HomeMy WebLinkAbout11037_Double Oaks EMP 2019_11_29II
NORTH CAROLINA BROWNFIELDS PROGRAM
ENVIRONMENTAL MANAGEMENT PLAN
This form is to be used to prepare an Environmental Management Plan (EMP) for projects in the
North Carolina Brownfields Program at the direction of a project manager for the program.
Prospective Developers and/or their consultants must complete and submit this form and all
pertinent attachments to their project manager prior to any site earthmoving or other
development related activities. For the resultant EMP to be valid for use, it must be completed,
reviewed by the program, and signed by all signers at the bottom. Consult your project
manager if you have questions.
GENERAL INFORMATION
Date: 11/29/2016
Brownfields Assigned Project Name: Double Oaks -Brightwalk Phase 8
Brownfields Project Number: 11037-07-60
Brownfields Property Address: 2535, 2539, 2601, 2605, 2609, and 2613 Double Oaks Road
Brownfields Property Area (acres): 1.93 acres
Is Brownfields Property Subject to RCRA Permit? 0 Yes IZI No
If yes enter Permit No.: Click here to enter text.
Is Brownfields Property Subject to a Solid Waste Permit? 0 Yes t8I No
If yes, enter Permit No.: Click here to enter text.
COMMUNICATIONS
Prospective Developer (PD}: Double Oaks Development LLC
Phone Numbers: Office: 704-342-0933 ..... Mobile: 704-698-6368
Email: jdonaldson@cmhp.org
Primary PD Contact: James L. Donaldson
Phone Numbers: Office: 704-342-0933 Mobile: 704-698-6368
Email:
Environmental Consultant: Geoscience Group, Inc.
Phone Numbers: Office: 704-941-2262 ....• Mobile: 704-506-5446
Email: thassett@geosciencegroup.com
Brownfields Program Project Manager: Carolyn Minnich
Office: 704-661-0330
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EMP Form ver.1, October 23, 2014
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Email: carolyn.minnich@ncdenr.gov
Other DENR Program Contacts (if applicable, i.e., UST Section, Inactive Hazardous Site Branch,
Hazardous Waste, Solid Waste): IHS-Pre-Regulatory Landfill Unit: Jason Kam -919-707-8346
NOTIFICATIONS TO THE BROWNFIELDS PROGRAM
Advance Notification Times to Brownfields Project Manager: Check each box to accept minimum
notice periods (in calendar days) for each type of onsite task:
On-site assessment or remedial activities:
Construction or grading start:
Within 10 days_181
Within 10 days 181
Discovery of stained soil, odors, USTs, buried drums or waste, landfill, or other signs of previously
unknown contamination: Within 48 hours 181
Implementation of emergency actions (e.g. dewatering, flood, or soil erosion control
measures in area of contamination, venting of explosive environments):
Within 48 hours 181
Installation of mitigation systems: Within 10 days 181
Other notifications as required by local, state or federal agencies to implement
redevelopment activities: (as applicable): Within 30 days 181
REDEVELOPMENT PLANS
1) Type of Redevelopment (check all that apply):
181 Residential 0 Recreational 0 Institutional 0 Commercial D Office ORetail D Industrial
D Other specify: Click here to enter text.
2) Summary of Redevelopment Plans (attach conceptual or detailed plans as available):
a) Do plans include demolition of structure(s)?: D Yes 181 No D Unknown
b) Do plans include removal of building foundation slab(s) or pavement:
0 Yes 181 No D Unknown
c) Provide brief summary of redevelopment plans, including demolition, removal of building
slabs/pavement and other structures: Redevelopment calls for construction of eight (8)
houses and associated detatched garages on a currently vacant lot. In addition, a 16 foot wide
alley will be built to provide access to the garages (see attached "Overall Site Plan" Sheet
C-2.0). The redeveloped area will be separated from the adjacent Double Oaks landfill
(closed) by a six (6) foot tall fence as shown on the attached site plan. Signage will be placed
at regular intervals along the fence to provide notice of the precence of buried waste beyond
the fence.
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EMP Form ver.1, October 23, 2014
3) Which category of risk-based screening level is used or is anticipated to be specified in the
Brownfields Agreement?
181 Residential 0 Non-residential or Industrial/Commercial
Note: If children frequent the property, residential screening levels shall be cited in the Brownfields
Agreement for comparison purposes.
4) Schedule for Redevelopment (attach construction schedule):
a) Phase I start date and anticipated duration (specify activities during each phase):
11/29/2016
Work is to begin as soon as Brownfields Program provides notice to proceed.
b) If applicable, Phase 2 start date and anticipated duration (specify activities during each
phase): Click here to enter a date.
N/A
c) Additional phases planned? If yes, specify activities if known:
0 Yes 181 No 0 Not in the foreseeable future ODecision pending
d) Provide the planned date of occupancy for new buildings: 4/1/2017
CONTAMINATED MEDIA
Contaminated Media (attach tabulated data summaries for each impacted media and figure(s) with
sample locations):
Part 1. Soil: 181 Yes 0 No 181 Suspected
Part 2. Groundwater: 181 Yes 0 No 0 Suspected
Part 3. Surface Water: 0 Yes 181 No 0 Suspected
Part 4. Sediment: OYes 181 No 0 Suspected
Part 5. Soil Vapor: 181 Yes 0 No 0 Suspected
Part 6. Sub-Slab Soil Vapor: 0 Yes 181 No 0 Suspected
Part 7. Indoor Air: 0 Yes 181 No 0 Suspected
PART 1. SOIL -Please fill out the information below, using detailed site plans, if available, or estimate
using known areas of contaminated soil and a conceptual redevelopment plan. Provide a figure
overlaying new construction onto figure showing contaminated soil and groundwater locations.
1) Known or suspected contaminants in soil (list specific compounds): Knowm: benzo(a)anthracene,
benzo(a)pyrene, benzo(b)fluoranthene, arsenic, iron, manganese. Suspected: asbestos
2) Depth of known or suspected contaminants (feet): 0 to 11 feet
3) Area of soil disturbed by redevelopment (square feet): approximately 68,000 sq . ft.
4) Depths of soil to be excavated (feet): Up to 3 feet at the southern intersection of the proposed
alley with Dpouble Oaks Road (see attached cut/fill analysis).
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EMP Form ver.1, October 23, 2014
5) Estimated volume of soil (cubic yards) to be excavated (attach grading plan): 740 cubic yards of
cut plus utility trenches
6) Estimated volume of excavated soil (cubic yards) anticipated to be impacted by contaminants: 0
cubic yards
7) Estimated volume of contaminated soil expected to be disposed of offsite, if applicable: 0 cubic
yards
IMPORTED FILL SOIL
1) Will fill soil be imported to the site? 181 Yes 0 No 0 Unknown
2) If yes, what is the estimated volume of fill soil to be imported? Approximately 1,600 cubic yards of
import soil will be brought onto Phase 8 from other portions of the Double Oaks-Brightwalk project.
3) If yes, what is the depth of fill soil to be used at the property? Fill depths are expected to be up to
4.24 feet, see attached cut/fill analysis.
If a range of depths, please list the range.
4) PRIOR TO ITS PLACEMENT AT THE BROWNF/ELDS PROPERTY, provide plan to analyze fill soil to
demonstrate that it meets acceptable standards and can be considered clean for use at the
Brownfields property (Check all that apply):
0 Volatile organic compounds (VOCs} by EPA Method 8260
0 Semi-volatile organic compounds (SVOCs) by EPA Method 8270
0 Metals RCRA List (8) (arsenic, barium, cadmium, chromium (speciated), mercury, lead,
selenium and silver)
0 Metals -Hazardous Substance List -14 (antimony, arsenic, beryllium, cadmium, chromium
(speciated according to IHSB protocol), copper, lead, manganese, mercury, nickel, selenium, silver,
thallium, and zinc)
0 Metals -EPA Priority Pollutant List -13 (arsenic, beryllium, cadmium, chromium (speciated
according to IHSB protocol), copper, mercury, nickel, lead, antimony, selenium, silver, thallium, and
zinc)
0 Other Constituents & Analytical Method: Click here to enter text.
181 Known borrow material (DESCRIBE SOURCE AND ATTACH SAMPLING PROFILE): Phase 8
import soils will be existing soils on other portions of the Double Oaks -Brighwalk project.
MANAGING ONSITE SOIL
1) If soil in known or suspected areas of contamination is anticipated to be excavated from the
Brownfield Property, relocated on the Brownfields Property,or otherwise disturbed during site
grading or other redevelopment activities, please provide a grading plan that clearly illustrates
areas of cut and fill (approximate areas & volumes are acceptable, if only preliminary data
available).
2) HAZARDOUS WASTE DETERMINATION -Does the soil contain a LISTED WASTE as defined in the
North Carolina Hazardous Waste Section under 40 CFR Part 261.31-261.35? 0 Yes 181 No
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EMP Form ver.1, October 23, 2014
If yes, explain why below, including the level of knowledge regarding processes generating the
waste( include pertinent analytical results as needed). Click here to enter text.
If yes, do the soils exceed the "Contained-Out" levels in Attachment 1 of the North Carolina
Contained-In Policy? D Yes D No
NOTE: IF SOIL MEETS THE DEFINITION OF A LISTED HAZARDOUS WASTE AND EXCEEDS THE
CONTAINED-OUT LEVELS IN ATTACHMENT 1 TO THE NORTH CAROLINA CONTAINED-IN POLICY THE
SOIL MAY NOT BE RE-USED ON SITE AND MUST BE DISPOSED OF IN ACCORDANCE WITH DENR
HAZARDOUS WASTE SECTION RULES AND REGULATIONS.
3) HAZARDOUS WASTE DETERMINATION -Does the soil contain a CHARACTERISTIC WASTE?:
D Yes 181 No
If yes, mark reason(s) why below (and include pertinent analytical results).
D lgnitability
D Corrosivity
D Reactivity
D Toxicity
D TCLP results
D Rule of 20 results (20 times total analytical results for an individual hazardous
constituent on TCLP list cannot, by test method, exceed regulatory TCLP standard)
If no, explain rationale: Existing sample data suggests that no characteristic wastes are present on the
site.
NOTE: IF SOIL MEETS THE DEFINITION OF A CHARACTERISTIC HAZARDOUS WASTE, THE SOIL MAY NOT
BE RE-USED ON SITE AND MUST BE DISPOSED OF IN ACCORDANCE WITH DENR HAZARDOUS WASTE
SECTION RULES AND REGULATIONS.
4) Screening criteria by which soil disposition decisions will be made (e.g., left in place, capped in
place with low permeability barrier, removed to onsite location and capped, removed offsite):
181 Preliminary Health-Based Residential SRGs 4/1/2016
D Preliminary Health-Based Industrial/Commercial SRGs Click here to enter a date.
D Site-specific risk-based cleanup level, or acceptable concentrations determined via
calculated cumulative risk. Enter details of methods used for determination/explanation:
Click here to enter text.
5) Check the following action(s) to be taken during excavation and management of said soils:
181 Manage fugitive dust from site:
181 Yes D No
If yes, describe method; If no, explain rationale: Fugitive dusts will not be managed unless
buried suspected asbestos containing materials are encountered during construction. Please refer to
Part 9 for details regarding this contingency. Contaminated soil is not expected to be encountered or
disturbed during site development activities based on previous soil sampling data. The grading
contactor will take into account conditions such as wind speed, wind direction and moisture content
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EMP Form ver.1, October 23, 2014
of soil during soil grading and stockpiling activities. In the unlikely event that contaminated soil is
encountered during site redevelopment that requires excavation, particular attention will be paid by
contractors to implement dust control measures and soil will be managed as described below.
l8l Field Screening:
l8l Yes D No
If yes, describe method; If no, explain rationale: Field screening will not be conducted unless
buried suspected asbestos containing materials or other indications of contamination are
encountered during construction. Please refer to the attached "Contingency For Encountering
Unknown Tanks, Drums, Or Other Waste Materials" document for details regarding this contingency.
During soil disturbance at the site, the contractors will observe soils for evidence of potential
significantly impacted soil that may not be suitable to leave in place in exposed areas at the
residential use site. Evidence of potential significant impacted soil included a distinct unnatural color,
strong odor, or observance of filled or previously disposed material or concerns. Should the above be
noted during site work, the contractor will contact the project environmental consultant to observe
the suspect condition. IF the project environmental consultant confirms that the material may be
impacted, then the procedures below ill be implemented. In addition, the environmental consultant
will contact the DEQ Brownfields Manager within 1 business day to advise that person of the
condition.
l8l Soil Sample Collection:
D Yes l8l No
If yes, describe method (e.g., in-situ grab, composite, stockpile, etc.); If no, explain rationale:
Soil sampling will not be conducted unless buried suspected asbestos containing materials, or other
indications of contamination, are encountered during construction. Please refer to Part 9 for details
regarding this contingency.
l8l Stockpile impacted soil in accordance with NCDENR IHSB protocol in the current version of
the "Guidelines for Assessment and Cleanup", and providing erosion control, prohibiting
contact between surface water/precipitation and contaminated soil, and preventing
contaminated runoff. Explain any variances:
Suspected asbestos containing materials wi II not be stockpiled.
l8l Analyze potentially impacted soil for the following chemical analytes:
l8l Volatile organic compounds (VOCs) by EPA Method 8260
l8l Semi-volatile organic compounds (SVOCs) by EPA Method 8270
l8l Metals RCRA List (8) (arsenic, barium, cadmium, chromium (speciated), mercury,
lead, selenium and silver)
D Metals -Hazardous Substance List -14 (antimony, arsenic, beryllium, cadmium,
chromium (speciated according to IHSB protocol), copper, lead, manganese, mercury, nickel,
selenium, silver, thallium, and zinc)
D Metals -EPA Priority Pollutant list -13 (arsenic, beryllium, cadmium, chromium
(speciated according to IHSB protocol), copper, mercury, nickel, lead, antimony, selenium, silver,
thallium, and zinc)
l8l Other Constituent(s) & Analytical Method(s): Asbestos -PLM analysis
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EMP Form ver.1, October 23, 2014
~ Proposed Measures to Obtain Pre-Approval for Reuse of Impacted Soil within the
Brownfields Property Boundary
~ Provide documentation of analytical report(s) to Brownfields Project Manager
~ Provide documentation of final location, thickness and depth of relocated soil on
site map to Brownfields Project Manager once known
~ Use geotextile to mark depth of fill material (provide description of material)
~ Manage soil under impervious cap ~ or clean fill ~
Describe cap or fill: Cap plan shall be submitted to DEQ for review and approval.
(provide location diagram)
D Confer with NC BF Project Manager if Brownfield Plat must be revised (or re-
recorded if actions are Post-Recordation).
D Other: Click here to enter text.
~ Final grade sampling of exposed soil (i.e., soil that will not be under buildings or permanent
hardscape): [if not checked provide rationale for not needing]
Provide diagram of soil sampling locations, number of samples, and denote Chemical
Analytical Program with check boxes below {Check all that apply):
~ Volatile organic compounds (VOCs) by EPA Method 8260
~ Semi-volatile organic compounds (SVOCs) by EPA Method 8270
~ Metals RCRA List (8) (arsenic, barium, cadmium, chromium (speciated), mercury,
lead, selenium and silver)
D Metals -Hazardous Substance List -14 (antimony, arsenic, beryllium, cadmium,
chromium (speciated according to IHSB protocol), copper, lead, manganese, mercury, nickel,
selenium, silver, thallium, and zinc)
D Metals -EPA Priority Pollutant List -13 (arsenic, beryllium, cadmium, chromium
(speciated according to IHSB protocol), copper, mercury, nickel, lead, antimony, selenium, silver,
thallium, and zinc)
D Pesticides
0 PCBs
~ Other Constituents & Analytical Method: Asbestos -PLM or TEM Analysis
OFFSITE TRANSPORT & DISPOSITION OF EXCAVATED SOIL
NOTE: Unless soil will be transported offsite for disposal in a permitted facility under applicable
regulations, no contaminated or potentially contaminated soil may leave the site without approval
from the brownfields program. Failure to obtain approval may violate a brownfields agreement,
endangering liability protections and making said action subject to enforcement. Justifications
provided below must be approved by the Program in writing prior to completing transport activities.
~ Transport and dispose of impacted soil offsite (documentation of final disposition must be sent to
Brownfields Project Manager)
~ Landfill -analytical program determined by landfill
D landfarm or other treatment facility Click here to enter text.
D Use as Beneficial Fill Offsite -provide justification: Click here to enter text.
D Use as Beneficial Fill at another Suitable Brownfields Site -(Note: a determination that a
site is a "Suitable Brownfields" site will require, at a minimum, that similar concentrations of the same
or similar contaminants already exist at both sites, use of impacted soil as beneficial soil will not
increase the potential for risk to human health and the environment at that site, and that notarized
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EMP Form ver.1, October 23, 2014
documentation of the acceptance of such soil from the property owner of the receiving site is
provided to Brownfields. Provide justification: Click here to enter text.
MANAGEMENT OF UTILITY TRENCHES
181 Install liner between native impacted soils and base of utility trench before filling with clean fill
(Preferred)
D Last out, first in principle for impacted soils (if soil can safely be reused onsite and is not a
hazardous waste), i.e., impacted soils are placed back at approximately the depths they were
removed from such that impacted soil is not placed at a greater depth than the original depth from
which it was excavated.
D Evaluate whether necessary to install barriers in conduits to prevent soil vapor transport, and/or
degradation of conduit materials due to direct impact with contaminants? Result: Yes o No o
If no, include rationale here. Click here to enter text.
If yes, provide specifications on barrier materials
Other comments regarding managing impacted soil in utility trenches: Liner between native
impacted soil and base of utility trenches will only be implemented if buried debris, or other
indication of potential contamination, is encountered in utility trenches.
PART 2. GROUNDWATER -Please fill out the information below and attach figure showing
distribution of groundwater contaminants at site
What is the depth to groundwater at the Brownfields Property? Approximately 28 feet
Is groundwater known to be contaminated by Donsite 181 offsite D both D or unknown
sources? Describe source(s): The groundwtare sample (TMW-2) collected on-site containmed iron
and manganese at concetrations exceeding North Carolina Groundwater (2L) Standards. The source of
these metals has not been confirmed but is assumed to be the adjacent Double Oaks landfill.
What is the direction of groundwater flow at the Brownfields Property? Southwest
Will groundwater likely be encountered during planned redevelopment activities? D Yes 181 No
If yes, describe these activities: Click here to enter text.
In the event that contaminated groundwater is encountered during redevelopment activities (even if
no is checked above), list activities for contingent management of groundwater (e.g., dewatering of
groundwater from excavations or foundations, containerizing, offsite disposal, discharge to sanitary
sewer, or sampling procedures): Groundwater encountered during the site work, or management of
unidentified water that must be removed and disposed of for work to proceed (after allowing the
water to percolate), will be containerized for characterization by analytical data. Samples will be
analyzed by EPA Methods 8260 and 8270. If contained groundwater is determined to be above
regulatory limits, the NCBP contact will be consulted.
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EMP Form ver.1, October 23, 2014
PART 3. SURFACE WATER -Please fill out the information below.
Attach a map showing the location of surface water at the Brownfields Property.
Is surface water at the property known to be contaminated: 0 Yes 181 No
Will workers or the public be in contact with surface water during planned redevelopment activities?
0 Yes 181 No
In the event that contaminated surface water is encountered during redevelopment activities, or
clean surface water enters open excavations, list activities for management of such events (e.g.
flooding, contaminated surface water run-off, stormwater impacts): Storm water that must be
removed from excavations in suspected areas of contamination for work to proceed (after allowing
the water to percolate), will be containerized for characterization by analytical data. Samples will be
analyzed by EPA Methods 8260 and 8270. If contained groundwater is determined to be above
regulatory limits, the NCBP contact will be consulted.
PART 4. SEDIMENT-Please fill out t he information below.
Is sediment at the property known to be contaminated: 0 Yes ~ No
Will workers or the public be in contact with sediment during planned redevelopment activities?
0 Yes ~No
If yes, attach a map showing location of known contaminated sediment at the property.
In the event that contaminated sediment is encountered during redevelopment activities, list
activities for management of such events (stream bed disturbance): N/ A
PART 5. SOIL VAPOR-Please fill out the information below.
Do concentrations of volatile organic compounds at the Brownfields property exceed the following
vapor intrusion screening levels in the following media:
IHSB Residential Screening Levels:
Soil Vapor: ~ Yes 0 No 0 Unknown
Groundwater: 0 Yes ~ No D Unknown
IHSB Industrial/Commercial Screening Levels:
Soil Vapor: ~ Yes D No D Unknown
Groundwater: D Yes 181 No D Unknown
Attach a map showing the location of soil vapor contaminants that exceed site screening levels.
If applicable, at what depth(s) is soil vapor known to be contaminated? 11 feet
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EMP Form ver.1, October 23, 2014
Will workers encounter contaminated soil vapor during planned redevelopment activities?
0 Yes 0 No 181 Unknown
In the event that contaminated soil vapor is encountered during redevelopment activities (trenches,
manways, basements or other subsurface work, list activities for management of such contact: The
vapor of cocern at the project site is methane. As such, explosive atmospheres are the primary
danger. It is not anticipated that explosive levels of methane will collect in shallow utility trenches or
other excavations during construction. However, contractors performing such activities on the site
should regularly test the atmosphere in trenches and excavations with a Lower Explosive Limit (LEL)
meter in accordance with the site's Health and Safety Plan. If readings exceed 10% of the LEL at any
time, work should immediately cease and the excavation should be ventilated with fresh air until the
vapor concentrations are returned to acceptable limits.
PART 6. SUB-SLAB SOIL VAPOR -please fill out the information below if existing buildings or
foundations will be retained in the redevelopment.
Are sub-slab soil vapor data available for the Brownfields Property? 0 Yes 181 No 0 Unknown
If data indicate that sub-slab soil vapor concentrations exceed screening levels, attach a map showing
the location of these exceedances.
At what depth(s) is sub-slab soil vapor known to be contaminated? 0 0-6 inches 0 Other, If other
describe: Click here to enter text.
Will workers encounter contaminated sub-slab soil vapor during planned redevelopment activities?
0 Yes 181 No 0 Unknown
In the event that contaminated soil vapor is encountered during redevelopment activities, list
activities for management of such contact: Click here to enter text.
PART 7. INDOOR AIR-Please fill out the information below.
Are indoor air data available for the Brownfields Property? 0 Yes 181 No 0 Unknown
If yes, attach a map showing the location where indoor air contaminants exceed site screening levels.
If the structures where indoor air has been documented to exceed risk-based screening levels will not
be demolished as part of redevelopment activities, will workers encounter contaminated indoor air
during planned redevelopment activities?
0 Yes 181 No 0 Unknown
In the event that contaminated indoor air is encountered during redevelopment activities, list
activities for management of such contact: Click here to enter text.
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EMP Form ver.1, October 23, 2014
PART 8 -Vapor Mitigation System -Please fill out the information below.
Is a vapor intrusion mitigation system proposed for this Brownfields Property?
181 Yes D No D Unknown
If yes, provide the date the plan was submitted to the Brownfields Program.
11/28/2016
Attach the plan.
Has the vapor mitigation plan been approved by the NC Brownfields Program?
181 Yes D No D Unknown
Has the vapor mitigation plan been signed and sealed by a North Carolina professional engineer?
181 Yes D No
What are the components of the vapor intrusion mitigation system?
D Sub-slab depressurization system
D Sub-membrane depressurization system
D Block-wall depressurization system
D Drain tile depressurization system
181 Passive mitigation methods
181 Vapor barriers
181 Perforated piping vented to exterior
D Other method: Click here to enter text.
PART 9. CONTINGENCY FOR ENCOUNTERING UNKNOWN TANKS, DRUMS, OR OTHER WASTE
MATERIALS
Please provide a contingency plan in the event unknown tanks, drums, fuel lines, landfills, or other
waste materials are encountered during site activities.
Check the following activities that will be conducted prior to commencing earth-moving activities at
the site:
181 Review of historic maps (Sanborn Maps, facility maps)
0 Conducting geophysical surveys to evaluate the location of suspect UST, fuel lines, utility lines, etc.
D Interviews with employees/former employees/facility managers/neighbors
Notification to State Brownfields Project Manager, UST Section, Fire Department, and/or other
officials, as necessary and appropriate, is required when new potential source(s) of contamination are
discovered. See Notification Section on Page 1 for notification requirements.
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EMP Form ver.1, October 23, 2014
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POST-REDEVELOPMENT REPORTING
In accordance with the site's Brownfield Agreement, provide a report within the designated schedule
to the State Brownfields Project Manager.
l8I Check box to acknowledge consent to provide a redevelopment summary report in compliance
with the site's Brownfields Agreement.
Prospective Developer
Printed Name/Title/Company
Consultant
Printed Name/Title/Company
Brownfields Project Manager
EM P Form ver.1, October 23, 2014
APPROVAL SIGNATURES
Date
Date
Date
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Lockable Magnetic Latch
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2013 1.25 AlLISONorno~lllo..,.,cl.lndd 1 4/3113 4:1.4 PM
!~
t-option A .:1 a in ____ _ option B
• • NOTICE NOTICE
SUBSURFACE WASTE SUBSURFACE WASTE
co;:::;:;; ;;: ~::;;; -~ ~ '.""'
Contact the Property Owner
Regarding Land Use Restrictions
Prior to Disturbing Soil •
Contact the Property Owner
Regarding Land Use Restrictions
Prior to Disturbing Soil •
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S&ME\S&ME Aluminum Signs
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will appear as you see here.
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Contaminant Locations and Concentrations
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.· ----·---------/
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~r CC ~CRETC:/ASPf.11 T :>e: 3RiS f'.LES rron 172,500 r--------Manaanue 117 - -
OOUBL•: OAl:S RO (DAVEQ) --·--·--·--· ----···-··--·· --
I
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'"'" Mln1anese
\
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----··-....
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APPROX. SCALE. It.
AS SHOWN
URS
lfll)J.IOl'M~_1'MI
_,/
~
-PROPERTY LINES
--·-·-SITT: DISPOSAL >R£A Bi.SEO ON son.
BORING INVESTIGATION (MARCH 2012)
-• • • -IN1ERMITTENT STREAM/ORAINAGE
-~-APPROXIMATE EDG£ Of WOODED AREAS
-~·J--OVERHfAO lJllUTY
CJ BUILDING/STRUCTURE
T-1<> LANDFlll. SOL COVER SAMPLE LOCATKlN
NOTES:
I. All RESULTS ARE SHOWN IN MILLIGRAMS PER
KILOGRAM (m9/k9).
2. SAMPtfS CDUfCIUl Al LOCAllONS WHERE SOO. COV£R llilCl<NESS WAS CRfJITER THAN 2 FEET.
Soil Cover Sample
Concenlrolion f.lop
Double Oaks Landfill
NONC00000806
J1829062 FlGURE-5
Client ID: Residential Industrial
Sampline: Date: Health-Based Health-Based
Preliminary Preliminary
Analvtes SRG<n SRG(l)
Semlvolatiles (SW846 8270D
Benzo(a)anthracene 0.15 2.1
Benzo( a )nvrene 0.015 0.21
Benzofh )fluoranthene 0.15 2.1
Indeno(l,2,3-cdrovrene 0.15 2.1
Met.als (SW846 6020A & 7471B)
Arsenic 0.39 1.6
Iron 11000 100000
Mane:anese 360 4600
Mercurv 2.0 3.1
Table 1
Landfill Soil Cover Sample Analytical Results
Double Oaks Landfill, NONCD0000806
Protection of Tl(O..ll T-2 (0-1) T4 T 7'0-1)
Groundwater 3129no12 3/30/2012 3n6no12 3/29/2012
Preliminary
SRG(2)
0.18 DNE 0.426 ND 0.411
0.059 DNE 0.340 ND 0.332
0.60 DNE 0.491 ND 0.345
2.0 ND 0.237 ND 0.216
5.8 ND 2.75 ND 2.85
150 28100 67700 72500 36500
65 982 69.6 117 804
1.0 DNE DNE DNE DNE
T-8 (0-1) T 11 (0-1) T-12 (0-1) T-24 (0..1)
313ono12 3mno12 3/30/2012 3/30/2012
ND DNE ND DNE
ND DNE ND DNE
ND DNE ND DNE
ND DNE ND DNE
ND ND ND ND
30800 54700 26100 33500
896 665 1300 518
DNE DNE 1.1 DNE
I of2
Notes:
Table 1
Landfill Soil Cover Sample Analytical Results
Double Oaks Landfill, NONCD0000806
(1) NC DENR Inactive Hazardous Site Branch Preliminary Health-based Soil Remediation Goal (SRG), as of February 2013
(2) NC DENR Inactive Hazardous Site Branch Protection of Groundwater Preliminary Soil Remediation Goal (SRG}, as ofFebruary 2013
DNE -Does not exceed
mg/kg-milligrams per kilogram
ND-Not detected
SW-846 -Test Methods for Evaluating Solid Waste, Physica.VCbemical Methods (EPA)
All results are reported in milligrams per kilogram (mg/Kg). All results are reported on a dry weight basis.
2of2
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Ma_rc1nese ~_J_491 [ , ..
O' S' 117
Metals
ND
-. .. ...... ....,.,.....-....-'"' / SC-1 \-av....._ -...:::·-·-·-·-·-·J \
/ I ', <rt.I-.. '--
" ~
.LE.GE@
-PROPERlY LINES
-·-·-·-SITT: DISPOSAL NI.EA BASED ON SOIL
BORING llWESTIGAOON (MARCH 2012)
-• • • -INTERl.!nTEl'(f STREAM/DRAINAGE
---ADPROXIMAlE EDGE OF WOODED AA£JS
-OU-OVERHEAD UTIUlY
c::::::J BUll.DINC/STRUCTlJRE
SC-,.
NOTE:
J
ND
[HJ
SOIL CHARACTERIZATION LOCATION
ESTIW.TED VALUE
NOl DETECTED
DETECTED BUT DOES NOT EXCEED 1HE
PRELIMINARY SOIL REMEDIATION GOAl.S
"'jc..:..-z-·-·-·-·-· ........ .,, ... , '· '!--------4.---. ,_
/ , ' ...._ ......... ---------· ----1--~-.:..,,,.....,.---j / ', w-tu-w-w~..,_~
SOIL DEBRIS PILES / /ASPHALT -"2::::"!
1. AU. RESULTS AAE SHOWN IN MWGRAMS PER
KILOGRAM (mq/lrg).
------------------'/ 0.1• s• 117 PILES
1=====;;.._-+:o.=2="-=""t-"":~"-1 - - --- - - - -----
ND
0 100
APPROX. SCALE. ft.
AS SHOWN
OSJUN1 2
DOUBLE OAKS RO (PAVED) IDJU I ---_J_ -__ J --,"·---bis l2·Eth'llht"'11Phthab"' I 9.76 I I0.4791 llo.275n
Mo!ah
URS
~.-.~ ... MN
Arsenic L7S I ND I ND
Clvomfwn 2<.5 1 24 1161 i n ,..., IUJl I ZS.900 I 115.AOO
MJ,_..HI'! 31D I <e I m
Soil Choroe\erizotion
Sample Mop
Double Oaks Landfill
NONC00000605 31:;;;9: I F1G:;_: I ...
Client ID: Residential
Samplinl? Date: Health-Based
Analytes PSRG(t)
Volatiles (SW846 82608)
Acetone 12000
Methyl ethyl ketone 5600
Semivolatiles (SW846 8270D)
Acenaphthene 680
Anthracene 3400
Benzo(a)anthracene 0.15
Benzo(a)pyrene O.oI5
Benzo(b )fluoranthene 0.15
Benzo(g,h,i)perylene NG
Benzo(}c)fluoranthene 1.5
Butyl benzvl phthalate 260
Carbazole NG
Chrvsene 15
Dibenzofuran 16
Di-n-butyl phthalate 1200
bis(2-Ethylhexyl)phthalate 35
Fluoranthene 460
Fluorene 460
Indeno(l,2,3-cd)ovrene 0.15
Phenanthrene NG
Pyrene 340
Table 2
Soil Characterization Sample Analytical Results
Double Oaks Landfill, NONCD0000806
Industrial Protection of SC.1 (0-1) SC-1 (S') SC-1 (10')
Health-Based Groundwater 3/23/2012 3/23/2012 3/23/2012
PSRG(l) PSRG(2)
100000 24 0.139 ND ND
28000 16 0.0319 ND ND
6600 8.4 0.0683 J ND ND
34000 660 0.0912 J ND ND
2.1 0.18 U.ZIY 0.0237 J ND
0.21 0.059 U.186 J ND ND
2.1 0.60 0.264 0.0206 J ND
NG 7800 0.115 J ND ND
21 5.9 0.108 J ND ND
910 150 20.9 1.19 0.485
NG 0.37 0.0497 J ND ND
210 18 0.213 0.0220 J ND
170 5.2 0.0367 J ND ND
12000 19 0.449 ND ND
120 7.2 '};10 0.479 0.275 J
4400 330 0.517 0.0509 J ND
4400 56 0.0464 J ND ND
2.1 2.0 0.126 J ND ND
NG 68 0.432 0.0420 J ND
3400 220 0.357 0.0335 J ND
SC2 (0') SC2 (S') SC2 (10') SC3 (0')
3/28/2012 3/28/2012 3/28/2012 3/27/2012
ND ND ND ND
ND ND ND ND
ND ND ND ND
ND ND ND ND
ND ND ND 0.0544 J
ND ND ND U.U'tlt-' J
ND ND ND 0.0488 J
ND ND ND 0.0341 J
ND ND ND 0.0366 J
ND ND ND ND
ND ND ND ND
ND ND ND 0.0541 J
ND ND ND ND
ND ND ND ND
ND ND ND ND
ND ND ND 0.101 J
ND ND ND ND
ND ND ND 0.0381 J
ND ND ND 0.0749 J
ND ND ND 0.0897 J
I ofS
Client ID: Residential
Sampling Date: Health-Based
Analytes PSRG(l)
Metals (SW846 6020A & 7471B)
Antimony 6.2
Arsenic 0.39
Beryllium 32
Cadmium 14
Chromium 0.29 (3)
Copper 620
Iron 11000
Lead 400
Manganese 360
Mercury 2.0
Nickel 300
Selenium 78
Silver 78
Zinc 4600
Miscellaneous Chemistry
Ammonia as N (EPA 350.1) NG
Nitrate as N (EPA 300.0) 26000
Solids, Percent (SM 2540G) NG
Sulfate as S04 (EPA 300.0) NG
Table 2
Soil Characterization Sample Analytical Results
Double Oaks Landfill, NONCD0000806
Industrial Protection of SC-1 (0-1) SC-1 (5') SC-1 (10'}
Health-Based Groundwater 3/23/2012 3/23/2012 3/23/2012
PSRGm PSRG (2)
82 0.90 ND ND ND
1.6 5.8 1.75 ND ND
400 63 0.597 0.592 0.761
160 3.0 0.169J ND 0.148 J
5.6 (3) 3.8 (3) 24.5 24 168
8200 700 21.7 52.8 41
100000 150 16200 25900 66400
800 270 31.9 4.13 1.6
4600 65 310 449 959
3.1 1.0 0.027 J ND ND
4000 130 12 8.49 76.9
1000 2.1 0.987 J ND ND
1000 3.4 ND ND ND
62000 1200 51.9 52.3 151
NG NG 9.0 2.2 ND
100000 NG 2.6 1.8 1.5
NG NG 86.8 90.9 87.6
NG NG 75.7 77.9 26.5
SC2 (0') SC2 {5') SC2 (10') SC3 {0')
3/28/2012 3/28/2012 3/28/2012 3/27/2012
ND ND ND 0.75 J
ND ND ND ND
0.943 0.952 1.66 1.13
0.302 J 0.293 J 0.329 J 0.79
43.7 18.5 558 42.9
27.9 102 29.5 103
26100 21700 60000 34800
12.8 8.33 1.5 54.l
671 185 827 612
0.022J ND ND 0.058 J
16.2 32.3 421 17.3
ND ND ND ND
0.21 J 0.174 J 0.316 0.291 J
31.2 669 85.5 58.8
39.5 1.9 12.6 50.9
6.2 5.8 1.1 1.7
82.4 91.5 88 83.3
100 J 90.6 J 25.l 37.9
2 of5
Client ID: Residential
Sampline Date: Health-Based
Analytes PSRG(l)
Volatiles (SW846 8260B)
Acetone 12000
Methyl ethyl ketone 5600
Semivolatiles (SW846 8270D)
Acenapbthene 680
Anthracene 3400
Benzo(a)anthracene 0.15
Benzo(a)pyrenc o.oi5
Benzo(b )fluoranthene 0.15
Benzo( 1!.h,i)perylene NG
Benzo(k)fluoranthene 1.5
Butvl benzvl ohthalate 260
Carbazole NG
Chrvsene 15
Dibenzofuran 16
Di-n-butyl pbthalate 1200
bis(2-Ethylhexyl)pbthalate 35
Fluoranthene 460
Fluorene 460
Indeno0 ,2,3-cd)ovrene 0.15
Phenantbrene NG
Pyrene 340
Table2
Soil Characterization Sample Analytical Results
Double Oaks Landfill, NONCD0000806
Industrial Protection of SC3 (S') SC3 (10') SC 4 (0')
Health-Based Groundwater 3/27/2012 3/27/2012 3/26/2012
PSRG(l) PSRGm
100000 24 ND ND ND
28000 16 ND ND ND
6600 8.4 ND ND ND
34000 660 ND ND ND
2.l 0.18 ND ND ND
0.21 0.059 ND ND ND
2.1 0.60 ND ND ND
NG 7800 ND ND ND
21 5.9 ND ND ND
910 150 ND ND ND
NG 0.37 ND ND ND
210 18 ND ND ND
170 5.2 ND ND ND
12000 19 ND ND ND
120 7.2 ND ND ND
4400 330 ND ND ND
4400 56 ND ND ND
2.1 2.0 ND ND ND
NG 68 ND ND ND
3400 220 ND ND ND
SC 4 (S') SC 4 (10')
3/26/2012 3/26/2012
ND ND
ND ND
ND ND
ND ND
ND ND
ND ND
ND ND
ND ND
ND ND
ND ND
ND ND
ND ND
ND ND
ND ND
ND ND
ND ND
ND ND
ND ND
ND ND
ND ND
3 ofS
Client ID: Residential
Samplin2 Date: Health-Based
Analytes PSRG(l)
Metals (SW846 6020A & 7471B)
Antimony 6.2
Arsenic 0.39
Beryllium 32
Cadmium 14
Chromium 0.29 (3)
Copper 620
Iron 11000
Lead 400
Manganese 360
Mercury 2.0
Nickel 300
Selenium 78
Silver 78
Zinc 4600
Miscellaneous Chemistry
Ammonia as N ffiPA 350.1) NG
Nitrate as N (EPA 300.0) 26000
Solids, Percent (SM 2540G) NG
Sulfate as S04 IBP A 300.0) NG
Table 2
Soil Characterization Sample Analytical Results
Double Oaks Landf'ill, NONCD0000806
Industrial Protection of SC3 (5') SC3 (10') SC 4 (0')
Health-Based Groundwater 3/27/2012 3/27/2012 3/26/2012
PSRG (1) PSRG(2)
82 0.90 ND ND ND
l.6 5.8 ND ND 1.24
400 63 1.17 0.948 0.292 J
160 3.0 0.387 J 0.322 J 0.154 J
5.6 (3) 3.8 (3) 14.4. 8.29 24.8
8200 700 62.2 24.5 12.l
100000 150 34700 23000 20500
800 270 11.1 2.19 6.12
4600 65 498 384 135
3.1 1.0 ND 0.061 J 0.031 J
4000 130 8.48 4.24 4.62
1000 2.1 ND ND 0.885 J
1000 3.4 0.254 J 0.188 J ND
62000 1200 49.2 38.5 21.6
NG NG 108 28.5 29.6
100000 NG 1.6 1.8 1.3
NG NG 82.2 76.9 85
NG NG 41.8 103 42.6
SC 4 (5') SC 4 (10')
3/26/2012 3/26/2012
ND ND
1.54 ND
0.42 J 0.4J
0.127 J 0.115 J
20.6 S.74
20.7 23.2
55400 13100
5.92 2.94
114 192
0.052 J ND
5.6 3.96
1.14 J ND
ND ND
14.4 37.4
14.9 3.1
1.5 7.6
74.7 82
69.1 140
4ofS
Notes:
Table 2
Soil Characterization Sample Analytical Results
Double Oaks Landfill, NONCD0000806
(1) NC DENR Inactive Hazardous Site Branch Preliminary Health-based Soil Remediation Goal (PSRG), as of February 2012
(2) NC DENR Inactive Hazardous Site Branch Protection of Groundwater Preliminary Soil Remediation Goal (PSRG), as of February 2012
(3) PSRG for total chromium bas not been established; values provided are for hexavalent chromium PSRGs.
% -Percent
EPA -Enviommental Protection Agency
J -Estimated value
mg/kg-milligrams per kilogram
ND -Not detected
NG -No goal established
SM -Standard Methods for the Examination of Water and Wastewater (APHA-A WW A-WPCF)
SW-846 -Test Methods for Evaluating Solid Waste, PhysicaVChemical Methods (EPA)
This table presents the results for all detected analytes. Except percent solids, all results are reported in milligrams per kilogram (mg/Kg). All solids
results are reported as a percent(%). All results are reported on a dry weight basis.
Bold and outlined results indicate the concentration is greater than the standard.
5 ofS
p
H 1/
,f
/f . f
,·-·-. ~---"---l~ -................
",-~~
i i
' i .............. _.i
..-" \
... -....
I \ I I
I 1
I I I I
I I I Vi I
I 0 I
I ii: I I <n I I I I I
I I I I
I I ' / .... _,,
\
\ \
)\
\
\ t ......... \
\
t \
\
\ 9. ............... \
., 9. .,_ \
\
',\ \
·,.,_ \
'·,_ \
\\ \
i i
i j
i i i i
i i i ;
i ! I I i
~ _..,, -~-~--~· ..... ~;:::_... ....... ft·-·r ·-· ~--,,_... ..... · ...... 1
C j ..-.-.::r·,..,.-· · ·-· -~ I SC-1 aol.-...,. ',·-·-·-·-·-·-·'
f
Man
\
SC-4 \ \/ \ \\ \ \·
9. 1
\ •t \ ;\
/
% : \
' I \ \ : \ \\ \
\
/
\ ·. \
\\ \
\
\
I
"' •·. -I \, --.., __ ''------
,' ', ""-.. ___ .,_:;:_"CU:=:---.
I ' ---1 H~ SOIL DEBRIS PILES
1~-· ' ' ' ·--------------~"' ,1 0-1' S' 10' ES 0 100
0.219 ONE ND .----APPROX. SCALE, fl.
0.264 ONE ND
DOUBLE OAKS RO (PAVED) 9.76 DNE ONE AS SHOWN
1.75 ND ND
16200 25900 66400
310 449 959
Arsenic
Iron
Mlnpnese: URS
~
~
-PROPERTY LINES
-·-·-·-SITE DISPOSAL AREA BASED ON SOIL
BORING INVESTIGATION (MARCH 2012)
-• • • -INTERMITTENT STRfAM/ORAINACE
---N'PROXllMTE EDGE Of' WOODED AA£J.S
-oo-OVERHEAD UTIUlY
c:::J BUlt.DlNG/STRUcntRE
SC-,. SOIL CHARACTERIZATial LOCAroN
ND NOT DITTCTED
ONE DOES NOT EXCEED
NOTE:
1. AU. RESUlTS AAE SHOWN IN llUJGAA\IS PER
KILOGRAM (mq/k9).
Soil Characterization
Sample Concentration Mop
Double Oaks Landfill NONC00000806
Client ID: Residential
Samplin2 Date: Health-Based
Preliminary
SRG(l)
Analytes
Semivolatiles (SW846 8270D
Benzo( a )anthracene 0.15
Benzo{b )fluoranthene 0.15
bis(2-Ethylhexyl)phthalate 35
Metals (SW846 6020A & 7471B)
Arsenic 0.39
Iron 11000
Manganese 360
Nickel 300
Table 2
Soil Characterization Sample Analytical Results
Double Oaks Landfill, NONCD0000806
Industrial Protection of SC-1 <0-1) SC-1 (5') SC-1 (10')
Health-Based Groundwater 3/23/2012 3/23/2012 3/23/2012
Preliminary Preliminary
SRG (1) SRG(2)
2.1 0.18 0.219 DNE ND
2.1 0.60 0.264 DNE ND
120 7.2 9.76 DNE DNE
1.6 5.8 1.75 ND ND
100000 150 16200 25900 66400
4600 65 310 449 959
4000 130 DNE DNE DNE
SC2 (0') SC2 (5') SC2 (10') SC3 (0')
3/28/2012 3/28/2012 3/28/2012 3/27/2012
ND ND ND DNE
ND ND ND DNE
ND ND ND ND
ND ND ND ND
26100 21700 60000 34800
671 185 827 612
DNE DNE 421 DNE
1 of3
Client ID: Residential
Sampline: Date: Health-Based
Preliminary
SRG(1)
Analytes
Semivolatiles (SW846 8270D)
Benzo(a)anthracene 0.15
Benzo(b )fluoranthene 0.15
bis(2-Ethylhexyl)phthalate 35
Metals (SW846 6020A & 7471B)
Arsenic 0.39
Iron 11000
Manganese 360
Nickel 300
Table2
Soil Characterization Sample Analytical Results
Double Oaks Landfill, NONCD0000806
Industrial Protection of SC3 (5') SC3 (10') SC 4 (0')
Health-Based Groundwater 3/27/2012 3/27/2012 3/26/2012
Preliminary Preliminary
SRG(t) SRG (2)
2.1 0.18 ND ND ND
2.1 0.60 ND ND ND
120 7.2 ND ND ND
1.6 5.8 ND ND 1.24
100000 150 34700 23000 20500
4600 65 498 384 135
4000 130 DNE DNE DNE
SC 4 (5') SC 4 (10')
3/26/2012 3/26/2012
ND ND
ND ND
ND ND
1.54 ND
55400 13100
114 192
DNE DNE
2of3
Notes:
Table 2
Soil Characterization Sample Analytical Results
Double Oaks Landfill, NONCD0000806
(1) NC DENR Inactive Hazardous Site Branch Preliminary Health-based Soil Remediation Goal (SRG), as of February 2013
(2) NC DENR Inactive Hazardous Site Branch Protection of Groundwater Preliminary Soil Remediation Goal (SRG), as of February 2013
DNE -Does not exceed
mg/kg-milligrams per kilogram
ND -Not detected
SW-846 -Test Methods for Evaluating Solid Waste, Physical/Chemical Methods (EPA)
All results are reported in milligrams per kilogram (mg/kg). All results are reported on a dry weight basis.
3 of3
'
'. I
S!!!!le tntltf'Vll
, ....
,....
1nthracene
I 1-6
o.u-·
o.m111
52 • I~~-
~· o.ii"'
0.291
~ ~ ~
~ 900
1-. ---· --··-; _ ..... -~ ... ··--·--··-·-
'
\,
\ ' I ' \ \
Motl!J I ND
4.W I NO
.!!:LL!!.!!.. °'" I 7.06 _11,100
~ MD 119
--·-... ··-......
DOL'Rl!: 0.tKS RC1 (PAVEC) --·-.. ·-----· -------· -·-. ··-..
? ·-
/
/
''I. ; \ I • :\
_/~
r' r:~
~
J.ill!ll2
-PROPERTY UNES
--·-·-SITE DISPOSAL AREA BASED Oii SOIL ~C INVESTICATION {MARCH 2012)
-• • • -INTERMITIDIT STREAM/OR.61NACE
~~ APPROXIMATE EDCE OF WOODED AREAS
-' ' -OVERHEAD UTILITY
D 6UllDJNC/STRUClURE
WASTE CHARACTERIZATION LOCATION
ESTIMATED VALUE
I \
WC-I•
J
NO
(I]
NOT oat:CTED
DETECTED BUT DOES HOT EXCEED THE
PREllMIWIRY SOIL REMEDIATION GOALS
••.;.t'"--::-::
... -···--__ ,_
--
\ .. \
\
\ '
0 100
APPROX. SCl<lE, rt .
AS SHOWN
URS
.... _._ o.J• __ ,,..
NOTE:
I. M.l RESULlS ARE SHOWN IN MIUJGRAMS PER
KILOGRAM (mg/la}).
I011A'Ml"tl'1'
TSH .......... cs _ ..
MN
Client ID: Residential
Sampling Date: Health-
Analytes BasedPSRG
Volatiles (SW846 8260B)
Acct.one 12000
Isopropylbeozene 270
Methyl ethyl ketone 5600
Semivolatiles (SW846 8270D)
Acenaphtbene 680
Acenauhtbylene NG
Antbracene 3400
Benzo(a)antbracene 0.15
Benzo(a)pyrene 0.015
Benzo(b )fluorantbene 0.15
Benzo(g,h,i)perylene NG
Benzo{k)fluorantbene 1.5
Carbazole NG
Chrysene 15
Dibenzo(a,h)anthracene O.D15
Dibenzofuran 16
Di-n-butyl phthalate 1200
Fluoranthene 460
Fluorene 460
Indeno( 1,2,3-cd)pyrene 0.15
2-Methylnapbthalene 62
3&4-Methylphenol 62
Naphthalene 3.6
N-Nitrosodiphenylamine 99
Pbenanthrene NG
Pyrene 340
Table 1
Waste Characterization Sample Analytical Results
Double Oaks Landfill, NONCD0000806
Industrial Protection of WC 1 (4-9) COMP WC 1 (9-11)
Health-Based Groundwater 3/26/2012 3/26/2012
PSRG<n PSRG(2)
100000 24 ND ND
270 1.3 0.0015 J ND
28000 16 ND ND
6600 8.4 ND ND
NG 21 ND ND
34000 660 ND ND
2.1 0.18 0.0430 J ND
0.21 0.059 U.U4U5 J ND
2.1 0.60 0.0451 J ND
NG 7800 ND
21 5.9 0.0326 J ND
NG 0.37 ND ND
210 18 0.0556 J ND
0.21 0.19 ND ND
170 5.2 ND ND
12000 19 ND ND
4400 330 0.0598 J ND
4400 56 ND ND
2.1 2.0 ND ND
370 1.6 0.0782 J ND
620 0.40 ND ND
18 0.21 0.0614 J ND
350 NG 0.149 J ND
NG 68 0.0437 J ND
3400 220 0.0597 J ND
WC-2 (1-6) COMP WC-2 (8-10) WC3 COMP (4-11)
3/23/2012 3/23/2012 3/28/2012
ND ND 0.0355 J
ND ND 0.0199
ND ND ND
0.0839 J ND ND
ND ND ND
0.116 J ND ND
0.142 J ND ND
0.110 J ND ND
0.100 J ND ND
0.0633 J ND ND
0.0964 J ND ND
ND ND ND
0.153 J ND ND
0.ULU J ND ND
0.0500 J ND ND
ND ND 0.814 J
0.403 ND ND
0.0892 J ND 0.329 J
0.0597 J ND ND
ND ND 0.210 J
ND ND ND
0.0384 J ND ND
ND ND ND
0.1741 ND 0.186 J
0.346 ND ND
I of7
Client ID: Residential
Sampling Date: Health-
Analytes BasedPSRG
Metals (SW846 6020A & 74718)
Antimony 6.2
Arsenic 0.39
Berylliwn 32
Cadmiwn 14
Chromium 0.29 (3)
Copper 620
Iron 11000
Lead 400
Manganese 360
Mercury 2.0
Nickel 300
Selenium 78
Silver 78
Zinc 4600
Miscellaneous Chemistry
Ammonia as N ffiPA 350.1) NG
Nitrate as N (EPA 300.0) 26000
Solids, Percent (SM 2540G) NG
Sulfate as S04 ffiPA 300.0) NG
Table 1
Waste Characterization Sample Analytical Results
Double Oaks Landfill, NONCD0000806
Industrial Protection of WC 1 (4-9) COMP WC 1 (9-11)
Health-Based Groundwater 3/26/2012 3/26/2012
PSRG (1) PSRG(2)
82 0.90 2.42 ND
1.6 5.8 11.2 ND
400 63 0.634 J 0.514J
160 3.0 1.84 0.168 J
5.6 (3) 3.8 (3) 64.3 7.04
8200 700 133 37.3
100000 150 107000 22100
800 270 388 7.57
4600 65 840 339
3.1 1.0 0.65 0.021 J
4000 130 44.7 6.12
1000 2.1 1.06 J ND
1000 3.4 2.41 ND
62000 1200 516 38.5
NG NG 134 112
100000 NG 2.2 2.0
NG NG 59.2 83.3
NG NG 164 32.8
WC-2 (1-6) COMP WC-2 (8-10) WC3 COMP (4-11)
3/23/2012 3/23/2012 3/28/2012
ND ND 1.54J
ND ND 3.24
0.787 0.499 J 1.36
0.0993 J 0.122 J 3.43
61.7 13.3 39.3
70.4 92.3 59.6
44200 45300 63800
12.7 1.84 175
487 1070 593
0.045 J ND 0.38
29.3 24.9 21.7
1.33 J ND ND
ND ND 0.449
66.7 73.6 398
40.7 1050 149
3.3 1.9 7.8
78.7 89.2 71.7
63.0 21.1 J 198
2of7
Client ID: Residential
Sampling Date: Health-
Analytes BasedPSRG
Volatiles (SW846 8260B)
Acetone 12000
Isooroovlbenzenc 270
Methyl ethyl ketone 5600
Semivolatiles (SW846 8270D)
Acenaohthene 680
Acenaphthvlene NG
Anthracene 3400
Benzo( a )anthracenc 0.15
Benzo( a)pyrene 0.015
Benzo(b )fluoranthene 0.15
Benzo( £,b,i)perylene NG
Benzo(k)fluoranthene 1.5
Carbazole NG
Chrysene 15
Dibenzo(a,h)anthracene O.Dl5
Dibenzofuran 16
Di-n-butvl ohthalate 1200
Fluoranthene 460
Fluorene 460
Indeno(l ,2,3-cd)pyrene 0.15
2-Methylnaphtbalene 62
3&4-Methylphenol 62
Naphthalene 3.6
N-Nitrosodiphenylamine 99
Phenanthrene NG
Pyrene 340
Table 1
Waste Characterization Sample Analytical Results
Double Oaks Landfill, NONCD0000806
Industrial Protection of WC3(11-12) WC4 COMP (3-7)
Health-Based Groundwater 3/28/2012 3/29/2012
PSRGm PSRG(2\
100000 24 0.0217 J 0.0292 J
270 1.3 ND ND
28000 16 ND ND
6600 8.4 ND ND
NG 21 ND ND
34000 660 ND ND
2.1 0.18 ND ND
0.21 0.059 ND ND
2.1 0.60 ND ND
NG 7800 ND ND
21 5.9 ND ND
NG 0.37 ND ND
210 18 ND ND
0.21 0.19 ND ND
170 5.2 ND ND
12000 19 ND ND
4400 330 ND ND
4400 56 ND ND
2.1 2.0 ND ND
370 1.6 ND ND
620 0.40 ND ND
18 0.21 ND ND
350 NG ND ND
NG 68 ND ND
3400 220 ND ND
WCDUP-1 WC4 (7-8) WCS COMP (1-8)
3/29/2012 3/29/2012 3/29/2012
Dnp (4)
0.200 0.0588 0.0423 J
ND ND ND
0.0332 0.0081 J 0.0079 J
ND ND ND
0.360 ND 0.0223 J
0.169 J ND 0.0678 J
0.-'lJlJ ND 0.138 J
O.SLU ND 0.133 J
0.717 ND 0.148 J
0.359 ND 0.0933 J
0.361 ND 0.0936 J
0.0252 J ND 0.0283 J
0.541 ND 0.142 J
o.o~nn J ND ND
ND ND ND
ND ND ND
0.385 ND 0.302
ND ND 0.0310 J
U.394 ND 0.0983 J
0.0298 J ND ND
ND ND ND
ND ND ND
ND ND ND
0.147 J ND 0.230
0.427 ND 0.220
3 of7
Client ID: Residential
SamplinJt Date: Health-
Analytes BasedPSRG
Metals (SW846 6020A & 7471B)
Antimony 6.2
Arsenic 0.39
Beryllium 32
Cadmium 14
Chromium 0.29 (3)
Copper 620
Iron 11000
Lead 400
Manganese 360
Mercurv 2.0
Nickel 300
Selenium 78
Silver 78
Zinc 4600
Miscellaneous Chemistry
Ammonia as N (EPA 350.l) NG
Nitrate as N <EPA 300.0) 26000
Solids, Percent (SM 2540G) NG
Sulfate as $04 (EPA 300.0) NG
Table 1
Waste Characterization Sample Analytical Results
Double Oaks Landfill, NONCD0000806
Industrial Protection of WC3 (11-12) WC4 COMP (3-7)
Health-Based Groundwater 3/28/2012 3/29/2012
PSRG(l) PSRG(2)
82 0.90 2.25 ND
1.6 5.8 ND ND
400 63 1.17 0.799 J
160 3.0 0.351 J ND
5.6 (3) 3.8 (3) 15.5 18.6
8200 700 24.l 43.5
100000 150 30800 31600
800 270 13.6 9.46
4600 65 406 297
3.1 1.0 0.023 J 0.056 J
4000 130 8.31 10.1
1000 2.1 ND ND
1000 3.4 0.228 J ND
62000 1200 93.6 526
NG NG 59.0 170
100000 NG 6.0J 1.5
NG NG 78.l 68.3
NG NG 87.7 J ND
WCDUP-1 WC4 (7-8) WC5 COMP (1-8)
3/29/2012 3/29/2012 3/29/2012
Dop (4)
ND ND ND
3.3 ND ND
0.671 J 0.533 J 1.03 J
0.856 J ND ND
16.3 21.3 45.7
43.2 16.3 46.9
53600 34700 37400
48.7 10 36.5
414 1790 284
0.78 0.036 J 0.17
17.6 8.15 16.4
ND ND ND
ND ND ND
163 50.l 41
144 196 333
1.9 1.2 17.4
77.7 83.3 80.7
ND ND 233
4of7
Client ID: Residential
Sampling Date: Health-
Analytes BasedPSRG
Volatiles (SW846 8260B)
Acetone 12000
Isopropylbenzene 270
Methyl ethyl ketone 5600
Semivolatiles (SW846 8270D)
Acenaphthene 680
Acenanhthylene NG
Antbracene 3400
Benzo( a)anthracene 0.15
Benzo( a)pyrene o.oi5
Benzo(b )fluoranthene 0.15
Benzo( 2.h,i)perylene NG
Benzo<k)fluoranthene 1.5
Carbazole NG
Chrysene 15
Dibenzo( a,h )anthracene o.oi5
Dibenzofuran 16
Di-n-butyl phthalate 1200
Fluoranthene 460
Fluorene 460
Indeno( 1,2,3-cd)pyrene 0.15
2-Methylnaphthalene 62
3&4-Methylphenol 62
Naohthalene 3.6
N-Nitrosodiphenvlamine 99
Phenanthrenc NG
Pyrene 340
Table 1
Waste Characterization Sample Analytical Results
Double Oaks Landfill, NONCD0000806
Industrial Protection of WCDUP-2 WCS(8-9)
Health-Based Groundwater 3/29/2012 3/29/2012
PSRG(l) PSRG(2) Dup (5)
100000 24 0.0349 J ND
270 1.3 ND ND
28000 16 ND ND
6600 8.4 0.0763 J ND
NG 21 0.0467 J ND
34000 660 0.161 J ND
2.1 0.18 0.LYtl ND
0.21 0.059 0.LYl ND
2.1 0.60 O.jUL ND
NG 7800 0.197 J ND
21 5.9 0.240 ND
NG 0.37 0.0891 J ND
210 18 0.303 ND
0.21 0.19 0.Uj71 J ND
170 5.2 0.0492 J ND
12000 19 ND ND
4400 330 0.730 ND
4400 56 0.0904 J ND
2.1 2.0 0.214 ND
370 1.6 0.0420 J ND
620 0.40 0.0408 J ND
18 0.21 0.0825 J ND
350 NG ND ND
NG 68 0.557 ND
3400 220 0.471 ND
S of?
Client ID: Residential
Sampline: Date: Health-
Analytes BasedPSRG
Metals (SW846 6020A & 7471Bl
Antimony 6.2
Arsenic 0.39
Beryllium 32
Cadmium 14
Chromium 0.29 (3)
Copper 620
Iron 11000
Lead 400
Manganese 360
Mercurv 2.0
Nickel 300
Selenium 78
Silver 78
Zinc 4600
Miscellaneous Chemistry
Ammonia as N (EPA 350.1) NG
Nitrate as N ffiPA 300.0) 26000
Solids, Percent (SM 2540G) NG
Sulfate as S04 ffiP A 300.0) NG
Table 1
Waste Characterization Sample Analytical Results
Double Oaks Landfill, NONCD0000806
Industrial Protection of WCDUP-2 wcs <8-9)
Health-Based Groundwater 3/29/2012 3/29/2012
PSRG<n PSRG(2) Duo (5)
82 0.90 ND ND
1.6 5.8 ND ND
400 63 0.815 J 0.772J
160 3.0 0.457 J ND
5.6 (3) 3.8 (3) 61.1 28.8
8200 700 72.4 45.2
100000 150 43900 36500
800 270 67.9 5.49
4600 65 415 327
3.1 1.0 0.39 0.018 J
4000 130 25.7 15.8
1000 2.1 ND ND
1000 3.4 ND ND
62000 1200 106 38.9
NG NG 155 44.0
100000 NG 22.4 28.1
NG NG 82 89.7
NG NG 254 ND
6 of7
Table 1
Waste Characterization Sample Analytical Results
Double Oaks Landfill, NONCD0000806
Notes:
(1) NC DENR Inactive Hazardous Site Branch Preliminary Health-based Soil Remediation Goal (PSRG), as of February 2012
(2) NC DENR Inactive Hazardous Site Branch Protection of Groundwater Preliminary Soil Remediation Goal (PSRG), as of February 2012
(3) PSRG for total chromium has not been established; values provided are for hexavalent chromium PSRGs.
( 4) Field Duplicate of sample WC4 COMP (3-7)
(5) Field Duplicate of sample WC5 COMP (1-8)
%-Percent
EPA -Enviommental Protection Agency
J -Estimated value
mg/kg-milligrams per kilogram
ND -Not detected
NG -No goal established
SM -Standard Methods for the Examination of Water and Wastewater (APHA-A WW A-WPCF)
SW-846 -Test Methods for Evaluating Solid Waste, PhysicaVChemical Methods (EPA)
This table presents the results for all detected analytes. Except percent solids, all results are reported in milligrams per kilogram (mg/Kg). All solids
results are reported as a percent(%). All results are reported on a dry weight basis.
Bold and outlined results indicate the concentration is greater than the standard.
7 of7
\ . \ \ . ;;: j --\ I \ '-' \. \
) ~
'\ { . \ '\..,
~~ .. ...-. ... '"':'.-....r-....
\
\
.,;;-v-v:-~.,,~ ~ ,
--
WC-3 COMPOSITE \.,;"\
Sample lnt•rvol ll·U' \
\ . \ " IMetJls I.. I I 2.25 I·-·-. (---..... .. /--,..J \ ........... ....,, " I '·........ -.r-~ ' \ .'> ND I ·, ,./--...:....1 ....__-~--"'-~./-\ ' " I
I I . ,/ ' • ' .. 3°:~ I 'v f .... ,. \ 1·. '\
406 Ii ;f\.,. ___ / '·,·,·,.,_ -:.\ \ /
/
I '\. \ \ ~ /
W ,) WC·4 COMPOSITE . /
) I ) ,, -, Sam elnt•rval 1 •
/ I < :' \I ::· :I (;
1' : \ , Min nose I
' (.. / I ~ " \ : ff
WC·SCOMPOSITE " / :,, 1 \ t l j (
5otn tint!,,,., 1.J' 11-9' I 0 i ! \(! /
Metal• j / <P / I • \~,_.;
Iron 37400 36500 I <l' I i \ , I
Man nose 28' 327 C-5; I i '\ (
'> ~ i J ,' \ \ :\ ~ Ii r 1 / i \ \ ' '> f , .. / , __ / i -·,
\ / _;-r--...._,._. ( \ :
\/i .J ! \I V ~ ) we-} \ :
\
\
\ ~ ! ( ! .\ ! '; ; ! \ .
\ '.,., I /I c-••
WC-2 COMPOSITE j \_ \
\
Sam • ln~rv.. 1·6' •
Mttlls 4-'1 !1-11' ·-·-·-·-·J
Iron 41200 -Manganese 487 <170 2•i NO -- -... -.....
• _.>. 51)11_ OEaR•S ?ILES ll.2 ND ....... _~·-··==-<;:..::
\ \\
.. _._.._-=::. .l~~I
t \
'.
,/
I
,.. __,.
,..,;-_,..
\. !ton 101000 22100 C•)Nt:RE'IE/\SP'1A T
--··-··---------------lead 388 ONE '.>Et'R1
:; F'·•.ES 0 100
Min nose 840 339 --... _ ,,... I
Jr
~
-PROPERTY LINES
-·-·-·-SITT: DISPOSAL ARfA BASED Oii SOIL
BORING INVESTIGATION {MARCH 2012)
-• · • -INTERMITTENT STREAM/DRAJNAGE
-~~ APPROXIMATE EOCE Of WOODED AREAS
-ou-OVERHtAO IJTIU1Y
CJ
WC-f•
NO
ONE
N01£:
BUILDING/STRUCTURE
WASTE CHARACTERIZATION LOCATION
NOT DETECTED
DOES NOT EXCITO
I. .Alt RESULTS ARE SHOWN IN MUIGRAMS PER
KILOGRAM (mg/kg) .
r-------------------------~:-:------------------~-~-=-~-~-~-~-~-~·-~----APPROX. SCALE. 11.
-.. _ -, ___ . ··---UC:JBL;: l)AK~ RO (c vtC) r;...,;;;:;----:-A-:-S-S_H_O_W_N-----,=;;;.--rcor--..---.,,,.,--,-...,..,..-------1 ------·-·--·------·-------·--------: -URS
~~M1'..o MN
Client ID: Residential
Sampline: Date: Health-Based
Preliminary
SRG (1)
Analytes
Metals (SW846 6020A & 7471B)
Antimony 6.2
Arsenic 0.39
Cadmium 14
Iron 11000
Lead 400
Manganese 360
Table3
Waste Characterization Sample Analytical Results
Double Oaks Landfill, NONCD0000806
Industrial Protection of WC 1 (4-9) COMP WC 1 (9-11)
Health-Based Groundwater 3/26/2012 3/26/2012
Preliminary Preliminary
SRG(l) SRG(2)
82 0.90 2.42 ND
1.6 5.8 11.2 ND
160 3.0 DNE DNE
100000 150 107000 22100
800 270 388 DNE
4600 65 840 339
WC-2 (1--6) COMP WC-2 (8-10) WC3 COMP (4-11)
3/23/2012 3/23/2012 3/28/2012
ND ND DNE
ND ND 3.24
DNE DNE 3.43
44200 45300 63800
DNE DNE DNE
487 1070 593
1 of3
Client ID: Residential
Sampling Date: Health-Based
Preliminary
SRG(l)
Aoalytes
Metals (SW846 6020A & 7471B)
Antimony 6.2
Arsenic 0.39
Cadmium 14
Iron 11000
Lead 400
Manganese 360
Table3
Waste Characterization Sample Analytical Results
Double Oaks Landfill, NONCD0000806
Industrial Protection of WC3 (11-12) WC4 COMP (3-7)
Health-Based Groundwater 3/28/2012 3/29/2012
Preliminary Preliminary
SRG (1) SRG(2)
82 0.90 2.25 ND
1.6 5.8 ND ND
160 3.0 DNE ND
100000 150 30800 31600
800 270 DNE DNE
4600 65 406 297
WC4 (7-8) WCS COMP (1-8) wcs (8-9)
3/29/2012 3/29/2012 3/29/2012
ND ND ND
ND ND ND
ND ND ND
34700 37400 36500
DNE DNE DNE
1790 284 327
2of3
Notes:
Table 3
Waste Characterization Sample Analytical Results
Double Oaks Landfill, NONCD0000806
(1) NC DENR Inactive Ha.7..ardous Site Branch Preliminary Health-based Soil Remediation Goal (SRG), as of February 2013
(2) NC DENR Inactive Hazardous Site Branch Protection of Groundwater Preliminary Soil Remediation Goal (SRG), as of February 2013
DNE -Does not exceed
mg/kg-milligrams per kilogram
ND -Not detected
SW-846-Test Methods for Evaluating Solid Waste, Physical/Chemical Methods (EPA)
All results are reported in milligrams per kilogram (mg/kg). All results are reported on a dry weight basis.
3 of3
·---L---f ! \..._ / ---.1-.. .....___
'\ \
·-, . 1' ... )' \ . / 1\ \ /
--·-·-·-·-,.-·-...... \.\ \ / ASB-9 ............ i ....... , ./'..r-"'.)\ • 0.507.CHRYS~~~ \ \
/.
! ............ 'I. \
! ·,, \ \
\ ! '·, ~,
~
~
SB-10 ND
I ., I . Q
/ ·-·-· '·, i \
07512302 ''·,., \ \ : . \ ' . I /-, ' ('t • / (
.,\~.· /
/ \ ·,·,. \ ' I
'i' /• ) ! j \\ \J
: I i \ ) / f:l I i \ o'
I I ;/.LARGE ROCK I Ii f ! '\ t I ' STCCKPILS:: I Q) I I G ,. I I I I I • • '.\
I 8 I I I \ \ ·.,
I j • I I I \ 'I. \~
I I I .) : I \ \ 'l. I f I , .' · i \
ASB-1Jo_ASB-'M ' ,,_,,_,._;-' ,_,-) I · •
0.24• CHR)'S()TI"7f<I t:£-l2 i \ '· \ ASB-,f+ilj j I \ " \
<0.257. CHRYSOTil!f: I f \ I I V QASB-I i .\ ASS.-1S~ ND i \ ' '!'0 A$;,'8 OAJg-20 / \ \ \
AStil-1 ___ ND'Q _r · ASB-22 / i . ~
'I' -~-·-·-·-·--·-· -~-·='!":~.~~ ; I \\ \QASB-.J/' .. _,, __ ,,. ,;SB-19 ~"'-,,·:::·~l,SB-23 '"?·--------i~-
\ ND\ I I l\ID ' --... .... .... "NO"·-·-·-·./ '·<»·~· I ',, ....._, -----ASB-17 ' SOI .. CEBRIS p;LES / ', """-,.._ -----NS '-" ' .,_..,_..,-::..::..,~-
--------------------/ \ CONi:P.ETE/ASPHALT 07512301 ' DEBRIS PILES , ____________ _ 0 100
APPROX. SCALE, ft .
..... DOUBU=:: OAl<S RD (PAVE!)) AS SHOWN -------·-· ---·--------------· ----·----.,
I URS ----
~
---PROPERTY LINES
-·-·-·-SITT'. DISPOSAL Af/.fA BASED ON SOIL
BORING INVESTIGATION (MARCH 2012)
-• · • -INTERMITTOO STRfAM/DRAINAC(
-~~ APPROXll.IATE EDGE OF WOODED AREAS
-oo-OVERHEAD UTIUTY
CJ BUILDING/STRUCTURE
Q
ND
NS
ASBESTOS SOIL BORING LOCATION
NOT DETECTED
N<>T SAMPW>
PERCOOAGE BASED ON lASORATORY VISUAL ESTIMATION
Table 1
Asbestos Analytical Results
Double Oaks Landfill, NONCD0000806
Client Sample ID:
ASB-9 (2-3)
ASB-10 (5-9)
ASB-11 (4-6)
ASB-12 (3.5-4)
ASB-13A (3.5-4.5)
ASB-13A (4.5-5.5)
ASB-14 (3.5-4)
ASB-14 (6-6.75)
ASB-15 (2-3)
DUP
ASB-16 (2.5-3)
ASB-18 (3.5-5)
ASB-19 (3-3.5)
ASB-19 (6-8)
ASB-20 (2-3)
ASB-20 (5-7)
ASB-21 (3-4)
ASB-22 (4-4.5)
ASB-23 (3-4)
Notes:
DUP -collected at ASB-15 location
ID -identification
ND -not detected
%-percent
(#) -notes depth of sample collection
Sampling Date:
6/18/2013
6/18/2013
6/18/2013
6/18/2013
6/18/2013
6118/2013
6/18/2013
6/18/2013
6/18/2013
6/18/2013
6/18/2013
6/18/2013
6/18/2013
6/18/2013
6/18/2013
6/18/2013
6/18/2013
6/18/2013
6/18/2013
Asbestos Results
(CARB435)
0.50% CHRYSOTILE
ND
ND
ND
ND
0.24% CHRYSOTILE
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
ND
Legend: -+ -Approximate Location Of Asbestos Sample Collected By
Geoscience
O -Approximate Location Of Asbestos Sample reported By URS
~ "'
I I
Footprint Of Soil Debris
Pile Reported By URS
·-------------i
E)
-----
-+
ASB-102
/
/
I
/
I
I
I
®
0
I I
I I
I I
/
OASB-4
OASB-20
-+
ASB-103
0
0
OASB-5
' ' '
....
'
'
~SB-6
---• SB-105 ASB-106
~
0 ® .... ---
I
I
I
I
f----··---
/
\
\
\
\
-------
r
I I
I I
I I
I I
·-· I I
~]-----· --
--=-==~. ---------
GEOSCIENCE GROUP, INC.
CHARLOTIE, NORTH CAROLINA
SCALE: NTS APPROVED BY: DRAWN LandDesign:
DATE: April 18,2016 REVISED: TCH
BRIGHTW ALK PHASE 8
CHARLOTTE, NORTH CAROLINA
ASBESTOS SAMPLE LOCATION
DIAGRAM
FIGURE NUMBER:
CHlS.014-1
Revision
Date:
Boring ID
ASB-101
ASB-102
ASB-103
ASB-104
ASB-105
ASB-106
ASB-107
ASB-108
ASB-109
Table 1: Summary of Soil Sampling Results
April 18, 2016 Site Name: Double Oaks -Brightwalk Phase 8
Sample ID Sample Date Asbestos Concentration Depth Collected
15 5' 3/30/2016 None Detected
A2. 0.5' 4/8/2016 None Detected
13 3' 3/30/2016 None Detected
A3 0.5' 4/8/2016 None Detected
11 3' 3/30/2016 None Detected
A4 0.5' 4/8/2016 None Detected
9 3' 3/30/2016 None Detected
AS 0.5' 4/8/2016 None Detected
7 3' 3/30/2016 None Detected
A6 0.5' 4/8/2016 None Detected
5 5' 3/30/2016 None Detected
3 3' 3/30/2016 None Detected
2 4' 3/30/2016 None Detected
A1 0.5' 4/8/2016 None Detected
\
\
0.515 \
/·-·-. .... i ............ . ,~-........ .
ir--t\ '-..... TMW-6
J
;
i
\ i ., i
.............. '\
., <i ..... \ _.../ ..... __ .
.... -...
I \
I I I I
I \
I I I I I "> I
I 0 I f Q: I f Q) I I I
I I
'· \ '·,·,.,_ \ /
'·, \
\\\/ '~!
\ ~TMW-7 \ ii
I \ t · i t \,· . \
I I I I I I \. / .._ __
I \ . i :i
\ \ I' . \ : \ ! . t ' i
1.03
4.SlB
i i i I
lMW·1
Metals
Iron OA21
Mln11Mse 0.1428
_, .,.-\ ~ _.,. ie-:-.:: ... ~... ---· ... I O:::c., ,. ·-·-.._·-· -~~. ·-·r·-·~~~ .......... ,.,.... ...... ...., 4~'1-........_ "' 1 TMW-2 \-"' '-. ·-·-·-·-·-·J
/fu-1 \\
1· --.....o--~ I \ -....,-... .... __
• I ', ~"" -------\ \ / // ', -...._..,_o.i__:-.::..::.~~--\._.~/ SOIL DEBRIS PILES / \ CONCRETE/ASPHALT --
\._ ,. '-, DEBRIS PILES ------------lMW·2 ... ________________ _
Met.ls
Iron 1.17
\
\ \
() 100
APPROX. SCALE. 11.
~
WlftlJ2
-PROPERTY LINES
-·-·-·-SITE DISPOSAL Afl.rA BASED ON SOIL
BORING ltM:SOCATION {IW!CH 2012)
-• • • -1Nl£RMITTOO STRfAl4/DRAlHAGE
~ APPROXIMATE EDGE Of WOOOEO AREAS
-cu-OVERHOO UTIUlY
c:J BUll.Dlt«:/STRUCTURE
n.1w-f•
e
NOTE:
TEMPORARY MONITORING WELL
CONCOITRATION W>S GREATER~ THE
0£TECTION UMIT BUT LESS 1liAN THE
REPORTING LIMIT
1. All RESULTS ARE SHOWN IN MIWGRMIS PER
LITER (mg/\.).
2.. RESULTS usrro ARE IN EXCEEOANCE or NC 2l
STANDARDS.
DOUBLE OAKS RD (PAVED)
Manpn•n I 0.46118 I_, AS SHOWN I I I Groundwater Concentration Mop
"'., w "" Double Oaks Landfill URS NONC00000806
~-~--~~
I
I
I
I
I
{
{
I
., ., .,
'\. ·, .,
-----~ ·,_ ----...,,., ,,,-,
f!Jf> I \
/ : l
/ I 1
/ / I /-~
/ I f2 f / ~ I
I () I / ~ it / :'\() / I (lj I ~ /
I / / : '/ ~""" I // /
----
:\ \\
I/
\ .. _~'/' /
/ I
/ I
. t
I / ~-r, I / I ~~~ <t!r-::.°'-::_~--1---~, ..... ,/ I J "'~--7"-T -...;~ .. ' 'y,-·-·-·1-·-·-· -.... "'""·-·=-·=-·-~·-:::-::=.-:;::;;o:aso-'"'~·· ~ I I ' .,_,, '-z:.
.. .,.::_,. "' 1ThlW-2.6/ ', ........ ---------°' -;r~.......__-/ 671.91 1-, "" _..,_.,_,.._•---......---
; , ', CONCRETE/ASPHALT • '/ SOIL DEBRIS PILES / \ DEBRIS PILES ' )t / ' -· ~--------------------' '-----------------
....,
\
\
\
\
0 100
APPROX. SCA!.E, fl.
AS SHOWN
URS
~
~
-PROPERTY LINES
-·-·-·-SITE otSPOSM. AREA BASED ON SOIL
BORING IN'vt:SflGATION (MARCH 2012)
-.. • -INTERMITIENT STREAM/DRAINAGE
---APPROXl'-141£ EDGE Of' WOOOED AREAS
-cu-OVERHE:All UTIUTY
BUU»lG/STRUCTVRE
TMW-f • TEMPORARY lo10NITOR!NC WElL
670.15 GROUNDWATER El£VATION
(fl ~ve MSL) .... -......
.---CROUNOWAJER CONTOUR
GROUNDWATER ftOW DIRECTION
Groundwater Contour-Mop,
Morch 2012
Double Oaks Landfill
NONCOOOOOBOB
Client ID:
Sampled Date:
Analyte NC2L
Metals (SW846 7470A & EPA 200.8)
Iron 0.300
Manganese 0.050
Notes:
Table4
Groundwater Sample Analytical Results
Double Oaks Landfill, NONCD0000806
TMW-1 TMW-2 TMW-3
3/29/2012 3/29/2012 3/29/2012
0.421 1.17 1.03
0.142 B 0.468 B 4.51 B
NC 2L-15A NCAC 02L .0202, effective January l, 2010
mg/L -Milligrams per liter
TMW-5 TMW-6 TMW-7
3/29/2012 3/29/2012 3/29/2012
35.3 0.515 DNE
6.09B 1.05 B 0.496 B
B-Analyte was found in the associated blank as well as in the sample. Data is not affected by elevated level in blank since sample result is greater than 5
times the level found in the blank.
EPA -Environmental Protection Agency
SW-846 -Test Methods for Evaluating Solid Waste, Physical/Chemical Methods (EPA)
All results are reported in milligrams per liter (mg/L).
1of1
! I i
I ~
,.-·-·--.... LG-7 .......... 0 .,
\
1·-·-. i .................
,~·
j
i
i
·-·-/
,,-,
I I
I I
I I
I I
I I I I I Cl> I
I 0 I 1 G-I I Q) I I I
\ \
,\ i
i \ \ \
"' \
. \ \
'·-....... cLG-8 \ \
....... , i t. ·,. \ \ '·, . \ ., \ ~
\\ \ \
·,·,. \ \ I ', \ \ .
I
LG-13 c
\\ \ l ' ~ \ .1 ! ~LG-9 \ I:
! \ \
( 'i\ \: ~ ,1
\
\
I
/
/
LG-5J !J J/
LG-1•o I I
I I
I I I I
' I
I 'i \ \ \ \
/ \ \ \ J . ! /1 . f a LG-11
... _,,
i \ 1· ,_ i \ . \
I ' : \ ! \ \ 'i
::J.
--/ \ \ ""'==-St;:a~~s-:=:::::;:::-::;-::;~..&. , , " \ / ·. ,_ ,-=: ~~.:.~4·-·-· ·---:;..?~--==-~r--::.."t_._ ~'oLc-1 \.\ \ . .. ,,;:~""' ...:.:::·---~·-.. I ' / ' : ";--. ',>-----. ' \ . \ I I LC 20 ' ........... ... ·-·-·-·J
' >." I -' . ..._ '-
._. ' SOIL DEBRIS PILES / ', ............ .:::_-------
\
'"-----/I ', ,._..,_.,_-;.,-:.:::..,=-........._
--------------" \ CONCRETE/ASPHALT '!:-::"! ' DEBRIS PILES ..... _________ _ 0 100
-----APPROX. SCALE, ft.
DOUBLE OAKS RD (PAVED) AS SHOWN
URS
~
LEGEND
-PROPERIY LINES
--·-·-SITE ClSPOSM. AA£A BASED OH SOIL
BORlNG INVEsmAllON (M.IRCH 2012)
-• • • -IMrERMITTENT STREMI/DRAINAGE
~--APPROXIMATE EDGE OF WOOIJEO AR£AS
-ou-OVERHEAD lJTIUTY
D BUl.ClNG/STRUCTURE
LG-fo IANDFIU GAS PROBE
Sampling Date
Locatlo11 Sampled
DUP-2 312612013
LG-10 5/1/2013
DUP-2 5/1/2013
LG-IO S/2812013
DUP-1 S/2812013
LG-14 1/24/2013
LG-14 3126/2013
LG·l4 S/1/2013
LG-14 S/2812013
DUP-2 5128/2013
LG-13 1/2412013
LG-13 212512013
LG-13 3/2612013
DUP-1 3/26/2013
LG-13 5/1/2013
LG-13 S/2812013
LG-2 1/24/2013
LG-2 2125/2013
LG-2 3/26/2013
LG-2 51112013
LG-2 S/2812013
Notes:
C02 -carbon dioxide
°F -degrees Fabtenhcit
H2S -hydrogen sulfide
in. Hg -inches of mercury
LEL -lower explosive limit
ppm -paJtS per million
%-percent
Time
12:SS
11:45
11:48
13:16
13:18
14:45
13:00
10:42
13:23
13:25
15:10
11:50
12:15
12:20
10:35
13:10
15:00
12:00
14:20
11:52
13:37
voe -volatile organic compounds
uglm3 -micrograms per cubic meter
> -greater than
voes
(ppm)
0.0
0.0
0.0
0.0
0.0
66.1
14.8
0.4
0.2
0.1
3.0
2.6
12.S
21.8
18.4
28.6
17.4
2.9
0.0
0.0
0.0
Tables
Landfill Gas Probe Field Parameters
Double Oak$ Landfill, NONCD0000806
Methane Methane B1S B1S*
(% hy volume) (%LEL) (ppm) (ngtm')
0.1 1 0.0 0.0
0.0 0 0.0 0.0
0.0 0 0.0 0.0
0.1 2 0.0 0.0
0.0 1 0.0 0.0
0.1 2.0 3.0 4.200
1.4 28 1.0 1,400
0.0 0 0.0 0
0.1 2 0.0 0
0.1 2 0.0 0
0.0 0.0 0.0 0.0
4.1 83 0.0 0.0
4.4 89 0.0 0.0
5.0 >JOO 0.0 0.0
1.0 20 0.0 0.0
1.3 26 3.0 4.200
o.o 0.0 0.0 0.1
0.0 0.0 0.0 0.0
0.0 1.0 0.0 0.0
0.0 0 0.0 0.0
0.1 2 0.0 0.0
• H2S readings were converted from ppm to ug/m3 using the conversion, I ppm• 1,400 ug/m3
Page 2 of 2
co, 01 Baro111eter Temperature Humidity
(%) {°!.) (ID. Hg) ("F) (*lo)
05 20.8
0.0 21.3
0.0 21.3
0.2 18.7
0.2 18.8
17.0 1.0 29.45
18.1 0.8
IS.2 4.7
18.J 1.8
18.0 0.9
43 20.9
19.1 0.0
18.0 0.8
18.4 0.6
12.6 4.2
15.4 0.1
0.0 21.6 29.45
0.1 21.6 29.37 44.0 SI
0.0 20.8 29.10 47.8 39.1
0.0 21.1
2.4 9.6
--...
"" DOWLE CWC:$
-------~---=-;;;;:--~ --·--' . ' \ '-:=..-,,, ,..,~ ~\ '"' . ~~=-,,, ': \ " \ ,.,., \ .. .~ • \ \ ,"l; • "-~~'·· \· LG-20 \ • \ ·, ~--'.\ . '\.. . .. \ ~ ~ ',\~ .. \. LG-21 -· \ \ ' \ ~
OIVtlCP•ENT UC. -·~1l)OI HU...~'1H• ..
. a . '' .\ ~, .
, ' .\ .-·-·-· 0 f' -·-. . ._...._ \ \ '. • •, I
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, ·: .. ; h ! \ ; '--. a " \ . f, 'I' "1a-
22
/ \ i ·,., .. ... ·, I;. UHELl!Cll!ND
.'· I i \ ! .,_ ·. /i';I: """"°'"'""'<"'-> 'JY f .. ...__/ '·,. \ ·t // / .,: -·---•••orsvMvm
. ~· I , . . \ ~1 ------"'"""''·WAY UN£ I/• i '· • \ \ \" Oa / •· • • WA10l ..-,YUN< I! I j '·. \ '!I! -"--·-.....,_.,..._ • ' I '.. ' I """" .....,. UNt :.' . ._, i \... \ \ ~ ·~ . I ·CO<ll:Al."4C"'•OAO
(. ''-\ • l I : / -·-·----CAWC COl'fD!Ll'E ,,·\ \ \
1
' f I -·---·--(DC(Ol'flAlOt '.•'; \ ''. I "f./ .,...UN<
• •• \ ' ' • ) • 1"££Uflt
( i . . I \ f . ' • -CHllN •IJNW f'CHCC 11 i \[ ., I ... ·/~· /.., .. -.--.. ·--·· .... \,~! i 'l , '' J •··----··-··•W.O.U. I I . . . ,,__ I . . . -..0""'1Y@a f ! •
1
i· \ · I · r---·-·-·-·-att ~-··_,,•Am!.,. I ... CICl_.,.....,..,. • " 'v, . .. SOL ..... OlllY($1lGA ..
1
!1 . .... .......... LG-18 . • '. . .! i <" ... "' >OIJ) ~' / ............ t;:I· '-:1 .· \ \"' ·f: I ) ·.. .... . : .. .,, ,.,._. ..~·!
• I \ • ~R . i ! i ' \ ·$ -. \ ~ . I • ~., I I '· ~ ( 1 ,. . ~ ,.-.. -24 ! \ \'• .. f •[ p I \ ~· '' . !~ I / ·., ,., ~\ \. ;, _ _s.,...,s" { .. : i f I \\ ' ' · , ,· . \'\ .
\ o•I I ! • : ,,
:, \ -·-·-. I ~) • • ·, ., -·--·---·--·-----'· . . \ ' .• '.. ' -·--·-·-·-·-·-·-·-·-·--· LG-16 '·~·--·-°l:O"'n a \ 1· •• \ ·"· /' LG-15 D \ ~ J' a -, '\ / -~ 1 ' \ / ._"W!~~c { I \ ;-·OLG-25 l"IN•Ot6-12').~>t ,
' Dll2t0i\l"'04flt&Ot . '
W;l&ll'OMt
::
''
\
$\'MBOL LEGEND
C>.J. unulY "<ll£
"¢.l \llJU7Y ..,.. nt ...,Y
oj~""'-
II \ ............ I 0 100 , I ,\ ---•.::r ~-=-·:~~-• ·~-~~~-~--,.·,~~-..;-t:: -=-~>•'"?~-APPROX. SCALE. ft.
.ti . ··-· .. -·::.: ':=---' -;;;:, :~·;":'_~;_:~;-.. _~·~:.:-;: := ~'---.--:_-: .:;.';:_~ _:_=:._ :.' :. -, ~1/'~ :::::JJ: Landfill Cos Probe '\_--~ _,,,. ___ ----------, OOtet£<••<t~ ---~-, _r· ·::::.:::.:_ ,.... llS SHOWN Location Mop 1_ _ ~ ___ •. • ___ ·-_______ •• ':::-'.°_'!!!!!!f~.._.,...!!!" ____ -.'-::;. _ Double Oaks landfill
Ji '. ( j SI '. -. ~. ----·-URS NONC00000806 I "'f' I ~I l t --~ -1 !~1 L_ ____ ~fi f ~ ,.. 60390680 ~=1 j iiel " ... ...._._,.,_
......
Sampling Date voes Time Location Sampled (ppm)
Backeround 8114/2015 10:00 0.0
Backirround 811412015 15:00 0.0
Baclc1tTound 10/1412015 10:30 0.0
Baclcomund 10/14/201S 14:00 0.0
Baclceround 12110/2015 10:30 0.0
Backl!roUDd 12110/201S 14:10 0.0
Bacbround 21S/2016 9:20 0.0
Baclcomund 2/S/2016 11:50 0.0
Backeround 4/6/2016 9:45 0.0
Backl!rOUDd 4/6/2016 12:00 0.0
Backl!l'Ound 5/612016 14:40 0.0
Baclcerowd 5/6/2016 16:SO 0.0
LG-15 8114/2015 11:4S 0.0
LG-15 I0/14/201S 12:30 0.0
LG-IS 12110J201S 10:40 0.0
DUP-1 12110/201S 11:40 0.1
LG-lS 21512016 10:00 0.0
LG-IS 4/612016 9:SS 0.0
LG-IS S/612016 IS:2S 0.0
LG-16 8/14/2015 14:30 0.7
LG-16 10/14/2015 12:00 3.5
LG-16 12110/2015 10:50 0.4
LG-16 21512016 9:43 0.0
LG-16 4/612016 9:50 0.0
DUP-1 4/6/2016 11:35 0.0
LG-16 5/6/2016 15:35 0.0
DUP-1 S/6/2016 16:30 0.0
LG-17 8/1412015 10:15 0.0
LG-17 10/14/2015 11:00 0.0
LG-17 12110/2015 11:00 0.8
LG-17 21512016 9:35 0.0
DUP-1 21512016 11:30 0.0
LG-17 4/6/2016 lO:SO 0.0
LG-17 5/612016 14:SO 0.0
LG-18 8/14/2015 12:10 0.1
LG-18 10/14/2015 11:10 0.0
LG-18 12110/2015 11:15 0.1
LG-18 21512016 11:25 0.0
LG-J8 4/6/2016 11:00 0.0
LG-18 S/6/2016 14:SS 0.0
LG-19 8/14/201S 12:20 0.0
LG-19 I0/14/201S 11:20 0.0
DUP-1 1011412015 13:20 0.0
LG-19 1211012015 11:25 0.1
LG-19 21S/2016 ll:lS 0.1
LG-19 4/612016 ll:OS 0.0
LG-19 S/612016 15:00 0.0
LG-20 8/14/2015 12:00 0.0
L0-20 10/14/2015 11:30 0.0
LG-20 12110/2015 12:45 0.3
LG-20 21512016 ll:OS 0.0
LG-20 4/6/20.16 11:15 0.0
LG-20 5/6/2016 15:05 0.0
LG-21 8/14/2015 10:40 0.0
DUP-1 8114/2015 10:45 0.0
LG-21 10/14/201S 13:10 0.3
LG-21 12110/2015 13:00 0.0
LG-21 215/2016 10:55 0.0
LG-21 4/6/2016 11:20 0.0
LG-21 5/6/2016 16:15 0.0
Table 1
Landfill Gas Probe Field Parameters
Double Oaks Landfill, NONCD0000806
Methane Methane B,,S C01 (%by
volume) (%LEL) (ppm) (~·)
0.0 0 0 o.o o.o I 0 0.0
0.0 0 0 0.1
0.0 I 0 0.0
0 0 0 0.0
0 0 0 0.0
0.0 0 0 0.0
0.0 0 0 0.0
0.0 0 0 0.0
0.0 0 0 0.0
0.0 1 0 0.0
0.0 0 0 o.o
0.1 3 2 0.1
0.1 1 0 0.1
8.5 33 0 11.1
14.3 > 0 17.7
14.S > 0 16.5
0.9 17 0 10.5
S.0 > 0 14.8
1.6 32 10 2.6
0.8 16 0 3.2
0.2 3 0 0.4
0.4 8 0 2.3
1.7 34 0 4.8
l.S 30 0 4.2
1.3 26 0 4.2
1.3 26 0 4.1
0.0 I l 0.1
0.0 0 0 0.2
0.0 0 0 0.2
0.0 0 0 S.8
0.0 0 0 6.8
0.0 0 0 4.6
0.0 0 0 5.9
0.1 2 I o.s
0.0 0 0 0.2
0.0 0 0 4.0
0.0 0 0 4.3
0.0 0 0 4.6
0.0 0 0 4.5
0.1 2 I o.s
0.0 0 0 8.8
o.o 1 0 7.7
0.0 0 0 I.I
0.0 0 0 3.0
0.0 0 0 4.S
0.0 0 0 S.5
0.1 2 0 0.0
0.0 I 0 4.2
0.0 0 0 0.1
0.0 0 0 3.0
0.0 0 0 0
0.0 0 0 6.5
0.2 4 8 3.5
0.2 4 8 3.3
1.4 4 0 6.2
0.0 0 0 16.9
0.0 0 0 ll.8
0.0 0 0 12.7
0.0 0 0 16.6
01 Barometer Temperature Humidity
(%) (In. Hg) ("F) (%)
19.8 29.38 84.4 Sl.6
19.9 29.30 95.4 29.2
20.2 29.21 62.7 44.9
20.3 29.0S 74 40
20.4 29.28 74.3 36.2
20.6 29.28 92.3 23.8
20.8 29.67 42.7 30.9
20.4 29.69 S6.3 29.76
20.9 29.81 S0.4 43.6
21.0 NM NM NM
20.5 29.12 24.3 33.4
20.7 29.04 NM NM
19.8 29.33 NM NM
20.1 NM NM NM
8.S 29.28 NM NM
0.2 29.28 NM NM
0.2 NM NM NM
11.8 NM NM NM
2.1 NM NM NM
0.2 29.31 91.9 34.6
7.0 29.14 73 41
19.3 29.28 NM NM
13.7 29.67 46.2 77.9
0.4 NM NM NM
2.2 29.65 52.6 24.5
1.2 29.12 21.3 36.6
1.5 29.12 21.9 31.l
19.S 29.38 NM NM
19.9 NM NM NM
20.4 29.28 NM NM
7.0 29.67 46.1 78.0
3.7 29.69 49.4 92.9
12.9 29.70 S0.6 29.l
11.8 NM NM NM
19.8 29.32 96.1 29.6
19.9 NM NM NM
6.3 29.28 NM NM
S.I NM NM NM
5.6 NM NM NM
8.9 NM NM NM
19.0 29.32 NM NM
10.0 NM NM NM
10.S NM NM NM
19.3 29.28 70.0 47.0
16.5 NM NM NM
17.1 NM NM NM
IS.4 NM NM NM
20.4 29.32 NM NM
14.8 29.14 69 39
20.6 29.28 70.7 30.6
15.9 29.69 49.1 87.7
20.6 NM NM NM
13.3 29.12 NM NM
13.5 29.38 NM NM
13.S 29.34 NM NM
14.5 NM NM NM
1.8 29.28 NM NM
9.4 NM NM NM
6.9 NM NM NM
0.9 NM NM NM
Sampling Date Timie Location Sampled
LG-22 8/14/2015 10:30
LG-22 10/14/2015 13:30
LG-22 12110/2015 13:10
LG-22 215/2016 10:45
LG-22 4/6/2016 10:25
LG-22 51612016 16:05
LG-23 811412015 14:50
LG-23 10/1412015 13:00
LG-23 12110/2015 13:20
DUP-2 12110/2015 13:55
LG-23 215/2016 10:30
DUP-2 21512016 11:40
LG-23 4/6/2016 10:15
DUP-2 4/6/2016 11:50
LG-23 5/6/2016 16:00
DUP-2 516/2016 16:40
LG-24 8/14/2015 12:30
DUP-2 8/14/2015 12:40
LG-24 10/14/2015 12:50
LG-24 12110/2015 13:30
LG-24 215/2016 10:20
LG-24 4/6/2016 10:05
LG-24 516/2016 15:55
~25 8/14/2015 11:35
LG-25 10/14/2015 12:40
DUP-2 10/14/2015 13:40
LG-25 12110/2015 13:45
LG-25 215/2016 10:10
LG-25 4/6/2016 10:00
LG-25 5/6/2016 15:45
Notes:
ug!m3 • micrograms per cubic meter
%-percent
> -Greater than c:ahl>ration range
•p -degrees Fabrcnbeit
c~. carbon dioxide
DUP -.field duplicate
H2S -hydrogen sulfide
in. Hg -inches of mercwy
LEL-lowcr explosive limit
NM -Not mCllSured
~-oxygen
ppm -parts per million
voe. volatile orge.oic compounds
voes
(ppm)
0.0
0.0
0.0
0.1
0.0
0.0
0.2
0.1
0.0
0.0
0.1
0.1
0.1
0.1
0.0
0.0
0.1
0.1
0.0
0.4
0.0
0.0
0.0
0.0
0.1
0.2
I.I
0.3
0.0
0.0
Table 1
Landfill Gas Probe Field Parameters
Double Oaks Landfill, NONCD0000806
Metlwie Methane BiS co, (%by
volume) (% LEL) (ppm) (%)
0.0 1 5 0.0
0.0 J 0 1.4
0.0 0 0 2.1
0.0 0 0 11.7
0.0 0 0 0.1
0 0 0 2.9
0.0 1 0 2.1
22.8 > l 11.2
24.5 > 2 8.8
24.5 > 5 8.8
24.8 > 5 7.1
22.8 > 0 6.9
21.2 > l 9.4
21.S > 1 8.6
22.4 > 0 6.4
23.3 > 2 9.1
12.3 > I 9.4
11.4 > I 10.3
0.0 l 0 9.0
0.0 I 0 5.3
0.0 0 0 2.9
0.0 0 0 5.S
0.0 0 0 15.5
0.1 3 I 1.5
1.9 26 0 6.8
1.5 14 0 6.3
0.7 78 0 7.4
7.9 > 0 I 1.1
8.7 > 0 11.2
8.7 > 0 10.2
• H1S readings were converted from ppm to ug/m3 using the conversion, I ppm s 1,400 ug/m 3
o. Barometer Temperature Humidity
<~·) (in. Hg) ("F} (%)
19.8 29.38 91.4 40.2
15.2 29.Jl 72 43
14.0 29.28 NM NM
18.3 29.69 50.8 90.0
20.7 NM NM NM
16.0 NM NM NM
17.8 29.31 NM NM
4.4 NM NM NM
0.0 29.28 NM NM
0.0 29.28 NM NM
0.0 NM NM NM
0.7 NM NM NM
0.0 NM NM NM
0.0 NM NM NM
1.6 NM NM NM
0.3 NM NM NM
3.5 29.31 NM NM
4.2 29.31 NM NM
8.4 29.10 73 41
12.9 29.28 NM NM
17.9 29.67 47.7 90.3
15.4 NM NM NM
4.4 NM NM NM
19.3 29.33 87.3 38.4
8.1 NM NM NM
8.3 29.07 74 40
8.S 29.28 87.01 29.9
0.0 NM NM NM
0.1 NM NM NM
0.0 NM NM NM
Grading Plan and Cut/Fill Analysis
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Job: AGTEK
Units: Ft-CY
Mon Sep 28, 201510:06:35 Page 1
Volume Report
Su~rade vs. S!rill~s!
Area Volume Comp/Ratio Compact Export Change
!2ml Cut Fill Qn~ri!i;!!1 C!.!l Fill l:;!.11 fill !:;1.!t Fill -lm122t:l e11r, 1 Ft
C-SITE-BLDG 480 480 0 0 14 0 1.00 1.15 14 0 14 2
C-SITE-BLDG 1,248 834 300 114 30 5 1.00 1.15 30 6 24 5
C-SITE-BLOG 480 346 37 97 6 0 1.00 1.15 6 0 6 2
C-SITE-BLOG 1,248 697 431 120 19 8 1.00 1.15 19 9 10 5
C-SITE-BLDG 480 223 101 156 2 1 1.00 1.15 2 1 1 2
C-SITE-BLOG 1,248 244 864 140 3 27 1.00 1.15 3 31 -28 5
C-SITE-BLOG 480 9 52 419 0 1 1.00 1.15 0 1 -1 2
C-SITE-BLDG 1,248 0 1,248 0 0 59 1.00 1.15 0 68 -$8 5
C-SITE-BLOG 480 0 468 12 0 8 1.00 1.15 0 9 -9 2
C-SITE-BLDG 1,248 5 1,157 86 0 38 1.00 1.15 0 44 -44 5
C-SITE-BLOG 480 0 402 78 0 6 1.00 1.15 0 7 -7 2
C-SITE-BLOG 1,248 0 1,248 0 0 59 1.00 1.15 0 68 -68 5
C-SITE-BLDG 480 0 480 0 0 18 1.00 1.15 0 21 -21 2
C-SITE-BLDG 1,248 0 328 920 0 6 1.00 1.15 0 7 -7 5
C-SITE-BLDG 480 0 480 0 0 34 1.00 1.15 0 39 -39 2
C-SITE-BLDG 1,248 0 1,056 192 0 22 1.00 1.15 0 25 -25 5
C-SITE-BLDG 480 0 480 0 0 36 1.00 1.15 0 41 -41 2
C-SITE-BLDG 1,248 0 1,248 0 0 55 1.00 1.15 0 63 -63 5
C-SITE-BLDG 480 0 480 0 0 48 1.00 1.15 0 55 -55 2
C-SITE-BLDG 1,248 0 1,248 0 0 93 1.00 1.15 0 107 -107 5
CSub: 17,280 2,838 12,108 2,334 74 524 74 602 -528 70
ROAD 11,560 8,212 2,462 886 361 97 1.00 1.15 361 112 249 49
Regions Total 28,840 11,050 14,570 3,220 435 621 435 714 -279 119
Unspecified 38,581 9,654 25,342 3,584 305 1,424 1.00 1.15 305 1,638 -1 ,333 164
Job Total 67,421 20,704 39,912 6,804 740 2,045 740 2,352 -1,612 283
Plane Slope
~1Cilllli!l9 ~:I Ar11i! Ar!li! D11121!:! VQl!.!!D!1
STRIPPING 67,421 67,555 0.000 0
Plane Slope
~WiQnj!I~~ Ami M:i! C!!11lll! VQIU!!J!1
C-SITE-BLDG 1,248 1,248 1.000 46
C-SITE-BLDG 1,248 1,248 1.000 46
C-SITE-BLDG 1,248 1,248 1.000 46
C-SITE-BLOG 1,248 1,248 1.000 46
C-SITE-BLDG 1,248 1,248 1.000 46
C-SITE-BLDG 1,248 1,248 1.000 46
C-SITE-BLDG 1,248 1,248 1.000 46
C-SITE-BLDG 1,248 1,248 1.000 46
C-SITE-BLDG 1,248 1,248 1.000 46
C-SITE-BLDG 1,248 1,248 1.000 46
C-SITE-BLDG 480 481 1.000 18
C-SITE-BLDG 480 481 1.000 18
C-SITE-BLOG 480 480 1.000 18
C-SITE-BLOG 480 480 1.000 18
C-SITE-BLDG 480 480 1.000 18
C-SITE-BLDG 480 480 1.000 18
C-SITE-BLOG 480 480 1.000 18
C-SITE-BLOG 480 482 1.000 18
C-SITE-BLOG 480 486 1.000 18
C-SITE-BLDG 480 480 1.000 18
C Sub: 17,280 17,290 640
REPORT REGION 38,581 39,455 0.000 0
ROAD 11,560 11,577 1.000 429
Sectional Total 67,421 68,322 1,069
BRIGHTWALK PHASE 8 AGTEK 09-28-2015
Contingency For Encountering Unknown Tanks, Drums,
Or Other Waste Materials
Contingency For Encountering Unknown Tanks, Drums, Or Other Waste
Materials
Previously Unidentified or Unforeseen Conditions: Previously unidentified or unforeseen conditions are
defined to mean the discovery of potentially regulated (i.e., by NCDEQ) soil or groundwater that
presents, through normal and routine field observations, field detection instruments or laboratory
analyses, characteristics different from other non-affected media in the area being worked. These
characteristics are typically expected to be triggered by visual and/or odor indications. If previously
unidentified or unforeseen conditions are encountered during site development, it is each worker's
obligation to report such conditions to their inunediate supervisor who will, in-turn, notify the Prospective
Developer. The protocol presented herein will then be implemented as applicable and appropriate, to
manage the proper resolution of unidentified or unforeseen conditions.
Work by each site contractor and site sub-contractor must be accomplished within the framework of an
appropriate Site-Specific Health and Safety Plan (HASP). Level D Personal Protect Equipment (PPE),
which includes hard-hats, steel-toed safety boots, safety glasses with side-shields and high-visibility
safety vests, is the minimum level of PPE to be used for all site work. All truck drivers who exit their
trucks on-site will be subject to the health and safety requirements established for the Site. Geoscience
will make available to contractors and subcontractors, upon request from the contractors and sub-
contractors for provision, the due diligence data so that informed and responsible decisions can be made
by those contractors and subcontractors regarding the health and safety of their employees.
Each contractor and sub-contractor is specifically and wholly responsible for the safety of their workers,
including any PPE and training, as may be warranted or required by law and regulations. Prospective
Developer and Geoscience Group, Inc., are responsible only for the safety of their respective employees.
Suspected Asbestos Containing Materials:
Any buried debris encountered during construction should be considered suspect asbestos containing
material.
• Upon discovery, immediately stop construction activities and report the condition to
Geoscience Group, Inc.
• For as long as the suspected asbestos remains exposed, control access to the site to prevent entry
by unauthorized and/or unprotected persons. During the entire time the suspected asbestos
remains exposed, the exposed area must be either wetted or covered to prevent the spread of
asbestos fibers. An asbestos disposal site which remains uncovered must remain wetted, and be
fenced and posted with warning signs, unless a natural barrier adequately deters access.
• Assure that there are no visible emissions from the uncovered site, as required by federal
regulations. An effective means for doing so is to keep the exposed material moist, by using a
fine spray or mist.
• Take care not to walk through, drive through, touch, or otherwise make direct contact with the
suspected asbestos-containing material. Keep pets and children away from the area. Be aware
that making direct contact with the asbestos may result in contaminating clothes and skin, which
in turn may result in asbestos fibers becoming airborne or ingested.
• Geoscience shall arrange for a qualified professional to be on-call to determine whether the
encountered debris contains asbestos. If the material tests positive for asbestos, Geoscience shall
develop a plan for covering or removing the asbestos-containing material.
• Implement the plan, after consulting with Geoscience and the North Carolina Brownfields
Program to assure that the work is protective of human health and complies with Mecklenburg
County and State disposal requirements and/or other applicable regulatory requirements. Note:
this type of work must be carried out by a professional who is properly equipped and trained.
Lacking proper equipment and training, a person engaging in this type of work is at risk of
personal exposure, causing other human exposures, and violating local, state, and/or federal
regulation.
• Always seek the advice and assistance of Geoscience and the North Carolina Brownfields
Program whenever there is any question about imminent hazard response actions, and/or the
ability to carry out any activity without causing a release of asbestos fibers.
Unknown Tanks, Drums, Other Waste Materials or Previously Unidentified Impacted Soils:
In the event unknown tanks, drums, other waste materials or previously unidentified impacted soils are
encountered that do not test positive for asbestos, Geoscience Group, Inc. shall characterize the
encountered items in general accordance with IHSB protocol. The extent of suspected impacted soils
encountered during construction, or other excavation activities, will be determined through field
observation. Screening of the excavated suspect soils using a PID will also be performed as appropriate.
Suspect soils will be stockpiled on-site pending the results of characterization testing. In general
accordance with typical stockpile sampling protocols, such as those provided in NCDENR Division of
Waste Management's Guidelines for Sampling, composite samples (consisting of six sub-samples) will be
collected at a frequency of approximately one sample per 200 cubic yards of stockpiled suspect soil. The
characterization samples will be submitted for analysis consistent with perceived contaminants
encountered at the site.
Excavation of known or suspected impacted soil shall follow these procedures:
• It is not anticipated that soil handling will require a work stoppage or an upgrade from Level D
PPE to Level C. However, in the event of the discovery of a previously unknown area of potential
soil contamination, the Site Environmental Representative will be responsible for evaluating
whether a work stoppage or a PPE upgrade is appropriate. In the event of work stoppage, the Site
Environmental Representative will infonn the NCBP Representative and the Prospective
Developer.
• The number of samples to be collected from the excavated soil will depend upon the quantity of
soil generated and the specific conditions at hand.
• Excavated areas will be managed as practicably as possible to prevent accumulation of rainwater.
Whenever possible, excavation of suspect contaminated soil will be performed when prevailing
and incipient weather conditions are favorable. Plastic sheeting and temporary backfilling with
non-contaminated soil may be used to reduce/preclude the accumulation of storm water in the
excavated areas.
• The potentially-affected area will be clearly marked. Safety precautions will be adjusted, as
appropriate, based on the circumstances. For instance, high visibility snow fencing, safety cones,
temporary signage and/or temporary hard-fencing may be used as needed to best suit the specific
condition at-hand.
• Areas used for soil staging will be clearly marked both in the field and on sketch outlines.
• Stockpiling of soil for several days prior to loading may be performed, pending receipt of
laboratory analysis results.
• Stockpiled potentially impacted soil will be stored on a liner and will be covered with secured
plastic sheeting while not being worked and at the end of each day. Appropriate erosion and
sediment controls, such as hay bales and/or silt fencing, will also be implemented to prevent
runoff from this soil.
Transport and Disposal of Contaminated Soil (Non-Asbestos): Contaminated soil scheduled for off-site
disposal at an appropriate landfill facility will be properly characterized for disposal, manifested,
transported and disposed of in compliance with applicable laws. A record of each truck dispatched from
the Site for off-site disposal will be paired with the associated manifest and weight ticket report received
from the landfill facility. Based on previous environmental assessment activities conducted at Site, off-
site disposal of soil, if required, is expected to be characterized as non-hazardous solid waste.
• Truck loads will be covered prior to leaving the Site.
• During bulk transport of non-hazardous soils, applicable marking requirements will be used to
display the appropriate DOT placards.
• Proper Class 9 placards will be used if hazardous soil/material is being transported off-site for
disposal, although this is not anticipated.
• Proper documentation required for the shipment of contaminated waste off-site will be managed
in the field. A record of each truck dispatched from the Site for off-site disposal will be paired
with the associated manifest and weight ticket report received from the landfill or disposal
facility.
• Soil will be disposed of in accordance with applicable state and local regulations at an appropriate
landfill facility approved by Prospective Developer or their authorized representative. Prior
approval from DEQ must be obtained for any proposed disposal location that is not a landfill
properly licensed to receive the material.
Methane Vapor Mitigation Plan
[_
NOTES:
1. lH£ SUB-s..18 VAl'<ll 8AAR!ER SHAU. BE A 11NMW OF 15 ML 11tC< PlAS1lC MD1BRNE THAI ME£IS Ofl EXCEIDS AS111
E1745 CUSS A SP£CflCA110HS.
2. AU VAl'<ll 8AIRll 5£AllS SKAll. CMJl» A WKWM Of 12 IHO£S. 5£AllS SKAll. BE IAl'CD Wlli PllOOUCI Al'l'RtMD 8Y
Vll'<ll -Sl£EllHG llAIU'ACllJRDl YNllUll TAP( WOlli IS 4 IHQlES.
l. UTIJTY OR OllfR Pa£l'RA11CHS OF THE Vll'<ll 8ARRtR Slt:ETtlG SKAll. BE PATOiID AS S1mH ON OETAlS.
4. l'UNT\ltES IDRS OR OTHER OAMAc;( TO TIE Vll'Ofl BARRIER 51EJ1NG SH.Ill BE REPAIRED ~ TO PIACDIDff OF CONCREIE.
RD'AIR SHAU. BE ACXXU'IJSH[I) BY TAPINC A PATOi 019 TIE 0.11.tAOO> AAf.A. THE PATOi SKAll. BE LARa:: ENOUCH TO EXTEN0
AT I.EAST 12 INCMS fROU lliE OAMMJ: IN AU. OIR£C110N
5, VAPOR BARRIER SllEETING E0CES SHAU. BE st:ALED 10 THE FC:WDATION WAU.S 'lillli MANUFACl\JRER APPROVED El.ASIOllERIC
SEA LAH I.
f. SOIL GAS COLLECTOR Pl'ING WAY BE ElllD ~ATEO RICll (P~) PIPE OR PERFORATEO CORRUGATEO fUlll8I.£ (PE) PIPE. SOL
GAS ca.L£CTOR Pl'E SKAll. Bl: \IRAPPED IN A fl.TER FABIC SOOC. TH£ ENOS OF ANY SOIL GAS COLLECTOR Pl'E THAI ARE NOT
CONNECTED TO VENT flptjG SKAll. 8( CAPf(]) (PLUGOO>).
7. THE SUl!-SL\8 STONE DETAILS PERT.ltl TO 1liE Vll'Ofl 1111GA110N SYSTEW ONLY. PlLASt: R£l'ER TO 1liE APl'Rllf'AIATE STRUCllJRAL
PLANS FOR SI.AB I< FOOllHG OlllOISlONS ANO llJNFOlla>IDIT.
& ll'CN alWPl£1lOI OF THE flOOR SIM, AU. SIM JOlfTS, PEl£TRA1ICINS, ANO CffllHGS MOUND PftS, CONDUTS. ANO OHR C8.ECTS SKAll. BE S£M£D WTH Pa. 'llR:llW£ CN.lX OR ECUVAIOO El.ASTllOIC stM.NIT.
9. NlY catDlllT Ofl C.l!l.E 1HAT PEN£TltA1tS THE SL\8 SKAll. BE PROIUD W111 A ca«MT OR C.l!l.E SE.II. QJNOUIT StAL FlTTliGS
SKAll. BE INSTAU.ED IN THE l'EllTICM. PORllOH OF TIE ca«UT 'lffltE 1llE GOIDUIT D1ERCES f'1IOI 1llE S1AB.
10. AU FlRE PROTECllCHS REWR:D BY APf'\JCMll.E 8UlJllHG CODE SHAU. BE PllESER\ED A I lOCA llONS YIHERE 1llE VENT PIPING
P0£1RA1ES flRE RAT!:D ASSlll8UES.
11. THE VENT STACK APE SHAU BE NON·PERrORATEO. IU!TICAl AND IJSQIAAGED Ul'WNll!, UNOBSTRUCTED. OOTSIOE lliE STRUCTUR£.
AT LEAST 10 FEET ABOVE CROUND LEVEL. ANO ABOit: lliE EOCE OF THE ROOF.
12. THE POINT OF DISOlAAGE SH.Ill BE AT LEAST 12 INCHES ABOVE THE SURFACE OF 1llE ROOF ANO SKAll. 8( AT I.EAST 10 fEET OR
MORE AWAY FROM ANY 'MMlOW. DOOR. OR OTHER Cl'l:NING INTO COll>ITIONED OR OIHERMSE 000.IPIABLE SPACES.
ll. AN El!C'IRICAL JJNCOOH BOX SHALL BE INSTAU.ED ON THE GARAGE EXlUllOR fllTllN 6 FEET OF TIE VENT CISCllARa PIPE.
SPACE AROUt«> 1llE VENT STACK AT llilS lOCAllON SHALL BE AVIVa.f. FOR FU1UR£ IHSTAllAllON OF A FAN.
14. AU. ',(NJ STACK PIPING 91.\U. BE lABWI> AS BEING PART OF A IE1liANE VAPOR llTICAllON SYSYTDI. AT A llMUI, 1\£ VENT
STACK PRIG 91.\U. BE lABWI> OERY 5 FEET. YllTH lA8El.S PUH.Y l4Slll£ ON EAOt flOOR ANO ON M ROOF.
15. IHSTAllATION OF llOHANE VAPOR llllGAllOH S'IS10I aJll'IHll1S SKAll. BE ~ 8Y GE05CIDICE GRW'. INC (GEOSCEa).
THE Milli INSTALLER IS l£SPllNSllU fOR HO~ G'EOSCllJtCE 11ERK INSTAllADON OF sea. GAS CW£C1ION PFI«:, PLICEIEIT
CF 157 ST0N£. INSTAllAllON CF VllU RETAAD!R MoeRANE ANO PUCEM!JIT CF OOHCRE1t 5lA8.
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@ 4• SCHEDVLE 40 NON-PERFORATED PVC Pf'E TO GARAGE D
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Slab Perimeter Plan
Base Garage
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Studio Garage
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