HomeMy WebLinkAboutSW6231109_Soils/Geotechnical Report_20231127 dmov
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November 1, 2023
Dewberry
2610 Wycliff Road, Suite 140
Raleigh, North Carolina 28403
Attention: Mr. Zachary Eulo, PE via email: zeulo@dewberry.com
Reference: Stormwater Soil Evaluation Report
Duke Energy Barker Laydown Yard your email
5549 Braxton Road, Hope Mills, North Carolina
S&ME Project No. 23050706
Dear Mr. Eulo:
S&ME, Inc. (S&ME) has conducted a stormwater soil evaluation in general accordance with S&ME Proposal No.
20350706 dated October 18, 2023. Our evaluation was conducted to provide information for the design of a
Stormwater Control Measure (SCM) and a Stormwater Management Permit Application to the North Carolina
Department of Environmental Quality (NCDEQ)— Division of Energy, Minerals, & Land Resources (DEMLR) and/or
local municipality.A soil scientist evaluated the soil conditions on October 27, 2023.
Background Information
We understand that the project consists of a laydown yard for Duke Energy that will require a proposed drainage
ditch approximately 1,200 linear feet in length with a design width of 10-foot and a depth of 24 inches below
existing ground surface. It was requested that S&ME perform stormwater soil evaluation services to provide
information for the design of the required drainage ditch, and to assess whether the infiltration data would
support a reduction in the width and possibly the depth of the required drainage ditch.
The enclosed Figure 1 and Figure 2 depict the site boundary and requested hand auger boring locations on a US
Department of Agriculture (USDA) Natural Resource Conservation Service (NRCS) Cumberland County soil survey
exhibit and US Geologic Survey(USGS) topographic exhibit respectively. The soils in the vicinity of the site are
mapped as Rains soil series The Rains series consists of poorly drained, nearly level soils formed in Coastal Plain
sediment that has a seasonal high water table (SHWT) at or near the surface.
The stormwater soil evaluation was performed at three locations (SW-1 through SW-3) as shown on the attached
Stormwater Soil Evaluation Exhibit (Figure 3). Our evaluation consisted of identifying and recording the soil
morphological conditions, performing SHWT estimations, measuring the observed water table (OWT) and in-situ
saturated hydraulic conductivity (Ksat)testing of the subsoil.
S&ME, Inc.13201 Spring Forest Road I Raleigh, NC 27616 I p 919.872.2660 I www.smeinc.com
Stormwater Soil Evaluation Report
Duke Energy Barker Laydown Yard your email
I I 5549 Braxton Road, Hope Mills, North Carolina
S&ME Project No. 23050706
Findings
SHWT Estimation and OWT Measurement
S&ME estimated the SHWT by advancing hand auger borings at the three locations shown on the attached Figure
3 and evaluating the soil for evidence of SHWT influence. This evaluation involved looking at the actual moisture
content in the soil and observing the matrix and mottle colors. Depending on the soil texture, the soil color will
indicate processes that are driven by SHWT fluctuations, such as iron reduction and oxidation and organic matter
staining.
In addition, S&ME attempted to measure the OWT level below existing ground surface (EGS) at the indicated hand
auger boring locations, however groundwater was not encountered. See Table 1 below and Figure 3 for the
estimated depth to SHWT and measured depth to the OWT if applicable.
Table 1
HAND AUGER SEASONAL HIGH WATER OBSERVED WATER
BORING TABLE(SHWT) DEPTH TABLE(OWT) DEPTH
LOCATION (inches/feet below EGS) (inches/feet below EGS)
SW-1 14/ 1.2 >48/ >4.0
SW-2 10/0.8 >48/ >4.0
SW-3 12/ 1.0 >48/ >4.0
EGS: Existing Ground Surface
Permeability/Hydraulic Conductivity Estimation
The soil profile descriptions included on the attached Figure 3 show the soil morphological conditions including
soil texture, structure, color, estimated United States Department of Agriculture (USDA) permeability and
estimated USDA hydraulic conductivity(Ksat) for the different soil horizons found on-site.
Please refer to the enclosed map and soil profile descriptions on Figure 3 for more information.These estimates
were obtained from one or more of the following: Cumberland County Soil Survey "Physical &Chemical Properties
of the Soil - Permeability"; and/or USDA-NRCS (United States Department of Agriculture - Natural Resource
Conservation Service) official series description, and/or"NRCS Field Book for Describing &Sampling Soils" the
permeability estimates were converted to conductivity on the profile description tables.
In-situ Ksat Testing
In addition to the USDA permeability and conductivity estimations mentioned above, S&ME performed in-situ
Ksat testing at the three hand auger boring locations (SW-1 through SW-3) as shown on Figure 3 at a depth of 2-
feet below EGS.
November 1, 2023 2
Stormwater Soil Evaluation Report
Duke Energy Barker Laydown Yard your email
I I1111 5549 Braxton Road, Hope Mills, North Carolina
S&ME Project No. 23050706
In-situ Ksat measurements were conducted with an Amoozemeter® compact constant-head permeameter(CCHP).
Specifically, the constant-head well permeameter technique (also known as shallow well pump-in technique and
bore hole permeameter method) was used. This procedure is described in Methods of Soil Analysis, Part 1.,
Chapter 29— Hydraulic Conductivity of Saturated Soils: Field Methods, 29—3.2 Shallow Well Pump In Method, pp.
758-763 and in the Soil Science Society of America Journal, Vol. 53, no. 5, Sept. —Oct. 1989, "A Constant-head
Permeameter for Measuring Saturated Hydraulic Conductivity of the Vadose Zone" and "Comparison of the Glover
Solution with the Simultaneous— Equations Approach for Measuring Hydraulic Conductivity."
In brief, this method involves allowing a measured volume of water to percolate through the soil until a steady
rate of flow is achieved. This final rate was used to calculate the Ksat of the subsoil horizon by the Glover
equation. The hand auger borings used for Ksat testing were advanced below the EGS using a hand auger equipped
with a two-inch diameter bucket.The water dissipating unit was lowered to the bottom of the hole and water was
dispensed from the Amoozemeter®.The water was allowed to move through the unit until steady-state flow was
achieved and completely drained for one or more cycles and on the final cycle flow rates were recorded. The reported
measurements were averaged to achieve a representative Ksat values for each testing location.
The Ksat values measured in-situ for locations SW-1 through SW-3 are summarized on Table 2 below. The individual
Ksat test records are included in Appendix I. Site photographs are included in Appendix II.
Table 2: Ksat Testing Results
KSAT TEST TEST HORIZON/ KSAT TESTING MEASURED
LOCATION SOIL TEXTURE DEPTH FROM EGS KSAT RATE
(inches/feet) (inches per hour)
SW-1 Fill/Clay 24/2.0 0.02
SW-2 Fill/Clay 24/2.0 0.03
SW-3 Fill/Sandy Clay 24/2.0 0.06
EGS: Existing Ground Surface
Application of Findings
Data presented in this report are based on materials encountered at the hand auger boring locations only.
Conditions may vary between hand auger boring locations and in other areas of the proposed ditch. The reported
depths are based upon the ground surface locations of the borings at the time of our evaluation.
November 1, 2023 3
g Stormwater Soil Evaluation Report
III Duke Energy Barker Laydown Yard your email
I IIIIF5549 Braxton Road, Hope Mills, North Carolina
S&ME Project No. 23050706
Closing
S&ME appreciates the opportunity to provide soil evaluation services for this project. If you have any questions
please contact Walter Cole at 919-872-2660 or wcole@smeinc.com.
Sincerely,
S&ME, Inc.
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Walter Cole, LSS, REHS Thomas P. Raymond, PE
Senior Project Manager Senior Reviewer
Enclosed: Figure 1: USDA-SCS Cumberland County Soil Survey Exhibit
Figure 2: USGS Topographic Exhibit
Figure 3: Stormwater Soil Evaluation Exhibit
Appendix I: Ksat Test Records
Appendix II: Site Photographs
November 1, 2023 4
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t FOR INFORMATIONAL PURPOSES ONLY. ALL FEATURE LOCATIONS DISPLAYED ARE / �}'k Project LOD
a APPROXIMATED.THEY ARE NOT BASED ON CIVIL SURVEY INFORMATION,UNLESS STATED 2
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SCALE: FIGURE NO.
iII USDA-NRCS SOIL SURVEY EXHIBIT 1 " = 150 '
DATE:
I I -- DUKE ENERGY BARKER LAYDOWN YARD 10-17-23 1
5549 BRAXTON ROAD PROJECT NUMBER
HOPE MILLS, CUMBERLAND COUNTY, NORTH CAROLINA TBD
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Y MAP IS FOR INFORMATIONAL PURPOSES ONLY. ALL FEATURE LOCATIONS DISPLAYED ARE Proposed Ditch
o APPROXIMATED.THEY ARE NOT BASED ON CIVIL SURVEY INFORMATION,UNLESS STATED
3 OTHERWISE. Project LOD
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iII USGS TOPOGRAPHIC EXHIBIT 1 " = 500 '
DATE:
I I -- DUKE ENERGY BARKER LAYDOWN YARD 10-17-23 2
5549 BRAXTON ROAD PROJECT NUMBER
\ HOPE MILLS, CUMBERLAND COUNTY, NORTH CAROLINA TBD
' i'
` • Soil Profile Descriptions
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S&NE Project Number:23050706 Boring Date:October 27,2023 Landscape Position:Rat
II ' `♦♦` s '' \ Color USDA USDA -
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,�♦��'•.. Estimated Estimated III
•
- t*, ;:4 Depth Moist Permeability Conductivity I
' - r r ♦♦ ♦ Horizon (in) (Matrix) (Mottles) Texture Grade Structure Consistence Notes (in/hr) (in/hr)
: a `•4♦4. A 0-14 10YR 2/1 sloamy w eak granular very friable 2-6 1.4-14 '
♦�►• ♦♦` ♦ measured at
•.,••♦ ♦♦♦♦♦ Btg1 14-28 10YR3/2 clay weak subangular firm 24 inches 0.02
•••,•• ♦ ♦ blocky below EGS
• •:••• •
♦♦` subangular
. - •:..•• ♦,♦;♦ Btg2 28-38 2.5Y 6/1 10YR 7/8 clay weak blocky firm 0.06-0.2 0.014-0.14
••••• ` • sandy subangular
• ♦ ` Btg3 38-48+ 5Y 6/1 weak firm 0.06-0.2 0.014-0.14
•: •• ♦,�♦ gclay blocky
••••• ♦` ♦ Estimated SHWT depth from EGS: 14 inches (1.2 feet)
•••• ♦`
••••• ♦♦ ♦ Measured OWi depth from EGS: >48 inches (>4.0 feet)
•
•• ,•• ♦♦♦'♦ Boring SW-2
••'• `
•1 •:•♦• ♦♦`♦ •1 S&IvE Project Number:23050706 Boring Date:October 27,2023 Landscape Position:Flat 1-1 Q
•�••• ►� + Color USDA USDA z
• - ••��•• ♦♦ ♦ Estimated Estimated Q
•••*• •*::** Depth Moist Permeability Conductivity
••0,�• ♦♦•:♦ -- - - Horizon (in) (Matrix) (Mottles) Texture Grade Structure Consistence Notes (in/hr) (in/hr) X Q
• ♦ W 0
o •;•�•• ••♦�:•♦ A 0-10 10YR2/1 sandy
weak granular very friable 2-6 1.4-14 Q =
•000•• •♦'•♦• . •• sandy subangular �( }
• • ♦ Btg1 10-18 10YR 3/1 weak friable 0.6-2 0.14-1.4
C, •••;• •♦••• clay loam blocky 1••1 z Q
•••• ♦ ♦•• measured at
Ci •♦ • ♦ ♦♦ ,.-1 subangular Q z
w •�••• ♦•♦♦ .f' Btg2 18-36 10YR5/1 10YR5/6 clay weak firm 24 inches 0.03 0 •
••;;•• •♦:•♦♦ RJR blocky below EGS 0 Q -
•••• ♦ ♦•• - sandy subangular } Z
•••• • ♦ - Btg3 36-48+ 2.5Y 6/1 weak firm 0.06-0.2 0.014-0.14 I� Q
Y, • ••• •• •••♦•• clay blocky J z D
o SW-3 •••• ♦ ♦♦♦•
• Estimated SHWT depth from EGS: 10 inches (0.8 feet) d' 0 Q
I\ ♦•�•• •♦ •♦•• Measured OWT depth from EGS: >48 inches (>4.0 feet) Lu U
W Y
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3 SW•�• m Q
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o ♦♦♦ •♦�••♦ ® r - S&IvERojectNumber:23050706 Boring Date:October27,2023 Landscape Position:Rat ,��// CL m
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♦ W z
o ♦��♦ ♦�••♦ '' lik Estimated Estimated W
> •♦♦ •♦•♦♦ Depth Moist Permeability Conductivity U
LU
w ♦;♦, ♦♦�♦�• NOV''‘ 4 Horizon (in) (Matrix) (Mottles) Texture Grade Structure Consistence Notes (in/hr) (in/hr) • LA
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> ♦� ♦•♦:• \ sandy subangular
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f .y ♦�i♦ ••♦•• # -` clay loam blocky
v • \
- lik
♦� •••♦• .,' \ Estimated SHWT depth from EGS: 12 inches (1.0 feet)
zs \ ♦♦♦ •♦•• 0, Measured OWr depth from EGS: >48 inches (>4.0 feet)
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�s i �� G,r 'k�, PROJECT NUMBER
�► FaTe d ® Hand Auger Boring Location 23050706
REFERENCE: % ' ' P 2 - Foot Contours
~ GIS BASE LAYERS WERE OBTAINED FROM the 2021 NCONEMAP AERIAL ORTHOIMAGERY 41 4y , FIGURE NO.
LAYER AND THE 2007 NCDOT LIDAR CONTOUR DATASET. THIS MAP IS FOR
r, f , ---- Access
\INFORMATIONAL PURPOSES ONLY. ALL FEATURE LOCATIONS DISPLAYED ARE 0 100 200t`f �,
APPROXIMATED.THEY ARE NOT BASED ON CIVIL SURVEY INFORMATION,UNLESS STATED 9 Al' ? . Proposed Ditch
6 OTHERWISE. � (FEET) '' -
•
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Project LOD
��� . it \ ' , .�
Appendix I: Ksat Test Records
S&ME
"IN-SITU" CONSTANT HEAD PERMEAMETER
Date: 10/27/2023 Hole Depth: 2.00 Feet
Location: SW-1 Hole Radius(r): 0.08 Feet
Horizon: 24 inches below exisitng ground surface Bubble Tube to Surface: 0.25 Feet
Client: Dewberry Reference Tube to Hole Bottom(D): 2.25 Feet
Project Name: DEP Barker Laydown Yard Water Depth in Hole(H): 0.50 Feet
Project#: 23050706 CHT Tube(s)Setting(hi): 1.75 Feet
Chamber Used: 0.02 V Ft2
Ksat=CQ/(2PiH2) Initial Water in Hole: 0.50 Feet
Final Water in Hole: 0.50 Feet
C=sink 1(H/r)-[(r/H)2+111/2+r/H
sinh-1=inverse hyperbolic sin of a number
H=Height of water in hole(cm)
Laydown Yard
barker
=Cross Sectional Area of Reservior x Length of Drop in Water Column over Time
Time Drop in Water Column(ft) Time(min)=
r= 0.08 ft (ft) (cm) 10
H= 0.50 ft 0-10 min. 0.026 0.80
10-20 min. 0.016 0.50
20-30 min. 0.007 0.20
30-40 min. 0.016 0.50
40-50 min. 0.016 0.50
C= 1.64 50-60 min. 0.020 0.60
Q= 0.29 Gallons/Day 60-70 min. 0.013 0.40
70-80 min. 0.013 0.40
80-90 min. 0.013 0.40
90-100 min. 0.013 0.40
Avg. 0.013
Cross Sectional Area= 0.02 ft2
Length of Drop in Water Column= 1.81 ft/day
Ksat = 0.31 Gallons/Day/ft2
Inches/Hour= 0.020
Note: Ksat calculations are based on average drop in Water Column(ft)after equilibrium is reached.
T:\Raleigh-1050\Projects\2023\23050706_Dewberry_Duke Energy Barker Laydown Hope Mills NC\ENV\Project Docs\Reports\Ksat data.xls 11/1/2023
S&ME
"IN-SITU" CONSTANT HEAD PERMEAMETER
Date: 10/27/2023 Hole Depth: 2.00 Feet
Location: SW-2 Hole Radius(r): 0.08 Feet
Horizon: 24 inches below exisitng ground surface Bubble Tube to Surface: 0.25 Feet
Client: Dewberry Reference Tube to Hole Bottom(D): 2.25 Feet
Project Name: DEP Barker Laydown Yard Water Depth in Hole(H): 0.50 Feet
Project#: 23050706 CHT Tube(s)Setting(hi): 1.75 Feet
Chamber Used: 0•11 V Ft2
Ksat=CQ/(2PiH2) Initial Water in Hole: 0.50 Feet
Final Water in Hole: 0.50 Feet
C=sink 1(H/r)-[(r/H)2+111/2+r/H
sinh-1=inverse hyperbolic sin of a number
H=Height of water in hole(cm)
Laydown Yard
barker
=Cross Sectional Area of Reservior x Length of Drop in Water Column over Time
Time Drop in Water Column(ft) Time(min)=
r= 0.08 ft (ft) (cm) 10
H= 0.50 ft 0-10 min. 0.010 0.30
10-20 min. 0.007 0.20
20-30 min. 0.010 0.30
30-40 min. 0.010 0.30
40-50 min. 0.007 0.20
C= 1.64 50-60 min. 0.003 0.10
Q= 0.38 Gallons/Day 60-70 min. 0.003 0.10
70-80 min. 0.003 0.10
80-90 min. 0.003 0.10
90-100 min. 0.003 0.10
Avg. 0.003
Cross Sectional Area= 0.11 ft2
Length of Drop in Water Column= 0.45 ft/day
Ksat = 0.40 Gallons/Day/ft2
Inches/Hour= 0.027
Note: Ksat calculations are based on average drop in Water Column(ft)after equilibrium is reached.
T:\Raleigh-1050\Projects\2023\23050706_Dewberry_Duke Energy Barker Laydown Hope Mills NC\ENV\Project Docs\Reports\Ksat data.xls 11/1/2023
S&ME
"IN-SITU" CONSTANT HEAD PERMEAMETER
Date: 10/27/2023 Hole Depth: 2.00 Feet
Location: SW-3 Hole Radius(r): 0.08 Feet
Horizon: 24 inches below exisitng ground surface Bubble Tube to Surface: 0.25 Feet
Client: Dewberry Reference Tube to Hole Bottom(D): 2.25 Feet
Project Name: DEP Barker Laydown Yard Water Depth in Hole(H): 0.50 Feet
Project#: 23050706 CHT Tube(s)Setting(hi): 1.75 Feet
Chamber Used: 011 V Ft2
Ksat=CQ/(2PiH2) Initial Water in Hole: 0.50 Feet
Final Water in Hole: 0.60 Feet
C=sink 1(H/r)-[(r/H)2+111/2+r/H
sinh-1=inverse hyperbolic sin of a number
H=Height of water in hole(cm)
Laydown Yard
barker
=Cross Sectional Area of Reservior x Length of Drop in Water Column over Time
Time Drop in Water Column(ft) Time(min)=
r= 0.08 ft (ft) (cm) 10
H= 0.60 ft 0-10 min. 0.016 0.50
10-20 min. 0.020 0.60
20-30 min. 0.013 0.40
30-40 min. 0.016 0.50
40-50 min. 0.016 0.50
C= 1.80 50-60 min. 0.010 0.30
Q= 1.15 Gallons/Day 60-70 min. 0.013 0.40
70-80 min. 0.010 0.30
80-90 min. 0.010 0.30
90-100 min. 0.010 0.30
Avg. 0.010
Cross Sectional Area= 0.11 ft2
Length of Drop in Water Column= 1.36 ft/day
Ksat = 0.92 Gallons/Day/ft2
Inches/Hour= 0.061
Note: Ksat calculations are based on average drop in Water Column(ft)after equilibrium is reached.
T:\Raleigh-1050\Projects\2023\23050706_Dewberry_Duke Energy Barker Laydown Hope Mills NC\ENV\Project Docs\Reports\Ksat data.xls 11/1/2023
Appendix II: Site Photographs
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fit'/r�.,��i�'�'''. "�� .�• P 35� �� _..� e„-.N r �. �' .:. -,. ` `�i e
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t t d A fir.. ''2_,' q�3 �4�'! A ram g. '° ' 7• ,- L H
'a . ;4. `r1 ti"i l`4S w ). m 5 , ' a '€ � J,."t
'r.J.^ r^' 3 CLJdnH'CE4�z`"¢xY' NY` ' S,,`�+ .; 'N.': i .'{ ,:y,.' r S 1 .ta... ..W, `,M
3 iew of hand auger boring/Ksat test location SW-3. 4 iew of soil typical of the subsurface conditions where Ksat
esting was performed at locations SW 1 through SW 3.Soil had
a texture of clay or sandy clay,and had SHWT mottling.
Duke Energy Barker Laydown Yard — Drainage Ditch S&ME Project No. 23050706
I ( — 5549 Braxton Road Taken by:W.Cole Date Taken:— 10/27/2017
Hope Mills, North Carolina