HomeMy WebLinkAboutSW7110601_HISTORICAL FILE_20110606NORTH CAROLINA
F,
Department of Environmental Qual
STORMWATER DIVISION CODING SHEET
POST -CONSTRUCTION PERMITS
PERMIT NO.
SW 7�1t�(Ql9
DOGTYPE
❑ CURRENT PERMIT
❑ APPROVED PLANS
HISTORICAL FILE
❑ COMPLIANCE EVALUATION INSPECTION
DOC DATE
YYYYMM DD
Aston Soil Works, Inc.
P.O. Box 86
Simpson, NC 27879
June 1, 2011
JUN 06 2011
Marie Peedin, PE
Pamlico Engineering Services, PLLC NC ®ENR
128 Abbey Lane
Washington, NC 27889
Re: Seasonal High Water Table Determination for Stormwater Retention Pond Perdue
Agribusiness.at 1461 Swindell Road in Beaufort County, NC.
Dear Ms. Peedin,
As requested, a seasonal high water table determination was conducted on March 31,
2011 for a proposed commercial development in Beaufort County, NC. The method of
soil evaluation utilized one hand auger boring to a depth of 36 inches. The boring
location was based on a plan provided by you. An enclosed map identifies the
approximate location of the boring conducted in the proposed retention pond area. The
findings of this investigation suggest a seasonal high water table is approximately 10
inches from the natural surface. The method of determination was based on the
presence of soil morphological features containing > 2% chroma 2 color or less mottles.
The soil profile described below exhibits > 2% chroma 2 colors or less throughout the
profile. The soil profile description contained:
0-18 inches; black (10YR 2/1) sandy loam; weak fine granular structure; friable.
18-36 inches; dark gray (10YR 4/1) sandy clay loam; few yellowish red (5 YR 4/6)
concentrations; weak fine subangular blocky structure; fine.
If you have any further questions, please contact me at (252) 341-9707
Sincerely,
Gene Aston
Licensed Soil Scientist # 1261
s�
soil
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Auger Boring Location Map
Perdue Agribusiness, Swindell Road
Beaufort County, NC
Auger
DO'
Vorks,lnc.
on Grove
VC 27858
100'
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MSRMaps: Print Page 1 of 1
Send To Printer Back To MSR Maps Change to 11x17 Print Size Show Grid Lines Change to Landscape
N SGS Pantego, North Carolina, United States 01 Jul 19744J``,
44
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lehop Crew PTS 34Gj
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y� i' 30 .7, Image courtesy of the U.S. Geological Survey
® 2010 Microsoft Corporation. Terms of Use Privacy Statement
http://msrmaps.com/PrintImage.aspx?T=2&S=12&Z=18&X=435&Y=4926... 5/ 17/201 1
Soil Map —Beaufort County, North Carolina
(Perdue Agribusiness Site)
W 3651' r
35' 35' 59'
3471600 3 7B00 3CB000 3i8200 30400
w
w
� � I
a„
r
h
1800 mmm 3a8200 3rB900 3d 00 348800 i+3^p.'
AYp SnIa. 111400ifwIn%darAY (8.5-x W)Wmt
N Metes
A 0 150 300 B00 800
Feel
0 500 1,000 2,000 3,000
USDA Natural Resources Web Soil Survey
Conservation Service National Cooperative Soil Survey
J
35' 36' 52"
35' 36 1"
5/17/2011
Page 1 of 3
Soil Map —Beaufort County. North Carolina
(Perdue Agribusiness Site)
s
MAPLEGEND
MAP INFORMATION
Area of Interest (AOl)
jZ Very Stony spot
Map Scale. 1:11,400 if printed on A size (8.5" s 11") sheet.
Area of Interest (AOI)
Wet Spot
The soil surveys that comprise your A01 were mapped at 1:24.000.
Soil$
A ref
Please rely on the bar scale on each map sheet for accurate map
Soil Map Units
measurements.
Special Line Features
Special
Point Features
_ Gully
Source of Map'. Natural Resources Conservation Service
.y
Blowout
Web Soil Survey URL: http:ttwobsoilsuNey.nres.usda.gov
®
Borrow Pa
Short steep slope
Coordinate System: UTM Zone 18N NAD83
X
Clay Spot
^ • other
This product is generated from the USDA-NRCS certified data as of
Political Features
the version dale(s) listed below.
♦
Closed Depression
p Cities
Soil Survey Area. Beaufort County, North Carolina
X
Gravel Pit
Water Features
Survey Area Data: Version 10, Jun 29, 2009
..
Gravelly Spot
oceans
Date(s) aerial images were photographed: 71`18/2006; 7/19/2006
®
Landfill
Streams and Canals
The orthophoto or other base map on which the soil Imes were
A
Lava Flow
Transportation
compiled and digitized probably differs from the background
Reds
imagery displayed on these maps. As a result, some minor shifting
,y.
Marsh or swamp
+++
of map unit boundaries may be evident
yt
Mine or Quarry
Interstate Highways
®
Miscellaneous Water
US Routes
6
Perennial Water
Major Roads
v
Rock Outcrop
N Local Roads
}
Saline Spot
..
Sandy Spot
it
Severely Eroded Spot
o
Sinkhole
Slide or Slip
//
Sci is Spot
it
Spoil Ares
Q
Stony Spot
Ali Natural Resources Web Soil Survey 6/17/2011
Conservation Service National Cooperative Soil Survey Page 2 of 3
Soil Map -Beaufort County, North Carolina
Perdue Agribusiness Site
Map Unit Legend
Beaufort County, North Carolina (NC013)
Map Unit Symbol
Map Unit Name
Acres in AOI
Percent ofAOI
Ds
Dragston fine sandy loam
10.7
2.5%
Me
Murkalee loam, frequently flooded
5.0
1.1%
Pi
Portsmouth loam
62.4
14.4%
Ro
Roanoke fine sandy loam
0.0
0.0%
TO
Tomotley fine sandy loam
353.6
81.7%
W
Water
1.21
0.3%
Totals for Area of Interest
432.9
100.0%
. ...a. Boa
Conservation Service
National Cooperative Soil Survey
Page 3 of 3
JUN 06 2011
i'
MIZ1655PC874
�.sru or adtms
i'
mmmmw a=wr Lm
Rrruslsw rover _ 3 ri fts REAL M ATE
TAX Pmo
Lmd Reoeade o!lSoiel once �,
Prepared by Boma►, Thom wm & Styes, P.LLC.
fi'arrenton, North Carolina
Title Not Examined by Draftsman
is
NORTH CAROLINA
BEAUFORT COUNTY j
Excise Tax: $
Tax T.D. Number: See Schedule 1 ?
THIS DEED, made this day of Am.V, 2008, by Perdue Farmi Incorporated, a Maryland
corporation having its office and principal place of business at P.O. Box I537, Salisbury, Maryland,
21802, party of the first part, to Perdue Agribusiness Incorporated, P.O. Box 1537, Salisbury,
Maryland, 21802, party of the second part,
i
WITNESSETH:
THAT, said party of the first part for NO CONSIDERATION, for business convenience, has
granted, bargained and sold and by these presents does hereby bargain, sell and convey to and unto the
party of the second part, the following described land m Beatdbrt County, North Carolina:
See Attached Exhibit `A'
TO HAVE AND TO HOLD the above described land. together, with all pnvileW and
appurtenances thereto belonging, to and unto the party of the second part, in Fee simple forever.
And the party of the first part covenants with the party of the second pan, that it is seized of said
I
1K1655PC 75 '
land in fee and has a good and lawful right to coavey the same in fee simple, that the same is free and
clear of all encumbratues, vwept any that may be specified herein. and that if does hereby warrant and
will forever defend the title thereto agauBt the lawful claims and demands of all persons whomsoever.
1
in its name bi
STATE OF
I HEREBY (.:YKFJFY that on the P day of & 2008, be
Notary Public of the State of Maryland, Whally appeared Herbs
acknowledged himself to be the Secretary of perdue Farms Incorporated, a
that be. as the Secretary of Perdue Farms Incorporated, being authorize
document for the purposes contained in the document, by signing the n
himself as Secretary.
WITNESS my hand and official seal this Lday of,
auB �G J11Public
A
My Commission Expires:
Upon recordation, please return to:
Kelly Shubic Weiner
Venable LLP
750 E. Pratt Suva
Suite 900
Baltimore, Maryland 21202
e me, the subscriber, a
D, Frerichs, Jr., who
aryland corporation, and
to do so. awcated this
r: of the corporation by
�U
"1655rc8'78
Schedule 1
Reference: "Pantego/Bishop's Cross, Nor&
Tax I.D. Number
09-032735
091655PC8i 9
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. USII:O DOCUMHf9 OF RECOM A9 SNONN'ON T0I YAP AND THAT .
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Afq MPARTI2a:4 TUT THLS YAP WAS PREPARED IN'ACCOMN. : . _ -
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ff) IIO YY IA1 SEAL Th 5 ICATi P APPoL
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BEAUFBiT
02' OB' Mir I LAMY L RICRMD..GL MTMY PUBIC , L. RX:HARDSON,
REUSIERED LAtA SURVEYOR. PEASMlALL E W THIS
MY AND ACK�DGED WITM58 MY XAlD AMD SEAL TMAI 01' GOING
6ITM"TON OAY.OF AP1EL,' WI9IAUENT.
\ L L RICXARD, JR_ COYYUSAN URIRE9 B/22/9T
JUN O. 2011�.y
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C.
Pantego Township Beaufort County
North Carolina
Scale: I"=100' - Survey Date: April 15, 1993
SUNEYM BY: HOOD RICNARDSON, PA
20e NORTH YA U STREET
WASHINOTBC KC. 278e9
PHONE 1919; 975-3992
- 9!-OF099
O
m
STORM WATER
MANAGEMENT PLAN
Perdue Agribusiness Inc
Pantego Grain Storage Pad
Pantego, NC
CARO'',,,
�pPQ FEssla� �9�+
¢ t•,
SEAL
OIN
U. WK 9.
Project Engineer
PAMLICO ENGINEERING SERVICES, PLLC
128 ABBEY LANE
WASMNGTON, NC 27889
252-945-2993
EXPRESS
JUN 06 2011
NC ®ENR
1„ca�jV �'�.
.o
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Storm Water Management Plan
LOCATION:
This site is located on Swindell Road in Pantego, NC. The site is currently an open grass
field with an existing concrete grain storage pad which is to be removed and replaced
with the project.. The location of the site is approximately I mile north of US 264 on NC
99.
EXISTING DRAINAGE PATTERNS:
The property has existing road side ditches and is graded toward an existing railroad
ditch. The property is a large tract which drains into Pantego Creek which is a tributary to
the Pamlico Tar River Basin.
PROPOSED PROJECT:
This project will consist of stripping the site and grading the existing lot for construction
of the grain pad. All drainage shall continue in the same manner as was before
construction. Any excess material from the site which is not used shall be hauled off to
an approved waste site. All fill material to be placed on the site shall come from an
approved borrow pit.
Storm Water Management
The entire lot area is 15.96 acres based on the meets and bounds description found on a map the
owner had surveyed by Hood Richardson, PA. The portion to be developed will have 2.14 ac of
impervious surface. The area of development has an existing grain pad which is to be removed
prior to construction of the new site. This existing pad is apx. 49,745 sf and therefore the net
additional impervious area is 43,473 sf. The existing site has approximately 196,020 sf of
existing impervious area on site Using the total property area of 15.96 ac and new development
of 0.98 ac the site is at the 28.2% impervious and the stormwater will need to be treated as high
density.
The existing site drains to the south and east and will continue to drain to the south in the
proposed drainage swales shown on the plans. These drainage swales will take the water to a wet
pond which will detain the water for a minimum of 2 days. This basin will also act as a detention
device to offset the peak storm event and only allow the predevelopment 1 yr 24 hr storm event to
pass out of the system. The only area draining to the pond is the portion of the new pad which is
additional impervious area only.
All calculations are shown and are attached to this report.
"0 r" 0
If
'J %
W,
if
'IJ 'I Ij
0
Run Off Calculations
Simple Method
Rv = 0.05+.0091
post dev
1= 60.16 %
Rv= 0.5914 v
Volume to be Controlled
V = design rainfall x Rv x drainage area
DA 1.66 ac --
Design Rainfall V 1.5 in
Volume= 5345.8 cf
Note: Pond for new impervious area only.
jr -I LI—sc
L) , - ,.; W! .. 'k 31
1JJ:)!G I :,:Gil i` ,
Perdue Grain Pad
Pond Drawdown
Sizing Calculations
Total Storage Volume 5384 cf
Temporary Pond Volume 5346 cf
Days to Drawdown 2 days
Q = 0.0309375 cfs
Orfice Size for Pond Structure
a= 0.01573862
cd 0.6
h 0.5
q 1 0.0309375 cfs
r = 0.070779647
0.142 FT
1.698711528 IN
Say 1.5 INCH opening
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Precipitation Frequency Data Server
Page 1 of 4
G 9' POINT PRECIPITATION
FREQUENCY ESTIMATES iJ#
FROM NOAA ATLAS 14
BELHAVEN, NORTH CAROLINA (31-0674) 35.4992 N 76.6864 W 3 feet
from "Precipitation -Frequency Atlas of the United States" NOAA Atlas 14, Volume 2, Version 3
G.M. Bonnin, D. Martin, B. Lin, T. Parzybok, M.Yekta, and D. Riley
NOAA, National Weather Service. Silver Spring, Maryland, 2004
Extracted: Fri May 27 2011
Confidence Limits Seasonality Related Info GIS data Maps Docs Return to State Map
Precipitation Frequency Estimates (inches)
ARI *
(years)
5
mm
�kRwk���
I0
]0
15
m5
30
mm
60
mm
120
min
3 hr
6 hr
12 hr
24 hr
48 hr
4
�
��I
7
d�
]0
-day
LO
20
30
day
45
d]
60
F
-
=1
0.45
0.72
0.91
1.24
I.55
1.82
1.96
2.35
2.76
3.27
3.77
4.26
4.98
Efl
7.66
9.46
I I.74
14.09
�2
OF531
0.84
1.06
1.46
1.84
2. 18
2.34
2.81
3.30
3.97
4.57
5.16
6.00
6.79
9. ] 3
11.26
13.89
16.63
0
0.60
0.96
1.22
1.73
2.22
2. 99
2.90
3.48
4.09
5.13
5.87
6.56
7.54
8.42
1 1.09
13.54
16.61
19.64
10
0.69
1.09
1.39
2.01
2.61
3.23
3.51
4.21
4.99
6.11
6.99
7.72
8.80
9.75
12.71
1537
18.85
22.07
25
0.77
1.23
1.56
2.31
3.08
3.89
4.28
5.16
6.15
7.55
8.66
9.41
10.63
11.67
I5.00
17.89
22.00
25.39
50
0.85
1.35
1.71
2.58
3.50
4.51
5.01
6.05
7.27
8.79
10.12
10.83
12.15
13.27
16.87
19.90
24.56
28.01
100
0.92
1.46
1.85
2.83
3.90
5.13
5.76
6.98
8.44
10.15
11.74
12.37
13.77
14.96
18.84
21.95
27.23
30.66
200
0.99
L57
1.98
3.08
4.32
5.79
6.58
8.01
9.73
11.64
13.55
14. 55
15.52
16.76
20.91
24.07
30.01
33.34
500
1.07
1.70
2.14
3.40
4.88
6.70
7.73
9.45
11.59
13.86
16.26
16.53
18.02
19.34
33.83
26.95
33.89
36.98
1000
1.16
1.82
2.28
3.70
5.40
7.53
8.81
10.81
13.36
15.74
18.59
18.79
20.12
21.45
26.I7
29.21
36.98
39.78
These precipitation frequency estimates are based on a partial duration series. ARI is the Average Recurrence Interval.
Please refer to NOAA Atlas 14 Document for more information. NOTE: Formatting forces estimates near zero to appear as zero.
* Upper bound of the 90% confidence interval
Precipitation Frequency Estimates (inches)
ARI 5 10 15 30 60 120 3 6 12 24 48 4 7 10 20 30 45 60
(years) min min min min min min hr hr hr hr hr day day day day dayI day day
�1
080
7
20
22
2683
3
446
539
823
0
7
4.96050
=2
0.58
0.93
1.17
1.61
2.02
2.42
2.63
3.17
3.72
4.35
5.02
5.62
6.49
7.33
9.80
12.01
14.87
17.66
00.66
1.06
1.34
1.90
2.44
2.98
3.25
3.93
4.62
5.62
6.44
7.14
8.15
9.08
l t.94
14.45
17.77
20.88
10
0.75
1.21
1.52
2.21
2.88
3.57
3.92
4.76
5.63
6.68
7.65
8.40
9.52
10.51
13.67
16.39
20.17
23.47
25
0.85
1.35
1.72
2.54
3.39
4.30
4.77
5.80
6.91
8.25
9.45
10.2-IF-
1.47
12.56
16.14
19.08
23.55
27.01
50
0.93
1.49
-
2.83
3.84
4.97
5.57
6.80
8.13
9.60
1 1.04
11.79
13.14
14.31
18.16
21.26
26.31
29.84
100
1.01
1.61
2.03
3.1 14
.28
5.65
6.40
7.82
9.43
11.07
12.84
13.51
14.93
16.16
20.32
23.50
29.22
32.73
200
1.09
1.72
2.17
3.38
4.75
6.38
7.30
8.95
10.87
12.72
14.83
15.37
16.84
18.14
22.59
25.83132.31
35.66
500
1.18
1.87
2.35
3.75
5.38
7.39
8.59
10.55
12.93
15.20
17.90
18.15
19.64
21.06
25.86
29.07
36.67
39.70
1000
1.27
2.00
2.52
4.07
5.95
8.32
9.81
12.10
14.93
17.33
20.59
20.72
22.05
23.49
28.53
31.66
40.21
42.94
' The upper bound of the confidence interval at 90% confidence level is the value which 5% of the simulated quantile values for a given frequency are
greater than.
"These precipitation frequency estimates are based on a partial duration series. ARI is the Average Recurrence Interval.
Please refer to NOAA Atlas 14 Document for more information. NOTE: Formatting Drevents estimates near zero to appear as zero.
* Lower bound of the 90% confidence interval
Precipitation Frequency Estimates (inches)
ARI** n 10 15 30 60 120 nn 12 24 48 I4(� 10 20 30 45 60
(years) min mm mm min mm mm I hr II hr I hr hr hr I day I day I day day day day day
http://hdsc.nws. noaa.gov/cgi-bin/hdse/buildout. perl?type=pf&units=us& seri... 5/27/201 l
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Page] of 3
POINT PRECIPITATION /W�))
0 FREQUENCY ESTIMATES i��j
FROM NOAA ATLAS 14
BELHAVEN, NORTH CAROMNA (31-0674) 35.4992 N 76.6864 W 3 feet
from 'Precipitation -Frequency Atlas of the United States" NOAA Atlas 14, Volume 2, Version 3
G.M. Bonnin, D. Martin, B. Lin, T. Parzybok, M.Yekta, and D. Riley
NOAA, National Weather Service, Silver Spring, Maryland, 2004
Extracted: Fri May 27 2011
Confidence Limits
Seasonality
Related Info
GIS data
Maps
Docs
Return to State Map
Precipitation Intensity Estimates (in/hr)
ARI *
(years)
5
mm
]0
mm
15
mm
30
mm
60
min
120
12
hr
����������
24
hr
48
hr
4
d�
7
�
10
day
20
30
d�
45
60
mm
-
-
=1
5.45
473 47
3.62
2.48
I.55
0.91
0.65
0.39
0.23
0.14
0.08
0.04
0.03
0.02
0.02
0.01
0.01
0.01
=
6.32
5.06
4.24
2.93
1.84
1.09
0.78
0.47
0.27
0.17
0.10
0.05
0.04
0.03
0.02
0.02
0.01
0.01
=7.21
5.77
4.873.462.221.340.960.580.340.21
0.120.070.040.040.020.020.020.01
10
8.22 1
6.57
5.54
4.02
2.61
1.61
1.17
0.70
0.41
0.25
0.15
0.08
0.05
0.04
0.03
0.02
0.02
0.02
25
9.28
7.39
6.24
4.62
3.08
I.95
1.42
0.86
0.51
0.31
0.18
0.10
0.06
0.05
0.03
0.02
0.02
0.02
50
10.19
8.12
6.85
5.16
3.50
2.25
1.67
1.01
0.60
0.37
0.21
0.11
0.07
0.06
0.04
g.g
0.02
0.02
100
11.04
8.77
7.39
5.66
3.90
2.56
1.92
1.17
0.70
0.42
0.24
0.13
0.08
0.06
07041
0.03
0.03
0.02
200
1 1.88
9.41
7.92
6.16
4.32
2.90
2.19
1.34
0.81
0.49
0.28
0.15
0.09
0.07
0.04
0.03
0.03
0.02
500
12.89
10.20
8.56
6.81
4.88
3.35
2.57
1.58
0.96
0.58
0.34
0.17
0.11
0.08
0.05
0.04
0.03
0.03
1000
13.86
10.91
9.13
7.39
5.40
3.77
2.93
1.81
l.I 10.66
0.39
0.20
0.12
0.09
0.05
0.04
0.03
0.03
' These precipitation frequency estimates are based on a partial duration series. ARI is the Average Recurrence Interval.
Please refer to NOAA Atlas 14 Document for more information. NOTE: Formatting forces estimates near zero to appear as zero.
* Upper bound of the 90% confidence interval
Precipitation Intensity Estimates (in/hr)
AR1** 5 10 15 30 6-0 120 3 6 12 24 48 4 7 10 20 30 45 60
(years) min min min min min min hr hr hr hr hr da day day day day day day
-1
6.01
4.81
4.00
2.74
1.71
1.02
0.74
0.45
0.26
0.15
0.09
0.05
0.03
0.03
0.02
0.01
0.01
0.01
F-
6.97
5.57
4.67
3.23
2.02
1.2]
0.88
0.53
0.31
0.18
0.10
0.06
0.04
0.03
0.02
0.02
0.01
0.01
F
7.94
6.35
5.36
3.81
2.44
1.49
L08
0.66
0.38
0.23
0.13
0.07
0 05
0.04
0.02
0.02
0.02
0.01
10
9. 55
7.24
6.10
4.42
2.88
1.78
1.31
0.79
0.47
0.28
0.16
0.09
OA6
0.04
0.03
0.02
0.02
0.02
2-5-1
10.20
8.12
6.87
5.09
3.39
2.15
1.59
0.97
0.57
0.34
0.20
0.1 10.07
0.05
0.03
0.03
0.02
0.02
50 1
11.20
8.92
7.53
5.67
3.84
2.48
1.86
1.14
0.68
0.40
0.23
0.12
0.08
0.06
0.04
0.03
0.02
0.02
100
12.139.44
8.12
6.224.282.832.131.310.780.460.270.140.090.070.040.030.030.02
200
13.04
10.34
8.70
6.77
4.75
3.19
2.43
1.49
0.90
0.53
0.31
0.16
0.10
0.08
0.05
0.04
0.03
0.02
500
14.20
11.23
9.42
7.49
5.38
3. 99
2.86
1.76
1.07
0.63
0.37
0.19
0.12
0.09
0.05
0.04
0.03
0.03
1000
15.26
I2.02
I0.06
8.15
5.95
4.16
3.27
2.02
1.24
0.72
0.43
0.22
0.13
0.10
0.06
0.04
0.04
0.03
The upper Dound of me confidence interval at 90% confidence level is the value which 5% of the simulated quantile values for a given frequency
are greater than.
These precipitation frequency estimates are based on a partial duration series. ARI is the Average Recurrence Interval.
Please refer to NOAA Atlas 14 Document for more information. NOTE: Formatting prevents estimates near zero to appear as zero.
* Lower bound of the 90% confidence interval
Precipitation Intensitv Estimates (in/hr)
http://hdsc.nws.noaa. gov/cgi-bin/hdsc/bui ldout.perl?type=idf& un its--us&ser... 5/2 7/2011
,'ice
`I� r , I
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Channel Report
Hydraflow Express Extension for AutoCAD® Civil 3DO2009 by Autodesk, Inc
swale 1
Trapezoidal
Bottom Width (ft)
= 2.00
Side Slopes (z:1)
= 5.00, 5.00
Total Depth (ft)
= 1.50
Invert Elev (ft)
= 6.00
Slope (%)
= 0.50
N-Value
= 0.030
Calculations .
Compute by: Known Q
Known Q (cfs) = 8.04
Elev (ft) Section
8.00
7.50
7.00
6.50
5.50
Friday, May 27 2011
Highlighted
Depth (ft)
= 0.72
Q (cfs)
= 8.040
Area (sqft)
= 4.03
Velocity (ft/s)
= 1.99
Wetted Perim (ft)
= 9.34
Crit Depth, Yc (ft)
= 0,53
Top Width (ft)
= 9.20
EGL (ft)
= 0.78
2 4 6 8 10 12 14 16 18 20 22
Reach (ft)
Depth (ft)
2.00
1.50
1.00
0.50
M
_n rn
e
i
is �r1•- . �4'.i ..': 1 �j r .•1 Ci '^.
J
i
i
i
l +1 ' l
_• / eta
, .a..leVUki'. L4
Channel Report
H�draflow Express Extension for AutoCAD® Civil 3D® 2009 by Autodesk, Inc.
swale 2
Trapezoidal
Bottom Width (ft)
= 2.00
Side Slopes (z:1)
= 5.00, 5.00
Total Depth (ft)
= 1.50
Invert Elev (ft)
= 6.00
Slope (%)
= 0.50
N-Value
= 0.030
Calculations
Compute by:
Known Q
Known Q (cfs)
= 7.68
Elev (ft) Section
8.00
7.50
7.00
6.50
AM
5.50
Friday, May 27 2011
Highlighted
Depth (ft)
= 0.71
Q (cfs)
= 7.680
Area (sqft)
= 3.94
Velocity (fUs)
= 1.95
Wetted Perim (ft)
= 9.24
Crit Depth, Yc (ft)
= 0.52
Top Width (ft)
= 9.10
EGL (ft)
= 0.77
2 4 6 8 10 12 14 16 18 20 22
Reach (ft)
Depth (ft)
2.00
1.50
1.00
0.50
MCI
n rn
St
r•�t;•. �r ".r "�lii
1
m
_ (r
Tar -Pamlico Stormwater Rule 15A NCAC 28.0258
E `° RE"S Last Modified 612/2011
Coastal Plain of the Tar -Pamlico River Basin:
Includes Greenville and Washjneton as well as Pitt and Beaufort Counties
JUN 06 2011
n..
Total Nitrogen and Total Phosphorus Loading Calculation WorkAWM tAVYMted)
Project Name: Perdue Pantego
Date: 513112011
By: Marie Peedin Checked By:
Directions (same for pre -development and post -development tables):
> Enter the acres of each type of land cover in the green boxes. The spreadsheet will calculate all of the values in light blue.
> Compare total areas of development in pre- and post- tables for consistency (bottom of column (2)), and also for consistency with
the site plans. If all of these values arc not the same, there is an error that must be corrected.
> Unless drainage onto the development from ofisite is diverted around or through the site, offsite catchment area draining in must
be included in the acreage values and treated.
Pre -development:
('
�5
1iAverage
.,(5)c -'
vliY (6); b`" F
Y ''n p'(7)�7a x'
�*Column�"',,,
r"',T a of Cand Cover
Area,,.
M'Forinula
EMC i
A'Xolumn `�
rAverage �EMC,
.•s .� '[� �i `rw
acres ka
O.Sl:+�9.1'1
.`of�TN mL °•:
2 3'•'4
• ofTP' m L` "`
"2 ': 3 ' 6'
•Transportation -impervious"
1.25
1.94
2.60
6.29
0.19
0.46
Roof rmpeewrvmuk
1.94
1.95
4.72
0.11
0.27
. Managedpervious'."
13.46
1.94
1.42
36.99
0.28
7.29
r " Managed'p;ervious
"
000
1.94
4.23
0.00
1.23
0.00
Kr)
` �,•rMana edrvious ; ,.
'" •� 'r" 8 -'E•e-
'
- OtUO
1.94
2.04
0.00
0.62
0.00
WOO ded�pervlous ,�,'i
0.00
1.94
0.95
0.00
0.14
0.00
r r a
,',.,,,
Yar:
ITN Loading
g
t � `TP l:oadjo
Fraction;14ervious (1) g"'
0.16
, �s Ta.c,�
r'. .t
48.00
yX I.... r.•B
8.02
,. ,ar„t, ,y � . ,,• a"^' ,;t
p•s"
.. . (Ib/Yr).=
TN Eap Coen:
uTP E:p'Coeft
Total Area of DeveloiA-
pment,,=.ct,
"
15.96
rr s.�,..5. "(N'
L.a„ -
3.01
0.50
".
' s...,•a" H .c. ».
. (Iblac%Yr) n
,,a-ry(Ib/adyr)=
Post -development:
rt(2)-'
svl e. (3)i-O-V
s , lj+ piiof Lend Cover ' •`'�/
.("`EArea , t
S M -Formuln
EMC.y,:
'CoIumnit
Average EMCI
umW'
....
....,.•. ...,�,.. 5.. �, ,.... a.. •
,'A.!
-w.. acres ::
0:5L:+9iirl
,Average
1 r 1 i.
` of:TN m L ..
*°
2 •. 3 i 4
G lr
:ofTP, m "L ..:
bon •� yu
2 •. 3 6
'.•< • ' p t ' x.n �x Wit. . n, .t<, wr
,Trmsportation impervious• -;
2.25
2.51
2.60
14.66
0.19
1.07
Roof impervious n, °,
1.25
2.51
1.95
6.11
0.11
034
a •,,l
Al 4„'" Managedpervious�r,a ;,
12.46-
2.51
1.42
44.33
0.28
8.74
Woodedlpervious ,
0&0
2.51
0.94
0.00
0.14
0.00
fi�°U p'•v"n�h.,..,•ir�'1.•L1+.vat5?q,L'.
a•1 ti i �,"; e � v , „
Fraction Impervious (1) ;,
0.22
yr >'�: a
�3 ;
, TN Loading
', 's k�
65.10
` TPyLoading
10.16
,:
,. ,• _ :wi ' ,?
v sWs r
.+�� xrr �
_9;�_ 5 (Ib/yr)....
5 „(Ib/Yr).,=
'. pia to • f P a , ' +'.
" '� -,
TN Exp "Coed.
TP, Expa Coeff.
Total Area of Development = +
15.96
,y3
i r ryr „
r
4.08
4,..
0.64
Note: The nutrient loading goals are 4.0 Ib/aclyr for TN and 0.4 Ib/ae/yr for TP. If the post -development nutrient
loading is below these levels, then no BMP is necessary. Otherwise, the next worksheet calculates
post -development IN and TP loadings after BMPs are installed.
:.Q
)A;_
A Ri'` c. it"1,- FYR!A. ^.. Dtlr�t�. -11•,
^{.3'd
If
rt;fa'il'
4"..•l
Irl'1J t Il-.........'..�� rt ':1.; :' :Y/ r'i'. ti rt r'9f
�
1 L] IiJ'1 , r•'le;. '{' 7 )�•' r
r
�
..Iy.'.dW
.I.\'••1,.,,... ,, j.;t, .d!
..r
.J t,.. .'I r':,, r., T.,iL
•
♦. 11 , .i .•i' ., `ILC [i• JIt
_r
„1.!hr)
� ,�; t ',},h,-";
o;.
Nr nr ., .. .•u.r.;r.i.
.•,
i lil !•a.•i
1'- ( Ifr�
,
Le ••_,�4' ...
t,• tl,li
�.
rl,.. 1, :1,1 ,r.0•
_
_ _I
_ _ -'
-
� •
i . F J'
,
i i (1,
I I.:�
I_
1
r)d,r
JIIi,:.",• P n � ' 1, ❑I:`, f
r
if
r
j
_�.. ...;
;.,__.'.- '_.I—__ _ ,
i
_ __'`h—♦d,..P
,•�-~�.'i
L1 i.r
+...
1
� ::7+r lLwri
e
S
1 X
t r
I t
S4. fif}
f
j'.•_......
..
Il
,......
.....
.._'.'_......,.,. -
�.
.�Irl.-... ter_ __.._. ..�_.. _......
-..')
.! ._.._._. .. .... ...._. ..... _♦.J
Tar -Pamlico Stormwater Rule 15A NCAC 2B .0258
Weighted Average of Nutrient Loadings from the Catchments:
Last Modified 5123103
. .. "!
t'Cnt hmimt
Post-BMP
Poit BMP
i nl K}5 �' tt.s
'�Arreage
'TN Co"admg
TP, Londmg'�,
tq,rs F
uCetehment
It
'4 vI K
1.60
8.03
0.67
'Catchment 2 y ?; �n �t,
14.36
3.29
0.54
Cahhmentl.
0.00
0.00
0.00
y yi
'1'OTACEOR'DF.VEIAPMENT
15.96
3.76
0.55
Note: The nutrient loading goals are 4.0Ih/adyr for TN and 0.4 Ib/ae/yr for TP. If the post -development nutrient
loading is below these levels, then the BMPs planned are adequate. Otherwise, additional BMPs and/or
modifications in development plans are required.
,tl :` „)
,ti � � � :, 1i.�n a e Y.. `..
�. e'a,L.l ' 1; ri4 pi•,
fe
e
I
1
Tar -Pamlico Stormwater Rule 15A NCAC 2B .0258
Last Modified 5123103
Coastal Plain of the Tar -Pamlico River Basin:
Includes Greenville and Washington as well as Pitt and Beaufort Counties
BMP Removal Calculation Worksheet (Automated)
Project Name: Perdue Pantego
Date: 513112011
By: Marie Peedin Checked By:
Directions:
> It may be advantageous to split the development into separate catchments to be handled by separate BMPs. The tables below allow
the development to be split into as many as three catchments, and can be copied for greater than three.
NOTE: Unless runoff Bowing
onto the development from o8'site is routed separately around or through the site, the offsite catchment
area draining in must be
included in the acreage values of the appropriate land use(s) and treated.
> Above each table: Enter the catchment acreage in the top green blank. Based on a comparison of the
post -development TN and TP
export coefficients you calculated above to the rule requirements of 4.0 Ib/ac/yr TN and 0.4 Iblactyr TP, select BMP(s) from the list for
treating the catchment runoff. Enter the chosen BMP(s) nutrient removal rates in the green blanks. If more than one BMP is to be
used in series, the combined removal rates will be calculated automatically in the blue blanks.
> Catchment Tables: Enter the acres of each type of land cover in the green boxes. The spreadsheet will calculate all of the light blue
boxes. NOTE: Compare the Total Catchment Acreage for the Development (final table) to the value you established in the pre-BMP
worksheet tables, and also to the siteplans, for consistency. All of these values need to be the same
�Y.
�•4+4 w•tTN'; 'd' �A,t TP r
r h".4 i
Design;Standardoa
^�-'.
BMP Wet Detinlron Pond 148!! 25 40
NC BMP Manual
x
Stcrmwatcr Wetland wt, 40 35
Nutrient , ;
NC BMP Manual
^qua 41,»e,�,�Sand Ndte�;'�i
Removal,. ,c= :;;.,.t ,. 35 45
NC BMP Manual
Y ltl ' hn i>'ry{ky tnGe,
Rates Bioretennon n 35 45
NC BMP Manual
,`
tied n^ SAd eales �P
..Crass Swales 1 �a� : 20 20
NC BMP Manuel
t Ve'getated Fdter'Slnp rv/�;
20 35
NC BMP Manual
ry � 02• � y#�,,. C9�i
•,;. Dry Detention a ` 10 10
NC BMP Manual
Catchment /:
Total acreage of catchment I = 1.6 ac
First BMPs TN removal rate = 20 % First BMP's TP removal rate =
20 /o
Second BMWs TN removal rate = 25 % Second BMP's TP removal rate =
;0 %
Third BMPs TN removal rate =WKO% Third BMVs TP removal rate =
0 %
TOTALTN REMOVAL RATE= 40 % TOTALTP REMOVAL RATE=
52 %
•„ P) t
e(2)r
'(3)
to (SI
t (6) `V�
(7)
y
iType.of Lend Coveh,i q
�S�
Catchmenp
SM9Pormula
t",(4)
Average EMCI
yaoi Columni,4t�
p
rAveregeEMC
ur,4Column
t '' ip h ' •0="
-'*Acres 'o
oSi'+9 LI ,
t-`ofTN m L `
' 2 2. 3 - 4 i
Csof TP. m 1..:
2 `• 3 6
�7ranspoitahoo rmpernousl^®
6.20
2.60
16.11
0.19
1.18
Roof impernr ous,'"
®
6.20
1.95
0.00
r L a.�.
0.11
0.00
,Nlauaged peAh us
6.20
1.42
5.28
0.28
1.04
��
a �
I Wooded pervrous,�R tgu rti�
®
6.20
0.94
0.00
0.14
0.00
rdl,f
/ ti MArea taken up by BMPt'(r'�.�d
®
6.20
1.95
0.00
0.11
0.00
`r rc Md' r"'''vi ,ot:k,,:-" rrlw'G�
�,.. Fracboa'Imperymus (p
0.63
"'t,*ti ,,t
-,.
wPrc-BMP'1'N
21.39
""+I rcBMP7'P
2.22
,
t
„Load, (Ib/yr)=;
`Logd_(Ib/yI,
•^f. 1% ?�� `w'
i a''rr Y°t
Fr• •.Pre=BMP,TN
�' PrrBMP,TI'
7 otal Area of Development
>r p .. .::.,^ • , t„``.'
1.60
,6r.*-u r .1.31w.
Export (lb/adyr)
13.37
Export (Ib/ac/yr)
1.39
'P°u.•
il'��z
wPdst BMP TN
' sl
12.84
Post BMP TP
'ri 6
1.06
f^ p`..°; i4n'n'`ke �.`;.Ce.il'1
rqn t�r`Y.r1�
(Ib/yr)
S11 Luad (-'"'i .
"�
.
Posi,BMP�T
0.67
,
EdxPpoosrtt (BItiM/ePc/Ty'Nr)
Export(Ib/ee/yr)802
"i,{ 1'i rf fr I{t': L.`�•1'
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Tar -Pamlico Stormwater Rule 15A NCAC 2B .0258
Last Modified 5/23103
Catchment 2:
Total acreage of catchment 2 -F 14.3(. ac
First BMPs'fN removal rate = % First BMPs'fP removal rate =
Second BMPs TN removal rate = % Second BMPs TP removal one= %
Third BMPs TN removal rate = % Third BMPs TP removal rate = %
TOTAL TN REMOVAL RATE = 0 % TOTAL TP REMOVAL RATE = 0 %
slb(4)
'r (5)
'� i (6) .-`
(7) K, ;
o•
Type of,land Cover "o
'Ca'tehment
SM For`mula
Average EMC+
gGolumo¢
.Average NMCii
x1Columo'C
n..,'
.".Acreii'e.
10.51
;ofIN taniju -",
:(2) 3 4 !"oGTP,
m L i.
2 (3)" 6
Ympe
,f4
It25.'
2.09
2.W
6.81
0.19
0.50
rrunsportatmn
rrvmussy.
1�1 Y j " 4 P vi �(:h1l ii
Roof. impervious y,q _.
•.
f 1.25 -
2.09
1.95
5.10
0.11
0.29
.� , ..,
,
o x Menagid pervious r ,y r
�11.86
2.09
1.42
35.27
0.28
6.95
' 1Rooded pervious, �,.
2.09
0.94
0.00
0.14
0.00
'
J.`t FArea taken up by BMPAO:
2.09
1.95
0.00
0.11
0.00
io oi,.f` t �rt
t�"Pre-RMPT'N
t•"`iPre-111% P
'
6racbon lmpervmm(1)=
0.17
",:a{`A¢7x
4718
(Ib/yr)'=
7.74
a I; Mq. ,£..i"rYV •,,u...r ;'
I4<i v.`,
eL'oad(lb/yr)„
t�Load
"- .v i S,•.
� wr }'
Pre-BMP,1TN
If Pre-BMPTP
+�-
0.54
Total lren of Developrent o
14.36
.:"e
'-_ ^ -
Export
3.29
Eipoet (Ib/adyr)
:. o , ,.•
(lb/adyr)
r�Post-BMPTN
°`'`Post BMP TP
d
'`47.18
Load(lb/yr)-
ia,Lin d
7.74
°r :•a
.a,,,
} .1 < °u!
.
yr)=
4t q r µ �?ti MM .I � U, �
d,b +) "
'i&• J' ��h ru
jr Post,BMP'CN
fh*Post BM<'sTP
0.54
Fsport
3.29
Export (Ib/ac/yr)
(Ib/adyell
Catchment 3:
Total acreage of catchment 3 = ac
=
First BMP's TN removal rate = % First BMP's TP remo%val rate
Second BMPs TN removal rate = % Second BMPs TP removal rate =� /
Third BMPs TN removal rate = % Third BMPs TP removal rate =
TOTAL TN REMOVAL RATE = 0 % TOTAL TP REMOVAL RATE = 0 %
OCetckment
'AveregesEMC
~;
Type of Land Covee.t�`t
S.M. Form
fi��Columo}�
Average EMC
Column
! m •sW 4 :'v + $ (=i;? �_'.a .
a^4Ac`rcu eN^
9:IJ �
"w1, . m I: is
2 3 4
oLTP In
Transportation impervious,'!'
..
2.60
0.19
-'t ' .' ,T.+
i
Roof impervious "
-0
1.95
0.11
�. v t
d C vwy w IC
•:
� � 2, , f Vi
4 3rea. Managed pervious e(V '�
1.42
0.28
a
y ,Wooded pervious{l
0.94
0.14
•p•
"Area taken up by BMPi+ '
-
1.95
0.11 -
+e .
I ruction'Imperviouv(1) J.;'
TN
'. Pr'e-BMPTN
�`
�Pro-BMP�TP
„ ,t
��R.isi<^i
�...
-
,,"ad(lb/yr)=
C Load(IWyr).=
l w„;,w;. vt ;gf+'ea(t';a°;:i
i11 s l!•,r 4rp
!
oPre-BMP TN
"r( Pro-BMG+TP
7 otal Arca'of Development �'
4 � ,yi,.,1i�i
p, ,port
n,�:•.p,b £,_�
Export (Ib/adyr)
"
Export-(Ib/ec/yr)
Post BMP TN
4,
Post BMPTP
"Lod
.Load (Ib%yr)=
(Ib/Yr)=
P"ie +'•ikui i wi, ;i1 i
V�w"":'.,u[`
y', g^'?�Q.a +
'F Poi[BMP'fN
....
�!r4 Post BMN. TP
uark:(451
t9 vm .
? i
Export (lb/adyr)
Export (Ib/adyr)
:=
+ .
*+a!E1kd e
_. .L_
_ i
_ .. .�_ _
_.
� �._ _; .� _
_. �Y.��_.�
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sue_=
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;
i
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-
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-
rr __
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I
it
rigure IV -do
'Vegetation rot shown d e: Average depth of permanent pool to use in the SAIDA tables (ft)
Option 1: de, =y_►oal
Fmboard & lmrdened
emergencyawrflow '9r.,sL�oor
not shown Aaa,A rA,a„ wy+Ab .) r Depth
Option 2: ds = 0.25x 1+ lI + x
"'S5de slope stabdmod ( A�-� J 2
per PEjudgment Temporarypoo! vegetated'
Permanent pool Side slope
Outlet above Bottom of vegetated shelf r--►� y
Vegetated` I Side
slopes
temporary pool" Bottom of pond (Sediment Side elopes
clean -out top elevation) shed 1-2:1
Outlet orifice Sediment clean -out loft, 10:1
bottom elevation
Side slope"'
SR Forebay Berm
Sediment storage (rain 1 0)
S
By Depth Distance between bottom of shelf and bottom of pond (excludes sediment) (0)
C
Ate, ,y,r Surface area at bottom of shelf (includes main pond & forebay(s)) (S2)
0
Ae,,,,y„i. Surface area at permanent pool (includes maw pond & forebay(s)) (fl)
Ab,,,M. Surface area at bottom of pond excluding sediment storage (maw pond only) (fP)
V,,i Volume of permanent pool (includes main pond & forebay(s), excludes sediment) (W)
D AV =
VOL PER POOL
AREA PER POOL
OPT 1
VOL PERM
14036.25
AREA PERM POOL
4520
Area Temp pool
6249
D AV =
3.11 FT
USE FOR AVG DEPTH
3
SAIDA =
6
DA =
®7. AC
t/
SA =
OPT 2
A SOT SHELF
3216 SF
A PERM POOL
4520 SF
A SOTT POND
1174 SF
DAV =
3.64 FT
DEPTH OF POND
5 FT
��
Hydrograph Report
Hydraflow Hydrographs Extension forAutoCAD®Civit 3DO 2009 by Autodesk, Inc. v6.066
Hyd. No. 5
Perdue Wet Pon
Hydrograph type
= Reservoir
Storm frequency
= 1 Yrs
Time interval
= 1 min
Inflow hyd. No.
= 1 - PURDUE GRAIN PAD
Reservoir name
= wet pond
Storage Indication method used
Q (cfs)
7.00
5.00
4.0C
3.0(
2AN
1.0
mug:
Perdue Wet Pon
Hyd. No. 5 --1 Year
D 1 2 3 4 5 0
Hyd No. 5 • Hyd No. 1
Thursday, Jun 2, 2011
Peak discharge = 0.000 cfs
Time to peak
= n/a
Hyd. volume
= 0 cuft
Max. Elevation
= 6.82 ft
Max. Storage
= 1,749 cuft
f 0 a 1v „ _
IIIIIII Total storage used = 1,749 cuft
Q (cfs)
7.00
5.00
4.00
3.00
r5
1.00
0.00
Time (min)
Pond Report 2
Hydraflow Hydrographs Extension for AutoCADOD Civil 3DO 2009 by Autodesk, Inc. v6.066
Thursday, Jun 2, 2011
Pond No. 2 - wet pond
Pond Data
Contours - User -defined contour areas. Average end area method used for volume calculation. Begining Elevation = 6.50 ft
Stage I Storage Table
Stage (ft) Elevation (ft) Contour area (sgft) Incr. Storage (cult) Total storage (cult)
0.00 6.50 4,520
0 0
1.00 7.50 6,249
5,385 5,385
Culvert / Orifice Structures
Weir Structures
[A] [S] [C] [PrfRsd
[A] 94
[C]
[01
Rise (in) = 1.50 0.00 0.00 0.00
Crest Len (ft) = 8.00 0.00
0.00
0.00
Span (in) = 1.50 0.00 0.00 0.00
Crest El. (it) = 7.25 0.00
0.00
0.00
No. Barrels = 1 0 0 0
Weir Coats. = 2.60 3.33
3.33
3.33
Invert El. (ft) = 6.50 0.00 0.00 0.00
Weir Type = Broad -
-
-
Lsngth (ft) = 1.00 0.00 0.00 0.00
Multistage = Yea No
No
No
Slope (%) = 0.10 0.00 0.00 n/a
N-Value = .013 .013 .013 n/a
Orifice Coelt. = 0.60 0.60 0.60 0.60
Exfll.(IFVhr) = 0.000 (by Wet area)
Multistage = n/a No No No
TW Elev. (ft) = 0.00
No Cukwrrordiu allb a ra s+Nndu dW i Og (c) &,d o" (ac) merm
arirwe mMnim (e) and submWg ce 18).
Stage I Storage I Discharge Table
Stage Storage Elevation Clv A Civ B Clv C
PrfRsr Wr A Wr B Wr C
Wr D
Exfil User Total
It cult ft cis CIS cis
eis ofs cis cis
CIS
CIS CIS efs
0.00 0 6.50 0.00 - -
- 0.00 - -
-
- - 0.000
1.00 5,385 7.50 0.06 is - -
- 0.00 - -
-
- - 0.057
Hydrograph Report
HydraOow Hydrographs Extension for AutoCAD® Civil 3DO 2009 by Autodesk, Inc, v6.066
Thursday, Jun 2, 2011
Hyd. No. 6
Swale and pond
Hydrograph type
= Reservoir
Peak discharge
= 0.000 GIs
Storm frequency
= 1 yrs
Time to peak
= n/a
Time interval
= 1 min
Hyd. volume
= 0 cult
Inflow hyd. No.
= 2 - SWALE
Max. Elevation
= 6.84 ft
Reservoir name
= wet pond
Max. Storage
= 1,804 cuft
Storage Indication method used.
Q (cfs)
7.00
6.00
5.00
4.00
3.00
2.00
1.0C
n nr
0 2
Hyd No. 6
Swale and pond
Hyd. No. 6 — 1 Year
4 6 8
Hyd No. 2
10 12 14 16
1111111 Total storage used = 1,804 cult
Q (cfs)
7.00
6.00
5.00
4.00
3.00
2.00
1.00
ly
18
Time (min)
Pond Report a
Hydrafiow Hydrographs Extension for AutoCADS Civil 3138 2009 by Autodesk, Inc. v6.066
Thursday, Jun 2, 2011
Pond No. 2 - wet pond
Pond Data
Contours - User -defined contour areas. Average end area method
used for volume calculation. Begining Elevation = 6.50
it
Stage / Storage Table
Stage (ft) Elevation (ft) Contour area (sqft)
Incr. Storage (tuft)
Total storage (tuft)
0.00 6.50 4,520
0
0
1.00 7.50 6,249
5,385
5,385
Culvert / Orifice Structures
Weir Structures
[A] [B] [C] [PrfRSr]
[A] [B]
[C]
[D]
Rise (in) = 1.50 0.00 0.00 0.00
Crest Len (ft)
= 8.00 0.00
0.00
0.00
Span (in) = 1.50 0.00 0.00 0.00
Crest El. (ft)
= 7.25 0.00
0.00
0.00
No. Barrels = 1 0 0 0
Weir Coeff.
= 2.60 3.33
3.33
3.33
Invert El. (ft) = 6.50 0.00 0.00 0.00
Weir Type
= Broad -
-
-
Length(ft) = 1.00 0.00 0.00 0.00
Multistage
=,Yes No
No
No
Slope (%) = 0.10 0.00 0.00 n/a
N-Value = .013 .013 .013 n/a
Orifice Coeff. = 0.60 0.60 0.60 0.60
Exfll.(inlhr)
= 0.000 (by Wet area)
Multistage = Na No No No
TW Elev. (ft)
= 0.00
Note: CulwNonfiw cLd lows ere anelyr
u inlet (K) and WIM log) m . War users wed roc
Docks mrdilians (ic) and subrrwq rre (s).
Stage / Storage / Discharge Table
Stage Storage Elevation Chi A Clv B Clv
C Pr Rsr Wr A
Wr B Wr C
Wr D
Exfil User Total
ft tuft ft cis cis cfs
as cfs
cis cis
cis
cfs cis cis
0.00 0 6.50 0.00 - -
- 0.00
- -
-
- - 0.000
1.00 5,385 7.50 0.06 is - -
- 0.00
- -
-
- - 0.057
-
til-•!I;
tq
ert"
A;V inn` 7V,
>i Vi
.pf .nil 3v .
Weir Report
Hydrallow Express Extension for AutoCAD® Civil 3D® 2009 by Autodesk, Inc.
Overflow
Rectangular Weir
Crest
= Broad
Bottom Length (ft)
= 8.00
Total Depth (ft)
= 0.50
Calculations
Weir Coeff. Cw
= 2.60
Compute by:
Known Q
Known Q (cfs)
= 7.17
Depth (ft)
1.00
0.50
-0.50
Overflow
Highlighted
Depth (ft)
Q (cfs)
Area (sqft)
Velocity (ft/s)
Top Width (ft)
Thursday, Jun 2 2011
= 0.49
= 7.170
= 3.93
= 1.82
= 8.00
Depth (ft)
i.0o
0.50
1 11
-0.50
Weir W.S. Length (ft)