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WESTLAKE PARK IMPROVEMENTS –
STORMWATER DESIGN REPORT
Project No. 18098.18
City of Bozeman Parks and Recreation
P.O Box 1230
Bozeman, MT 59771
March 25, 2022
WESTLAKE PARK IMPROVEMENTS
DRAINAGE REPORT
BOZEMAN, MONTANA
CERTIFICATION
I hereby state that this Final Drainage Report has been prepared by me or under my supervision and
meets the standard of care and expertise which is usual and customary in this community of
professional engineers. The analysis has been prepared utilizing procedures and practices specified by
the City of Bozeman and within the standard accepted practices.
____________________________________________ ___________________________
Tim Pirtz, PE Date
03/25/2022
March 25, 2022
Project No. 18098.18
STORMWATER DESIGN REPORT
FOR
WESTLAKE PARK IMPROVEMENTS
PROJECT OVERVIEW & BACKGROUND
The purpose of this drainage plan is to present a summary of calculations to quantify the stormwater
runoff for the Westlake Park project.
LOCATION
The lot is 5.902 acres of the Westlake’s 4th Addition, Block 1. It is bordered to the north by W
Tamarack Street and to the west by North 5th Avenue.
EXISTING SITE CONDITIONS
The existing project area contains the remains of a dirt mountain bike track after construction of
North 5th Avenue improvements. The remaining area is undeveloped land. There is an existing
BMX bike park on the south end of the property and a Children’s Memorial Garden on the east side
of the project area.
PROPOSED PROJECT
Project improvements include construction of a new mountain bike course, asphalt pathways, and a
concrete plaza area. Approximately 90,000 (~2.1 acres) will be improved, including landscaping.
HYDROLOGY
All design criteria and calculations are in accordance with The City of Bozeman Design Standards and
Specifications Policy, dated March 2004. The site stormwater improvements have been designed with
the intent to meet the current City of Bozeman drainage regulations for the entire site to the extent
feasible.
P:18098_18 Westlake BMX Track Landscape and Design 1 (03/23/22) CS/trp
PRE-DEVELOPMENT
Existing topography generally slopes south to north towards W Tamarack Street. There is a large
topsoil stockpile on the north end of the site. There is currently no stormwater collection system or
storage facilities located within the project area. There is a 30” corrugated metal pipe (CMP) storm
sewer running underneath the sidewalk along North 5th Avenue.
Runoff calculations for pre-development conditions are shown in Appendix C.
POST-DEVELOPMENT
The Rational Method provided in The City of Bozeman Standard Specifications and Policy was used to
calculate the runoff volumes for the 10-year and 25-year, 2-hour storm event. The rational drainage
coefficient “C” was calculated for each contributing area using 0.9 for impervious areas and 0.20 for
pervious areas.
For the purposes of this report, the post construction storm water system will consist of one
drainage basin (See Appendix B, Exhibit B Post-Developed Sub-Basins). Basin 1 includes sub-basin
areas 1 through 4.
The storage requirements for this project will be met by using the greater of the 10-year storm event
using the modified rational or the direct runoff from the first 0.5-inches of precipitation. The direct
runoff from the first 0.5-inches of precipitation is calculated as follows.
Precipitation = P = 0.5-inches
Drainage coefficient = c =0.23
Assume 23% of the total precipitation is converted to direct runoff
Direct runoff = Q = 0.23 * 0.5-inches = 0.115-inches
Direct runoff volume = (0.115/12) * (1.768acres*43560sf/acre) =738cf
The required storage from the 10-year storm using the modified rational method is 957cf as shown
in the calculations in Appendix D. An ADS Stormtech (or approved equal) chamber system that will
key into native gravels estimated to infiltrate at 6.8 in/hr per Infiltration Rates for USCS Soils Table
for GP soils (Appendix B) will be used to detain the storm water. For this design, an infiltration rate
of 3.4 in/hr will be used, which is half of the estimated rate, to be conservative. The depth of the
existing gravels was estimated to be at a depth of 7-8 feet based on observations of soil profiles
during construction of the 5th Avenue Sewer Improvements project constructed along the west
boundary of this project in 2020. The required storage volume for the 10-year storm is calculated
using the Modified Rational Method with a discharge rate calculated from the 3.4 in/hr over an area
equal to the chamber system footprint. For storms larger than the 10-year event, runoff will
overflow through a new 12-inch pipe that will tie into an existing manhole located in the northwest
corner of the site.
Runoff calculations for post-development conditions and ADS Design are shown in Appendix D.
P:18098_18 Westlake BMX Track Landscape and Design 2 (03/23/22) CS/trp
PIPES
All storm drainage pipes were sized to handle peak flow resulting from a 25-year storm event. The
Rational Method was used to calculate peak flow. The Manning Equation was used to determine the
flow full capacity of each pipe.
See Appendix E for pipe sizing calculations.
Appendices
Appendix A –Stormwater Basins
Appendix B – Stormwater Chambers Design Details
Appendix C – Pre-Development Calculations
Appendix D – Post-Development Calculations
Appendix E – Pipe Sizing Calculations
Appendix F – Surface Improvements O&M Manual
Westlakes 4th Addition Park Plat I-16 Stormwater Design
Report
Project No. 18098.18 APPENDIX A Stormwater Basins
EXHIBIT ANORTH030SCALE:1" = 60'6030
EXHIBIT BNORTH030SCALE:1" = 60'6030
APPENDIX B Stormwater Chambers Design Details Westlakes Park Improvements – Stormwater Design Report
Project No. 18098.18
H‐1 | Page
This Section adds to the infiltration testing section of the Montana Post‐Construction Storm Water BMP Design
Guidance Manual; however, this section shall take precedence over any discrepancies with the practices or results
of the water quality Guidance Manual.
One of the following methods should be used to determine the design infiltration rate.
Design Infiltration Rate Using the USCS Classification (non‐field measured – This method is only applicable
to proposed infiltration systems with less than 5,000 square feet of infiltration area)
Encased Falling Head Test (field measured)
Pilot Infiltration Test (field measured)
Borehole Infiltration Test (field measured)
Design Infiltration Rate Using the USCS Classification
For infiltration systems with less than 5,000 square feet, a design infiltration rate can be selected from Table 1:
Infiltration Rate Ranges for USCS Soils based on the least‐permeable soil layer encountered within 10 feet of the base
of the proposed infiltration system. The design infiltration rates presented in Table 1: Infiltration Rate Ranges for
USCS Soils represent the ranges of infiltration rates for each soil classification. The minimum infiltration rate shall
be selected as the design infiltration rate.
Table 1: Infiltration Rate Ranges for USCS Soils
Soil Description USCS
Range of Typical Infiltration Rates
(inches/hour)
min max*
Well graded gravel, sandy gravel GW 1.30 137.00
Poorly graded gravel, sandy gravel GP 6.80 137.00
Well graded sand, gravelly sand SW 0.80 68.00
Poorly graded sand, gravelly sand SP 0.50 68.00
Silty gravel, silty sandy gravel GM 1.63 13.50
Clayey sands SC 0.05 0.78
Silty Sand SM 0.24 0.70
Clayey gravel, clayey sandy gravel GC 0.04 0.50
Inorganic Silts of low plasticity ML 0.04 0.14
Clay CL 0.00 0.01
Inorganic Silts of high plasticity MH 0.00 0.01
Inorganic clays of high plasticity CH 0.00 0.01
*If proposing to use maximum rates, a detailed explanation shall be provided why the maximum rates apply to development.
APPENDIX C Pre-Development Calculations Westlakes Park Improvements – Stormwater Design Report
Project No. 18098.18
P:18098_18 Westlake BMX Track Landscape and Design 1 (03/23/22) CS/trp
Basin 1
Pre-development
=1.871.1 −
/
/
C = 0.2 (City of Bozeman Design Standards and Specifications Policy Table I-1)
Cf = 1.00 (2 to 10 year)
D = 400ft
S = 1.5%
=1.87 1.1 − 0.2 ∗ 1.0 400/
1.5/
Tc = 29min
=
C = 0.2 (City of Bozeman Design Standards and Specifications Policy Table I-1)
i =Y=0.64X-0.65 = 0.64(29/60)-0.65 = 1.03 cfs
A = 1.768 acres
= 0.20 ∗ 1.03
"
ℎ$∗ 1.768 &’$()
Qpre = 0.36 cfs
APPENDIX D Post-Development Calculations Westlakes Park Improvements – Stormwater Design Report
Project No. 18098.18
P:18098_18 Westlake BMX Track Landscape and Design 1 (03/23/22) CS/trp
Basin 1
Post-development
Impervious Area = 143ft2 + 3,529ft2 = 3,672ft2 = 0.084 acres
Pervious Area = 34,299ft2 + 6,061ft2 + 16,642ft2 + 19,823ft2 = 73,353ft2 = 1.684 acres
Total Area = 77,025ft2 = 1.768 acres
Post-development C = (0.9(0.084 acres) + 0.2(1.684 acres))/1.768 acres = 0.23
Cf = 1.0
Tc = 29min (same as pre-development)
=
I = Y=0.64X-0.65 = 0.64(29/60)-0.65 = 1.03in/hr
A = 1.768 acres
= 0.23 ∗ 1.03 ℎ∗ 1.768
Qpost = 0.42 cfs
Chamber Type = SC-740
Gravel Footprint Area = 500.13ft2 (See ADS System Parameters)
Infiltration Rate = 500.13ft2 * 3.4 in/hr * 1hr/3600sec * 1ft/12in = 0.0394 cfs
Although the flowrate of 0.36 cfs is allowed to discharge based on pre-development conditions,
the design will infiltrate into the native gravels with no discharge for the 10-year storm. This will
treat the first 0.5 inches of precipitation.
The maximum storage is calculated using the Modified Rational method with a 10-year storm
and a Post-developed Tc of 29 minutes for Basin 1, and the required volume was found to be
957 cubic feet as shown on the following table.
P:18098_18 Westlake BMX Track Landscape and Design 2 (03/23/22) CS/trp
Basin 1 Storage Calculation with Infiltration (10-year)
Tc(min) 29 Detention Area (sf) 500.13
Post C 0.23 Perv Rate (in/hr) 3.4
Cf 1
Area(ac) 1.768
Infiltration Rate 0.0394 cfs
Duration Intensity Qp Incoming Outgoing
(min) (in/hr) (cfs) Vol(cf) Vol (cf)
5 3.22 1.31 392.63 11.81 380.8
10 2.05 0.83 500.43 23.62 476.8
15 1.58 0.64 576.73 35.43 541.3
20 1.31 0.53 637.82 47.23 590.6
30 1.00 0.41 735.08 70.85 664.2
60 0.64 0.26 936.90 141.70 795.1951
90 0.49 0.20 1079.75 212.56 867.1980
120 0.41 0.17 1194.13 283.41 910.7270
200 0.29 0.12 1427.91 472.35 955.5627
210 0.28 0.12 1452.50 495.96 956.5386
212 0.28 0.11 1457.33 500.69 956.6419
214 0.28 0.11 1462.12 505.41 956.7157
216 0.28 0.11 1466.89 510.13 956.7604
218 0.28 0.11 1471.63 514.86 956.7766
220 0.28 0.11 1476.34 519.58 956.7645
300 0.22 0.09 1645.63 708.52 937.1120
400 0.19 0.08 1819.95 944.69 875.2649
500 0.16 0.07 1967.79 1180.86 786.9292
600 0.14 0.06 2097.45 1417.04 680.4196
800 0.12 0.05 2319.64 1889.38 430.2629
The chamber system provides 1,076 cubic feet of storage (See ADS System Parameters), which
exceeds the required volume of 957 cubic feet.
Runoff from larger storm events will fill up the available storage and the excess will spill out of
the outlet pipe into the existing storm drain manhole at the corner of 5th Avenue and Tamarack
Street.
APPENDIX E Pipe Sizing Calculations Westlakes Park Improvements – Stormwater Design Report
Project No. 18098.18
P:18098_18 Westlake BMX Track Landscape and Design 1 (03/23/22) CS/trp
Basin 1
Post-development
Impervious Area = 143ft2 + 3,529ft2 = 3,672ft2 = 0.084 acres
Pervious Area = 34,299ft2 + 6,061ft2 + 16,642ft2 + 19,823ft2 = 73,353ft2 = 1.684 acres
Total Area = 77,025ft2 = 1.768 acres
Post-development C = (0.9(0.084 acres) + 0.2(1.684 acres))/1.768 acres = 0.23
Cf = 1.10 (25-year)
Tc = 29min (same as pre-development)
=
I = Y=0.78X-0.64 = 0.78(29/60)-0.64 = 1.24 cfs
A = 1.768 acres
= 0.23 ∗ 1.24 ℎ∗ 1.768
Qpost = 0.50 cfs
Chamber Type = SC-740
Gravel Footprint Area = 500.13ft2 (See ADS System Parameters)
Infiltration Rate = 500.13ft2 * 3.4 in/hr * 1hr/3600sec * 1ft/12in = 0.0394 cfs
12-inch SDR 35 PVC pipe flowing full capacity:
=1.49 ( !/#)%&/!
n = 0.013
= ’
! = 0.785ft2
( = 2’r = 3.14ft
R=A/P=0.785ft2/3.14ft=
S=1.2%
=1.49
0.013 0.785+,!(1.5708+,!/#)0.012&/!
Q=3.91cfs
All pipes are 12-inch with at least 1.2% slope; therefore, they are adequate to handle the 25-
year storm event.
APPENDIX F Surface Improvements O & M Manual Westlakes 4th Addition Park Plat I-16 Stormwater Design
Report
Project No. 18098.18
March 25, 2022
Project No. 18098.18
STORM DRAINAGE FACILITY MAINTENANCE PLAN
FOR
WESTLAKE PARK IMPROVEMENTS
OVERVIEW NARRATIVE
The purpose of this maintenance plan is to outline the necessary details related to ownership,
responsibility, and cleaning schedule for the storm drainage facilities for Westlake Park. This plan
has been completed in accordance with The City of Bozeman Design Standards and Specifications Policy,
dated March 2004. The site stormwater improvements have been designed with the intent to meet
the current City of Bozeman drainage regulations for the entire site to the extent feasible.
Specific site information and criteria are described below:
I. Ownership of Facilities
City of Bozeman Parks and Recreation Department
City of Bozeman Parks and Recreation Department will own all stormwater facilities which
includes the storm chambers, inlets, and piping within the site boundary.
II. Inspection Thresholds for Cleaning
Infiltration Chamber
If sediment in the Isolator Row exceeds 3 inches or grate is more than 25% clogged with
debris, clean grate and/or structure and vacuum Isolator Row.
Structures
Inspect structures and inlet grates for debris and sediment.
P:18098_18_WestLake_BMX_Track18098.18_O&M 2 (03/23/22) CS/trp
III. Cleaning
Infiltration Chamber
To clean grate of structure, remove and dispose of debris clogging the grate. To clean
structure, use catch basin vacuum to remove sediment and debris. To clean Isolator Row use
JetVac.
Structures
Remove trash, obstructions, debris, sediment and vegetation to prevent clogging of the grate
or pipes. Clean out if sediment fills 60% of sump or comes within 6-inches of a pipe.
IV. Schedule
Infiltration Chamber
Inspection: Every 6 months or after a storm event larger than 0.5-inches of precipitation.
Vacuum Isolator Row: Every 5 years or as needed based on inspection.
Structures
Inspection: Every 6 months or after a storm event larger than 0.5-inches of precipitation.
V. Responsible Party
City of Bozeman Parks and Recreation Department
City of Bozeman Parks and Recreation Department will be responsible for the inspection
and maintenance of all stormwater facilities located within the project limits.
I agree to the above operation, maintenance and replacement schedule detailed above.
Signature: __________________________________________
City of Bozeman Parks and Recreation Department Representative