigh, North Carolina 27616
Date: 3-29-16 Photographer: BK 5
Location / Orientation 3349 Highway 49 North
Remarks View of SGI-5 and water supply well locations.
Water Supply Well
SGI-5
Attachment IV – Laboratory Reports
ANALYTICAL REPORT
May 13, 2016
S&ME Inc. - Raleigh NC
Sample Delivery Group:L834788
Samples Received:05/11/2016
Project Number:4302-16-017
Description:Staley PCE (IHSB Site)
Report To:Jason Volker
3201 Spring Forest Road
Raleigh, NC 27616
Entire Report Reviewed By:
May 13, 2016
[Preliminary Report]
Tom Mellette
Technical Service Representative
Results relate only to the items tested or calibrated and are reported as rounded values. This test report shall not be reproduced, except in full, without written approval of the laboratory. Where applicable, sampling conducted by ESC is performed per guidance provided in laboratory standard operating procedures: 060302, 060303, and 060304.
12065 Lebanon Rd Mount Juliet, TN 37122 615-758-5858 800-767-5859 www.esclabsciences.com
May 13, 2016
Tom Mellette
Technical Service Representative
ONE LAB. NATIONWIDE.TABLE OF CONTENTS
¹Cp: Cover Page 1
²Tc: Table of Contents 2
³Ss: Sample Summary 3
⁴Cn: Case Narrative 4
⁵Sr: Sample Results 5
SG1-1 8 FT L834788-01 5
SG1-2 8 FT L834788-02 6
SG1-4 8 FT L834788-04 7
DUPLICATE 8 FT L834788-06 8
⁶Qc: Quality Control Summary 9
Volatile Organic Compounds (MS) by Method TO-15 9
⁷Gl: Glossary of Terms 11
⁸Al: Accreditations & Locations 12
⁹Sc: Chain of Custody 13
1 Cp
2Tc
3Ss
4Cn
5Sr
6Qc
7Gl
8Al
9Sc
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ONE LAB. NATIONWIDE.SAMPLE SUMMARY
Collected by Collected date/time Received date/time
SG1-1 8 FT L834788-01 Air Bradley Keyse 05/09/16 12:00 05/11/16 09:00
Method Batch Dilution Preparation Analysis Analyst
date/time date/time
Volatile Organic Compounds (MS) by Method TO-15 WG871908 1 05/12/16 23:47 05/12/16 23:47 MBF
Collected by Collected date/time Received date/time
SG1-2 8 FT L834788-02 Air Bradley Keyse 05/09/16 14:33 05/11/16 09:00
Method Batch Dilution Preparation Analysis Analyst
date/time date/time
Volatile Organic Compounds (MS) by Method TO-15 WG871908 1 05/13/16 00:36 05/13/16 00:36 MBF
Collected by Collected date/time Received date/time
SG1-4 8 FT L834788-04 Air Bradley Keyse 05/09/16 14:05 05/11/16 09:00
Method Batch Dilution Preparation Analysis Analyst
date/time date/time
Volatile Organic Compounds (MS) by Method TO-15 WG871908 1 05/13/16 01:23 05/13/16 01:23 MBF
Collected by Collected date/time Received date/time
DUPLICATE 8 FT L834788-06 Air Bradley Keyse 05/09/16 00:00 05/11/16 09:00
Method Batch Dilution Preparation Analysis Analyst
date/time date/time
Volatile Organic Compounds (MS) by Method TO-15 WG871915 1 05/12/16 11:20 05/12/16 11:20 SNH
1 Cp
2Tc
3Ss
4Cn
5Sr
6Qc
7Gl
8Al
9Sc
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ONE LAB. NATIONWIDE.CASE NARRATIVE
All sample aliquots were received at the correct temperature, in the proper containers, with the
appropriate preservatives, and within method specified holding times. All MDL (LOD) and RDL (LOQ)
values reported for environmental samples have been corrected for the dilution factor used in the
analysis. All Method and Batch Quality Control are within established criteria except where addressed
in this case narrative, a non-conformance form or properly qualified within the sample results. By my
digital signature below, I affirm to the best of my knowledge, all problems/anomalies observed by the
laboratory as having the potential to affect the quality of the data have been identified by the
laboratory, and no information or data have been knowingly withheld that would affect the quality of the
data.
[Preliminary Report]
Tom Mellette
Technical Service Representative
1 Cp
2Tc
3Ss
4Cn
5Sr
6Qc
7Gl
8Al
9Sc
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Tom Mellette
Technical Service Representative
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ONE LAB. NATIONWIDE.SAMPLE RESULTS - 01
L834788
SG1-1 8 FT
Collected date/time: 05/09/16 12:00
Volatile Organic Compounds (MS) by Method TO-15
CAS #Mol. Wt.RDL1 RDL2 Result Result Qualifier Dilution Batch
Analyte ppbv ug/m3 ppbv ug/m3
1,1-Dichloroethene 75-35-4 96.90 0.200 0.793 ND ND 1 WG871908
1,2-Dichloroethane 107-06-2 99 0.200 0.810 ND ND 1 WG871908
cis-1,2-Dichloroethene 156-59-2 96.90 0.200 0.793 ND ND 1 WG871908
trans-1,2-Dichloroethene 156-60-5 96.90 0.200 0.793 ND ND 1 WG871908
Tetrachloroethylene 127-18-4 166 0.200 1.36 2.32 15.8 1 WG871908
Trichloroethylene 79-01-6 131 0.200 1.07 ND ND 1 WG871908
Vinyl chloride 75-01-4 62.50 0.200 0.511 ND ND 1 WG871908
(S) 1,4-Bromofluorobenzene 460-00-4 175 60.0-140 101 WG871908
1 Cp
2Tc
3Ss
4Cn
5Sr
6Qc
7Gl
8Al
9Sc
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ONE LAB. NATIONWIDE.SAMPLE RESULTS - 02
L834788
SG1-2 8 FT
Collected date/time: 05/09/16 14:33
Volatile Organic Compounds (MS) by Method TO-15
CAS #Mol. Wt.RDL1 RDL2 Result Result Qualifier Dilution Batch
Analyte ppbv ug/m3 ppbv ug/m3
1,1-Dichloroethene 75-35-4 96.90 0.200 0.793 ND ND 1 WG871908
1,2-Dichloroethane 107-06-2 99 0.200 0.810 ND ND 1 WG871908
cis-1,2-Dichloroethene 156-59-2 96.90 0.200 0.793 ND ND 1 WG871908
trans-1,2-Dichloroethene 156-60-5 96.90 0.200 0.793 ND ND 1 WG871908
Tetrachloroethylene 127-18-4 166 0.200 1.36 ND ND 1 WG871908
Trichloroethylene 79-01-6 131 0.200 1.07 ND ND 1 WG871908
Vinyl chloride 75-01-4 62.50 0.200 0.511 0.895 2.29 1 WG871908
(S) 1,4-Bromofluorobenzene 460-00-4 175 60.0-140 94.2 WG871908
1 Cp
2Tc
3Ss
4Cn
5Sr
6Qc
7Gl
8Al
9Sc
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ONE LAB. NATIONWIDE.SAMPLE RESULTS - 04
L834788
SG1-4 8 FT
Collected date/time: 05/09/16 14:05
Volatile Organic Compounds (MS) by Method TO-15
CAS #Mol. Wt.RDL1 RDL2 Result Result Qualifier Dilution Batch
Analyte ppbv ug/m3 ppbv ug/m3
1,1-Dichloroethene 75-35-4 96.90 0.200 0.793 ND ND 1 WG871908
1,2-Dichloroethane 107-06-2 99 0.200 0.810 ND ND 1 WG871908
cis-1,2-Dichloroethene 156-59-2 96.90 0.200 0.793 ND ND 1 WG871908
trans-1,2-Dichloroethene 156-60-5 96.90 0.200 0.793 ND ND 1 WG871908
Tetrachloroethylene 127-18-4 166 0.200 1.36 ND ND 1 WG871908
Trichloroethylene 79-01-6 131 0.200 1.07 ND ND 1 WG871908
Vinyl chloride 75-01-4 62.50 0.200 0.511 ND ND 1 WG871908
(S) 1,4-Bromofluorobenzene 460-00-4 175 60.0-140 96.0 WG871908
1 Cp
2Tc
3Ss
4Cn
5Sr
6Qc
7Gl
8Al
9Sc
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ONE LAB. NATIONWIDE.SAMPLE RESULTS - 06
L834788
DUPLICATE 8 FT
Collected date/time: 05/09/16 00:00
Volatile Organic Compounds (MS) by Method TO-15
CAS #Mol. Wt.RDL1 RDL2 Result Result Qualifier Dilution Batch
Analyte ppbv ug/m3 ppbv ug/m3
1,1-Dichloroethene 75-35-4 96.90 0.200 0.793 ND ND 1 WG871915
1,2-Dichloroethane 107-06-2 99 0.200 0.810 ND ND 1 WG871915
cis-1,2-Dichloroethene 156-59-2 96.90 0.200 0.793 ND ND 1 WG871915
trans-1,2-Dichloroethene 156-60-5 96.90 0.200 0.793 ND ND 1 WG871915
Tetrachloroethylene 127-18-4 166 0.200 1.36 2.77 18.8 1 WG871915
Trichloroethylene 79-01-6 131 0.200 1.07 ND ND 1 WG871915
Vinyl chloride 75-01-4 62.50 0.200 0.511 ND ND 1 WG871915
(S) 1,4-Bromofluorobenzene 460-00-4 175 60.0-140 103 WG871915
1 Cp
2Tc
3Ss
4Cn
5Sr
6Qc
7Gl
8Al
9Sc
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ONE LAB. NATIONWIDE.QUALITY CONTROL SUMMARYWG871908
Volatile Organic Compounds (MS) by Method TO-15 L834788-01,02,04
Method Blank (MB)
(MB) R3136561-3 05/12/16 10:44
MB Result MB Qualifier MB MDL MB RDL
Analyte ppbv ppbv ppbv
1,2-Dichloroethane U 0.0616 0.200
1,1-Dichloroethene U 0.0490 0.200
cis-1,2-Dichloroethene U 0.0389 0.200
trans-1,2-Dichloroethene U 0.0464 0.200
Tetrachloroethylene U 0.0497 0.200
Trichloroethylene U 0.0545 0.200
Vinyl chloride U 0.0457 0.200
(S) 1,4-Bromofluorobenzene 94.5 60.0-140
Laboratory Control Sample (LCS) • Laboratory Control Sample Duplicate (LCSD)
(LCS) R3136561-1 05/12/16 09:17 • (LCSD) R3136561-2 05/12/16 10:00
Spike Amount LCS Result LCSD Result LCS Rec.LCSD Rec.Rec. Limits LCS Qualifier LCSD Qualifier RPD RPD Limits
Analyte ppbv ppbv ppbv %%%%%
Vinyl chloride 3.75 3.72 3.77 99.2 100 70.0-130 1.31 25
1,1-Dichloroethene 3.75 3.58 3.70 95.5 98.5 70.0-130 3.15 25
trans-1,2-Dichloroethene 3.75 3.79 3.85 101 103 70.0-130 1.41 25
cis-1,2-Dichloroethene 3.75 3.81 3.87 102 103 70.0-130 1.54 25
1,2-Dichloroethane 3.75 3.57 3.67 95.1 97.9 70.0-130 2.86 25
Trichloroethylene 3.75 4.04 4.09 108 109 70.0-130 1.26 25
Tetrachloroethylene 3.75 4.28 4.35 114 116 70.0-130 1.58 25
(S) 1,4-Bromofluorobenzene 94.7 95.3 60.0-140
1 Cp
2Tc
3Ss
4Cn
5Sr
6Qc
7Gl
8Al
9Sc
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ONE LAB. NATIONWIDE.QUALITY CONTROL SUMMARYWG871915
Volatile Organic Compounds (MS) by Method TO-15 L834788-06
Method Blank (MB)
(MB) R3136132-3 05/12/16 09:37
MB Result MB Qualifier MB MDL MB RDL
Analyte ppbv ppbv ppbv
1,2-Dichloroethane U 0.0616 0.200
1,1-Dichloroethene U 0.0490 0.200
cis-1,2-Dichloroethene U 0.0389 0.200
trans-1,2-Dichloroethene U 0.0464 0.200
Tetrachloroethylene U 0.0497 0.200
Trichloroethylene U 0.0545 0.200
Vinyl chloride U 0.0457 0.200
(S) 1,4-Bromofluorobenzene 94.3 60.0-140
Laboratory Control Sample (LCS) • Laboratory Control Sample Duplicate (LCSD)
(LCS) R3136132-1 05/12/16 08:18 • (LCSD) R3136132-2 05/12/16 08:56
Spike Amount LCS Result LCSD Result LCS Rec.LCSD Rec.Rec. Limits LCS Qualifier LCSD Qualifier RPD RPD Limits
Analyte ppbv ppbv ppbv %%%%%
Vinyl chloride 3.75 3.55 3.61 94.7 96.2 70.0-130 1.58 25
1,1-Dichloroethene 3.75 3.08 3.22 82.1 85.9 70.0-130 4.59 25
trans-1,2-Dichloroethene 3.75 3.07 3.21 81.7 85.6 70.0-130 4.62 25
cis-1,2-Dichloroethene 3.75 4.28 4.27 114 114 70.0-130 0.0200 25
1,2-Dichloroethane 3.75 4.16 4.09 111 109 70.0-130 1.72 25
Trichloroethylene 3.75 4.21 4.19 112 112 70.0-130 0.370 25
Tetrachloroethylene 3.75 4.20 4.21 112 112 70.0-130 0.120 25
(S) 1,4-Bromofluorobenzene 98.0 98.1 60.0-140
1 Cp
2Tc
3Ss
4Cn
5Sr
6Qc
7Gl
8Al
9Sc
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ONE LAB. NATIONWIDE.GLOSSARY OF TERMS
Abbreviations and Definitions
SDG Sample Delivery Group.
MDL Method Detection Limit.
RDL Reported Detection Limit.
ND,U Not detected at the Reporting Limit (or MDL where applicable).
RPD Relative Percent Difference.
(dry)Results are reported based on the dry weight of the sample. [this will only be present on a dry
report basis for soils].
Original Sample The non-spiked sample in the prep batch used to determine the Relative Percent Difference (RPD)
from a quality control sample. The Original Sample may not be included within the reported SDG.
(S)Surrogate (Surrogate Standard) - Analytes added to every blank, sample, Laboratory Control
Sample/Duplicate and Matrix Spike/Duplicate; used to evaluate analytical efficiency by measuring
recovery. Surrogates are not expected to be detected in all environmental media.
Rec.Recovery.
SDL Sample Detection Limit.
MQL Method Quantitation Limit.
Unadj. MQL Unadjusted Method Quantitation Limit.
Qualifier Description
The remainder of this page intentionally left blank, there are no qualifiers applied to this SDG.
1 Cp
2Tc
3Ss
4Cn
5Sr
6Qc
7Gl
8Al
9Sc
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ONE LAB. NATIONWIDE.ACCREDITATIONS & LOCATIONS
1 Cp
2Tc
3Ss
4Cn
5Sr
6Qc
7Gl
8Al
9Sc
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Our Locations
Alabama 40660
Alaska UST-080
Arizona AZ0612
Arkansas 88-0469
California 01157CA
Colorado TN00003
Conneticut PH-0197
Florida E87487
Georgia NELAP
Georgia 1 923
Idaho TN00003
Illinois 200008
Indiana C-TN-01
Iowa 364
Kansas E-10277
Kentucky 1 90010
Kentucky 2 16
Louisiana AI30792
Maine TN0002
Maryland 324
Massachusetts M-TN003
Michigan 9958
Minnesota 047-999-395
Mississippi TN00003
Missouri 340
Montana CERT0086
Nebraska NE-OS-15-05
Nevada TN-03-2002-34
New Hampshire 2975
New Jersey–NELAP TN002
New Mexico TN00003
New York 11742
North Carolina Env375
North Carolina 1 DW21704
North Carolina 2 41
North Dakota R-140
Ohio–VAP CL0069
Oklahoma 9915
Oregon TN200002
Pennsylvania 68-02979
Rhode Island 221
South Carolina 84004
South Dakota n/a
Tennessee 1 4 2006
Texas T 104704245-07-TX
Texas 5 LAB0152
Utah 6157585858
Vermont VT2006
Virginia 109
Washington C1915
West Virginia 233
Wisconsin 9980939910
Wyoming A2LA
A2LA – ISO 17025 1461.01
Canada 1461.01
EPA–Crypto TN00003
AIHA 100789
DOD 1461.01
USDA S-67674
State Accreditations
Third Party & Federal Accreditations
ESC Lab Sciences is the only environmental laboratory accredited/certified to support your work nationwide from one location. One phone call, one point of contact, one laboratory. No other
lab is as accessible or prepared to handle your needs throughout the country. Our capacity and capability from our single location laboratory is comparable to the collective totals of the
network laboratories in our industry. The most significant benefit to our “one location” design is the design of our laboratory campus. The model is conducive to accelerated productivity,
decreasing turn-around time, and preventing cross contamination, thus protecting sample integrity. Our focus on premium quality and prompt service allows us to be YOUR LAB OF CHOICE.
ESC Lab Sciences has sixty-four client support centers that provide sample pickup and/or the delivery of sampling supplies. If you would like assistance from one of our support offices, please
contact our main office. ESC Lab Sciences performs all testing at our central laboratory.
1. Drinking Water 2. Underground Storage Tanks 3. Aquatic Toxicity 4. Chemical/Microbiological 5. Mold n/a Accreditation not applicable
1461.02A2LA – ISO 170255
* Not all certifications held by the laboratory are applicable to the results reported in the attached report.
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REFERENCE 10
REFERENCE 11
Output generated 05AUG2022:17:28:27
Resident Air Inputs 1
Variable
Resident
Air
Default
Value
Site-Specific
Value
AFgw (Attenuation Factor Groundwater) unitless 0.001 0.001
AFss (Attenuation Factor Sub-Slab) unitless 0.03 0.03
EDres (exposure duration) years 26 26
ED0-2 (mutagenic exposure duration first phase) years 2 2
ED2-6 (mutagenic exposure duration second phase) years 4 4
ED6-16 (mutagenic exposure duration third phase) years 10 10
ED16-26 (mutagenic exposure duration fourth phase) years 10 10
EFres (exposure frequency) days/year 350 350
EF0-2 (mutagenic exposure frequency first phase) days/year 350 350
EF2-6 (mutagenic exposure frequency second phase) days/year 350 350
EF6-16 (mutagenic exposure frequency third phase) days/year 350 350
EF16-26 (mutagenic exposure frequency fourth phase) days/year 350 350
ETres (exposure time) hours/day 24 24
ET0-2 (mutagenic exposure time first phase) hours/day 24 24
ET2-6 (mutagenic exposure time second phase) hours/day 24 24
ET6-16 (mutagenic exposure time third phase) hours/day 24 24
ET16-26 (mutagenic exposure time fourth phase) hours/day 24 24
THQ (target hazard quotient) unitless 0.1 0.1
LT (lifetime) years 70 70
TR (target risk) unitless 1.0E-06 1.0E-06
Output generated 05AUG2022:17:28:27
Resident Vapor Intrusion Screening Levels (VISL)2
Key: I = IRIS; P = PPRTV; O = OPP; A = ATSDR; C = Cal EPA; X = PPRTV Screening Level; H = HEAST; D = DWSHA; W = TEF applied; E = RPF applied;
U = user provided; G = see RSL User's Guide Section 5; CA = cancer; NC = noncancer.
Chemical
CAS
Number
Does the
chemical
meet
the
definition
for
volatility?
(HLC>1E-5
or VP>1)
Does the
chemical
have
inhalation
toxicity
data?
(IUR
and/or
RfC)
Is Chemical
Sufficiently
Volatile and Toxic
to
Pose Inhalation
Risk
Via Vapor
Intrusion
from Soil
Source?
(Cvp > Ci,a,Target?)
Is Chemical
Sufficiently
Volatile and Toxic
to
Pose Inhalation
Risk
Via Vapor
Intrusion from
Groundwater
Source?
(Chc > Ci,a,Target?)
Target
Indoor Air
Concentration
(TCR=1E-06
or THQ=0.1)
MIN(Cia,c,Cia,nc)
(µg/m3)
Toxicity
Basis
Target
Sub-Slab and
Near-source
Soil Gas
Concentration
(TCR=1E-06
or THQ=0.1)
Csg,Target
(µg/m3)
Target
Groundwater
Concentration
(TCR=1E-06
or THQ=0.1)
Cgw,Target
(µg/L)
Benzene 71-43-2 Yes Yes Yes Yes 3.60E-01 CA 1.20E+01 1.59E+00
Chloroform 67-66-3 Yes Yes Yes Yes 1.22E-01 CA 4.07E+00 8.14E-01
Dichloroethane, 1,1-75-34-3 Yes Yes Yes Yes 1.75E+00 CA 5.85E+01 7.64E+00
Dichloroethane, 1,2-107-06-2 Yes Yes Yes Yes 1.08E-01 CA 3.60E+00 2.24E+00
Dichloroethylene, 1,1-75-35-4 Yes Yes Yes Yes 2.09E+01 NC 6.95E+02 1.95E+01
Dichloroethylene, cis-1,2-156-59-2 Yes No No Inhal. Tox. Info No Inhal. Tox. Info ---
Dichloroethylene, trans-1,2-156-60-5 Yes Yes Yes Yes 4.17E+00 NC 1.39E+02 1.09E+01
Tetrachloroethylene 127-18-4 Yes Yes Yes Yes 4.17E+00 NC 1.39E+02 5.76E+00
Toluene 108-88-3 Yes Yes Yes Yes 5.21E+02 NC 1.74E+04 1.92E+03
Trichloroethane, 1,1,1-71-55-6 Yes Yes Yes Yes 5.21E+02 NC 1.74E+04 7.42E+02
Trichloroethane, 1,1,2-79-00-5 Yes Yes Yes Yes 2.09E-02 NC 6.95E-01 6.19E-01
Trichloroethylene 79-01-6 Yes Yes Yes Yes 2.09E-01 NC 6.95E+00 5.18E-01
Vinyl Chloride 75-01-4 Yes Yes Yes Yes 1.68E-01 CA 5.59E+00 1.47E-01
Output generated 05AUG2022:17:28:27
Resident Vapor Intrusion Screening Levels (VISL)3
Key: I = IRIS; P = PPRTV; O = OPP; A = ATSDR; C = Cal EPA; X = PPRTV Screening Level; H = HEAST; D = DWSHA; W = TEF applied; E = RPF applied;
U = user provided; G = see RSL User's Guide Section 5; CA = cancer; NC = noncancer.
Is Target
Groundwater
Concentration
< MCL?
(Cgw < MCL?)
Pure Phase
Vapor
Concentration
Cvp\
(25 ℃)\
(µg/m3)
Maximum
Groundwater
Vapor
Concentration
Chc\
(µg/m3)
Temperature
for Maximum
Groundwater
Vapor
Concentration
(℃)
Lower
Explosive
Limit
LEL
(%
by
volume)
LEL
Ref
IUR
(ug/m3)-1
IUR
Ref
RfC
(mg/m 3)
RfC
Ref
Mutagenic
Indicator
Carcinogenic
VISL
TCR=1E-06
Cia,c(µg/m3)
Noncarcinogenic
VISL
THQ=0.1
Cia,nc(µg/m3)
Yes (5)3.98E+08 4.06E+08 25 1.20 U 7.80E-06 U 3.00E-02 U No 3.60E-01 3.13E+00
Yes (80)1.26E+09 1.19E+09 25 -2.30E-05 U 9.77E-02 U No 1.22E-01 1.02E+01
--1.21E+09 1.16E+09 25 5.40 U 1.60E-06 U -No 1.75E+00 -
Yes (5)4.20E+08 4.15E+08 25 6.20 U 2.60E-05 U 7.00E-03 U No 1.08E-01 7.30E-01
No (7)3.13E+09 2.58E+09 25 6.50 U -2.00E-01 U No -2.09E+01
1.04E+09 1.07E+09 25 3.00 U --No --
Yes (100)1.73E+09 1.73E+09 25 6.00 U -4.00E-02 U No -4.17E+00
No (5)1.65E+08 1.49E+08 25 -2.60E-07 U 4.00E-02 U No 1.08E+01 4.17E+00
No (1000)1.41E+08 1.43E+08 25 1.10 U -5.00E+00 U No -5.21E+02
No (200)8.90E+08 9.07E+08 25 8.00 U -5.00E+00 U No -5.21E+02
Yes (5)1.65E+08 1.55E+08 25 6.00 U 1.60E-05 U 2.00E-04 U No 1.75E-01 2.09E-02
Yes (5)4.88E+08 5.15E+08 25 8.00 U 4.10E-06 U 2.00E-03 U Mut 4.78E-01 2.09E-01
Yes (2)1.00E+10 1.00E+10 25 3.60 U 4.40E-06 U 8.00E-02 U Mut 1.68E-01 8.34E+00
Output generated 05AUG2022:17:28:27
Chemical Properties 4
Chemical
CAS
Number
Does the
chemical
meet
the
definition
for
volatility?
(HLC>1E-5
or VP>1)
Does the
chemical
have
inhalation
toxicity
data?
(IUR
and/or
RfC)MW
MW
Ref
Vapor
Pressure
VP
(mm Hg)
VP
Ref
S
(mg/L)
S
Ref
MCL
(ug/L)
Benzene 71-43-2 Yes Yes 78.12 U 9.48E+01 U 1.79E+03 U 5
Chloroform 67-66-3 Yes Yes 119.38 U 1.97E+02 U 7.95E+03 U 80
Dichloroethane, 1,1-75-34-3 Yes Yes 98.96 U 2.27E+02 U 5.04E+03 U -
Dichloroethane, 1,2-107-06-2 Yes Yes 98.96 U 7.89E+01 U 8.60E+03 U 5
Dichloroethylene, 1,1-75-35-4 Yes Yes 96.94 U 6.00E+02 U 2.42E+03 U 7
Dichloroethylene, cis-1,2-156-59-2 Yes No 96.94 U 2.00E+02 U 6.41E+03 U 70
Dichloroethylene, trans-1,2-156-60-5 Yes Yes 96.94 U 3.31E+02 U 4.52E+03 U 100
Tetrachloroethylene 127-18-4 Yes Yes 165.83 U 1.85E+01 U 2.06E+02 U 5
Toluene 108-88-3 Yes Yes 92.14 U 2.84E+01 U 5.26E+02 U 1000
Trichloroethane, 1,1,1-71-55-6 Yes Yes 133.41 U 1.24E+02 U 1.29E+03 U 200
Trichloroethane, 1,1,2-79-00-5 Yes Yes 133.41 U 2.30E+01 U 4.59E+03 U 5
Trichloroethylene 79-01-6 Yes Yes 131.39 U 6.90E+01 U 1.28E+03 U 5
Vinyl Chloride 75-01-4 Yes Yes 62.50 U 2.98E+03 U 8.80E+03 U 2
Output generated 05AUG2022:17:28:27
Chemical Properties 5
HLC
(atm-m 3/mole)
Henry's
Law
Constant
(unitless)
H`
and
HLC
Ref
Henry's
Law
Constant
Used in
Calcs
(unitless)
Normal
Boiling
Point
BP
(K)
BP
Ref
Critical
Temperature
TC\
(K)
TC\
Ref
Enthalpy of
vaporization
at
the normal
boiling point
ΔHv,b\
(cal/mol)
ΔHv,b\
Ref
Lower
Explosive
Limit
LEL
(%
by
volume)
LEL
Ref
5.55E-03 2.27E-01 U 2.27E-01 353.15 U 5.62E+02 U 7340.00 U 1.20 U
3.67E-03 1.50E-01 U 1.50E-01 334.25 U 5.36E+02 U 6990.00 U -
5.62E-03 2.30E-01 U 2.30E-01 330.55 U 5.23E+02 U 6900.00 U 5.40 U
1.18E-03 4.82E-02 U 4.82E-02 356.65 U 5.62E+02 U 7640.00 U 6.20 U
2.61E-02 1.07E+00 U 1.07E+00 304.85 U 4.82E+02 U 6250.00 U 6.50 U
4.08E-03 1.67E-01 U 1.67E-01 333.25 U 5.36E+02 U 7220.00 U 3.00 U
9.38E-03 3.83E-01 U 3.83E-01 321.85 U 5.16E+02 U 6910.00 U 6.00 U
1.77E-02 7.24E-01 U 7.24E-01 394.15 U 6.20E+02 U 8290.00 U -
6.64E-03 2.71E-01 U 2.71E-01 384.15 U 5.92E+02 U 7930.00 U 1.10 U
1.72E-02 7.03E-01 U 7.03E-01 347.15 U 5.45E+02 U 7140.00 U 8.00 U
8.24E-04 3.37E-02 U 3.37E-02 387.15 U 6.02E+02 U 8320.00 U 6.00 U
9.85E-03 4.03E-01 U 4.03E-01 360.35 U 5.71E+02 U 7500.00 U 8.00 U
2.78E-02 1.14E+00 U 1.14E+00 259.85 U 4.25E+02 U 4970.00 U 3.60 U
Output generated 05AUG2022:17:43:01
Default VISL Results 1
Variable Value
Exposure Scenario Commercial
Temperature for Groundwater Vapor Concentration C 25
THQ (target hazard quotient) unitless 0.1
TR (target risk) unitless 0.0001
ATw (averaging time - composite worker)365
EFw (exposure frequency - composite worker) day/yr 250
EDw (exposure duration - composite worker) yr 25
ETw (exposure time - composite worker) hr 8
LT (lifetime) yr 70
AFgw (Attenuation Factor Groundwater) unitless 0.001
AFss (Attenuation Factor Sub-Slab) unitless 0.03
Output generated 05AUG2022:17:43:01
Commercial Vapor Intrusion Screening Levels (VISL)2
Key: I = IRIS; P = PPRTV; O = OPP; A = ATSDR; C = Cal EPA; X = PPRTV Screening Level; H = HEAST; D = DWSHA; W = TEF applied;
E = RPF applied; U = user provided; G = see RSL User's Guide Section 5; CA = cancer; NC = noncancer.
Chemical
CAS
Number
Does the
chemical
meet
the
definition
for
volatility?
(HLC>1E-5
or VP>1)
Does the
chemical
have
inhalation
toxicity
data?
(IUR
and/or
RfC)
Is Chemical
Sufficiently
Volatile and Toxic
to
Pose Inhalation
Risk
Via Vapor
Intrusion
from Soil
Source?
(Cvp > Ci,a,Target?)
Is Chemical
Sufficiently
Volatile and Toxic
to
Pose Inhalation
Risk
Via Vapor
Intrusion from
Groundwater
Source?
(Chc > Ci,a,Target?)
Target
Indoor Air
Concentration
(TCR=0.0001
or THQ=0.1)
MIN(Cia,c,Cia,nc)
(µg/m3)
Toxicity
Basis
Target
Sub-Slab and
Near-source
Soil Gas
Concentration
(TCR=0.0001
or THQ=0.1)
Csg,Target
(µg/m3)
Target
Groundwater
Concentration
(TCR=0.0001
or THQ=0.1)
Cgw,Target
(µg/L)
Benzene 71-43-2 Yes Yes Yes Yes 1.31E+01 NC 4.38E+02 5.79E+01
Chloroform 67-66-3 Yes Yes Yes Yes 4.28E+01 NC 1.43E+03 2.85E+02
Dichloroethane, 1,1-75-34-3 Yes Yes Yes Yes 7.67E+02 CA 2.56E+04 3.34E+03
Dichloroethane, 1,2-107-06-2 Yes Yes Yes Yes 3.07E+00 NC 1.02E+02 6.36E+01
Dichloroethylene, 1,1-75-35-4 Yes Yes Yes Yes 8.76E+01 NC 2.92E+03 8.21E+01
Dichloroethylene, cis-1,2-156-59-2 Yes No No Inhal. Tox. Info No Inhal. Tox. Info ---
Dichloroethylene, trans-1,2-156-60-5 Yes Yes Yes Yes 1.75E+01 NC 5.84E+02 4.57E+01
Tetrachloroethylene 127-18-4 Yes Yes Yes Yes 1.75E+01 NC 5.84E+02 2.42E+01
Toluene 108-88-3 Yes Yes Yes Yes 2.19E+03 NC 7.30E+04 8.07E+03
Trichloroethane, 1,1,1-71-55-6 Yes Yes Yes Yes 2.19E+03 NC 7.30E+04 3.11E+03
Trichloroethane, 1,1,2-79-00-5 Yes Yes Yes Yes 8.76E-02 NC 2.92E+00 2.60E+00
Trichloroethylene 79-01-6 Yes Yes Yes Yes 8.76E-01 NC 2.92E+01 2.18E+00
Vinyl Chloride 75-01-4 Yes Yes Yes Yes 3.50E+01 NC 1.17E+03 3.08E+01
Output generated 05AUG2022:17:43:01
Commercial Vapor Intrusion Screening Levels (VISL)3
Key: I = IRIS; P = PPRTV; O = OPP; A = ATSDR; C = Cal EPA; X = PPRTV Screening Level; H = HEAST; D = DWSHA; W = TEF applied;
E = RPF applied; U = user provided; G = see RSL User's Guide Section 5; CA = cancer; NC = noncancer.
Is Target
Groundwater
Concentration
< MCL?
(Cgw < MCL?)
Pure Phase
Vapor
Concentration
Cvp\
(25 ℃)\
(µg/m3)
Maximum
Groundwater
Vapor
Concentration
Chc\
(µg/m3)
Temperature
for Maximum
Groundwater
Vapor
Concentration
(℃)
Lower
Explosive
Limit
LEL
(%
by
volume)
LEL
Ref
IUR
(ug/m 3)-1
IUR
Ref
RfC
(mg/m3)
RfC
Ref
Mutagenic
Indicator
Carcinogenic
VISL
TCR=0.0001
Cia,c(µg/m3)
Noncarcinogenic
VISL
THQ=0.1
Cia,nc(µg/m3)
No (5)3.98E+08 4.06E+08 25 1.20 CRC 7.80E-06 I 3.00E-02 I No 1.57E+02 1.31E+01
No (80)1.26E+09 1.19E+09 25 -2.30E-05 I 9.77E-02 A No 5.33E+01 4.28E+01
--1.21E+09 1.16E+09 25 5.40 CRC 1.60E-06 C -No 7.67E+02 -
No (5)4.20E+08 4.15E+08 25 6.20 CRC 2.60E-05 I 7.00E-03 P No 4.72E+01 3.07E+00
No (7)3.13E+09 2.58E+09 25 6.50 CRC -2.00E-01 I No -8.76E+01
1.04E+09 1.07E+09 25 3.00 CRC --No --
Yes (100)1.73E+09 1.73E+09 25 6.00 CRC -4.00E-02 X No -1.75E+01
No (5)1.65E+08 1.49E+08 25 -2.60E-07 I 4.00E-02 I No 4.72E+03 1.75E+01
No (1000)1.41E+08 1.43E+08 25 1.10 CRC -5.00E+00 I No -2.19E+03
No (200)8.90E+08 9.07E+08 25 8.00 CRC -5.00E+00 I No -2.19E+03
Yes (5)1.65E+08 1.55E+08 25 6.00 CRC 1.60E-05 I 2.00E-04 X No 7.67E+01 8.76E-02
Yes (5)4.88E+08 5.15E+08 25 8.00 CRC 4.10E-06 I 2.00E-03 I Mut 2.99E+02 8.76E-01
No (2)1.00E+10 1.00E+10 25 3.60 CRC 4.40E-06 I 8.00E-02 A Mut 2.79E+02 3.50E+01
Output generated 05AUG2022:17:43:01
Chemical Properties 4
Output generated 05AUG2022:17:43:01
Chemical
CAS
Number
Does the
chemical
meet
the
definition
for
volatility?
(HLC>1E-5
or VP>1)
Does the
chemical
have
inhalation
toxicity
data?
(IUR
and/or
RfC)MW
MW
Ref
Vapor
Pressure
VP
(mm Hg)
VP
Ref
S
(mg/L)
S
Ref
MCL
(ug/L)
Benzene 71-43-2 Yes Yes 78.115 PHYSPROP 9.48E+01 PHYSPROP 1.79E+03 PHYSPROP 5
Chloroform 67-66-3 Yes Yes 119.38 PHYSPROP 1.97E+02 PHYSPROP 7.95E+03 PHYSPROP 80
Dichloroethane, 1,1-75-34-3 Yes Yes 98.96 PHYSPROP 2.27E+02 PHYSPROP 5.04E+03 PHYSPROP -
Dichloroethane, 1,2-107-06-2 Yes Yes 98.96 PHYSPROP 7.89E+01 PHYSPROP 8.60E+03 PHYSPROP 5
Dichloroethylene, 1,1-75-35-4 Yes Yes 96.944 PHYSPROP 6.00E+02 PHYSPROP 2.42E+03 PHYSPROP 7
Dichloroethylene, cis-1,2-156-59-2 Yes No 96.944 PHYSPROP 2.00E+02 PHYSPROP 6.41E+03 PHYSPROP 70
Dichloroethylene, trans-1,2-156-60-5 Yes Yes 96.944 PHYSPROP 3.31E+02 EPI 4.52E+03 PHYSPROP 100
Tetrachloroethylene 127-18-4 Yes Yes 165.83 PHYSPROP 1.85E+01 PHYSPROP 2.06E+02 PHYSPROP 5
Toluene 108-88-3 Yes Yes 92.142 PHYSPROP 2.84E+01 PHYSPROP 5.26E+02 PHYSPROP 1000
Trichloroethane, 1,1,1-71-55-6 Yes Yes 133.41 PHYSPROP 1.24E+02 PHYSPROP 1.29E+03 PHYSPROP 200
Trichloroethane, 1,1,2-79-00-5 Yes Yes 133.41 PHYSPROP 2.30E+01 PHYSPROP 4.59E+03 PHYSPROP 5
Trichloroethylene 79-01-6 Yes Yes 131.39 PHYSPROP 6.90E+01 PHYSPROP 1.28E+03 PHYSPROP 5
Vinyl Chloride 75-01-4 Yes Yes 62.499 PHYSPROP 2.98E+03 EPI 8.80E+03 PHYSPROP 2
Output generated 05AUG2022:17:43:01
Chemical Properties 5
Output generated 05AUG2022:17:43:01
HLC
(atm-m 3/mole)
Henry's
Law
Constant
(unitless)
H` and HLC
Ref
Henry's
Law
Constant
Used in
Calcs
(unitless)
Normal
Boiling
Point
BP
(K)
BP
Ref
Critical
Temperature
TC\
(K)
TC\
Ref
Enthalpy of
vaporization
at
the normal
boiling point
ΔHv,b\
(cal/mol)
ΔHv,b\
Ref
Lower
Explosive
Limit
LEL
(%
by
volume)
LEL
Ref
5.55E-03 2.27E-01 PHYSPROP 2.27E-01 353.15 PHYSPROP 5.62E+02 CRC 7.34E+03 CRC 1.2 CRC
3.67E-03 1.50E-01 PHYSPROP 1.50E-01 334.25 PHYSPROP 5.36E+02 CRC 6.99E+03 CRC -
5.62E-03 2.30E-01 PHYSPROP 2.30E-01 330.55 PHYSPROP 5.23E+02 CRC 6.90E+03 CRC 5.4 CRC
1.18E-03 4.82E-02 PHYSPROP 4.82E-02 356.65 PHYSPROP 5.62E+02 CRC 7.64E+03 CRC 6.2 CRC
2.61E-02 1.07E+00 PHYSPROP 1.07E+00 304.85 PHYSPROP 4.82E+02 YAWS 6.25E+03 CRC 6.5 CRC
4.08E-03 1.67E-01 PHYSPROP 1.67E-01 333.25 PHYSPROP 5.36E+02 CRC 7.22E+03 CRC 3 CRC
9.38E-03 3.83E-01 PHYSPROP 3.83E-01 321.85 PHYSPROP 5.16E+02 CRC 6.91E+03 CRC 6 CRC
1.77E-02 7.24E-01 PHYSPROP 7.24E-01 394.45 PHYSPROP 6.20E+02 YAWS 8.29E+03 CRC -
6.64E-03 2.71E-01 PHYSPROP 2.71E-01 383.75 PHYSPROP 5.92E+02 CRC 7.93E+03 CRC 1.1 CRC
1.72E-02 7.03E-01 PHYSPROP 7.03E-01 347.15 PHYSPROP 5.45E+02 YAWS 7.14E+03 CRC 8 CRC
8.24E-04 3.37E-02 PHYSPROP 3.37E-02 386.95 PHYSPROP 6.02E+02 YAWS 8.32E+03 CRC 6 CRC
9.85E-03 4.03E-01 PHYSPROP 4.03E-01 360.35 PHYSPROP 5.71E+02 YAWS 7.50E+03 CRC 8 CRC
2.78E-02 1.14E+00 PHYSPROP 1.14E+00 259.85 PHYSPROP 4.25E+02 CRC 4.97E+03 CRC 3.6 CRC
REFERENCE 12