HomeMy WebLinkAboutSW8891010_HISTORICAL FILE_19950531STORMWATER DIVISION CODING SHEET
POST -CONSTRUCTION PERMITS
PERMIT NO.
SW8 gq VOI(D
DOC TYPE
❑ CURRENT PERMIT
❑ APPROVED PLANS
® HISTORICAL FILE
❑ COMPLIANCE EVALUATION INSPECTION
DOC DATE
Par) Qr� �
YYYYMMDD
1/�Q MOFFATT & NICHOL
May 31, 1995
North Carolina Department of Environment,
Health & Natural Resources
127 Cardinal Drive Extension
Wilmington, N.C. 28405-3845
Attn.: Ms. Linda Lewis
RE: Concrete Paving and Loading Ramps, N62470-87-B-9450
Marine Corps Base, Camp Lejeune
Utilization of Existing Infiltration Pond
Dear Ms. Lewis:
Thank you for sending the calculations for determining the size of the existing infiltration
pond located at building FC-134. The proposed project will pave the previously unpaved
area located between the FC-134 parking lot and the concrete paved operations area on
the west side of FC-120.
I have modified the calculations to represent the changed conditions and these
modifications are marked in red. The initial design provided 10,800 cubic feet of volume
while the initial project design parameters required only 8225 cubic feet of storage. After
revising the calculations for the additional paving, the revised project area will require
10,890 cubic feet of volume in the infiltration pond.
We wish to tie to the existing infiltration pond without any modifications to the existing
pond since the required volume exceeds the existing volume by only 90 cubic feet. The
storage volume difference would actually be less than this since the proposed piping to
carry the water to the pond will provide some storage volume.
A small area around an existing catch basin located on the north side of the existing
paved area will catch a small amount of runoff from the proposed pavement and this
runoff will exit into the ditch located to the east of the infiltration pond and will not be
treated.
3717 National Drive, Suite 107, Raleigh, North Carolina 27612 (919) 781-4626 Fax (919) 781-4869
Page 2
Ms. Linda Lewis
May 31, 1995
Calculations and plans which indicate the existing and proposed paving and piping
systems are enclosed for your review. If you need additional information or have any
questions, please contact me at (919) 781-4626.
Sincerely,
MOOFFATT & NICHOLL, ENGINEERS
Tim Reid, P.E.
Project Engineer
Attachments
3400.09
Moffatt & Nichol, Engineers
OPERATION AND MAINTENANCE PLAN
FOR THE
ELECTRONICS/COMMUNICATIONS MAINTENANCE FACILITIES
SNEADS FERRY ROAD AND MAIN SERVICE ROAD
STORM WATER INFILTRATION PONDS
1. Cut and maintain grass around the perimeter of the
infiltration pond. Keep area free of debris.
2. Check flared -end section after every storm. Replace any
riprap disturbed during the storm to meet original operating
conditions.
3. Check emergency spillway after each storm. Replace any
riprap disturbed during the storm to meet the original
operating conditions.
4. Establish a benchmark to monitor sediment buildup in each
infiltration pond. Check the level every six months. When
one foot of sediment accumulates, drain each pond and remove
the sediment. Each pond must be pumped dry, since no
emergency drain is possible.
JIS/lw
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DEPARTMENT OF THE NAVY
OFFICER IN CHARGE OF CONSTRUCTION
RESIDENT OFFICER IN CHARGE OF CONSTRUCTION
NAVAL FACILITIES ENGINEERING COMMAND CONTRACTS
CAMP LEJEUNE, NORTH CAROLINA 28542-5000
Mr. Dave Adkins
Regional Supervisor
Division of Environmental Management
State of North Carolina
Department of Environmental Health and Natural Resources
127 Cardinal Drive Extension
Wilmington, North Carolina 28405-3845
IN REPLY REFER TO.
919-451-2583
N62470-88-C-8085
JAX/MCV/vm
1 FEB 93
RECEIVED
FEB 2 1993
Wilmington Regional office
DEM
Re: Project No. 891010 Stormwater Detention Pond, Electronics
Communications Maintenance Shop, Marine Corps Base, Camp
Lejeune, North Carolina
Dear Mr. Adkins:
Pursuant to your approval letter dated April 25, 1990 (Project No. 891010) please find
enclosed the executed construction completion certification for the referenced
permit.
Sincerely,
'off z/
A. MEHULA
CDR, CEC, USN
Encl:
(1) Construction Certification (Project No. 891010)
MRM VMM I ER
U 1� U u L I,
lu1 FEB 0 3 1993
DEIW
�7 VI R91U10
Engineer's Certification
I, JIi,ID V. as a duly registered
Professional Engineer in the State_ North Carolina, having
been authorized to observe ( eriodica /weekly/full time) the
construction of the project,
C(-eCikcwtcslri� r dIv�O , CfhN�� �P sc'Tiivc /f/C
(Project)
for the v � Go,'/-• hereby state that, to
(Project Owner)
the best of my abilities, due care and diligence was used in the
observation of the project construction such that the
construction was observed to be built within substantial
compliance and intent of the approved plans and specifications.
Signature
Registration Number U' � / 5"/Lo
Date l S�
u� FEB 0 3 1993 U
D E IVI
•„� �� 8q IolO _
Engineer's Certification
I, '�f400D V. YY\AieS 4QV(( ) as a duly registered
Professional Engineer in the State North Carolina, having
been authorized to observe ( erio(dica /weekly/full time) the
construction of the project,
C`eCryc'V,CS/Cow� J hcr✓� , (ihu(7 CP3-c-z.n.r Al C-
(Proj ect)
for the i/ d; G' "74
hereby state that, to
(Project Owner)
the best of my abilities, due care and diligence was used in the
observation of the project construction such that the
construction was observed to be built within substantial
compliance and intent of the approved plans and specifications.
Signature ��-
Registration Number? �� /CK/L�
Date
II i
FrB U ? 1993 v
D E ivl
60/;1r',
DATE /aAI PEL'�'OR'__-_.---____—__
CDKNE"fS•I�S--�--___-_- ----_-_-_---
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(.—C'000-i[wc_{-won �cJi —CnmP lal•_t-- —,—. --- — ---
I
-11�5�92_ AF
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-
STATE OF NORTH CAROLINA
Department of Environment, health and Natural Resources
Wilmington Regional Office
James C. Martin, Covcmor
Vlilliam \i'. Cobey. Jr.,,See ctary
130b Jamieson
FAX COVER SHEET Regional Manager
---------------------------------------------------
I I
DATE: �I U
TO:
OFFICE:
FAX NUMBER:
-----------------------------------------------------------------
FROM:
DIVISION/
SECTION:
TOTAL PAGES:
(including cover)
REMARKS:
5 �, 01
I iPdAI 4r v Lrne- 4&1A,
Sent by:
Fax Telephone Number 919-256-8572
7225 Wright,,illc Awnuc, Wilmington, N.C. 2s io3-3(,,)i klcphanc 719256-1161
RECEIVE®
Qa APR 3 0 1990
Wilmington Regional OM06
State of North Carolina ^`°"
Department of Environment, Health, and Natural Resources
Wilmington Regional Office
James G. Martin, Governor Bob Jamieson
William W. Gobey, Jr., Secretary Regional Manager
DIVISION OF ENVIRONMENTAL
April 25, 1990
Mr. Jeffery I. Smith��
Post Office Box 187-1-
Charlotte, North Carolina
Subject:
Dear Mr. Smith:
Certification of Compliance
with Stormwater Regulations
Project No. 891010
Electronics/Communications
Maintenance Facility P-679
Onslow County
The Wilmington Regional Office received the Stormwater
submittal for P-679 on October 16, 1989 with final information
received April 24, 1990. Based on our review of the project
plans and specifications, we have determined that the
infiltration system complies with the Stormwater Regulations set
forth in Title 15A NCAC 2H.1003(h). This certification shall be
effective from the date of issuance until rescinded and the
project shall be constructed and maintained in accordance with
the plans and specifications approved by the Wilmington Regional
Office.
Upon completion of construction and prior to operation of
P-679, an engineer's certification must be received from a
professional engineer certifying that the infiltration system has
been installed in accordance with the approved plans and
specifications. The attached certification should be received by
this office within 30 days of completion of construction.
If you have any questions concerning this matter, please
call Alexis Finn or me at (919) 256-4161.
Sinc yly�
L. Bush, Jr.
Water Quality Supervisor
Attachment
AIF:891010.ADD
cc: Bill Mills, WiRO, CF, AIF
7225 Wrightsville Avenue, Wilmington, N.C. 28403-3696 • Telephone 919-256-4161 • Fax 919-256-8572
An Equal Opportunity Affirmative Action Employer
Engineer's Certification
I, , as a duly registered
Professional Engineer in the State of North Carolina, having
been authorized to observe (periodically/weekly/full time) the
construction of the project,
ect)
for the
hereby state that, to
(Project Owner)
the best of my abilities, due care and diligence was used in the
observation of the project construction such that the
construction was observed to be built within substantial
compliance and intent of the approved plans and specifications.
Signature
Registration Number
Date
DIVISION OF ENVIRONMENTAL MANAGEMENT
Evaluation of Stormwater Treatment and Disposal System
PROJECT DATA
Project Name: Electronics/Communications Maintenance Facility
P-679
Project No.: 891010
Location (County, Township/Municipality, Address):
Onslow County
Marine Corps Base
Camp Lejeune, North Carolina
Applicant Name: Mr. Jeffery I. Smith
Mailing Address: J. N. Pease Associates
Post Office Box 18725
Charlotte, North Carolina 28218
Submittal Date: October 16, 1989
Water Body Receiving Stormwater Runoff: Cogdels Creek
Name of River Basin: White Oak
Classification of Water Body: SC
1. Yes
No
System is capable of treating and disposing of
runoff from all impervious surfaces resulting from 1
inch of rain.
2. es
No
The system is located at least 30 feet from surface
waters.
3. es
No
The system is a minimum of 100 feet from water supply
wells.
4. Yes
No
The bottom of the system is a minimum of 2 feet above
the seasonal high water table.
5. es
No
Runoff in excess of the design volume by-passes the
system and does not flush pollutants through the
system.
6. Yes
No
A method is used to provide even distribution of
runoff over the length of the vegetative filter.
Continued
North Carolina Department of
Environment, Health, and Natural Resourc
7225 Wrightsville Ave. Wilmington, North Carolina 2g403-3�6
Y_
Mr. J
P. 0.
Nn�.�4I�`
lVo5;
D
Smith
228218
r,
Architecture Engineering Planning Interiors
/ TO: Ms. Alexis Finn
North Carolina Department of Environment, Health,
and Natural —Resources
Division -of -Environmental Management
----= 7225 Wrightsville Avenue
Wilmington, North Carolina 28403-3696
PROJECT: Project No. 891010
Electronics/Communications Maintenance Facility
P-679 RECEIVED
Camp Lejeune, North Carolina
COMM. NO: 88053-00 APR 2 0 K990
Wilmington Regional office
DATE: April 19, 1990 nr„
SUBJECT: Stormwater Management TRANSMITTAL LETTER
We are sending you [x] Enclosed [ ] Under Separate Cover
[x] Prints [ ] Tracings
[ ] [ ] Specifications
NO. OF
COPIES DRAWING NO. DATED DESCRIPTION
2 Each C7 and C-8 --- Site Plan Showing Monitoring Wells
1V C E � WED
App. 2 E. 1990
19EM
Remarks: FROJ #
Enclosed is the information requested in our telephone conversation on
Tuesday, April 17. Please telephone me once final approval is given on the
referenced plan, so that I can issue these drawings to the Navy.
JIS/lw
J. N. PEASE ASSOCIATES
i &i;L
OVPtj0y. Smith, EIT
J.N. Pease Associates R0. Box 18725 2925 bast Independence Bled. Charlotte, NC 28218 704 376-6423
P E A S E
A r c h i t e c t u r e E n g i n e e r i n g P l a n n i n g
April 6, 1990
ECE _ IV no
Ms. Alexis Finn A. 1990
North Carolina Department of Environment, Health, D E M
and Natural Resources YROJ # RV4LQ
Division of Environmental Management
7225 Wrightsville Avenue
Wilmington, North Carolina 28403-3696
Reference: Project No. 891010
Electronics/Communications Maintenance Facility
P-679
Camp Lejeune, North Carolina
Subject: Stormwater Management Plan
Dear Ms. Finn:
Enclosed is the additional information required for approval of
the referenced Stormwater Management Plan. Responses to each
comment are as follows:
1. Provided are two maps showing Cogdels Creek (Class SC)
as the closest stream.
2. Due to limited available area for erosion control, we
propose to utilize the infiltration ponds as sediment
basins during construction. To prevent clogging, the
basins will be lined with erosion control filter
fabric. Refer to the enclosed two copies of each site
plan.
3. A minimum basin slope of 3:1 will be used.
4. We propose to bypass the excess runoff with the
utilization of junction boxes containing overflow
weirs. Please refer to the two copies each of the
site plans and detail sheet.
5. The emergency spillways will be used as protection
from overtopping the earthen dams during heavy rains.
The riprap protection will be provided above the
storage level of the ponds.
J.N. Pease Associates 1?0. Box 18725 2925 Fast lndcpcndcncc Blvd Charlotte, NC 28218 704 376d423
Ms. Alexis Finn
Page 2
April 6, 1990
Please review this information, and let us have your response
as soon as possible.
Sincerely,
IeVeyI. Smith, EIT
JIS/lw
Enclosures
cc: Mr. Brian Abbott
It.
DIVISION OF ENVIRONMENTAL MANAGEMENT
April 4, 1990
Mr. Jeffery I. Smith
Post Office Box 18725
Charlotte, North Carolina 28218
Subject: Additional Information
Project No. 891010
Electronics/Communications Maintenance
Facility P-679
Onslow, County
Dear Mr. Smith:
The following information is needed to complete the
Stormwater review for certification of P-679. This letter will
serve to recap our telephone conversation on April 3, 1990 in
hopes of expediting the review process.
1.
A copy of a topographic map which shows the location of
the project and the receiving stream. This information
h
will aid in determining the correct stream
classification. Co GDE S Cec_:C-lL : 5C
�I
UJ 4' Z:v t OPrVG e. ";-'_k
oS� 2.
Using infiltration basins as sediment storage areas
.greatly increases the potential of longer drawdown
A-
periods (i.e. clogging of soil pore volume) and
long-term maintenance difficulties., It is therefore
suggested that the sediment storage areas be relocated
�=TYPe
to areas other than the infiltration basins. This
review, however, will consider alternatives to
li er,�
relocating the sediment storage areas if an
Notds fines /u,_�e,alternative is proposed which will .prevent drawdown
and maintenance requirements from being increased.
3. Minimum basin slopes of 3:1 unless stabilized.
hn5 4. Bypass of runoff greater than one inch (or 1.5 inches
depending on receiving stream classification). Please
see the two attached bypass structures, we have also
seen catch basins designed to achieve bypass.
5. There is no need for a outlet in an infiltration basin
which is designed with a bypass.
These subsequent revisions need to be noted on a
revised set of plans. Only the pages which have been revised
need to be submitted.
attachment
2H . I cry-) (her)
Mr. Smith
April 4, 1990
Page 2
This information should be received by this office no later
than May 4, 1990 or your project will be returned as incomplete.
Please be reminded that construction of the subject project
may not commence prior to approval of the Stormwater Management
Plan. We will make every attempt to assist you. If you have any
questions, please call Alexis Finn or Ted Bush at telephone
number (919) 256-4161.
Sincerely,
/n/T. L. Bush, Jr.
Water Quality Supervisor
AIF:891010.APR
cc: Debra Riddle
Bill Mills
WiRO, CF, 2AIF.
Project 1: 891010 File Name: INF010 Reviewer:Alexis Finn
Project Name: P-679: ELECTRONAC/COMMUNICATION SHOP Date: 04/03/90
ttttttttttttttttttINFILTRATION BASIN ANALYSI3ttttttttttttttt MI
SUBAREA E1:
ttttttttttt
BASIN I OF 2:
Basin Bottom Elevation,
ELbb:
ELbb-
22
ft t#
Area of Basin Bottom,
Abb:
Abb=
2100
W2 1t
10 Year Flood Elevation,
EL10:
EL10-
25
ft IY
Area of 10 Year Flood,
A10.
A10-
3750
ft"2 t!
Total Drainage Area, DA:
DA=
199940
sf
DA=
4.589990
Acres
Total Imperviou€ Surface Area, SA: (FOR BASIN 11)
SA:
86684.4
sf
[SA (acre)] / [43560 ft'2/acrej=
SA=
1.99
Acres
Area of Rooftops, Ar:
Are
19166,4
sf
Are
0,44
Acres
Area of pavement, AP:
Area of Grass, Ag:
Determine Runoff Coefficient, C:
Cr, Rooftops: I
Cp, Pavement: 019
Cg, Grass- 0.2
r[(Ar/CA)rrrj}((Ap/DA)vCp]}[(Ag/DA)$-g) = 0.513072
Minimum Required Storage Volume, VOLreq:
[SA (ft"2) i (I inch of runoff) t (I ft/12 inch) I C[=
[ 86684.4 ft-2 v 1.0 inch $ 0.083333 ft/inch 10.513012 le
Storage Depth, d;
d= (Volreeq (ft'3)j / [Abb (ft'2)1=
d= 8548.643 / 2100
Note: Use project Engineer's given depth for the following computations.
Minimum Elevation of Storage Basin, ELsp;
ELsp= d (ft) t ELbb (ft)=
ELsp= 3 / 22 -
Area of Storage pond, Asp:
Interpolation of Asp at it's Elevation
Elevation Area
(ft) (ft-2)
Permanent pool: 22 2100
Storage pond 25 Asp
10 Year flood : 25 3750
Ap=
67518
sf
Ap=
1.55
Acres
Ag=
113255.6
sf
Age
2,599990
Acres
VOLreq: 8548.643 ft"3
d- 4.070782 ft
d(engi)= 3 ft
Asp: App + ((AID - App) x (ELsp - ELpp)/(EL10 - ELpp)) Asp:
Storage Volume provided, VOLpro: Side Slope: 3:1 lilt
Volume 1, VI: App + d 2100 W2 x 3 ft - VI:
Volume 2, V2= (Asp App) x d + 0.5 - V2=
VOLpro = VI t V2 6300 ft-3 r 3 ft"3 VOLpro:
Note;
VOLreq < VOLpro excess storage is available, therefore Basin Size is Acceptable
t Excess Storage -1 - (VOLreq / VOLpro) r 100 * S Excess Storage
25 ft
3750 ft"2
6300 ft'3
2415 ft'3
8715 ft'3
<--------
2,58t<--------
SUBAREA 11 CONTINUED:
INFILTRATION CAPACITY WITHIN 72 HOURS:
--------------------------------------
CONFIRMED BY RECHARGE XODEL RESULTS, via kICK SHIVER,
SUBAREA 12:
MMMIII
BASIN 12 OF 2:
Basin
Bottom Elevation, ELbb:
ELbb:
12
ft {{
Area
of Basin Bottom, Abb:
Abb=
3923
ft"2 {{
10 Year
Flood Elevation, ELIO:
ELIO-
14
ft {}
Area
of 10 Year Flood, AID:
A10=
8302
ft'2 {{
Total
Drainage Area, DA:
DA:
205603.2
sf
DA-
4.72
Acres
Total
Impervious Surface Area, SA: (FOR BASIN {2)
CA-
80586
sf
[SA (acre)] / (43560 ft"2/acre]=
SA-
1.85
Acres
Area of Rooftops, Ar:
Are
6098,4
sf
Ar=
0.14
Acres
Area of Pavement, Ap:
Ap=
74481.6
sf
Ap=
1.71
Acres
Area of Grass, Ag:
Ag=
125011.2
sf
Ag=
2.81
Acres
Determine Runoff Coefficient, C:
Cr, Rooftops- I
Cp, Pavement: 0.9
Cg, Grass- 0.2
C=[(Ar/DA)4Cr]+((Ap/0A)trp)+[(Ag/DA)$Cg] = 0,471330
Minimum Required Storage Volume, VOLreq:
(SA (ft'2) i (I inch of runoff) (1 ft/12 inch) t C]=
[ 80586 ft"2 v 1,0 inch ' 0.083333 ft/inch 10,411330 ]= VOLreq= 8118,39 ft"3
Storage Depth, d:
d= [Volreq (ft'3)) / (Abb (ft"2)1=
d= 8118.39 / 3923 d= 2.084728 ft
Note: Use Project Engineer's given depth for the following computations,
d(engi)= 2 ft
Minimum Elevation of Storage Basin, ELsp:
ELsp= d (ft) + ELbb (ft)=
ELsp= 2 12 = ELsp= 14 It
Area of Storage Pond, Asp:
A r c h i t e c t u r e E n g i n e e r i n g P l a n n i n g
RECEIVED
March 5, 1990
MAR 'I ��--
Wilmington Regle"a1 "'co
Mr. Rick Shiver
North Carolina Department of Environment, Health,
and Natural Resources
Division of Environmental Management
7225 Wrightsville Avenue
Wilmington, North Carolina 28403-3696
Reference: Electronics/Communications Maintenance
Facility P-679
Marine Corps Base
Camp Lejeune, North Carolina
Subject: Storm Water Management
Dear Mr. Shiver:
As requested in your letter on December 15, 1989, we have
gathered the sufficient data needed to put into the "recharge"
model obtained from Colorado State University. Enclosed are
the results from the model. It appears that there is at least
a two -foot unsaturated zone at the end of five days for each
basin.
Please review the enclosed results and let us have your
response at your earliest convenience. If you have any
questions, please do not hesitate to contact us.
Sincerely,
K�l J4��e
Jeffrey I. Smith, EIT
JIS/lw
Enclosure
cc: Mr. Brian Abbott
Ms. Mary Isaacs
J.N. Pease Associates K). Box 18725 2925 Fast Independence Blvd Charlotte, NC 28218 704 376-6423
E E A S E
i A r c h i t e c t u r e E n g i n e e r i n g P l a n n i n g
f �
January 25, 1990
Mr. Rick Shiver, P.G.
Environmental Regional Supervisor
North Carolina Department of Environment,
Health, and Natural Resources
Division of Environmental Management
7225 Wrightsville Avenue
Wilmington, North Carolina 28403-3696
Reference: P-679
Electronics/Communications
Maintenance Facility
Camp Lejeune, North Carolina
Subject: Stormwater Management
Dear Mr. Shiver:
F`'ECE►VED
JAN 2 9 jo
�rming� R
Enclosed is the information requested in your letter of
December 15, 1989. There should be sufficient data for input
into the "recharge model."
Please review this information and let us have your response as
soon as possible.
If you have any questions, or if we can provide any additional
information, please contact us.
Sincerely,
Jeffrey I. Smith, EIT
JIS/lw
Enclosures
cc: Ms. Mary Isaacs
Mr. Brian Abbott
J.N. Pease Associates 110. Box 18725 2925 East Independence Blvd. Charlotte, NC 28218 704 376-6423
DATA REQUIRED FOR RECHARGE MODEL
BUILDING NO. 1
BUILDING NO. 2
- Depth to Seasonal High
12
Feet
9
Feet
Water Table
2
2
- Transmissivity
600
Feet /Day
500
Feet /Day
- Storage Coefficient
0.2
0.2
- Recharge Rate
9.6
Feet /Day
9.6
Feet /Day
- Basin Width
50
Feet
60
Feet
- Basin Length
75
Feet
180
Feet
- Distance to Stream
1500
Feet
1300
Feet
jr7
1 0
{.1........
all
...........
Al
*S&ME
(A partnership in North Carolina) August 24, 1988
Gantt/Huberman Architects
112 West Fifth Street
Charlotte, North Carolina 28202
Attention: Mr. Jeffrey A. Huberman, AIA
Reference: Geotechnical Investigation Report
Electronics Communications Maintenance Shop
P-679, Building No. 1
Camp Lejeune, North Carolina
S&ME Job No. 1054-88-581
Gentlemen:
S&ME has completed the authorized geotechnical investigation at the
proposed maintenance shop site located at Camp Lejeune, North Carolina.
Subsurface conditions at the site were investigated with twelve test borings
which were drilled at the approximate locations shown in Figure 1. Eight
borings were drilled at the proposed building site to depths ranging from 20 to
30 feet below the existing ground surface, and four borings were drilled in the
proposed pavement area to a depth of 10 feet. Soil samples were obtained at
selected intervals by the ASTM D-1586 standard penetration test method to
determine the consistency of the subsurface soils. This report presents the
findings of our investigation with recommendations for support of the facility
based on these findings.
PROJECT DESCRIPTION
The project site is located north of Main Service Road and west of
Sneads Ferry Road, as shown in Figure 1. Since this relatively level site is
heavily wooded, a dozer was used to access the proposed boring locations. An
existing building (Building FC-50) is located north of the project site.
We understand that the proposed one-story building will have plan
dimensions of approximately 70 feet by 260 feet. The structure will be
supported by load -bearing walls and interior columns with design loadings on
the order of 3 kips per lineal foot and 70 kips, respectively. The floor slab
will be constructed on grade with design loadings on the order of 100 to 150
pounds per square foot (psf). We have assumed that final floor grade will be
raised approximately one to two feet in order to provide positive surface water
runoff away from the building.
S&ME. Inc.
7650 Marker Street
UImingion, NC 28405 (919) 686.7474
Gantt/Huberman Architects
August 24, 1988
Page Two
The subsurface conditions encountered at the test boring locations
generally consisted of interbedded layers of loose to firm clean, slightly
clayey or clayey sands within the upper 8 feet of the in -place soils. Below a
depth of 8 feet, the in -place soils typically consisted of firm clean sands
which extended to the maximum completed boring depth of 30 feet. The upper
clean and clayey sands exhibited penetration resistance values varying from 5
to 13 blows per foot (bpf), whereas the underlying sands had penetration
resistance values in the 8 to 22 bpf range.
Since the walls of the boreholes collapsed upon completion of the
field drilling work, it was difficult to determine the depth to groundwater.
The walls of the boreholes typically collapsed at depths ranging from 6 to 14
feet below the existing ground surface. We anticipate that groundwater will
not affect the foundation construction work. However, the presence of
near -surface clayey sands could cause a perched water condition to develop
after periods of heavy or extended rainfall. A perched water condition would
adversely affect the site preparation operations during wet weather.
A generalized subsurface profile, which has been prepared from the
subsurface data to graphically illustrate the subsurface conditions encountered
l at the test borings, is attached to this report as Figure 2. Variations from
the generalized subsurface profile described above and a more detailed
description of the subsurface conditions are presented in the Test Boring
Records contained in the Appendix of this report.
RECOMMENDATIONS
The following recommendations are made based on a review of the
attached data, our understanding of the proposed construction, and our past
experience with similar projects and subsurface conditions. If structural
conditions or grading plans should change from those now under consideration,
we would appreciate the opportunity to review and comment on these
recommendations so they may be confirmed or modified as necessary. In
addition, any subsurface conditions encountered during construction which are
adverse to those represented in this report should be reported to us for review
and comment.
®r
Gantt/Huberman Architects
August 24, 1988
Page Three
Site Preparation. Site preparation should be initiated by clearing
and stripping the building and parking areas of trees, bushes, grass, roots,
organics, and other unsuitable foundation -supporting material. We anticipate
that approximately 3 to 6 inches of topsoil and loamy sand will be removed
during the stripping work. In addition, any underground utilities located
beneath the proposed foundations should be relocated.
After the required site stripping work has been completed, we
recommend that the exposed subgrade sands be proofrolled with a 10-ton
vibratory steel -wheeled roller to densify the exposed sands and to locate any
areas of soft or otherwise unsuitable surface conditions. Any area which pumps
or ruts excessively in the opinion of the engineer should be undercut and
replaced with a granular structural backfill as described below. Because of
the clayey nature of some of the surficial soils, we recommend that the grading
and site preparation work be conducted during the drier months of the year
(from April to October). If the site preparation work is conducted during the
wetter months, we anticipate that some subgrade repair work will be required.
To provide adequate drainage, it is our opinion that the site should be raised
approximately 1 to 2 feet by placing and compacting structural fill. We also
recommend that the site be graded during construction to provide positive
surface water runoff away from the construction site.
Where structural fill is required to reach finished grade, we
recommend that a clean, silty, or clayey sand having a Unified Soil
Classification of SP, SM, or SC be used. The on -site sands meet this
criterion. The fill should be placed in 6 to 8-inch thick lifts and should be
compacted to at least 95 percent of the standard Proctor maximum dry density
(ASTM 0-698); however, the compaction of the upper 12 inches of subgrade in the
building and parking areas should be increased to at least 98 percent of the
standard Proctor maximum dry density. To confirm that the specified degree of
compaction is being obtained, field density testing should be performed in each
fill lift by a soils technician. At those areas where no structural fill is
placed on site, we recommend that the upper 12 inches of the in -place subgrade
materials be compacted to at least 98 percent of the standard Proctor maximum
dry density. We also recommend that the foundation subgrade soils be inspected
and tested prior to concrete placement to determine if any subgrade repair work
is required.
Foundation Support. Following site preparation as discussed above,
the structure may be supported on shallow spread footing foundations designed
for a soil contact pressure of 2000 psf. All shallow foundations should bear
at least 18 inches below exterior grade to develop the allowable foundation
bearing pressures. In addition, all wall footings and interior column footings
should have a minimum width of 18 inches and 24 inches, respectively. The use
of these allowable foundation bearing pressures should limit total foundation
settlements to approximately one inch or less with differential settlements on
the order of 1/2 inch or less. We also anticipate that floor slab settlements
will be less than 1/4 inch. This magnitude of movement is typically considered
acceptable for structures such as the one proposed on this site; however, this
should be confirmed by the structural engineer.
Gantt/Huberman Architects
August 24, 1988
Page Four
Pavement Construction. The near surface sands will provide
adequate support for properly designed and constructed pavement sections.
After the site preparation has been completed as discussed above, the prepared
subgrade should exhibit a design CBR value on the order of 8 to 10. Laboratory
or field CBR testing of the subgrade soils should be conducted to confirm the
design CBR value before a pavement design is selected. An actual pavement
design cannot be made until traffic loadings and volumes are provided; however,
typical designs for similar projects are as follows. For areas subject to only
car parking, a minimum of 6 inches of base course stone overlain by 2 inches of
NCDOT I-1 or I-2 asphaltic concrete is typically used. In areas subject to
channelized car traffic or occasional heavy truck traffic, the pavement
structure often consists of 2 or 3 inches of asphalt over 8 inches of base
course stone. Material gradations and placement densities should meet the
minimum requirements presented by the North Carolina Department of
Transportation. We will be pleased to provide an actual pavement design if you
will provide us with traffic volumes and load estimates.
S&ME appreciates having the opportunity to be of service to you
during this phase of the project. If you have any questions or comments after
reviewing this report, or if we can be of additional service to you, please do
not hesitate to contact us at your convenience.
Very truly yours,
S&ME
Parks A. Downing, IrZ.
Manager
/A4,4�/,a�/ Al.
Michael W. Behen, P.E.
N.C. Registration No. 8384
PADjr:MWB/jns
Attachments
TABLE 1
Grain Size Analysis
Proposed Maintenance Shop
P-679, Building No. 1
Camp Lejeune, North Carolina
SBME Job No. 1054-88-581
Boring No.:
B-2
B-3
B-4
B-9
Depth (Ft.):
1-2.5
3.5-5
1-2.5
6-7.
Sieve No.
Percent Passing.
By Weight
10
100.0
100.0
100.0
99.9
40
99.2
98.7
98.9
94.4
80
71.7
72.0
75.2
44.7
200
16.9
16.4
21.7
16.9
EXISTING
BUILDING
FC-50
f9v" lWMO . D
PROPOSED PAVEMENT AREA
• B-9 • B-11
B-1
B- 2
• B-7 • B-8
B-6 B-5
•
B-10
I LEGEND
APPROXIMATE BORING LOCATION
PROJECT
PROPOSED MAINTENANCE SHOP
P-679, BUILDING NO. 1
a CAMP LEJEUNE, NC
B-3
• B-12
N
GONZALEZ
BOULEVARD
SCALE: Not to Scale
J 0 B NO'1054-88-581
F IG N0: 1
DEPTH
0
(FT)
B-1
5
7
13
13
10
16
1
3
20
30
u
3
e PROJECT
PROPOSED MAINTENANCE SHOP
P-679, BUILDING NO. 1
CAMP LEJEUNE, NC
GENERALIZED SUBSURFACE PROFILE
-2 B-3 B-4 B-5
B-6
B-7
B-8
r 8 8 r 8 r
10
8
6
~ 6
9 ;. 10 11
13
r 11
8
. 8
r
r
16 14 13
18
10
13
10
15 15 18
18
12
10
17
20 22 17
18
14
17
25
12 15 21 N
g
13
15
15
9
13
15
16
LEGEND
Clean or Slightly Clayey SAND
R Clayey SAND
SC A L E : Not to Scale
SMEJ C NO. 1054-88-581
LF V. r,.3 2
DEPTH (FT)
5-
10—
PROJECT
PROPOSED MAINTENANCE SHOP
P-679, BUILDING NO. 1
CAMP LEJEUNE, NC
GENERALIZED
SUBSURFACE PROFILE
B-9
B-10 B-11
B-12
20
7
6
4
6
13
9
8
r
9
12
8
10
11
18
16
12
LEGEND
Clean or Slightly Clayey SAND
Clayey SAND
SCALE'. Not to Scale
J 0 B NO 1054-88-581
FIG NO. 3
DEPTH
FT.
0.0
3.0
20.0
DESCRIPTION ELEV. • PENETRATION- BLOWS PER FT.
0 10 20 30 40 60 80 100
Loose Brown Fine SAND - Trace of
Clay (SP-SC)
Loose to Firm Brown & Gray Fine to
Medium SAND (SP)
• 5
1
•
7
•
•
13
13
•
16
13
Boring completed at 20.01.
BORING AND SAMPLING MEETS ASTM D-1586
CORE DRILLING MEETS ASTM D-2113
PENETRATION IS THE NUMBER OF BLOWS OF 140 LB. HAMMER
FALLING 301N. REQUIRED TO DRIVE 1.4 IN. I.D. SAMPLER I FT.
NoUNDISTURBED SAMPLE — WATER TABLE- 24HR.
151% ROCK CORE RECOVERY — WATER TABLE-IHR.
LOSS OF DRILLING WATER
TEST BORING RECORD
BORING NO. B-1
DATE DRILLED 8-13-88
JOB NO. 1054-88-581
S&ME
10.
CAI
IN
DEPTH
FT.
).0
0
.0
DESCRIPTION ELEV. PENETRATION -BLOWS PER FT.
0 10 20 30 40 60 80 100
Loose Brown Fine SAND - Some Clay
(SC)
Loose to Firm Brown S Gray Fine to
Medium SAND (SP)
•
I
8
9
\
•
I
•
16
15
20
• 1
Boring completed at 20.0'.
BORING AND SAMPLING MEETS ASTM D-1586
CORE DRILLING MEETS ASTM 0-2113
PENETRATION IS THE NUMBER OF BLOWS OF 140 LB. HAMMER
FALLING 301N. REQUIRED TO DRIVE 1.4 IN. I.D. SAMPLER I FT.
"UNDISTURBED SAMPLE _� WATER TABLE 24HR.
151% ROCK CORE RECOVERY - WATER TABLE-IHR.
44 LOSS OF DRILLING WATER
TEST BORING RECORD
BORING NO. B-2
DATE DRILLED 8-13-88
JOB NO. 1054-88-581
*SWE
7'
CAVE-
IN
DEPTH
FT.
0.0
L.
3.0
M
8.0
50.0
DESCRIPTION ELEV. PENETRATION -BLOWS PER FT.
0 10 20 30 40 60 80 100
Loose Brown Fine SAND - Trace of
Clay (SP-SC)
Y
8
Loose Brawn Fine SAND - Some Clay
I
(SC)
4110
\
14
Firm Gray Fine SAND - Trace of Clay
(SP-SC)
I
15
Firm to Loose Gray Fine to Medium
SAND (SP)
22
gill
q
I
I
15
Boring completed at 30.0'.
BORING AND SAMPLING MEETS ASTM D-1586
CORE DRILLING MEETS ASTM 0-2113
PENETRATION IS THE NUMBER OF BLOWS OF 140 LB. HAMMER
FALLING 301N. REQUIRED TO DRIVE 1.4 IN. I.D. SAMPLER I FT.
"UNDISTURBED SAMPLE — WATER TABLE 24HR,
1!51% ROCK CORE RECOVERY - WATER TABLE-IHR.
LOSS OF DRILLING WATER
TEST BORING RECORD
BORING NO. B-3
DATE DRILLED 8-13-11
JOB NO. 1054-88-581
fl&ME
a
DEPTH
FT.
0.0
20.0
DESCRIPTION ELEV. *PENETRATION -BLOWS PER FT.
0 10 20 30 40 60 90 100
Loose to Firm Brown 6 Gray Fine
SAND - Some Clay (SC)
Firm Gray Fine to Medium SAND (SP)
0
8
1
!
13
18
17
121.
Boring completed at 20.0'.
BORING AND SAMPLING MEETS ASTM D-1586
CORE DRILLING MEETS ASTM D-2113
PENETRATION IS THE NUMBER OF BLOWS OF 140 LB, HAMMER
FALLING 301N. REQUIRED TO DRIVE 1.4 IN. I.D. SAMPLER I FT.
0UNDISTURBED SAMPLE _-_'F WATER TABLE 24HR.
151% ROCK CORE RECOVERY WATER TABLE-IHR.
46 LOSS OF DRILLING WATER
TEST BORING RECORD
BORING NO. B-4
DATE DRILLED 8-12-88
JOB NO. 1054-88-581
tS&ME
DEPTH
FT.
0.0
6.0
, 18.0
:0.0
DESCRIPTION ELEV. 0 PENETRATION- BLOWS PER FT.
0 10 20 30 40 60 80 100
Loose to Firm Brown Fine SAND Some Clay (SC)
Firm Gray Fine to Medium SAND (SP)
Loose Gray Fine to Medium SAND -
Some Clay Lenses SC
40
10
\
13
\
18
18
18
8
Boring completed at 20.0'.
BORING AND SAMPLING MEETS ASTM D-1586
CORE DRILLING MEETS ASTM D-2113
PENETRATION IS THE NUMBER OF BLOWS OF 140 LB. HAMMER
j FALLING 301N. REQUIRED TO DRIVE 1.4 IN. I.D. SAMPLER I FT.
UNDISTURBED SAMPLE — WATER TABLE 24HR,
151% ROCK CORE RECOVERY WATER TABLE-IHR.
LOSS OF DRILLING WATER
TEST BORING RECORD
BORING NO. B-5
DATE DRILLED 8-12-88
JOB NO. 1054-88-581
S&ME
14.
DEPTH
FT.
0.0
n-
3.0
30.0
DESCRIPTION ELEV. PENETRATION -BLOWS PER FT.
0 10 20 30 40 60 80 100
Loose Brown Fine SAND - Trace of
Clay (SP-SC)
Firm Brown Fine SAND - Some Clay
(SC)
Loose to Firm Gray Fine to Medium
SAND (SP)
8
41
10
•12
14
13
13
16
Boring completed at 30.0`.
BORING AND SAMPLING MEETS ASTM 0-I586
CORE DRILLING MEETS ASTM D-2113
PENETRATION IS THE NUMBER OF BLOWS OF 140 LB. HAMMER
FALLING 301N. REQUIRED TO DRIVE 1.4 IN. I.D. SAMPLER I FT.
UNDISTURBED SAMPLE WATER TABLE 24HR.
1501% ROCK CORE RECOVERY — WATER TABLE-IHR.
LOSS OF DRILLING WATER
TEST BORING RECORD
BORING NO. B-6
DATE DRILLED 8-12-88
JOB NO. 1054-88-581
tvS&ME
14.
DEPTH
FT.
1 0.0
.3.0
'7[e1
?0.0
DESCRIPTION ELEV. PENETRATION -BLOWS PER FT.
0 10 20 30 40 60 80 100
Loose Brown Fine SAND (SP)
Loose Brown Fine SAND - Trace of
Clay (SP-SC)
Firm to Loose Brown & Gray Fine to
Medium SAND (SP)
•
i
6
•
/
13
10
17
Boring completed at 20.0'.
BORING AND SAMPLING MEETS ASTM D-1588
CORE DRILLING MEETS ASTM 0-2113
PENETRATION IS THE NUMBER OF BLOWS OF 140 LB. HAMMER
FALLING 301N. REQUIRED TO DRIVE 1.4 IN. I.D. SAMPLER I FT.
"UNDISTURBED SAMPLE _ WATER TABLE 24HR.
1501% ROCK CORE RECOVERY WATER TABLE-IHR.
14 LOSS OF DRILLING WATER
TEST BORING RECORD
BORING NO. B-7
DATE DRILLED 8-11-88
JOB NO. 1054-88-581
S&ME
DEPTH
FT.
0.0
me
20.0
DESCRIPTION ELEV. PENETRATION —BLOWS PER FT.
0 10 20 30 40 60 80 100
Loose Brown Fine SAND - Some Clay
(SC)
Loose to Firm Brown & Gray Fine
to Medium SAND (SP)
1
•
6
8
1
41
10
\
�
17
25
•
1
Boring completed at 20.0'.
BORING AND SAMPLING MEETS ASTM D-1586
CORE DRILLING MEETS ASTM D-2113
PENETRATION IS THE NUMBER OF BLOWS OF 14O LB. HAMMER
FALLING 301N. REQUIRED TO DRIVE 1.4 IN. I.D. SAMPLER I FT.
"UNDISTURBED SAMPLE - �_ WATER TABLE- 24 HR.
151% ROCK CORE RECOVERY WATER TABLE-IHR.
LOSS OF DRILLING WATER
TEST BORING RECORD
BORING NO. B-8
DATE DRILLED 8-12-88
JOB NO. 1054-88-581
ItSME
7.`
CA%
IN
DEPTH
FT.
0. 0
1.0
8.0
110.0
i
DESCRIPTION ELEV. PENETRATION -BLOWS PER FT.
0 10 20 30 40 60 80 100
Firm Gray Fine SAND (SP)
Firm to Loose Brown Fine SAND - Some
Clay (SC)
Firm Gray Fine to Medium SAND (SP)
•
6
20
\
9
11
Boring completed at 10.0'.
.. wiaNG AND SAMPLING MEETS ASTM 0-1586
CORE DRILLING MEETS ASTM D-2113
I PENETRATION IS THE NUMBER OF BLOWS OF 140 LB. HAMMER
FALLING 301N. REQUIRED TO DRIVE 1.4 IN. 1.D. SAMPLER I FT.
UNDISTURBED SAMPLE � WATER TABLE 24HR.
151% ROCK CORE. RECOVERY WATER TABLE-IMR.
LOSS OF DRILLING WATER
TEST BORING RECORD
BORING NO. B-9
DATE DRILLED 8-12-88
JOB NO. 1054-88-581
8'
CAl
IN
DEPTH
FT.
0.0
Mul
10.0
DESCRIPTION ELEV. PENETRATION -BLOWS PER FT.
0 10 20 30 40 60 60 100
Loose to Firm Brown Fine SAND - Trace
of Clay (SP-SC)
Firm Gray Fine to Medium SAND (SP)
7
13
I
\
12
18
Boring completed at 10.0'.
BORING AND SAMPLING MEETS ASTM D-1586
CORE DRILLING MEETS ASTM D-2113
PENETRATION IS THE NUMBER OF BLOWS OF 140 LB, HAMMER
FALLING 301N. REQUIRED TO DRIVE 1.4 IN. I.D. SAMPLER I FT.
UNDISTURBED SAMPLE WATER TABLE 24HR.
15% ROCK CORE RECOVERY --- WATER TABLE-IHR.
LOSS OF DRILLING WATER
TEST BORING RECORD
BORING NO. B-10
DATE DRILLED 8-12-88
JOB NO. 1054-88-581
::;_ - SE
DEPTH
FT.
0.0
WEI
10.0
DESCRIPTION ELEV. PENETRATION -BLOWS PER FT.
O 10 20 30 40 60 80 100
Loose Brown Fine SAND - Some Clay
(SC)
Loose to Firm Gray Fine to Medium
SAND (SP)
0
6
9
I
ON
8
�
16
Boring completed at 10.0'.
jj
_. BORING AND SAMPLING MEETS ASTM D-I586
CORE DRILLING MEETS ASTM 0-2113
PENETRATION IS THE NUMBER OF BLOWS OF 140 LB. HAMMER
FALLING 301N. REQUIRED TO DRIVE 1.4 IN. I.D. SAMPLER I FT.
UNDISTURBED SAMPLE - WATER TABLE 24HR,
I51 % ROCK CORE RECOVERY WATER TABLE-IHR.
LOSS OF DRILLING WATER
TEST BORING RECORD
BORING NO. B-11
DATE DRILLED 8-12-88
JOB NO. 1054-88-581
It SME
DEPTH
FT.
0.0
10.0
DESCRIPTION ELEV. 9 PENETRATION —BLOWS PER FT.
.0 10 20 30 40 60 80 100
Very Loose to Loose Gray Fine SAND -
Trace of Clay (SP-SC)
Loose to Firm Gray Fine to Medium
SAND (SP)
04
\
•
8
41
10
�1 2
Boring completed at 10.0'.
BORING AND SAMPLING MEETS ASTM 0-1586
CORE DRILLING MEETS ASTM D-2I13
PENETRATION IS THE NUMBER OF BLOWS OF 140 LB, HAMMER
FALLING 301N. REQUIRED TO DRIVE 1.4 IN. I.D. SAMPLER I FT.
UNDISTURBED SAMPLE —WATER TABLE 24HR.
151% ROCK CORE RECOVERY WATER TABLE-IHR.
LOSS OF DRILLING WATER
TEST BORING RECORD
BORING NO. B-12
DATE DRILLED 8-12-88
JOB NO. 1054-88-581
=` SME
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*S&ME
(A partnership in North Carolina)
Gantt/Huberman Architects
112 West Fifth Street
Charlotte, North Carolina 28202
August 25, 1988
Attention: Mr. Jeffrey A. Huberman, AIA
Reference: Geotechnical Investigation Report
Electronics Communications Maintenance Shop
P-679, Building No. 2
Camp Lejeune, North Carolina
S&ME Job No. 1054-88-581
Gentlemen:
S&ME has completed the authorized geotechnical investigation at the
proposed maintenance shop site located at Camp Lejeune, North Carolina. The
subsurface conditions at the site were investigated with 11 test borings which
were drilled at the approximate locations shown in Figure 1. Five borings were
drilled at the proposed building site to a depth of 30 feet below the existing
ground surface, and six borings were drilled in the proposed pavement areas to
a depth of 10 feet. Soil samples were obtained at selected intervals by the
ASTM D-1586 standard penetration test method to determine the consistency of
the subsurface soils. In addition, one undisturbed soil sample was obtained in
accordance with the procedures presented in ASTM D-1587. This report presents
the findings of our investigation with recommendations for support of the
facility based on these findings.
6 e
The project site is
approximately 350 feet north
1. This relatively level site
appears that this area ,had p
operators.
located on the north
of existing building
has been cleared and
reviously been used
side of Main Service Road
FC-120, as shown in Figure
is covered with sand. It
to train heavy equipment
S&ME, Inc.
7650 Marker Street
\ViImingron, NC 28405 (919) 686-7474
Gantt/Huberman Architects
August 25, 1988
Page Two
It is our understanding that the proposed one-story building will
have plan dimensions of approximately 70 feet by 85 feet. The structure will
be supported by load bearing walls and interior columns with design loadings on
the order of 3 kips per lineal foot and 50 kips, respectively. The floor slab
will be constructed on grade with design loadings on the order of 100 to 150
pounds per square foot (psf). We have assumed that final floor grade will be
raised approximately one to two feet in the building area to provide positive
surface water runoff away from the building.
,SUBSURFACE CONDITIONS
The subsurface conditions encountered at the test boring locations
generally consisted of the following:
Penetration
Depth Resistance
( (Ft.) Soil Description (Blows/Foot)
0-8 Firm to Loose Clean, Slightly Clayey or 7-17
Clayey SAND
8-12 Soft Sandy CLAY to Clayey SAND 3-6
12-18 Very Loose to Loose Clayey or Slightly 2-7
Clayey SAND
18-30 Firm to Very Dense SAND with Cemented 13-95
Sand and Shells
Variations from the profile presented above are shown in the attached Test
Boring Records. In addition, generalized subsurface profiles, which have been
prepared from the subsurface data to graphically illustrate the subsurface
conditions encountered at the test borings, are attached to this report as
Figures 2 and 3.
Gantt/Huberman Architects
August 25, 1988
Page Three
Since the walls of the boreholes collapsed upon completion of the
field drilling work, it was difficult to determine the depth to groundwater.
As noted in the attached Test Boring Records, the borings collapsed at depths
ranging from approximately 4 to 11 feet. Our visual inspection of the
recovered soil samples suggests that the depth to groundwater typically ranges
from about 8 to 10 feet below the existing ground surface. Saturated soil
samples were recovered from Boring Nos. B-2 and B-4 at depths ranging from
approximately 4 to 5 feet. It is likely, however, that the presence of ti,
near -surface clayey sands will cause a perched water condition to develop a°!
periods of heavy or extended rainfall. A perched water condition w„
adversely affect the site preparation operations during wet weather.
RECOMMENDATIONS
The following recommendations are made based on the attached soil
test data, our understanding of the proposed construction, and our past
experience with similar projects and subsurface conditions. If structural
conditions or grading plans should change from those now under consideration,
we would appreciate the opportunity to review and comment on these
recommendations so they may be confirmed or modified as necessary. In
addition, any subsurface conditions encountered during construction which are
adverse to those represented in this report should be reported to us for review
and comment.
Site Preparation. Site preparation should be initiated by
stripping the site of any roots, organics, and other unsuitable foundation
supporting material. We anticipate that minimal strippings will be removed
from this site.
After the stripping work has been completed, the construction area
should be proofrolled with a 10-ton vibratory steel -wheeled roller to densify
the upper surface soils and locate any areas of soft or otherwise unsuitable
surface conditions. The roller should make at least 4 to 6 passes in
perpendicular directions at speeds of about 100 feet per minute. Any areas
which pump or rut excessively should be repaired by undercutting and either
drying the excavated material and replacing it in a compacted manner or placing
structural backfill as described below. we anticipate that some undercutting
of near -surface clayey sands will be required at this site, if the moisture
content of these clayey sands exceeds the optimum moisture content by more than
three percent during the site preparation work. We recommend that the site be
graded during construction to provide positive surface water runoff away from
the construction area.
Urq
Gantt/Huberman Architects
August 25, 1988
Page Four
Where structural fill is required to reach finished grade, we
recommend that a clean, silty, or clayey sand having a Unified Soil
Classification of SP, SM, or SC be used. The on -site sands meet these criteria
and will provide adequate support if properly compacted. The fill should be
placed in 6 to 8-inch thick lifts and should be compacted to at least 95
percent of the standard Proctor maximum dry density (ASTM 0-698); however, the
compaction of the upper 12 inches of subgrade in the building and pavement
areas should be increased to at least 98 percent of the standard Proctor
maximum dry density. Where no structural fill is placed on site, we recommend
that the upper 12 inches of the in -place subgrade material be compacted to at
least 98 percent of the standard Proctor maximum dry density. To confirm that
the specified degree of compaction is being obtained, field density testing
should be performed in each fill lift by a soils technician. We also recommend
that the foundation subgrade soils be inspected and tested prior to concrete
placement to determine if any subgrade repair work is required.
r Foundation Support. Following site preparation, the structure may
be supported on shallow foundations designed for a soil contact pressure of
2000 pounds per square foot (psf). All shallow foundations should bear at
least 18 inches below exterior grade to develop the allowable 2000 psf
foundation bearing pressure. In addition, all wall footings and interior
column footings should have a minimum width of 18 inches and 36 inches,
respectively. The use of a 2000 psf foundation bearing pressure for the
l proposed 50 kip column loads could result in total settlements on the order of
one inch or less. The relatively lightly loaded wall footings could experience
total settlements of about 1/2 inch. We also anticipate that floor slab
settlements would be less than 1/4 inch. This magnitude of movement is often
considered acceptable for structures such as the one proposed on this site;
however, this should be confirmed by the structural engineer.
Pavement Construction. The near surface sands will provide
adequate support for properly designed and constructed pavement sections.
After the site preparation work has been completed as discussed above, the
prepared subgrade should exhibit a design CBR value on the order of 8 to 10.
Laboratory or field CBR testing of the subgrade soils should be conducted to
confirm the design CBR value before a pavement design is selected. An actual
pavement design cannot be made until traffic loadings and volumes are provided;
however, typical designs for similar projects are as follows. For areas
subject to only car parking, a minimum of _6___inches of base course stone
overlain by 2 inches of NCDOT I-1 or I-2 asphaltic concrete is typically used.
In areas subject to channelized car traffic or occasional heavy truck traffic,
a pavement structure consisting of 2 or 3 inches of asphalt over 8 inches of
base course stone is often used. Material gradations and placement densities
should meet the minimum requirements presented by the North Carolina Department
of Transportation. We will be pleased to provide an actual pavement design if
you will provide us with traffic volumes and load estimates.
Gantt/Huberman Architects
August 25, 1988
Page Five
S&ME appreciates having the opportunity to be of service to you
during this phase of the project. If you have any questions or comments after
reviewing this report, or if we can be of additional service to you, please do
not hesitate to contact us at your convenience.
Very truly yours,
S&ME
Michael W. Behan, P.E.
N.C. Registration No. 8384
E�/wo.•�l B• N�h /,»�.e
Edward B. Hearn, P.E.
N.C. Registration No. 9520
MWB:EBH/jns
Attachments
TABLE 1
Laboratory Test Results
Electronics Communications Maintenance Shop
P-679, Building No. 2
Camp Lejeune, North Carolina
SBME Job No. 1054-88-581
Grain -Size Analysis
B-1
B-2
B-7
Boring No.:
Depth (Ft.):
13.5-15
8.5-10
1-2.5
Sieve No.
Percent
Passing. By Weight
10
98.7
99.8
100.0
40
84.8
96.9
99.9
80
56.4
91.4
87.4
200
29.9
63.4
32.8
Boring No.:
B-1
Depth (Ft.):
8.5-10
Moisture Content:
27.4%
Liquid Limit:
34
Plastic Limit:
25
Plasticity Index:
9
B-9
•
B-8
10
NEW SERVICE ROAD
0 1 B-11
PROJECT
POSED MAINTENANCE SHOP
P-679 BUILDING NO. 2
CAMP LEJEUNE, NC
YWM�\l. �C�IK��1 N •IMNM�t/
cPROPOSED BUILDING
B-4 \ B-3
1 9B-7
i,B i
4 5 — — 4-2
LIMITS OF PROPOSED PAVEMENT
MAIN SERVICE ROAD
EXISTING
BUILDING
FC-120
LEGEND
B-1 APPROXIMATE BORING LOCATION
SCALE: Not to Scale
J 0 B NO: 1054-88-581
FIG. NO: i
GENERALIZED SUBSURFACE PROFILE
DEPTH
(FT.)
B-1
B-2 B-3
B-4
B-5
0
r
11 17
11
15
8
10 r 12
N
11
12
10
12 ^. 15
10
14
7
4 3
4
5
6
10
N
~
.✓
N
2 3
�
7
4
2
.
N
N
n
a
°
38 4
43
4
30
20
0
V
e
A
Q
20 13
21
95
14
0
18 24
21
32
20
30
i
PROJECT
PROPOSED MAINTENANCE SHOP
P-679 BUILDING NO. 2
CAMP LE.IEUNE, NORTH CAROLINA
LEGEND
a Clean or Slightly Clayey SAND
Clayey SAND ® Sandy CLAY
® Clayey SAND to Sandy CLAY :e SAND and CEMENTT[D SAND 6 SHELLS
SCALE' of to Scale
�`"_ E JOB NO 4-88-581
F IG NO' _�
DEPTH
(FT.)
0 —
5 —
10—
PROJECT
PROPOSED MAINTENANCE SHOP
P-679 BUILDING NO. 2
CAMP LEJEUNE, NORTH CAROLINA
0
GENERALIZED SUBSURFACE PROFILE
B-6 B-7 B-8
11
6
10
10
10
8
12
12
B-9 B-10 B-11
12 15 9
12 16 13
N
12 7 8
r
3 4 5
LEGEND
Clean or Slightly Clayey SAND
Clayey SAND
® Clayey SAND to Sandy CLAY
SCALE: Not to Scale
J O B NO- 1054-88-581
FIG N0: 3
I
DEPTH
FT.
0.0
Im
12.0
18.0
30.(
DESCRIPTION ELEV. PENETRATION -BLOWS PER FT.
0 10 20 30 40 60 80 100
Firm to Loose Gray & Tan Fine SAND
(Sp)
11
10
• 12
Very Loose Tan Clayey Fine to Medium
SAND to Sandy CLAY (SC/CL)
• 4
Very Loose Tan Clayey Fine to Medium
SAND (SC)
• 2
Dense to Firm Tan & Gray Fine to
Medium SAND with Cemented SAND &
SHELL FRAGMENTS
•
18
I
Boring completed at 30.0'
BORING AND SAMPLING MEETS ASTM D-1586
CORE DRILLING MEETS ASTM D-2113
PENETRATION IS THE NUMBER OF BLOWS OF 140 LB. HAMMER
FALLING 301N. REQUIRED TO DRIVE 1.4 IN. I.D. SAMPLER I FT.
i
"UNDISTURBED SAMPLE = WATER TABLE 24HR.
151%ROCK CORE RECOVERY --- WATER TABLE-IHR.
4 LOSS OF DRILLING WATER
TEST BORING RECORD
BORING NO. B-1
DATE DRILLED 8-10-88
JOB NO. 1054-88-581
fS&ME
It$=
DEPTH
FT.
0.0
3.0
8.0
12.0
17.0
r
22.0
30.0
DESCRIPTION ELEV. PENETRATION -BLOWS PER FT.
0 10 20 30 40 60 80 100
Firm Gray Fine SAND (SP)
•
7
Firm Tan Clayey Fine to Medium SAND
(SC)
• 12
1
•1
Soft Tan Sandy CLAY (CL)
• 3
Very Loose Tan Clayey Fine to
Medium SAND (SC)
• 3
Very Loose Orange -Brown Fine SAND -
Trace of CLAY (SP-SC)
•4
Firm Tan & Gray Fine to Medium SAND
with Cemented SAND & SHELL FRAGMENTS
•13
•2
Boring completed at 30.0'
BORING AND SAMPLING MEETS ASTM D-1586
CORE DRILLING MEETS ASTM 0-2113
PENETRATION IS THE NUMBER OF BLOOMS OF 140 LB. HAMMER
FALLING 301N. REQUIRED TO DRIVE 1.4 IN. I.D. SAMPLER I FT.
0 UNDISTURBED SAMPLE - WATER TABLE 24HR.
150I% ROCK CORE RECOVERY WATER TABLE-IHR.
4 LOSS OF DRILLING WATER
TEST BORING RECORD
BORING NO. B-2
DATE DRILLED 8-10-88
JOB NO. 1054-88-581
tS&ME
4'
CA
IIN
DEPTH
FT.
0.0
1.0
6.0
7.0
16.0
f fff
DESCRIPTION ELEV. PENETRATION -BLOWS PER FT.
0 10 20 30 40 60 90 100
Gray Fine to Medium SAND (SP)
Firm Gray Fine to Medium SAND - Some
11
Clay (SC)
11
Firm Tan Sandy CLAY (CL)
10
Very Loose Tan Fine SAND (SP)
/
•4
Loose Brown Clayey Fine to Medium
SAND - Some Cemented Sand (SC)
•
7
Dense to Firm Tan 6 Gray Fine to
Medium SAND with Cemented SAND 6
SHELL FRAGMENTS
043
2
21
Boring completed at 30.0'
j BORING AND SAMPLING MEETS ASTM D-15BG
.. CORE DRILLING MEETS ASTM 0-2113
PENETRATION IS THE NUMBER OF BLOWS OF 140 LB. HAMMER
FALLING 301N. REQUIRED TO DRIVE 1.4 IN. I.D. SAMPLER I FT.
! UNDISTURBED SAMPLE -� WATER TABLE 24HR.
151% ROCK CORE RECOVERY - WATER TABLE-IHR.
LOSS OF DRILLING WATER
TEST BORING RECORD
BORING NO. B-3
DATE DRILLED 8-10-88
JOB NO. 1054-88-581
S&ME
d
DEPTH
FT.
0.0
M
22.0
30.(
DESCRIPTION ELEV. 0 PENETRATION -BLOWS PER FT.
0 10 20 30 40 60 60 100
Firm Gray Fine to Medium SAND -
Trace of Clay (SP-SC)
•
I
15
12
I12
Loose to Very Loose Gray & Brown
Fine to Medium SAND - Some Clay
05
(SC)
•4
Very Loose Gray Fine SAND - Trace
of Clay (SP-SC)
4
Very Dense to Dense Tan 6 Gray Fine
to Medium SAND with Cemented SAND 6
SHELL FRAGMENTS
Boring completed at 30.0'
BORING AND SAMPLING MEETS ASTM D-1586
L CORE DRILLING MEETS ASTM D•2113
PENETRATION IS THE NUMBER OF BLOWS OF 140 LB. HAMMER
FALLING 30 IN. REQUIRED TO DRIVE 1.4 IN. I.D. SAMPLER 1 FT.
UNDISTURBED SAMPLE —WATER TABLE 24HR.
I51% ROCK CORE RECOVERY WATER TABLE-IHR.
44 i I
LOSS OF DRILLING WATER
95
TEST BORING RECORD
BORING NO. B-4
DATE DRILLED 8-11-88
JOB NO. 1054-88-581
S&ME
4.`
(CA
-IN
r
DEPTH
FT.
0.0
5.5
7.5
17.0
30.(
DESCRIPTION ELEV. PENETRATION-BLONS PER FT.
0 10 20 30 40 60 60 100
Loose Gray Fine to Medium SAND (SP)
•
8
10
/
Loose Gray Clayey Fine SAND to Sandy
CLAY (SC/CL)
•
7
Loose to Very Loose Gray & Tan
I
Clayey Fine SAND (SC)
• 6
•z
Firm Tan & Gray Fine to Medium SAND
with Cemented SAND & SHELL FRAGMENTS
30
•14
20
Boring completed at 30.0'
BORING AND SAMPLING MEETS ASTM D-1506
CORE DRILLING MEETS ASTM 0-2113
PENETRATION IS THE NUMBER OF BLOWS OF 140 LB. HAMMER
FALLING 30 IN. REQUIRED TO DRIVE 1.4 IN. I.D. SAMPLER I FT.
00UNDISTURBED SAMPLE -� WATER TABLE 24HR.
151% ROCK CORE RECOVERY WATER TABLE-IHR.
44 LOSS OF DRILLING WATER
TEST BORING RECORD
BORING NO. B-5
DATE DRILLED 8-11-88
JOB N0. 1054-88-581
*SAME
DEPTH
FT.
0.0
i
DESCRIPTION ELEV. PENETRATION -BLOWS PER FT.
0 10 20 30 40 60 80 100
F
0.0
DESCRIPTION ELEV. PENETRATION -BLOWS PER FT.
0 10 20 30 40 60 80 100
irm to Loose Tan & Gray Fine
to Medium SAND (SP) 11
\ 10
10
Boring completed at 10.0'
BORING AND SAMPLING MEETS ASTM D•1586
CORE DRILLING MEETS ASTM 0-2113
PENETRATION IS THE NUMBER OF BLOWS OF 140 LB. HAMMER
iFALLING 301N. REQUIRED TO DRIVE 1.4 IN. I.D. SAMPLER I FT.
00 UNDISTURBED SAMPLE - WATER TABLE 24HR.
1501%ROCK CORE RECOVERY WATER TABLE-IHR.
LOSS OF DRILLING WATER
TEST BORING RECORD
BORING NO. B-6
DATE DRILLED 8-11-88
JOB NO. 1054-88-581
*S&ME
5
BORING AND SAMPLING MEETS ASTM D•1586
CORE DRILLING MEETS ASTM 0-2113
PENETRATION IS THE NUMBER OF BLOWS OF 140 LB. HAMMER
iFALLING 301N. REQUIRED TO DRIVE 1.4 IN. I.D. SAMPLER I FT.
00 UNDISTURBED SAMPLE - WATER TABLE 24HR.
1501%ROCK CORE RECOVERY WATER TABLE-IHR.
LOSS OF DRILLING WATER
TEST BORING RECORD
BORING NO. B-6
DATE DRILLED 8-11-88
JOB NO. 1054-88-581
*S&ME
5
DEPTH
FT.
0.0
3.0
8.0
i
10.0
DESCRIPTION ELEV. 0 PENETRATION -BLOWS PER FT.
0 10 20 30 40 60 80 100
Loose Gray Clayey Fine SAND (SC)
Loose Gray Fine SAND - Trace of
Clay (SF -SC)
Loose Gray Fine to Medium SAND -
Some Clay (SC)
Loose Orange Fine SAND with Clay
Layers (SC)
40
I
10
8
I
07
I
41 5
Boring completed at 10.0'
BORING AND SAMPLING MEETS ASTM 0-1586
CORE DRILLING MEETS ASTM D-2113
PENETRATION IS THE NUMBER OF BLOWS OF 140 LB. HAMMER
FALLING 301N. REQUIRED TO DR NE 1.4 IN. I.O. SAMPLER 1 FT.
1 UNDISTURBED SAMPLE WATER TABLE 24HR.
1501% ROCK CORE RECOVERY --- WATER TABLE -I HR.
LOSS OF DRILLING WATER
TEST BORING RECORD
BORING NO. B-7
DATE DRILLED 8-11-88
JOB N0. 1054-88-581
ts&ME
9..
i
DEPTH
FT.
0.0
2"1
10.0
DESCRIPTION ELEV. PENETRATION -BLOWS PER FT.
0 10 20 30 40 60 80 100
Loose to Firm Gray 6 Brown Fine to
Medium SAND (Sp)
Gray Clayey Fine SAND to Sandy CLAY
(SC/CL)
•
8
•12
•12
Boring completed at 10.0'
Ij
BORING AND SAMPLING MEETS ASTM D-1586
CORE DRILLING MEETS ASTM D-2113
PENETRATION IS THE NUMBER OF BLOWS OF 140 LB. HAMMER
FALLING 301N. REQUIRED TO DRIVE 1.4 IN. I.D. SAMPLER I FT.
"UNDISTURBED SAMPLE _�_-_- WATER TABLE 24HR.
151% ROCK CORE RECOVERY WATER TABLE-]HR.
LOSS OF DRILLING WATER
TEST BORING RECORD
BORING NO. B-8
DATE DRILLED 8-11-88
JOB NO. 1054-88-9St
ts&ME
DEPTH
FT.
0.0
r 3.0
I
rwo
10.0
DESCRIPTION ELEV. PENETRATION -BLOWS PER FT.
0 10 20 30 40 60 80 100
Firm Tan S Gray Fine to Medium SAND -
Some Clay (SC)
Firm Gray Fine to Medium SAND (SP)
Very Loose Gray Clayey Fine SAND to
Sandy CLAY (SC/CL)
1
12
03
12
Boring completed at 10.0'
7
BORING AND SAMPLING MEETS ASTM D-1586
L CORE DRILLING MEETS ASTM D-2113
PENETRATION IS THE NUMBER OF BLOWS OF 140 LB. HAMMER
FALLING 301N. REQUIRED TO DRIVE 1.4 IN. I.D. SAMPLER I FT.
UNDISTURBED SAMPLE —WATER TABLE 24HR.
ISOI% ROCK CORE RECOVERY WATER TABLE-IMR.
44 LOSS OF DRILLING WATER
TEST BORING RECORD
BORING NO. B-9
DATE DRILLED 8-12-88
JOB NO. 1054-88-581
*S&ME
I
DEPTH
FT.
0.0
3.0
6.0
10.0
DESCRIPTION ELEV. PENETRATION -BLOWS PER FT.
0 10 20 30 40 60 80 100
Firm Gray Fine to Medium SAND -
Some Clay (SC)
Firm Gray Fine to Medium SAND (SP)
Loose to Very Loose Tan & Gray Fine
to Medium SAND - Some Clay (SC)
913
1
•
16
07
/
•4
Boring completed at 10.0'
BORING AND SAMPLING MEETS ASTM D-1586
CORE DRILLING MEETS ASTM D-2113
PENETRATION IS THE NUMBER OF BLOWS OF 140 LB. HAMMER
FALLING 301N. REQUIRED TO DRIVE 1.4 IN. I.D. SAMPLER I FT.
UNDISTURBED SAMPLE = WATER TABLE 24HR.
151% ROCK CORE RECOVERY WATER TABLE -I HR.
LOSS OF DRILLING WATER
TEST BORING RECORD
BORING NO. B-10
DATE DRILLED 8-12-88
JOB NO. 1054-88-581
ts&ME
U
DEPTH
FT.
0.0
8.0
M
r
DESCRIPTION ELEV. PENETRATION -BLOWS PER FT.
0 10 20 30 40 60 80 100
Loose to Firm Gray Fine to Medium
SAND (SP)
Loose Gray Fine to Medium SAND
Some Clay (SC)
09
013
•8
5
Boring completed at 10.0'
1 BORING AND SAMPLING MEETS ASTM D-1586
CORE DRILLING MEETS ASTM D-2113
PENETRATION IS THE NUMBER OF BLOWS OF 140 LB. HAMMER
iFALLING 301N. REQUIRED TO DRIVE 1.4 IN. I.D. SAMPLER I FT.
MOUNOISTURBED SAMPLE = WATER TABLE 24HR.
15D1%ROCK CORE RECOVERY WATER TABLE-IHR.
LOSS OF DRILLING WATER
TEST BORING RECORD
BORING NO. B-11
DATE DRILLED 8-12-88
JOB NO. 1054-88-581
tvS&ME
=I
a
State of North Carolina
Department of Environment, Health, and Natural Resources
Wilmington Regional Office
James G. Martin, Governor
William W. Cobey, Jr., Secretary
DIVISION OF ENVIRONMENTAL MANAGEMENT
December 15, 1989
Mr. Brynn Ashton, P.E.
Environmental Management Department
Environmental Planning
Building 1103
Camp Lejeune, North Carolina 28542
Dear Mr. Ashton:
Bob Jamieson
Regional Manager
Subject: Request for Additional Information
Proposed Stormwater Infiltration Basin
Electronics/Communication Facility
P-679
Camp Lejeune Marine Corps Base
Onslow County
This letter is to inform you that there is insufficient data to determine if
the proposed infiltration basin will function as designed.
Specifically, the following data is needed to input into the "Recharge Model":
lithic description to 30 feet below land surface
depth to seasonal high water table
transmissivity (reasonable estimates are accepted)
storage coefficient (reasonable estimates are accepted)
recharge rate
basin width
basin length
distance to stream
7225 Wrightsville Avenue, Wilmington, N.C. 28403-3696 • Telephone 919-2564161 • Fax 919-256.8572
An Equal Opportunity Affirmative Action Employer
Mr. Brynn Ashton
December 15, 1989
Page 2
Additionally, this data must be input into the "Recharge Model" to compute the
mound profile at the end of five (5) days.
If you have questions, please call me at (919) 256-4161.
Sincerely,
Original Signed BY;
RICK SHIVER
Rick Shiver, P.G.
Environmental Regional Supervisor
RSS/lfc
cc: Je rey Smith
exis Finn
WiRO - GWS
A r c h i t e 'c t u r e
October 9, 1989
E n g i n e e r i n g
P l a n n i n g
OCT 1 6 989
DE
Mr. Mark Hawes PROJ #—e-7 O
North Carolina Department of Natural Resources
and Community Development
Division of Environmental Management
7225 Wrightsville Avenue
Wilmington, North Carolina 28403
Reference: Electronics/Communications Maintenance Facility
P-679
Marine Corps Base
Camp Lejeune, North Carolina
Subject: Storm Water Management
Dear Mark:
We have reviewed the referenced project for compliance with the
Storm Water Disposal Section of the North Carolina
Administrative Code. Enclosed are two sets of plans, one copy
of the infiltration pond calculations, and one operation and
maintenance plan.
This project consists of two shops on two separate sites. Due
to the low groundwater table, wet detention ponds were not
possible at either site.
Please review the enclosed plans and notify us of your
response. If you have any questions, or if we can provide any
additional information, please contact us.
Sincerely,
Jeffrey I. Smith, EIT
JIS/lw
Enclosures
cc: Mr. Brian Abbott
Mr. Jeff Huberman
J.N. Pease Associates P.O. Box 18725 2925 East Independence Blvd. Chadolte, NC 28218 704 376-6423
Westinghouse Environmental
and Geotechnical Services, Inc.
September 7, 1989
J. N. Pease & Associates
Post Office Box 18725
Charlotte, North Carolina 28218
Attention: Mr. Keith West
Reference: Depth to Groundwater
Proposed P-679, Buildings 1 and 2
Camp Lejeune, North Carolina
W-WIL Job No. 1054-88-581
Dear Mr. West:
7650 Market Street
Wilmington, North Carolina 28405
(919) 686-7474
Fax (919) 686-0013
Westinghouse Environmental and Geotechnical Services, Inc.
personnel recently visited the subject sites and excavated hand-augered borings
to determine the depth to groundwater. At the Building No. 2 site, groundwater
was encountered at a depth of approximately 11 feet. At the Building No. 1
site, the boring was extended to a depth of 12 feet without encountering
groundwater. It was not possible for our personnel to advance this boring
beyond a depth of 12 feet with hand tools.
Should you have any questions or comments concerning the contents
of this letter, or if we can be of additional service, please do not hesitate
to contact us at your convenience.
Very truly yours,
WESTINGHOUSE ENVIRONMENTAL
AND GEOTECAAHNICAL SERVICES, INC.
- Parks A. Downing, Jr. J
�J1''I��,
Manager
Michael W. Behen, P.E.
Senior Geotechnical Engineer
PADjr:MWB/jns
cc: Gantt Huberman Architects
A Westinghouse Electric Corporation subsidiary.
Soil & Material EngineerS ENGINEERING -TESTING -INSPECTION
7650 Market Street, Wilmington, North Carolina 28405, Phone (919) 686-7474, FAX (919) 686-0013
June 13, 1989
Gantt/Huberman Architects
112 'Test Fifth Street
Charlotte, North Carolina 28202
.Attention: Mr. Jeffrey A. Huberman, AIA
Reference: Infiltration Testing
Proposed P-679,.Buil.dings__l and 2
Camp Lejeune, North -Carolina
S&ME Job No. 1054-88-581
Dear Mr. Huberman:
. Soil & Material Engineers has completed the authorized field
testing of the subsurface soils at- the subject sites. Specifically,
infiltration testing was conducted at the approximate locations shown in
Figures 1 and 2 in order to determine the absorption characteristics of the
near -surface soils. The results of our field and laboratory testing are
oresented below.
Subsurface Conditions
Our personnel visually classified the near -surface soils at both
sites by excavating one hand-augered boring at each site to a depth of six feet
below the existing ground surface. At Building No. 1, the subsurface soils
generally consisted of a 12-inch thick layer of.organic-contaminated sands
which were underlain by a 6-inch thick layer of slightly clayey sands. These
slightly clayey sands were underlain, in turn, by relatively clean sands which
extended to the completed boring depth of 6 feet. No groundwater was
encountered during the field testing work.
The subsurface soils encountered at Building No. 2 generally
consisted of a 20-inch thick layer of clean sands which was underlain by
intermittent layers of clayey sand and relatively clean sand. These sands
extended to a depth of approximately 5.5 feet where sandy clay was encountered.
This stratum of sandy clay extended to the completed boring depth of 6 feet. No
groundwater was noted during the field drilling work.
A more detailed description of the subsurface conditions noted at
the Building No. 1 and 2 sites is presented in Table 1.
A Division of S&ME, Inc. (in North Carclina.offering services as S&ME, a partnership).
Gantt/Huberman Architects
June 13, 1989
Page Two
Field Test Results
Our representative conducted one double -ring infiltrometer test and
two percolation tests at each of the subject sites. The results of the
infiltration testing showed that the in -place soils exhibited the following
absorption rates:
Building No. 1 - 0.4 to 5.6 gallons per square foot
per hour
Building No. 2 - 0.4 gallons per square foot per hour
The results of the individual field. tests are presented in Table 2.
We appreciate the opportunity to provide our services during this
phase of the project. Should you have any questions or comments concerning the
contents of this letter, or if we can be of additional service, please do not
hesitate to contact us at your convenience.
Very truly yours,
`_ F__\ SOIL & MATERIAL ENGINEERS
Parks A. Downing, -Jr.
Manager
/t as / Al. &'/ ,
Michael W. Behan, P.E.
Senior Geotechnical Engineer
PADjr:MWB/jns
Attachments
cc: J. N. Pease & Associates
TABLE 1
Subsurface Conditions
Proposed Maintenance Shops
P-679, Building Nos. 1 and 2
Camp Lejeune, North Carolina
S&ME Job No. 1054-88-581
April 25, 1989
Location Depth Soil Description
Building 1 0-12" Tan/Gray Fine to Medium SAND with organics
12"-18" Brown Fine to Medium SAND - Trace of Clay
18"-72" Brown, Tan & White Fine to Medium SAND
No groundwater was encountered during the field testing work.
Building 2 0-20"
Brown
Fine to Medium SAND
20"-33"
Brown
& Gray Clayey Fine to
Medium SAND
33"-40"
Brown,
Gray & Tan Fine to Medium SAND
40"-46" -
Gray &
Brown Clayey Fine to
Medium SAND
_
46"-51"
Gray &
Brown Fine to Medium
SAND
51"-66"
Brown
& Gray Clayey Fine to
Medium SAND
66"-72"
Tan &
Gray Sandy CLAY
No groundwater was encountered
during the field testing work.
TABLE 2
Subsurface Conditions
Proposed -Maintenance Shops
P-679, Building Nos. 1 and 2
Camp Lejeune, North Carolina
S&ME Job No. 1054-88-581
Building No. 1
Location
Deoth (Ft.)
Infiltration Rate
41
1.2
q"%,o 0.15
inch per minute
(5.6
gallons per square foot per hour)
#2
3.0
z. "/-,1 0.04
inch per minute
- (1.5
gallons per square foot per hour)
#3
3.0
0.01
inch per minute
(0.4 gallons per square foot per hour)
Building No. 2
Location
Depth (Ft.)
Infiltration Rate
#1
3.0
0.0o'%,O.01
inch per minute
(0.4
gallons per square
foot per hour)
#2
3.0
" 0.01
inch per minute
(0.4
gallons per square
foot per hour)
#3
1.2
°iO"/,-0.01
inch per minute
(0.4
gallons per square
foot per hour)
EXISTING
BUILDING
FC-50
SNEADS FERRY ROAD
PROPOSED PAVEMENT AREA
• B-9 • B-11
B 2 B
B-1 -3
• B-7 • B-8
B-6 B-5
•
B-10
LEGEND
1 DOUBLE -RING INFILTROMETER TEST LOCATION
0 2 FIELD PERCOLATION TEST LOCATION
• APPROXIMATE BORING LOCATION
B-1
PROJECT
PROPOSED MAINTENANCE SHOP
P-679, BUILDING NO. I
CAMP LEJEUNE, NC
• B-12
A 1
3 n
2
N
BOULEVARD
J 0 B N0.1054-88-581
FIG N0: I
PILESOFTOPSOIL 6 DEBRIS
`PROPOSED BUILDING
B-4 _ 1 B-3
B-9 B-1
• 1 • 3 •B-7
1 '
B-8 5 ;-2 B
• 2 v 1
LIHITS OF PROPOSED PAVEMENT
N
• B-10
NEW SERVICE ROAD
40JECT
30POSED HAINTENANCE SHOP
-679 BUILDING NO. 2
_w3 LEJEUNE, NC
EXISTING
BUILDING
FC-120
HAIN SERVICE ROAD
LEGEND
♦ 3 DOUBLE -RING INFILTROMETER TEST LOCATION
• B-1 APPROXI,MATE BORING LOCATION
i VTVT.n PVRcnT.ATTON TEST LOCATION
SCALE. Not to Scale
JOB NO. 1054-88-581
FIG. NO' 2
v
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SECTION 02720
STORM DRAINAGE SYSTEM
PART 1 — GENERAL
1.1 APPLICABLE PUBLICATIONS: The publications listed below form a part of
this specification to the extent referenced. The publications are referred to
in the text by the basic designation only.
1.1.1 Federal Specifications (Fed. Spec.):
RR—F-621C Frames, Covers, Gratings, Steps, Sump and Catch
Basin, Manhole
WW—P-405B Pipe, Corrugated (Iron or Steel, Zinc Coated)
6AM1
1.1.2 American Association of State Highway and Transportation Officials
(AASHTO) Specification:
M198-75 Joints for Circular Concrete Sewer and Culvert Pipe
Using Flexible Watertight Gaskets
1.1.3 American Concrete Pipe Association (ACPA) Publications:
1980 Concrete Pipe Handbook
1978 Concrete Pipe Installation Manual
1.1.4 American Society for Testing and Materials (ASTM) Publications:
A 74-80 Cast Iron Soil Pipe and Fittings
A 497-79 Welded Deformed Steel Wire Fabric for Concrete
Reinforcement
A 615-82 Deformed and Plain Billet —Steel Bars for Concrete
Reinforcement
C 32-73 Sewer and Manhole Brick (Made from Clay or Shale)
(R79)
C 62-81 Building Brick (Solid Masonry Units Made from Clay
or Shale)
C 76-81a Reinforcd Concrete Culvert, Storm Drain, and Sewer
Pipe
C 139-73 Concrete Masonry Units for Construction of Catch
(R79) Basins and Manholes
05-88-8085
02720-1
C 270-80a Mortar for Unit Masonry
C 443-79 Joints for Circular Concrete Sewer and Culvert
Pipe, Using Rubber Gaskets
C 478-80 Precast Reinforced Concrete Manhole Sections
C 564-70 Rubber Gaskets for Cast Iron Soil Pipe and Fittings
(R76)
C 923-79 Resilient Connectors Between Reinforced Concrete
Manhole Structures and Pipes
D 698-78 Moisture Density Relations of Soils and Soil -
Aggregate Mixtures Using a 5.5-1b Rammer and
12-inch Drop
D 2146-82 Propylene Plastic Molding and Extrusion Materials
D 2321-74 Underground Installation of Flexible Thermoplastic
(R80) Sewer Pipe
D 2487-69 Classification of Soils for Engineering Purposes
(R75)
1.1.5 American Water Works Association (AWWA) Publications:
C600-82 Installation of Gray and Ductile Cast -Iron Water
Mains and Appurtenances
1.1.6 Uni-Bell Plastic Pipe Association (UNI) Publication:
B-5-78 Installation of Polyvinyl Chloride (PVC) Sewer Pipe
1.1.7 Cast -Iron Soil Pipe Association (CISPI) Publications:
301-78 Cast -Iron Soil Pipe and Fittings for Hubless Cast -
Iron Sanitary Sewer
310-78 Patented Joint for Use in Connection with Hubless
Cast -Iron Sanitary Sewer
1.1.8 U.S. Army Corps of Engineers (COE) Waterways Experiment Station
Publication:
CRD-C-621-83 Handbook for Concrete and Cement, Volume II (1949
Ed.), Specification for Nonshrink Grout
1.1.9 North Carolina Department of Transportation and Highway Safety (NCDOT)
Publications:
July 1, 1978 Standard Specifications for Roads and Structures
05-88-8085
02720-2
July 1, 1978 Roadway Standards
1.2 DESCRIPTION OF WORK: The work includes providing new storm drainage
systems and related work. The storm drainage system consists of storm drainage
piping, catch basins, curb inlets, headwalls, and manholes. Provide each system
complete and ready for operation. The storm drainage systems include equipment,
materials, installation, and workmanship as specified herein more than 5 feet
outside of building walls. Piping less than 5 feet outside of building walls is
specified under Section entitled "Plumbing."
1.3 SUBMITTALS:
1.3.1 Shop Drawings:
a. Precast manholes
b. Metal work
1.3.2 Manufacturer's Data:
a. Pipe, fittings, joints, couplings, and gaskets
b. Precast manholes
C. Frames, covers, and grates
1.3.3 Certificates of Compliance:
a. Pipe and fittings, including factory —applied linings
b. Pipe joint materials
C. Frames, covers, and gratings
d. Concrete masonry units
e. Manhole brick
f. Portland cement
g. Hydrated lime
h. Masonry aggregates
i.' Precast structures
1.4 DELIVERY, STORAGE, AND HANDLING OF MATERIALS:
1.4.1 Delivery and Storage:
1.4.1.1 Piping: Inspect materials delivered to site for damage. Store
materials on site in enclosures or under protective coverings. Store plastic
piping and rubber gaskets under cover, out of direct sunlight. Do not store
materials directly on the ground. Keep inside of pipes and fittings free of
dirt and debris.
1.4.1.2 Cement and Lime: Store immediately upon receipt at site of work.
Cement in ripped bags at time of delivery shall be rejected. Store bags in a
waterproof structure which has been made as airtight as practicable, and which
has floors elevated above ground a sufficient distance to prevent absorption of
moisture. Stack bags close together to reduce circulation of air, but do not
stack against outside walls. Arrange storage to permit an easy access for
inspection and identification of each shipment. Transfer bulk materials to
05-88-8085
02720-3
elevated weatherproof and airtight bins. Use cement in the chronological order
in which it is delivered to the job site. At the time of use, materials shall
be free -flowing and free of lumps. Materials that have been in storage longer
than 6 months shall be tested to determine suitability for use; such materials
shall not be used without approval.
1.4.1.3 Brick, Concrete Masonry Units, and Precast Concrete Manholes: Avoid
chipping and breakage of brick, concrete masonry units, and precast manhole
sections; store as directed. Protect masonry materials and precast concrete
from exposure to weather; keep dry until used. Use of masonry or precast
concrete containing frost shall not be permitted.
1.4.1.4 Metal Items: Inspect upon arrival; identify and segregate as to
types, functions, and sizes. Store items to afford easy accessibility and to
prevent excessive rusting or coating with grease or other objectionable
materials. Do not store materials directly on the ground.
1.4.2 Handling: Handle pipe, fittings, and other accessories in such manner
as to ensure delivery to the trench in sound, undamaged condition. Protect coat-
ing and paving on pipe and fittings; if damaged, make satisfactory repairs.
Carry pipe to trench; dragging of pipe shall not be permitted.
1.4.3 Concrete: Provide in accordance with Section entitled "Cast -in -Place
Concrete."
1.4.4 Earthwork: Provide in accordance with Section entitled "Earthwork."
PART 2 - PRODUCTS
2.1 Piping: Provide one of the following materials, except provide concrete
pipe fittings where indicated.
2.1.1 Cast -Iron Hub and Spigot Pipe and Fittings: ASTM A 74, with ASTM C 564
rubber compression gasket joints, or calked and leaded joints.
2.1.2 Cast -Iron Hubless Pipe and Fittings: CISPI 301 with CISPI 310 coupling
joints.
2.1.3 Concrete Pipe and Fittings: Pipe sizes 12-inch diameter through
24-inch diameter shall be reinforced concrete pipe. ASTM C 76 reinforced, Class
III, except provide Class V piping where indicated.
2.1.3.1 Joints:
a. Bell and spigot with ASTM C 443 rubber gaskets. Provide a neutral
agent as a lubricant.
b. Tongue and groove with ASTM C 443 rubber gaskets. Provide a neutral
agent as a lubricant.
C. Tongue and groove with AASHTO M198, Type B preformed plastic gaskets.
05-88-8085
02720-4
Provide lubricants and primers as recommended by the manufacturer.
2.1.4 Corrugated Steel Piping: Fed. Spec. WW-P-405, Class I or II, Shape 1,
circular. Minimum thickness of metal shall be 14 gage.
2.1.4.1 Paving and Coating:
2.1.4.1.1 Annular Corrugations: Fully bituminous coated, half paved, for
pipe diameters less than 18 inches and fully bituminous coated, fully paved, for
pipe diameters 18 inches and larger.
2.1.4.1.2 Helical Corrugations: Helically -corrugated pipe and fittings, when
used with pipe joints, shall have a minimum of two factory -rolled annular
corrugations at each end.
2.1.4.2 Standard Joints: Fed. Spec. WW-P-405 with coupling bands, except
bands with projections will not be permitted.
2.2 DRAINAGE STRUCTURES: Construct of clay brick, solid concrete masonry
units, or concrete, except that headwalls, gutters, top of curb inlets, and
bases shall be concrete. Precast structures may be provided in lieu of
cast -in -place concrete except for headwalls and gutters. Pipe -to -wall
connections shall be mortared to produce smooth transitions and watertight
joints or provided with ASTM C 923 resilient connectors. Bases shall have
smooth inverts accurately shaped to a semicircular bottom conforming to the
inside contour of the adjacent sewer sections. Changes in directions of the
sewer and entering branches into the manhole shall have a circular cure in the
manhole invert of as Large a radius as the size of the manhole will permit.
2.2.1 Precast Concrete Structures: ASTM C 478, except as specified herein.
Provide an air content of 6 percent, plus or minus 2 percent and a minimum wall
thickness of 5 inches. ASTM A 615 reinforcing bars. ASTM A 497 welded wire
fabric. ASTM C 443 or AASHTO M198, Type B gaskets for joint connections.
Provide a 4-inch layer of clean gravel bedding with a maximum size of 2 inches.
2.2.2 Masonry Materials: Shall conform to the following specifications and
other requirements specified hereunder.
2.2.2.1 Brick: ASTM C 32, Grade MS, or ASTM C 62, Grade SW, except that the
absorption test will be waived.
2.2.2.2 Concrete Masonry Units: ASTM C 139.
2.2.2.3 Mortar: ASTM C 270, Type M.
2.2.2.4 Water: Water for masonry mortar shall be fresh, clean, and potable.
2.2.2.5 Grout: COE CRD-C-621.
2.2.3 Catch Basins:
2.2.3.1 Standard Catch Basins: Provide as indicated.
05-88-8085
02720-5
2.2.4 Curb Inlets: Provide as indicated.
2.2.5 Headwalls: Provide as indicated.
2.2.6 Manholes:
2.2.6.1 Standard Manholes: Provide as indicated.
2.3 METAL ITEMS:
2.3.1 Frames, Covers, and Gratings: Fed. Spec. RR-F-621, and shall be of
cast-iron construction; figure numbers shall be as specified herein. Frames,
covers, and gratings in paved areas shall be RR-F-621, Type I traffic design.
2.3.1.1 Catch Basin Figure Numbers:
a. Frame: Figure 6, Size 22A
b. Grating: Figure 4, Size 22A, Style 1
C. Steps: Figure 19
2.3.1.2 Curb Inlet:
a. Frame: Figure 4, Size 22
b. Cover: Figure 12, Size 22
2.3.2 Manhole Steps: Steps are required in drainage structures more than 4
feet deep. Steps shall have a maximum spacing of 16 inches.
2.3.2.1 Cast Iron: Fed. Spec. RR-F-621.
2.3.2.2 Steel Encapsulated Plastic or Rubber: Fed. Spec. RR-F-621, except as
specified herein. Steps shall be steel reinforcing bar encased in polypropylene
plastic or rubber, pressure -molded to the steel, with a minimum cross -sectional
area of 1 inch. Steel reinforcing shall be continuous through the entire length
of the legs and tread. Steps shall have a depressed tread or a 1/2-inch minimum
height cleat at tread ends.
2.3.2.2.1 Steel Reinforcing: ASTM A 615, No. 3, Grade 60; or No. 4, Grade
40.
2.3.2.2.2 Plastic: ASTM D 2146, Type II, Grade 16906, copolymer
polypropylene.
2.3.2.2.3 Rubber: Rubber shall meet the physical requirements of ASTM C 443,
except the Shore A durometer hardness shall be 70 plus or minus 5.
2.4 FLARED ENDS: NCDOT "Standard Specifications for Roads and Structures"
and NCDOT "Roadway Standards." If concrete pipe is provided, materials shall be
reinforced concrete only. Flared ends are included in the lengths of pipe
indicated. Grading at flared ends, unless otherwise indicated, shall be in
accordance with the applicable standards of the NCDOT "Roadway Standards" with
respect to the type of material used for flared ends, i.e., concrete or metal.
05-88-8085
02720-6
2.5 EROSION CONTROL RIP RAP: Provide nonerodible rock not exceeding 15
inches in its greatest dimension and choked with sufficient smaller rocks to
provide a dense mass with a minimum thickness of 18 inches.
2.6 BURIED UTILITY WARNING AND IDENTIFICATION TAPE: Provide detectable
aluminum foil plastic backed tape or detectable magnetic plastic tape manufactur-
ed specifically for warning and identification of buried piping. Tape shall be
detectable by an electronic detection instrument. Provide tape in rolls, 3
inches minimum width, color coded for the utility involved with warning and
identification imprinted in bold black letters continuously and repeatedly over
entire tape length. Warning and identification shall be CAUTION BURIED STORM
DRAINAGE PIPING BELOW or similar. Use permanent code and letter coloring
unaffected by moisture and other substances contained in trench backfill
material. Bury tape with the printed side up at a depth of 12 inches below the
top surface of earth or the top of the subgrade under pavements.
PART 3 - EXECUTION
3.1 INSTALLATION: The following requirements shall apply to piping installa-
tion except as specified otherwise.
3.1.1 Pipe Laying and Jointing: Inspect pipe and fittings before and after
installation; defective piping shall be replaced with new materials. Provide
facilities for lowering sections of pipe into trenches. Lay pipe with the bell
ends in the upgrade direction. Adjust spigots in bells to give a uniform space
all around. Blocking or wedging between bells and spigots will not be permitted.
Replace pipe or fittings that do not allow sufficient space for proper calking
or installation of jointing material with new pipe or fittings of correct
dimensions. At the end of each day's work, close open ends of pipe temporarily
with wood blocks or bulkheads. Provide batterboards spaced not more than 26
feet apart along the trench or use the laser beam method for ensuring proper
slope and elevation. Pipe grades or joints that are disturbed after laying
shall be removed, cleaned, and reinstalled.
3.1.2 Connections to Drainage Piping: Furnish materials required to make
connections into drainage piping, and perform excavating, backfilling, and other
incidental labor as required.
3.1.2.1 New Drainge Structures: Provide new structures constructed on exist-
ing and new piping. Remove portions of the existing pipe to construct the struc-
tures. The pipe shall be cut or broken neatly so that the pipe ends will be
approximately flush with the interior face of structure walls, but not protrud-
ing beyond such face into the structure. Pipe -to -wall connections shall be
mortared smoothly to provide watertight connections or provided with ASTM C 923
resilient connectors.
3.1.2.2 New Fittings: Install new fittings into piping for connections where
new structures are not indicated and the inside diameter of the connecting pipe
is 40 percent or greater than the inside diameter of the receiving pipe.
Provide fittings of the same minimum thickness gage, coating, and class as the
connecting pipe. The Contractor may opt to provide fittings of the same minimum
05-88-8085
02720-7
thickness or gage, coating and class as the receiving pipe. Cut portions of the
existing pipe to install fittings. Provide approved adapters and connecting
pieces for watertight connections between fittings and pipe.
3.1.2.3 Direct Connections: Install direct connections where new structures
are not indicated and the inside diameter of the connecting pipe is less than 40
percent of the inside diameter of the receiving pipe. Bore hole into receiving
pipe large enough to accommodate the connecting pipe. The connecting pipe end
shall be flush with the interior face of the receiving pipe. Grout the
connection with nonshrinking grout or provide approved watertight saddles and
connecting pieces unless indicated otherwise.
3.2 SPECIAL REQUIREMENTS FOR INSTALLATION OF STORM DRAINAGE SYSTEM:
3.2.1 Cast -Iron Soil Piping: Recommendations of the pipe manufacturer.
3.2.2 Concrete Piping: ACPA "Concrete Pipe Installation Manual" or ACPA
"Concrete Pipe Handbook," Chapter 9. Clean and dry surfaces receiving
lubricants, cements, or adhesives. Affix gaskets to pipe not more than 24 hours
prior to installation of the pipe. Protect gaskets from sun, blowing dust, and
other deleterious agents. Remove loose or improperly affixed gaskets and
provide new gaskets before installation of the pipe. Align each pipe section
with the previously installed pipe section, and pull the joint together. If the
gasket becomes loose and can be seen through the exterior joint recess when the
pipe is pulled up to within 1.0 inch of closure, remove the pipe and remake the
joint.
3.2.3 Corrugated Steel Piping: Recommendations of pipe manufacturer, except
as specified herein.
3.2.3.1 Steel Pipe Coating and Paving: Prevent damage to bituminous coating
and paving. If damage occurs, give damaged areas of pipe and couplings an
application of bituminous material equal to that specified for the pipe or
remove and provide new pipe, as directed.
3.2.3.2 Jointing: In making pipe joints, keep space between pipe and
coupling free from dirt and grit so that corrugations will fit snugly. While
tightening the coupling free from dirt and grit so that corrugations will fit
snugly. While tightening the coupling band, tap it with a soft -head mallet of
wood, rubber, or plastic to take up slack and ensure a tight joint.
3.2.3.2.1 Standard Joints: Recommendations of the pipe manufacturer. Fill
the annular space between abutting sections of paved invert pipe with bituminous
material after jointing.
3.2.4 Bedding Requirements: AWWA C600, Type 4, except as specified herein:
Backfill to top of pipe shall be compacted to 95 percent of ASTM D 698 maximum
density. Plastic piping shall have bedding to springline of pipe.. Materials
shall be Class I or II as specified in ASTM D 2321 as follows:
a. Class I -- Angular, 6 to 40 mm (1/4 to 1-1/2 in.), graded stone, includ-
ing a number of fill materials that have regional significance such as
05-88-8085
02720-8
coral, slag, cinders, crushed stone, and crushed shells.
b. Class II -- Coarse sands and gravels with maximum particle size of 40
mm (1-1/2 in.), including variously graded sands and gravels containing
small percentages of fines, generally granular and noncohesive, either
wet or dry. Soil Types GW,GP, SW, and SP are included in this class as
specified in ASTM D 2487.
3.2.5 Masonry Work:
3.2.5.1 Mortar for Masonry: Do not use mortar that has attained initial set,
i.e., hardened to the extent that additional mixing water is needed to restore
workability. Use materials conforming to Type M of ASTM C 270, mixed in the
proportions of one part Portland cement, 1/4 part lime paste, and 3 to 3-3/4
parts sand for brick masonry, concrete unit masonry, and for bedding cast-iron
frames in masonry.
3.2.5.2 Mortar for Pargeting Masonry Walls: Do not use mortar that has
attained initial set, i.e., hardened to the extent that additional mixing water
is needed to restore workability. Use mortar mixed in the proportions of one
part portland cement, 1/4 part hydrated Lime, and 3 parts sand for pargeting
masonry walls below grade.
3.2.5.3 Brickwork: Lay brick in header courses in circular walls to form
full and close mortar joints on the beds, ends, and sides in one operation.
Make vertical joints radial from the center. Build brickwork around pipe inlets
and outlets neatly, using sufficient mortar to seal the pipe tightly in the wall.
Joints in walls other than circular shall be laid in stretcher courses with
every fifth course to be a header course with full close joints.
3.2.5.4 Concrete Unit Masonry: Construct walls in horizontal courses, with
vertical joints broken. Lay units in mortar and fill joints completely with
mortar.
3.2.6 Curb Inlet and Catch Basin Construction: Provide base slab of
cast -in -place concrete or precast concrete base sections. Make inverts in
cast -in -place concrete and precast concrete bases with a smooth -surfaced
semicircular bottom conforming to the inside contour of the adjacent sewer
sections. For cast -in -place concrete construction, either pour bottom slabs and
walls integrally or key and bond walls to bottom slab. Construct masonry walls
of brick or concrete masonry units. Provide pargeting, a 1/2-inch minimum
thickness, on exterior of masonry walls. No pargeting will be permitted on
interior walls. Pargeting will not be required for precast concrete structures.
Provide a smooth finish to inside joints of masonry and precast concrete
structures.
3.2.7 Metal Work:
3.2.7.1 Workmanship and Finish: Form iron and steel airfield work to shape
and size with sharp lines and angles. Provide shearing and punching to produce
clean, true lines and surfaces. Make castings sound and free from warp and blow
holes that may impair strength or appearance. Provide exposed surfaces with a
05-88-8085
02720-9
- ' L
smooth finish and sharp, well—defined lines and arrises. Provide necessary
rabbets, lugs, and brackets wherever necessary. After installation, remove
mortar, dirt, and other deleterious materials from frames, covers, gratings, and
steps.
3.3 FIELD TESTS AND INSPECTIONS:
3.3.1 General: Perform field tests and provide labor, equipment, and inciden—
tals required for testing.
3.3.2 Piping Test: Check straight runof pipeline for gross deficiencies by
holding a light in a manhole; a practically full circle of light shall show
through the pipeline when viewed from the adjoining end of the line.
*** END OF SECTION ***
05-88-8085
02720-10
SECTION 01560
ENVIRONMENTAL PROTECTION
1. ENVIRONMENTAL PROTECTION PLAN: The Contractor shall be responsible for
the preparation and submission of an environmental protection plan. After the
contract is awarded, but prior to the commencement of the work, the Contractor
shall meet with the Contracting Officer, or his representative, and discuss the
proposed environmental protection plan. The meeting shall develop mutual under—
standing relative to details of environmental protection, including required
reports and measures to be taken should the Contractor fail to provide adequate
protection in an adequate and timely manner. Not more than 14 days after the
meeting, the Contractor shall submit for approval his proposed environmental
protection plan.
2. GENERAL REQUIREMENTS: The Contractor shall provide and maintain environ—
mental protection during the life of the contract as defined herein. The
Contractor's operations shall comply with all Federal, State, and Local
regulations pertaining to water, air, solid waste, and noise pollution.
3. DEFINITIONS OF POLLUTANTS:
3.1. Non —hazardous wastes: Solid or liquid substances that are to be discard—
ed by the Contractor and that normally do not constitute a hazard to man or to
the environment. This includes, but is not limited to, paper, metal (other than
toxic metals such as lead and mercury), masonry, wood, brick, stone, asphaltic
concrete, plastics, rubber, rubbish and concrete.
3.2. Hazardous wastes: Solid and liquid substances that are to be discarded
by the Contractor and that constitute a significant active or potential hazard
to man and/or to the remainder of the environment. This includes, but is not
limited to, asbestos, glass, lead, mercury, pesticides, herbicides, other toxic
chemicals and waste, liquid petroleum products, human excrement, garbage, sedi—
ment, and radioactive materials.
3.2.1. Sediment: Soil that has been eroded and transported by running water.
3.2.2.. Garbage: Waste foodstuffs.
3.2.3. Human excrement: Solid or liquid wastes produced by the human body.
4. PROTECTION OF NATURAL RESOURCES:
4.1. General: It is intended that the natural resources within the project
boundaries and outside the limits of permanent work performed under this con—
tract be preserved in their existing condition or be restored to an equivalent
or improved condition upon completion of the work. The Contractor shall confine
his construction activities to areas defined by the work schedule, plans, and
specifications.
4.2. Land Resources: The Contractor shall not remove, cut, deface, injure,
or destroy trees or shrubs without written permission from the Contracting
05-88-8085
01560-1
Officer. No ropes, cables, or guys shall be fastened to or attached to any
existing nearby trees for anchorages unless specifically authorized. Where such
special emergency use is permitted, the Contractor shall be responsible for
repairing or replacing any damage resulting from such use.
4.2.1. Protection Plan: Where trees may possibly be defaced, bruised,
injured or otherwise damaged by the Contractor's activity, equipment, or by his
dumping, or other operations, the Contractor shall submit a plan for protecting
such trees. Monuments, markers and works of art shall be protected before begin—
ning operations.
4.2.2. Repair or Restoration: Any trees or other landscape features scarred
or damaged by the Contractor's equipment or operations shall be repaired and/or
restored to their original condition at the Contractor's expense. The Contract—
ing Officer shall approve the repair and/or restoration planned prior to its
initiation.
4.2.3. Temporary Construction: The Contractor shall obliterate all signs of
temporary construction facilities such as work areas, structures, stockpiles of
excess or waste materials, or any other vestiges of construction as directed by
the Contracting Officer.
4.3. Water Resources: It shall be the responsibility of the Contractor to
investigate and comply with all applicable Federal, State, and Local regulations
concerning the discharge (directly or indirectly) of pollutants to the under—
ground and natural waters. All work under this contract shall be performed in
such a manner that any adverse environmental impacts are reduced to a level that
is acceptable to the Contracting Officer.
4.4. Oily Substances: At all times, special measures shall be taken to
prevent oily or other hazardous substances from entering the ground, drainage
areas, or local bodies of waters in such quantities as to affect normal use,
aesthetics or produce a measurable ecological impact on the area.
4.5. Historical and Archeological Resources: All items having any apparent
historical or archeological interest which are discovered in the course of any
construction activities shall be carefully preserved and reported immediately to
the Contracting Officer for determination of actions to be taken.
5. EROSION AND SEDIMENT CONTROL MEASURES:
5.1. Burn —off of Ground Cover will not be permitted.
5.2. Reduction of Exposure of Unprotected Erodible Soils: Earthwork which
has been brought to final grade shall immediately be paved or otherwise finished
as indicated and specified. All earthwork shall be planned and conducted in
such a manner as to minimize the area and duration of exposure of unprotected
soils.
5.3. Temporary Protection of Erodible Soils: Such methods as may be neces—
sary shall be utilized to effectively prevent erosion and control sedimentation,
including, but not limited to, the following:
05-88-8085
01560-2
5.3.1. Mechanical Retardation and Control of Runoff: The rate of runoff from
the construction site shall be mechanically retarded and controlled. This
includes construction of diversion ditches, benches, and berms, to retard and
divert runoff to protected drainage courses.
5.3.2. Sediment Basins: Sediment shall be trapped in temporary or permanent
sediment basins. The basins shall be designed (sized) to accommodate the runoff
of a local 10—year storm and shall be pumped dry and all sediment removed after
each storm. Overflow shall be by paved weir or by vertical overflow pipe, drain—
ing from the surface. The collected sediment shall, for example: (1) be return—
ed to the source of erosion, (2) be used as fill on the construction site, or
(3) be used as fill at other sites. The Contractor shall institute effluent
quality monitoring programs as required by State and Local environmental
agencies.
5.3.3. Buffer Zones: No land —disturbing activity shall be permitted in prox—
imity to a lake or natural watercourse unless a buffer zone is provided along
the margin of the watercourse of sufficient width to confine visible siltation
within the twenty—five percent of the buffer zone nearer the land —disturbing
activity, provided, that this paragraph shall not apply to a land —disturbing
activity in connection with the construction of facilities to be located on,
over, or under a lake or natural watercourse.
5.3.4. Angle for Graded Slopes and Fills shall be no greater than the angle
which can be retained by vegetative cover or other adequate erosion control
devices or structures. In any event, slopes left exposed will, within 30 work—
ing days of completion of any phase of grading, be planted or otherwise provided
with ground cover, devices or structures sufficient to restrain erosion.
5.3.5. Revegetation: Whenever land —disturbing activity is undertaken on a
tract comprising more than one acre, if more than one continguous acre is uncov—
ered, a ground cover sufficient to restrain erosion must be planted or otherwise
provided within 30 working days on that portion of the tract upon which further
active construction is not being undertaken.
6. CONTROL AND DISPOSAL OF HAZARDOUS AND NON —HAZARDOUS WASTES:
6.1. Non —hazardous wastes shall be picked up and disposed of daily or placed
in containers which are emptied on a weekly schedule. All handling and disposal
shall be so conducted as to prevent contamination of the site and any other
areas. The Contractor shall transport all such waste and dispose of it in the
Base Sanitary Landfill, unless otherwise approved. If transporting any material
off Government property, the Contractor shall provide the Contracting Officer a
copy of State and/or local permit which reflects the responsible agency's approv—
al of the disposal area and proposed waste disposal methods. Rubble such as
masonry, stone, concrete, and brick shall be deposited at the masonry rubble
disposal site or off Government property. At the masonry rubble disposal site
rock riprap is not to be pushed or dumped from the top of the bank into the
water. Material shall be placed by clam shell or other suitable equipment. All
riprap material will consist of rock, concrete, or other clean building rubble.
No asphalt is to be used and no marsh or wetlands will be filled as a result of
this work. The toe of the riprap shall not extend any further than 15 feet
0015608585
waterward of the mean high water (mhw) contour. All work shall comply with
Department of the Army Permit Number SAWC082N-067-0170. Upon completion, the
work and disposal areas shall be left clean and natural looking. All signs of
temporary construction and activities incidental to construction of the required
permanent work in place shall be obliterated.
6.2. Hazardous Wastes:
6.2.1. Garbage Disposal: The Contractor shall transport his garbage to the
Base Sanitary Landfill. The preparation, cooking and disposing of food are
strictly prohibited on the project site.
6.2.2. Sewage, Odor, and Pest Control: Chemical toilets or comparably effec—
tive units shall be used with wastes periodically emptied into municipal, dis—
trict, or Base sanitary sewage systems. Provisions shall be included for
masking or elimination of odors and pest control. Compliance with Federal,
State, and Local regulations shall be established by the Contractor providing
the Contracting Officer with a copy of the permit or license when applicable.
6.2.3 Liquid wastes shall be stored in corrosion —resistant containers,
removed from the project site, and disposed of not less frequently than monthly
unless directed otherwise. Disposal of liquid waste shall be in accordance with
Federal, State, and Local regualations. Fueling and lubricating of equipment
and motor vehicles shall be conducted in a manner that affords the maximum
protection against spills and evaporation. For oil and hazardous material
spills which may be large enough to violate Federal, State, and Local regula—
tions, the Contracting Officer shall be notified immediately.
*** END OF SECTION ***
05-88-8085
01560-4
Interpolation of Asp at it's Elevation
Elevation Area
(ft) (ft-2)
Permanent Fool: 12 3923
Storage pond 14 Asp
10 Year Flood 14 8302
Asp- App + [(A10 - App) I (ELsp - ELpp)/(EL10 - ELpp)] Asp -
Storage Volume provided, VOLpro: Side slope: 3:1 lilt
Volume 1, V1- App } d 3923 ft*2 r ? ft - V1=
Volume 2, V2= (Asp App) $ d 4 L5 V2=
VOLpro - V1 + V2 : 7846 ft"3 + 2 ft'3 VOLpro=
Note:
VOLreq < VOLpro excess storage is available, therefore Basin Size is Acceptable
4 Excess Storage =1 - (VOLreq / VOLpro) r 100 0 % Excess Storage
8302 ft"2
7846 ft"3
4379 ft"3
12225 ft"3
33.104<--------
BUILDING NO. 1
li
1)
RECHARGE ,RATE (ft./day)
4.8
P)
TRANSMISSIVITY 'sq. ft./day)
600
3)
SPECIFIC YIELD
.3
4i
BEGINNING TIME
1
INAL TIME (days)
3
TIME INCREMENT (days)
5)
END OF RECHARGE, PERIOD (days)
5
b)
BEGIN14ING DISTANCE (ft.)
0
FINAL DISTANCE (ft.)
150
DISTANCE INCREMENT (ft.)
10
7)
DEPTH TO WATER (ft.)
12
8)
ANGLE FiiOM X— AXIS (deg.)
13.5
9)
DISTANCE TO STREAM (ft.)
1500
10)
CALCULATE MOUND PROFILE
YES
11)
CALCULATE DISCHARGE TO STREAM
NO.
lam)
BASIN WIDTH (ft.)
75
13)
BASIN LENGTH (ft.)
�(.) .
WATER TABLE
ISO
TIME 5 (DAYS)
PRESS <ENTER> TO CONTINUE
;4
0
DISTANCE (FT)
GROUND
5
BUILDING NO. 2
i)
RECHARGE RATE (ft./day)
4.8
2)
(RA wSm ,SblJl?Y (sq. ft./day)
°Ov
SPECIFIC YIELD
s
4)
BEGINNING TIME
1
FINAL TIME (days)
5
TIME INCREMENT (days)
i
END OF RECHARGE PERIOD (days)
5
6)
BEGINNING DISTANCE (ft.)
0
FINAL DISTANCE (ft.)
i50
DISTANCE INCREMENT (ft.)
10
7)
DEPTH TO WATER (ft.)
9
8)
ANGLE FROM X- AXIS (deg.)
i0
9)
DISTANCE TO STREAM (ft.)
1000
10)
CALCULATE MOUND PROFILE
YES
11)
CALCULATE DISCHARGE TO STREAM
NO
12)
BASIN WIDTH (ft.)
i00
13)
BASIN LENGTH (ft.)
30
WATER TABLE
150
TIME 5 (DAYS)
PRESS <ENTER> TO CONTINUE
0
DISTANCE (FT)
GROUND
150