HomeMy WebLinkAboutAppendix F Sewer and Water Flow Capacities 1-24-19COTTONWOOD + IDA
RESPONSE & RESUBMITAL II || JANUARY 2019
APPENDIX F
SEWER AND WATER FLOW CAPACITIES
SECTION 8
April 3, 2018
Project No. 06002.03
WATER AND SEWER PRELIMINARY DESIGN REPORT
FOR
COTTONWOOD + IDA MIXED USE DEVELOPMENT
LOTS 5-28, BLOCK 105, NORTHERN PACIFIC ADDITION, BOZEMAN MT
SITE NARRATIVE
The following report summarizes the water and sewer design for a mixed-use development located
on Lots 5 through 17, Block 105 of the Northern Pacific Addition Subdivision (and portion of
vacated alley) in northeast Bozeman, Montana. The project is bound by East Aspen Street to the
north, Ida Avenue to the east, East Cottonwood Street to the south and existing commercial parcels
to the west that front on North Wallace Avenue. The subject parcel is approximately 2.1 acres of
mixed-use consisting of residential apartments, ground floor artisan manufacturing spaces, an office
building and renovation of an existing building. Almost all of the development will be built over a
new below grade parking garage.
WATER
Currently the municipal water system adjacent to the site consists of a 6-inch water main in East
Cottonwood Street at the south boundary of the site. This main will be replaced with an 8-inch
main from the Cottonwood and North Wallace intersection to the East Cottonwood and Ida
Avenue intersection. There will also be a new 8-inch water main installed in East Aspen Street from
North Wallace to Front Street.
There are existing fire hydrants at North Wallace and East Aspen intersection, the North Wallace
and East Cottonwood intersection and at the East Cottonwood and Ida intersection. A new hydrant
will be set at the East Aspen and Ida intersection giving an east/west spacing of approximately 450
feet and a north/south spacing of approximately 320 feet. The City of Bozeman conducted a fire
hydrant flow test at the corner of Ida and Cottonwood on May 12, 2017. The static pressure at the
time of the test was 147 psi, with a residual pressure of 110 psi at 1760 gpm.
Water for the proposed development will be served by one domestic and one fire service for each of
the new individual building. For purposes of sizing the water meter and domestic service, the
AWWA M22 fixture unit calculation is used with an assumed pressure of 100 psi. Irrigation flow of
8 gpm is assumed through the service to the existing building at the southwest corner of the site.
The total estimated fixture units, peak flow and recommended meter sizes for each building are
summarized below:
Cottonwood Mixed Use
V:16020_03_Utility_Design_Report 2 (4/3/18) TRP
For water main sizing, the peak hourly flow will be used. The flows are separated to services
coming off of the East Cottonwood 8-inch main and the East Aspen 8-inch main. The residential
flows are based on the City of Bozeman Design Standards and Specifications Policy; 2.11 people per
dwelling unit, an average daily usage of 170 gallons per day per person, and a maximum hour to
average day ratio of 3:1. The commercial and office flows are more difficult to estimate. Based on
the 88 parking spaces for the office and artisan manufacturing spaces (prior to reduction), you could
assume for estimating purposes that each space is an employee. DEQ 4 circular estimates that there
is a usage of 13 gallons per day per employee. This peak hourly flow rate to each main are as
follows:
East Aspen Peak Hourly Domestic Water Demand
Average Daily Flow(res) = 63 units x 2.11 persons/unit x 170 gpd/person = 22,598 gal/day
Average Daily Flow(comm) = 84 employees x 13 gpd/person = 1,092 gal/day
Total Avg Daily Flow = 23,690 gal/day
Total Avg Daily Flow = 23,690 gal/day / 1440 min/day = 16.5 gal/min
Peak hourly Flow Rate = 16.5 gal/min x 3 = 49.5 gal/min
Cottonwood Mixed Use
V:16020_03_Utility_Design_Report 3 (4/3/18) TRP
East Cottonwood Peak Hourly Domestic Water Demand
Average Daily Flow(res) = 30 units x 2.11 persons/unit x 170 gpd/person = 10,761 gal/day
Average Daily Flow(comm) = 5 employees x 13 gpd/person = 65 gal/day
Total Avg Daily Flow = 10,766 gal/day
Total Avg Daily Flow = 10,766 gal/day / 1440 min/day = 7.5 gal/min
Peak hourly Flow Rate = 7.5 gal/min x 3 = 22.5 gal/min
SANITARY SEWER
Currently the municipal sanitary sewer system adjacent to the site consists of a 6-inch main in East
Cottonwood Street at the south boundary of the site and a 6-inch main in East Aspen Street at the
north boundary of the site. Both mains flow to the east. The sanitary sewer in East Cottonwood
will be replace with an 8-inch from the manhole at the southwest corner of the site to a point
approximately 540 feet to the east where it will tie into an existing manhole at the furthest east end
of Cottonwood Street. This existing manhole has a 10-inch main outfall that flows to the north.
The sanitary sewer in East Aspen will be replaced with an 8-inch main from the manhole at the
northwest corner of the site to a point approximately 480 feet to the east where it will tie into an
existing manhole at Front Street. This existing manhole also has a 10-inch main outfall that flows to
the north.
Sanitary sewer wastewater from each of the proposed buildings will flow to the closest of the new
sewer main in either East Cottonwood or East Aspen. The design flow rates calculated below for
both the residential and commercial uses to determine the impact to the City of Bozeman municipal
sanitary sewer system. The residential flows are based on the City of Bozeman Design Standards
using an average daily flow rate of 89 gpd/person using 2.11 persons per unit. The commercial flow
rates are calculated the same as they were as describe above in the water section. The flow rates also
included is an infiltration rate at 150 gpm/acre infiltration rate.
The residential and commercial flows to each of the mains is summarized below:
East Aspen Sanitary Sewer
Residential Avg Daily Flow = 63 units x 2.11 persons/unit x 89 gpd/person = 11,830 gpd
Office Avg Daily Flow = 84 employee x 13 gpd/employee = 1,092 gpd
Total Avg Daily Flow (with no infiltration) = 12,922 gpd
InfiltrationFlow = 1.05 ac x 150 gpd/ac = 158 gpd
Total Avg Daily flow w/ infiltration = 158 gpd + 12,922 gpd = 13,080 gpd
Total Avg Daily Flow Rate = 13,080 gpd / 1440 min/day = 9.1 gpm
Cottonwood Mixed Use
V:16020_03_Utility_Design_Report 4 (4/3/18) TRP
Peaking Factor = (18+0.133 0.5 )/ (4+0.133 0.5 ) = 4.21
Peak Hourly Flow Rate = (4.21 x 12,922gpd + 158 gpd )/ 1440min/day) = 37.9 gpm
East Cottonwood Sanitary Sewer
Residential Avg Daily Flow = 30 units x 2.11 persons/unit x 89 gpd/person = 5,634 gpd
Commercial Avg Daily Flow = 5 employee x 13 gpd/employee = 65 gpd
Total Avg Daily Flow (with no infiltration) = 5,699 gpd
InfiltrationFlow = 1.05 ac x 150 gpd/ac = 158 gpd
Total Avg Daily flow w/ infiltration = 158 gpd + 5,699 gpd = 5,857 gpd
Total Avg Daily Flow Rate = 5,857 gpd / 1440 min/day = 4.1 gpm
Peaking Factor = (18+0.063 0.5 )/ (4+0.063 0.5 ) = 4.29
Peak Hourly Flow Rate = (4.29 x 5,699gpd + 158 gpd )/ 1440min/day) = 17.1 gpm
Sanitary Sewer Service Line Sizing (maximum flow from building #1 base on 45 units)
Residential Avg Daily Flow = 45 units x 2.11 persons/unit x 89 gpd/person = 8,451 gpd
Total Avg Daily Flow Rate = 8,451 gpd / 1440 min/day = 5.9 gpm
Peaking Factor = (18+0.095 0.5 )/ (4+0.095 0.5 ) = 4.25
Peak Hourly Flow Rate = 4.25 x 5.9 gal/min = 25.1 gpm
The maximum capacity of a 6-inch sanitary sewer service at 2% slope flowing 0.75% full is
approximately 287 gpm which is significantly more than the maximum 25.1 gpm flow from
the worst case building , therefore, the sanitary sewer services for each building shall be 6-
inch.
CONCLUSION
Upgrading the municipal water system and sanitary sewer system and installing the service sizes as
described above is assumed to provide adequate capacity to meet the minimum design standards
from the City of Bozeman and the Montana Department of Environmental using the flows rates
provided in this report. The new utility improvements and flows will be modeled by the City of
Bozeman to confirm the standards are met. Modifications may be required to the assumed utility
improvements if said modeling shows any system inadequacies. These changes will be reflected in
the final engineering report.