HomeMy WebLinkAbout07 - Design Report - Annie Street Cottages - Stormwater Storm Water Design Report
Revised 9/25/07
ANNIE STREET COTTAGES
STREET AND UTILITY IMPROVEMENTS
STORMWATER DESIGN REPORT
A. Introduction
This design report and management plan is for storm water runoff for the proposed Annie Street Cottages
project located at Annie and Hanson Lane, east of Meagher Avenue. The zoning for the proposed 5 acre,
31 unit condominium development is R2. Construction for the first phase of the development is expected
to begin in fall of 2007. The Methodology and analysis procedures utilized in the report are in
conformance with the design standards for in the City of Bozeman Design Standards and Specifications
Policy,Dated March 2004.
B. Drainage
Storm water runoff from the proposed development will be discharged into a detention basin which will
be located in the low spot of the existing site, situated in the NW confer of the tract. The storm water will
be conveyed to the detention basin via piping,overland sheet flow and a swale.The discharge from the
detention basin will be into the historic channel from the site. The detention basin will be sized to detain
the difference between the flow from the developed site and the pre-developed site,for a 10-year storm
event.
C. Design Methodology
The area analyzed in the study is 5 acres. It is proposed to utilize gutters, inlets,piping, and swales to
collect storm water runoff for the proposed project. The runoff will be routed to a detention basin located
in the low spot of the existing site,situated in the NW conger of the tract.
The detention basin is sized using the 10-year,2-hour design storm event as required by the City of
Bozeman Design Standards and Specifications.All conveyance systems including gutters, inlets and
storm piping have been sized to accept the 25-year design storm event as required by the City of Bozeman
Design Standards and Specifications. The Ration Method was used in calculating the storm runoff for the
proposed development and all contributing areas.
D. Basin Information
The proposed storm water runoff analysis has been divided into 4 drainage basins,Basin A through D. A
basin map and calculations are provided in the appendix of this report.
Basin A
Basin A consists of the runoff collected from Hanson Drive and the south half of Annie Street.
Storm water from basin A will be collected in curb inlets located along Annie Street. Basin A
consists of
Open Spaces: 0.40 acres C=0.2
Impervious Area: 0.98 acres C=0.9
Total 1.38 acres C=0.70 composite
Annie Street Cottages—Storm Water Design Report
Page l of
Revised 9/25/07
Basin B
Basin B consists of the runoff collected from the north half of Annie Street. Storm water from
Basin B will be collected in curb inlets located along Annie Street.Basin B consists of-
Open Spaces: 0.05 acres C=0.2
Impervious Area: 0.26 acres C=0.9
Total 0.31 acres C=0.79 composite
Basin C
Basin C consists of the runoff collected from the developed area south of Annie and west of
Hanson Lane. Storm water from Basin C will be collected in a curb inlet located on the north end
of the private drive. Basin C consists of-
Open Spaces: 1.51 acres C=0.2
Impervious Area: 0.98 acres C=0.9
Total 2.49 acres C=0.48 composite
Basin D
Basin D consists of the runoff collected from the developed area north of Annie Street. Storm
water from Basin D will be routed to the detention basin via a curb cut and grass lined swale.
Basin D consists of:
Open Spaces: 0.93 acres C=0.2
Impervious Area: 0.40 acres C=0.9
Total 1.33 acres C=0.41 composite
E. Storm Water Run Off Calculations
Storm water runoff calculations were preformed using the modified ration method for both the pre and
post-development conditions.The following are the results of the calculations, detailed calculation can be
found in the appendix.
Pre-Development Conditions
10-Year Storm Event
Open Spaces: 4.81 acres C=0.2
Impervious Area(dirt Road): 0.19 acres C=0.8
Total 5.00 acres C= 0.22 composite
Average Slope= 1.6%
Time of Concentration=33 minutes
Rainfall Intensity: 0.95 in/hr
Q= .26 x 0.95 in/hr x 5.0= 1.04 cfs
Annie Street Cottages—Storm Water Design Report
Page 2 of 4 _.
Revised 9/25/07
Table I
Post-Development Conditions
10-Year Storm Event
Area
Basin (acres) C Value
A 1.38 0.70
B 0.31 0.79
C 2.49 0.48
D 1.33 0.41
Total 5.31 0.55 (composite)
F. Detention Basin Sizing Summary
Pond A
Pre-development flow rate: 10-year event= 1.23cfs
Post-development flow rates: 10-year event=2.76 cfs
Required detention storage: 10-year event=3,399 ft3
Detention provided: 3,594 ft3
Outlet Pipe Size: 15-inch @ 0.28%min(capacity 4.44 cfs)
Weir Width: 2.0 inches
Detail detention basin calculations can be found in the Appendix of the report.
G. Roadway and Gutter,and Inlet Capacity Calculations
The impact of storm water runoff on the roadways is an important design consideration. The city of
Bozeman Design Standards and Specification Policy provides that for city streets,the flow in the gutters
shall not be greater than 0.15 feet below the top of curb. Using this criterion,the available gutter capacity
was calculated for Annie and Hanson Lane.The following are the results for the 25 storm event:
Calculations are provided in the Appendix of this report.
Gutter Capacity:
Annie Street(Southside)=3.7 cfs
Annie Street(Northside)=3.7 cfs
25-year Calculated Runoff Rate
Annie Street(Southside)(Basin A)= 1.55 cfs
Annie Street(Northside)(Basin B)=0.85 cfs
100-year Calculated Runoff Rate
Annie Street(Southside)(Basin A)=2.68 cfs
Annie Street(Northside)(Basin B)= 1.88 cfs
Inlet Capacity:
Inlet#2 Basin A=4.03 cfs
Annie Street Cottages—Storm Water Design Report
Page 3 of 4
Revised 9/25/07
Inlet#3 Basin B=4.03 cfs
H. Pipe Capacity Calculations
The pipes and culverts are illustrated in Figure 4. The following is summary of the calculations. See
Appendix A for details calculations.
TABLE 3
Pipe Capacity Calculations
25-Year Storm Event
Pipe ID Calculated Size Used for Pipes
Peak runoff(cfs) Design(in) Ca acity(cfs)
PI 2.01 12 2.45
P2 3.49 15 4.44
P3 4.34 15 4.44
Minimum size required by the City of Bozeman for storm sewers inlets is 12-inches
Minimum size required by the City of Bozeman for storm sewer mains is 15-inches.
I. Maintenance Considerations
Maintenance of the detention basin is both essential and costly. General objectives of maintenance are to
prevent clogging, standing water, and the growth of weeds and wetland plants. This requires frequent
removal of debris from the outlet and mowing. Cleaning out sediment will be necessary in 10 to 20 years.
Culverts and inlets should be inspected at least once a year.Any necessary repair of maintenance should
be prioritized, and scheduled through the spring, summer,and fall.These items may include removing
blockages, cleaning and flushing the length of pipes,trimming and removing brush at culverts ends,
moving grass and weeds, cutting and removing trees and limbs that threaten to fall and block upstream
swales, establishing vegetation on bare slopes at culvert ends, and mark the culvert ends in the winter for
snowplow operators.
J. Storm Water Summary
The included analyses and calculations show that the proposed storm water management system for
Annie Sreet and Hanson Lane will adequately store the 10-year,2 hour storm event and adequately
convey the 25-year storm event.Available gutter capacity and the location of inlets limit the
encroachment of runoff on the pavement surfaces to acceptable levels. The recommended pipe sizes
would effectively convey storm runoff to the designated detention area. Therefore,the proposed storm
water management system meet or exceeds the City of Bozeman requirements and will satisfy the
property owner.
Annie Street Cottages—Storm Water Design Report
Page 4 of 4
Revised 9/25/07
Appendix A
Basin Calculations
Storm Water Design Report
SCALE
I linah- 100
., I I
= BASIN D
--'MATCH LINE
--,, BASIN B
� I I
BASIN A "I •I ' I ;
'I
I I
BASIN C
o
•jil � � ��� II
li
I
J4
C
MATCHI LINE ®'
it w
® 1 11 I U
I., iII
rn
11 a
I u
-------___-- j
\ I I N
0
U
EXHIBIT A
ANNIE STREET COTTAGES MADISON ENGINEERING DRAWN BY: CGB
DRAINAGE ]BASIN EXHIBIT 924 S'I''0NERIDGE DR. S T E 1,BOZEMAN,MT 59718
PHONE(406) 585-7355 FAX(405)585-7357 DATE: 8/20/07
REVISED: 9/25
Annie Street and Hanson Lane
Basin Runoff
Calculations 10-year Storm Event
Storm Information
Design Rainfall Freq. 10
IDF coefficient a 0.64
IDF coefficient b 0.00
IDF coefficient n 0.65
Adjustment Factor Cf: 1
Rational Method Calculations
Basin A
Open Space 0.40 acres C: 0.2
Pavement 0.98 acres C: 0.9
Total Area: 1.38 acres
Weighted C: 0.70
Average slope: 1.70 Percent
Travel Distance 1250.00 feet
Total t.: 22.32 minutes
intensity at t� 1.22 in/hr
peak runoff: 1.17 cfs
Basin B
Open Space 0.05 acres C: 0.2
Pavement 0.26 acres C: 0.9
Total Area: 0.31 acres
Weighted C: 0.79
Average slope: 1.70 Percent
Travel Distance 252.00 feet
Total t.: 7.78 minutes
intensity at tc 2.41 in/hr
peak runoff: 0.59 cfs
Basin C
Open Space 1.51 acres C: 0.2
Pavement 0.98 acres C: 0.9
Total Area: 2.49 acres
Weighted C: 0.48
Average slope: 1.60 Percent
Travel Distance 372.00 feet
Total1.: 19.12 minutes
intensity at t. 1.35 in/hr
peak runoff: 1.61 cfs
Basin D
Open Space 0.93 acres C: 0.2
Pavement 0.40 acres C: 0.9
Total Area: 1.33 acres
Weighted C: 0.41
Average slope: 1.60 Percent
Travel Distance 273.00 feet
Total tc: 18.23 minutes
intensity at t. 1,39 in/hr
peak runoff: 0.76 cfs
PAGE 1 OF 3
Revised 9125/07
Annie Street and Hanson Lane
Basin Runoff
Calculations 25-year Storm Event
Storm Information
Design Rainfall Freq. 25
IDF coefficient a 0.78
IDF coefficient b 0.00
IDF coefficient n 0.64
Adjustment Factor Cf: 1.1
Rational Method Calculations
Basin A
Open Space 0.40 acres C: 0.2
Pavement 0.98 acres C: 0.9
Total Area: 1.38 acres
Weighted C: 0.70
Average slope: 1.50 Percent
Travel Distance 1250.00 feet
Total t�: 19.24 minutes
intensity at t. 1.61 in/hr
peak runoff: 1.55 cfs
Basin B
Open Space 0.05 acres C: 0.2
Pavement 0.26 acres C: 0.9
Total Area: 0.31 acres
Weighted C: 0.79
Average slope: 1.70 Percent
Travel Distance 252.00 feet
Total tc: 5.83 minutes
intensity at t, 3.47 in/hr
peak runoff: 0.85 cfs
Basin C
Open Space 1.51 acres C: 0.2
Pavement 0.98 acres C: 0.9
Total Area: 2.49 acres
Weighted C: 0.48
Average slope: 1.60 Percent
Travel Distance 372.00 feet
Total tc: 17.79 minutes
intensity at t. 1.70 in/hr
peak runoff: 2.01 cfs
Basin D
Open Space 0.93 acres C: 0.2
Pavement 0.40 acres C: 0.9
Total Area: 1.33 acres
Weighted C: 0.41
Average slope: 1.60 Percent
Travel Distance 273.00 feet
Total t�: 17.13 minutes
intensity at t� 1.74 in/hr
peak runoff: 0.95 cfs
Page 2 OF 3
Revised 9/25/07
Annie Street and Hanson Lane
Basin Runoff
Calculations 100-year Storm Event
Storm Information
Design Rainfall Freq. 100
IDF coefficient a 1.01
IDF coefficient b 0.00
IDF coefficient n 0.67
Adjustment Factor Cf. 1.25
Rational Method Calculations
Basin A
Open Space 0.40 acres C: 0.2
Pavement 0.98 acres C: 0.9
Total Area: 1.38 acres
Weighted C: 0.70
Average slope: 1.50 Percent
Travel Distance 1250.00 feet
Total t,: 13.20 minutes
intensity at t, 2.78 in/hr
peak runoff: 2.68 cfs
Basin B
Open Space 0.05 acres C: 0.2
Pavement 0.26 acres C: 0.9
Total Area: 0.31 acres
Weighted C: 0.79
Average slope: 1.70 Percent
Travel Distance 252.00 feet
Total t,: 2.89 minutes
intensity at t. 7.71 in/hr
peak runoff: 1.88 cis
Basin C
Open Space 1.51 acres C: 0.2
Pavement 0.98 acres C: 0.9
Total Area: 2.49 acres
Weighted C: 0.48
Average slope: 1.60 Percent
Travel Distance 372.00 feet
Total t�: 15.59 minutes
intensity at t. 2.49 in/hr
peak runoff: 2.95 cfs
Basin D
Open Space 0.93 acres C: 0.2
Pavement 0.40 acres C: 0.9
Total Area: 1.33 acres
Weighted C: 0.41
Average slope: 1.60 Percent
Travel Distance 273.00 feet
Total tc: 15.50 minutes
intensity at tc 2.50 in/hr
peak runoff: 1.37 cfs
Page 3 OF 3
Revised 9/25/07
Appendix B
Gutter & Inlet Calculations
Storm Water Design Report
Annie Street and Hanson Lane
Gutter Capacity Calculations
Allowable Pavement Encroachment
Given: T= 9 feet(max per city)
T W= 1.5 feet
W--Ts Ts= 7.5 feet
SW= 0.08 ft/ft
Sx= 0.03 ft/ft
Q. a= 0.96 inches
S. d= 3.24 inches
d n= 0.012
So= 0.005 Annie Sta. 12+90 (Southside)
a
S. So= 0.005 Annie Sta. 12+90(Northside)
Sw/Sx= 2.67
T/W= 6
Capacity for Gutter
equations:
Q=Qw+Qs Where:
Q= Capacity of roadway
Qw =E,,Q Qs= Discharge within the Roadway
above the depressed section (cfs)
_ QS Qw= Discharge within the depressed
Q 1—EQ (gutter)section (cfs)
Cf= 0.56 for English units
Cf s a t Sx= Pavement cross slope(ft/ft)
QS =-rJx3T53s42
n Ts= Width of flow in the roadway above
depressed section
So= Gutter longitudinal slope(ft/ft)
SOX Sw= Gutter depression cross slope(ft/ft)
Eo = 1+ S /S T= Spread (ft/ft)
1+ w " —1 W= Width of gutter depression (ft/ft)
(T/W)-1)8,3
Capacity solution
Annie Sta. 12+90(Southside) Annie Sta. 12+90 (Northside)
Basin A Basin B
So= 0.005 ft/ft So= 0.005 ft/ft
Qs= 2.06 cfs Qs= 2.06 cfs
Eo= 0.44 cfs Eo= 0.44 cfs
Q= 3.70 cfs Q= 3.70 cfs
Design flow Design flow
Q10= 1.17 cfs QJo= 0.69 cfs
Q25= 1.55 cfs Q25= 0.85 cfs
Q100= 2.68 cfs Q100= 1.88 cfs
Summary
The gutter capacity was calculated at two different locations where peak flows where also calculated.
The gutter capacity at both locations is well above the calculated peak flows.Therefore,
the pavement encroachment will be less than the allowable(9-feet)by the City of Bozeman.
_ Page 1 of 2
Revised 9/25/07
Annie Street and Hanson Lane
Inlet Capacity Calculations
Gutter Section
Given: T= 9.0 feet
T W= 1.50 feet
w Ts Ts= 7.50 feet
Sw= 0.08 ft/ft
Sx= 0.03 ft/ft
Q. a= 0.96 inches
d= 3.24 inches
d n= 0.012
So= 0.005 Curb Inlet#1
s. So= 0.005 Curb Inlet#2
From Gutter Capacity
Inlet#1 Qw= 1.64 cfs South Side
Qs= 2.06 cfs
Inlet#2 Qw= 1.64 cfs North Side
Qs= 2.06 cfs
Capacity for Inlets on Sag-Annie Street(Southside)
Inlet#2
Based on Neenah inlet R-3067-L
Weir Equation
Q=3.3P(hj 5 Where: P= perimeter(ft)
h = Head (ft)
P: 5.90 feet
h: 0.35 feet(max per city)
Qwier= 4.03 cfs
Design Q for inlet#2 (Basin A)
Q10= 1.17 cfs
Q25= 1.55 cfs
Q100= 2.68 cfs
Inlet Design Ok
Capacity for Inlets on Sag-Annie Street(Northside)
Inlet#3
Based on Neenah inlet R-3067-L
Weir Equation
Q=3.3P(hj-5 Where: P= perimeter(ft)
h= Head (ft)
P: 5.90 feet
h: 0.35 feet(max per city)
Qwler= 4.03 cfs
Design Q for inlet#3 (Baisn B)
Qio= 0.59 cfs
Q25= 0.85 cfs
Qjoo= 1.88 cfs
Inlet Design Ok
Page 2 of 2
Revised 9/25/07
Appendix C
Pipe Capacity Calculations
Storm Water Design Report
Annie Street and Hanson Lane
Pipe Capacity Calculations 25-year Storrs Event
Required Capacity for Pipes
Pipe 1
From Curb Inlet#1 to Combo Manhole/Inlet#2
Accepts runoff from Basin C
peak runoff: 2.01 cfs (See 25-year storm event basin run off calculations)
Required Pipe Size Diameter(flowing full)
n: 0.013
Slope: 0.28 %
Length: 43 feet
Size used for design 12 inch
Capacity 2.45 cfs OK
Velocity 3.12 fps
Pipe 2
From Combo Manhole/Inlet#2 to Combo Manhole/Inlet#3
Accepts runoff from Basin A&Pipe 1
peak runoff from Basin A: 1.55 cfs (See 25-year storm event basin run off calculations)
Peak runoff from Basin C: 2.01 cfs
Total peak runoff: 3.56 cfs
Required Pipe Size Diameter(flowing full)
n: 0.013
Slope: 0.28 %
Length: 78 feet
Size used for design 15 inch
Capacity 4.44 cfs OK
Velocity 3.62 fps
Pipe 3
From Combo Manhole/Inlet#3 to Outlet
Accepts runoff from Basin B&Pipes 1 &2
Peak runoff from area A: 1.66 cfs
Peak runoff from area B: 0.86 cfs (See 25-year storm event basin run off calculations)
Peak runoff from area C: 2.01 cfs
Total peak runoff: 4.41 cfs
Required Pipe Size Diameter(flowing full)
n: 0.013
Slope: 0.28 %
Length: 164 feet
Size used for design 15 inch
Capacity 4.44 cfs OK
Velocity 3.56 fps
Page 1 of 1
Revised 9/25/07
1 -inch Storm Sewer Capacity
Project Description
Friction Method Manning Formula
Solve For Full Flow Capacity
Input Data,
Roughness Coefficient 0.010
Channel Slope 0.28
Normal Depth 12.00 in
Diameter 12.00 in
Discharge 2.45 fts/s
Results
Discharge 2.45 ft'/s
Normal Depth 12.00 in
Flow Area 0.79 ttz
Wetted Perimeter 3.14 ft
Top Width 0.00 ft
Critical Depth 0.67 ft
Percent Full 100.0 %
Critical Slope 0.00448 ft/ft
Velocity 3.12 ft/s
Velocity Head 0.15 ft
Specific Energy 1.15 ft
Froude Number 0.00
Maximum Discharge 2.64 ft'/s
Discharge Full 2.45 ft3/s
Slope Full 0.00280 ft/ft
Flow Type SubCritical
GVF Input Data
Downstream Depth 0.00 in
Length 0.00 ft
Number Of Steps 0
GVF Output Data
Upstream Depth 0.00 in
Profile Description
Profile Headloss 0.00 ft
Average End Depth Over Rise 0.00
Normal Depth Over Rise 100.00 %
Bentley Systems,Inc. Haestad Methods Solution Center FlowMaster [08.01.058.00]
1011/2007 11:43:06 AM 27 Siemons Company Drive Suite 200 W Watertown,CT 06795 USA +1-203-755-1666 Page 1 of 2
1 -inch Storm Sewer Capacity
GVF Output Data
Downstream Velocity Infinity ft/s
Upstream Velocity Infinity ft/s
Normal Depth 12.00 in
Critical Depth 0.67 ft
Channel Slope 0.28 %
Critical Slope 0.00448 ft/ft
Bentley Systems,Inc. Haestad Methods Solution Center FlowMaster [08.01.058.00]
10/112007 11:43:06 AM 27 Siemons Company Drive Suite 200 W Watertown,CT 06795 USA +1-203-755-1666 Page 2 of 2
1 -inch Storm Sewer Capacity
Project Description
Friction Method Manning Formula
Solve For Full Flow Capacity
Input Data
Roughness Coefficient 0.010
Channel Slope 0.28
Normal Depth 15.00 in
Diameter 15.00 in
Discharge 4.44 ft'/s
Results
Discharge 4.44 ft'/s
Normal Depth 15.00 in
Flow Area 1.23 ft2
Wetted Perimeter 3.93 ft
Top Width 0.00 ft
Critical Depth 0.85 ft
Percent Full 100.0 %
Critical Slope 0.00426 ft/ft
Velocity 3.62 ft/s
Velocity Head 0.20 ft
Specific Energy 1.45 ft
Froude Number 0.00
Maximum Discharge 4.78 ft'/s
Discharge Full 4.44 ft'/s
Slope Full 0.00280 ft/ft
Flow Type SubCritical
GVF Input Data
Downstream Depth 0.00 in
Length 0.00 ft
Number Of Steps 0
GVF Output Data
Upstream Depth 0.00 in
Profile Description
Profile Headloss 0.00 ft
Average End Depth Over Rise 0.00
Normal Depth Over Rise 100.00
Bentley Systems,Inc. Haestad Methods Solution Center FlowMaster [08.01.068.00]
10/1/2007 11:42:46 AM 27 Siemons Company Drive Suite 200 W Watertown,CT 06796 USA +1-203.755-1666 Page 1 of 2
15-inch StormSewer Capacity
GVF Output Data
Downstream Velocity Infinity ftts
Upstream Velocity Infinity ftls
Normal Depth 15.00 in
Critical Depth 0.85 ft
Channel Slope 0.28 %
Critical Slope 0.00426 ft/ft
Bentley Systems,Inc. Haestad Methods Solution Center FlowMaster (08.01.058.001
10111200711:42:46 AM 27 Siemons Company Drive Suite 200 W Watertown,CT 06795 USA +1-203-755-1666 Page 2 of 2
Appendix D
Detention Basin Calculations
Storm Water Design Report
Annie Street Cottages
Storm Water Detention Pond Calculations
Calculation of Required Volume for Storm Detention Pond
Pond ID A
(Reference: Bozeman Stormwater Master Plan-1982)
Design Rainfall Freq.e 10 year(see page III-5 of master plan)
IDF coefficient a 0.64
IDF coefficient b
IDF coefficient n 0.65
Pre-development Calculations Post-development Calculations
C C
Areas(ft): open space >�217,800 ' 0.26 Areas(ft�): open space 0.20
med. res. 0.35 med.res. 0.35
dense res. 0.50 dense res. 0.50
comm.neigh 0.60 comm.neigh. 231,303 0.55
comm.down 0.80 comm.down. 0.80
industrial 0.80 industrial 0.80
Total: 217,806 Total: 231,303
total area: 5.00 acres total area: 5.31 acres
composite C: 0.26 composite C: 0.55
Overland t� Overland t.
average slope 1 6 °`"percent average slope: >1 7 percent
travel distance , _ 600 ;, feet travel distance 1250_, :_�feet
t�: 33 minutes t�: 33 minutes
Channel t� Channel tc
channel t, minutes channel t.: minutes
Total t.: 33 minutes Total tc: 33 minutes
intensity at t,(fig 23): 0.95 in/hr intensity at tc(fig 23): 0.94 in/hr
pre-devel peak runoff: 1.04 cfs post-devel peak runoff: 2.76 cfs
Storm Duration Intensity Future Runoff Runoff Release Required
(minutes) (in/hr) Rate(cfs) Volume(cf) Volume(co Storage(cf)
33 0.94 2.76 5458 2059 3399
35 0.91 2.65 5572 2184 3388
37 0.88 2.56 5681 2309 3373
39 0.85 2.47 5787 2434 3353
41 0.82 2.39 5889 2558 3331
43 0.79 2.32 5988 2683 3305
45 0.77 2.25 6084 2808 3276
47 0.75 2.19 6178 2933 3245
49 0.73 2.13 6268 3058 3211
51 0.71 2.08 6357 3182 3174
53 0.69 2.03 6443 3307 3136
55 0.68 1.98 6527 3432 3095
57 0.66 1.93 6609 3557 3052
59 0.65 1.89 6689 3682 3008
61 0.63 1.85 6768 3806 2961
63 0.62 1.81 6645 3931 2914
65 0.61 1.77 6920 4056 2864
required detention storage(ft)=r 3,399
Pagel of 3 _
Annie Street Cottages
Revised 9/25/07
Detention Pond Calculations:
design depth of pond 1.50. feet
max side slope 4.00 horizontal to 1.00 vertical
length/width ratio 3.00
min. particle removed =40 " microns(1 micron=1 x 10-6 meters)
settling velocity of partic 0.0069 feet/second
min. pond to settle parti 400 square feet
pond dimentions assuming vertical side slopes(actual pond footprint will be larger)
width 27
length 82
Volume held between contours:
Cumulative
Contour Area(ft) Delta V(ft) Volume(ft3}
;'.4645.75 50
4646 0 r. 1 836; 236 236
4647 0 3 202",1 2,519 2,755
4647 25 3,51 °,' 839 3,594
Design storage at 1.5'depth(ft)= 3,594
Paoe 2 of 3
Annie Street Cottages
Revised 9/25/07
Annie Street Cottages
Storm Water Detention Pond Calculations
Detention Pond Outlet Calculations
(Reference: City of Bozeman, Design Standards and Specifications Policy, March 2004, II.D.2, page 24)
Note: see Figure A-2 in above reference.
Rectangular weir-Q=3.33LH311
Determine Outlet Slot Width needed:
Pre-development flow rate= 1.04 cfs
Vertical Slot Height=' 18 ' inches
Req'd Outlet Slot Width= 0.17 feet or 2 1/32 of an inch
Determine Outlet Flow:
Outlet Slot Width= < ' 2.0q inches
stage ft Q cfs O(gpm)
0.25 . 0.069 31
0.50 0.196 88
0.75 0.360 162
1.00 0.555 249
1.25 0.776 348
1.50 1.020 458
Flow through outlet
Stage vs. Discharge
1.20
1.00
y ,{
0.80
0.60
ca
0.40
U
0 0.20
0.00
0 0.5 1 1.5
Stage (ft)
Page 3 of 3
Annie Street Cottages
Revised 9/25/07