HomeMy WebLinkAboutStormwater Management Report_06-03-2020 STORMWATER MANAGEMENT
DESIGN REPORT
FOR:
COLLINS APARTMENTS
LOTS 2 & 3, BLOCK 1
CATTAIL CREEK SUBDIVISION, PH. 3
BOZEMAN, MT
Prepared By:
MADISON
ENGINEERING
Madison Engineering
895 Technology Drive, Suite 203
Bozeman, MT 59718
(406) 586-0262
FEBRUARY 2020
REVISED DUNE, 2020
STORMWATER MANAGEMENT
DESIGN REPORT
FOR:
COLLINS APARTMENTS
LOTS 2 & 3, BLOCK 1
CATTAIL CREEK SUBDIVISION, PH. 3
BOZEMAN, MT
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Madison Engineering
895 Technology Blvd Ste 203
Bozeman, MT 59718
(406) 586-0262
FEBRUARY 2020
REVISED JUNE 2020
COLLINS APARTMENTS SITE PLAN
LOT 2 & 3, BLOCK 1, CATTAIL CREEK SUBDIVISION, PHASE 3
STORMWATER DESIGN REPORT
A. Introduction
The proposed development for the Collins Apartments will be constructed on Lots 2 and 3,
Block 1, of Cattail Creek Subdivision Phase 3. The site will have four buildings, each with four
apartments, for a total of 16 dwelling units. The site will contain stormwater onsite and allow
infiltration/retention through underground infiltration chambers consisting of 18-inch diameter
perforated corrugated metal pipe (CMP) that capture runoff via stormwater inlets in the parking
lot and drive lanes.
The following references were used in the preparation of this report:
a. COB Design Standards and Specifications Policy, 2004. Addendum #6
b. COB Modifications to Montana Public Works Standard Specifications (MPWSS)
B. Stormwater Management
The infrastructure for Lots 2 and 3 will be constructed in one phase although the construction of
the buildings will be phased. Stormwater from Lot 2 flows in a northerly direction from the drive
aisle and driveways into two storm inlets at the center of the lot. These flows are directed into an
underground infiltration facility on the west side of the site on Lot 2. The flows from Lot 3 flow
in a northerly direction into an inlet at the northwest corner of the drive aisle, which directs flows
into an underground infiltration facility along the west side of the site. All four buildings will tie
their roof downspouts into an 8-inch ADS pipe that connects to the storm system and ultimately
drains into the infiltration chambers.
Storm water run-off is calculated based on the Rational Formula and infiltration/retention
facilities are sized per the City of Bozeman's design standards for a storm intensity of 10-year
frequency and a 2-hour duration. Table 1 below shows the required and proposed storage
volumes for the two (Lot 2: southern; Lot 3: northern) infiltration basins. The calculations that
produce these volumes can be found in Appendix A.
Table 1:Facility Storage L'olurnes
Facility ID Required Storage Volume (cu ft) Proposed Storage Volume (cu ft)
Northern 1,172 1,178
Southern 1,115 1,178
The subsurface stormwater facilities have been redesigned to provide storage for the 10-year
event with no infiltration reduction in volume and the bottom of the basin to be above the
seasonally high groundwater levels. The basin size has been revised to 2-18" side by side pipes
and 2.5' deep from bottom of topsoil to bottom of basin stone. In addition, the proposed finish
Collins Apartments Stonn mdter Design Report
Page 1 of 2
grade at the basin locations is approximately 6" above existing ground. Based on the revisions it
is anticipated the bottom of the basin will be approximately 2.5' above high ground water levels.
C. Curb inlet adequacy check
The three curb inlets that received surface flow from the site were checked for capacity. All
standard 24-inch by 36-inch curb inlets are adequate to handle the runoff from a 25-year storm
event. See Appendix B for more information.
D. Groundwater Monitoring
No groundwater monitoring has been performed on this site. However, in early May a ground
water monitoring well was installed on a lot to the north, near the proposed Collins development,
and has been monitored weekly since. As shown in Appendix E - Groundwater Monitoring
Summary, the ground water levels are approximately 5.5'±below existing ground. We will
continue monitoring the groundwater through the peak.
Appendices
A. Stormwater calculations
B. Curb Inlet adequacy check
C. Stormwater Maintenance Plan
D. Drainage Exhibit
E. Groundwater Monitoring Summary
Collins Apartments Stormwater Design Report
Page 2 of 2
Appendices
Appendix A — Stormwater Calculations
Collins Apartments 6/3/2020
South Basin
Stormwater Run-off and Infiltration Calculation
Calculation of Required Volume for Storm Water Retention & Infitration System
Design Rainfall Freq. 10 year-2 Hour event
OF coefficient a 0.64
OF coefficient b
OF coefficient n 0.65
Post-development Calculations:
C
Areas(ft): Impervious 16.965 0.90
Landscaped 5,951 0.20
Total: 22,916 0.72
Retention Basin Calculation:
Q=CIA
C= 0.72 (post-development)
1 = 0.41 in/hr(10-yr,2-hr storm)
A= 0.53 acres
Qpsst= 0.15 cfs
Required retention storage(ft3)= 1,115 ft3 (10-yr,2-hr storm)
Contech Corrugated CMP Pipe Storage Calculations:
Pipe Area
A=3.14xR2
Diameter Radius
0.75 3.14 = 1.77 fit`
Pine Volume
A=3.14xR2
Diameter Radius
1.5 0.75 3.14 = 1.77 ft2
Length(2-rows @ 80'each) = 160 ft
Volume = 283 W
Stone Volume
Stone Width = 4.5 ft
Stone Depth = 3.5 ft
Area = 15.75 ft2
Less Pipe Area = 1.77 ft2
Stone Area = 13.98 ft2
Pipe Length = 160 ft
Storage Volume in Stone(40%voids) = 895 ft3
Total Storage Volume = 1,178 ft3
Infiltration Calc-Corrugated CMP-South REV 1.xls
Collins Apartments 6/3/2020
North Basin
Stormwater Run-off and Infiltration Calculation
Calculation of Required Volume for Storm Water Retention& Infitration System
Design Rainfall Freq. 10 year-2 Hour event
OF coefficient a 0.64
OF coefficient b
OF coefficient n 0.65
Post-development Calculations:
C
Areas(ft): Impervious 17,455 0.90
Landscaped 7,942 0.20
Total: 25,397 0.68
Retention Basin Calculation:
Q=CIA
C= 0.68 (post-development)
I = 0.41 in/hr(10-yr,2-hr storm)
A= 0.58 acres
QPos= 0.16 cfs
Required retention storage(ft3)= 1,172 ft3 (10-yr,2-hr storm)
Contech Corrugated CMP Pipe Storage Calculations:
Pipe Area
A=3.14xR2
Diameter Radius
0.75 3.14 = 1.77 ft`
Pipe Volume
A=3.14xR2
Diameter Radius
1.5 0.75 3.14 = 1.77 ft2
Length (2-rows @ 80'each) = 160 ft
Volume = 283 fe
Stone Volume
Stone Width = 4.5 ft
Stone Depth = 3.5 ft
Area = 15.75 ft2
Less Pipe Area = 1.77 ft2
Stone Area = 13.98 ft2
Pipe Length = 160 ft
Storage Volume in Stone(40%voids) = 895 W
Total Storage Volume = 1,178 Ife
Infiltration Calc-Corrugated CMP-North REV 1.xls
Appendix B — Curb Inlet adequacy check
Collins Apartments
Peak flow calculations
Curb Inlet Drainage Basins-Post Development
Peak Flow Summary(cfs)
Area Drainage Area No. Area(Ac.) Weighted C 100 Yr 25 Yr 10 Yr
S.drive aisle DA 1 0.420 0.72 1.62 1.22 1.06
E.drive aisle DA 2 0.110 0.72 0.81 0.61 0.53
N.drive aisle DA 3 0.580 0.68 2.00 1.59 1.41
OF Equations from Bozeman Stormwater Master Plan for City of Bozeman,March 1982
General Equation_ i=a/(b+D)"where 0 is duration in hours,i=intensity in inches/hour
Storm Information
Design Rainfall Freq. 100 25 10
OF coefficient a 1.01 0.78 0.64
OF coefficient b 0 0 0
OF coefficient n 0.67 0.64 0.65
Adjustment Factor Cf. 1.25 1.1 1
Peak Q Values
Drainage Area 1
Area 0.420 acres
Weighted C 0.72
Average slope 0.75 percent
Travel Distance 146 feet
Design Rainfell Freq. 100 25 10 years
C`Cf 0.90 0.79 0.72 (Shall not exceed 1.00)
Total tc: 4.96 7.63 9.42 minutes
intensity at t� 5.37 4.02 3.49 in/hr
peak runoff: 1.62 1.22 1.06 Os
Drainage Area 2
Area 0.110 acres
Weighted C 0.72
Average slope 2.72 percent
Travel Distance 5o feet
Design Rainfall Freq. 100 25 10 years
C`Cf 0.90 0.79 0.72 (Shall not exceed 1.00)
Total tc: 1.89 2.92 3.60 minutes
intensity at tc 10.23 7.66 6.65 in/hr
peak runoff: 0.81 0.61 O.S3 cfs
Drainage Area 3
Area 0.580 acres
Weighted C 0.68
Average slope 0.75 percent
Travel Distance 130 feet
Design Rainfall Freq. 100 25 10 years
C'Cf 0.85 0.75 0.68 (Shall not exceed 1.00)
Total tc: 5.87 8.26 9.86 minutes
intensity at t, 4.80 3.81 3.39 in/hr
peak runoff: 2.00 1.59 1.41 Os
Page 1 of 1
Collins Apartments
Gutter Capacity Calculations
Allowable Pavement Encroachment
Given: T= 9 feet(max per city)
T W= 1.5 feet
W is
Ts= 7.5 feet
Sw= 0.0625 ft/ft
Sx= 0.03 ft/ft
a a= 0.59 inches
°` s' d= 3.24 inches
e n= 0.015
s.
a
Sw/Sx=
TM=
Capacity for Gutter
equations:
Q=Qw +Qs Where:
Qw =E.Q Qs.= Discharge within the Roadway
above the depressed section(cfs)
Qs Qw= Discharge within the depressed
Q—]—Eo (gutter)section(cfs)
Cf= 0.56 for English units
Qs =Cr Sx3TS3S��1 Sx= Pavement cross slope(ft/ft)
n Ts- Width of flow in the roadway above
depressed section
So= Gutter longitudinal slope(ft/ft)
S W/SX Sw= Gutter depression cross slope(ft/ft)
]+ a T= Spread(ft)
]+ Sw/SX - I(T/W)—1 W= Width of gutter depression(ft)
,
_Capacity solution_
Gutter Capacity-Drainage Area 1 Gutter Capacity-Drainage Area 2
So= 0.0075 So= 0.0272
Qs= cfs Qs= cfs
Eo= cfs Eo= 0.42 cfs
Q= cfs G- 6.67 cfs
Gutter Capacity-Drainage Area 3
So= 0.0075
Qs= 2.02 cfs
Eo= 0.42 cfs
�Q= 5 C Cis
DA AREA 25 Yr Design Flow(cis)
1 S.drive aisle 1.22
2 E.drive aisle 0.61
3 N.drive aisle 1.59
Summary
The gutter capacity is adequate for all three proposed curb inlets.
Page 1 of 1
Collins Apartments
Inlet Capacity Calculations
Gutter Section
Given T= 9.0 feet
T W= 1.50 feet
Ts= 7.50 feet
"' TB SW= 0.06 ft/ft
Sx= 0.03 ft/ft
_ a= 0.59 inches
0. d= 3.24 inches
o. s. n= 0.015
d So= 0.016
f Where:
S.
a Qs= Discharge within the Roadway
above the depressed section(cfs)
Qw= Discharge within the depressed
(gutter)section(cfs)
Capacity for Inlets on Grade Cf= 0.56 for English units
(Standard 24x36 Curb inlet) Sx= Pavement cross slope (ft/ft)
Ts= Width of flow in the roadway above
Drainage Area 1 depressed section
So= Gutter longitudinal slope(ft/ft)
Qw= 1.48 cfs Sw= Gutter depression cross slope(ft/ft)
Qs= 2.02 cfs T= Spread (ft)
Cross-sectional area of flow W= Width of gutter depression(ft)
A= 1.22 ft2
Gutter Velocity
V= 2.88 ft/sec
Fraction of side flow intercepted
Rs= 0.27
Total flow capacity intercepted by the inlet
Qint= 2.07 1 cfs
Qbypass= 1.43 cfs
Design Q for inlet#1
025= 1.22 cfs Single Inlet Sufficient
Drainage Area 2
Qw= 2.83 cfs
Qs= 3.84 cfs
Cross-sectional area of flow
A= 1.22 ft2
Gutter Velocity
V= 5.49 ft/sec
Fraction of side flow intercepted
Rs= 0.10
Total flow capacity intercepted by the inlet
Page 1 of 2
Qint = 3.32 cfs
Qbypass = 3.34 cfs
Design Q for inlet#2
Q26= 0.61 cfs Single Inlet Sufficient
Drainage Area 3
Qw= 1.48 cfs
Qs= 2.02 cfs
Cross-sectional area of flow
A= 1.22 ftz
Gutter Velocity
V= 2.88 ft/sec
Fraction of side flow intercepted
Rs= 0.27
Total flow capacity interce ted b the inlet
Qint= 2.07 cfs
Qbypass= 1.43 cfs
Design Q for inlet#3
Q25= 1.59 cfs Single Inlet Sufficient
Page 2 of 2
Appendix C — Stormwater Maintenance
Plan
STORMWATER MAINTENANCE PLAN
Collins Apartments
Owner's responsibility for routine inspection and maintenance
1. Keep the inlets of the facilities free of leaves,rocks, and other debris.
2. Re-sod damaged or maintained areas immediately, or use grass plugs from the
adj acent up-sl ope area.
3 See that litter and other debris are removed from inlets, swales, and vegetated and
paved areas.
4. Maintenance of the underground systems are as follows:
• Minimum required maintenance includes a quarterly inspection during the
first year of operation and a yearly inspection thereafter. Utilize inspection
ports for inspections.
• The inspection ports can be used to pump water into the system and re-
suspend accumulated sediment so that is may be pumped out. Flush and
pump as inspections deem necessary.
• Utilize the adjacent upstream storm sewer manhole or cleanout for removal
(vacuuming) of debris from the end of the storm drain at the connection
point with the underground chamber.
5. Owner to maintain and fund Operation and Maintenance of stormwater facilities.
Shane Collins, Owner's Representative
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Appendix D — Drainage Exhibit
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MADISON ENGINEERING EXHIBIT A
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PROJECT#19-116
Appendix E
Groundwater Monitoring Summary
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