HomeMy WebLinkAbout20 - Design Report - Icon Homes at Ferguson Farm - Water, Sewer WATER & SEWER
DESIGN REPORT
FOR:
ICON HOMES AT FERGUSON FARM
INFRASTRUCTURE IMPROVEMENTS
BOZEMAN, MT
Prepared By:
MADISON
ENGINEERING
Madison Engineering
895 Technology Drive, Suite 203
Bozeman, MT 59718
(406) 586-0262
OCTOBER 2020
WATER MAIN
DESIGN REPORT
FOR:
ICON HOMES AT FERGUSON FARM
INFRASTRUCTURE IMPVOREMENTS
BOZEMAN, MT
�*%%I ITA
e ri JS G.
e
CUD[S i
Sa
E
' ,SIONA,����r .
Madison Engineering
895 Technology Blvd Ste 203
Bozeman, MT 59718
(406) 586-0262
OCTOBER 2020
ICON HOMES FERGUSON FARM
INFRASTRUCTURE IMPROVEMENTS
WATER SYSTEM DESIGN REPORT
A. General Project Description
This design report will give an overview of the proposed water main extension for the development
of Icon Homes Infrastructure Improvements. The proposed improvements are anticipated to be
constructed during the Winter of 2020. Once the water main is constructed and approved,the main
will become a part of the City of Bozeman system.
The following references were used in the preparation of this report:
a. COB Design Standards and Specifications Policy, 2017. Addendum#6
b. COB Modifications to Montana Public Works Standard Specifications (MPWSS).
c. WQB Circular No. 1
d. City of Bozeman Zoning Map
e. City of Bozeman Water Facility Plan
f. 2015 International Fire Code
Existing System
The proposed water main extension will be served by the existing City of Bozeman water
distribution system, which will be looped. The two connection locations are located within West
Babcock existing 12"water main and the existing 8" water main within the current development.
The following information was obtained from the City of Bozeman:
Hydrant ID#: 1550
Maximum Day Demand Minimum Pressure: 21.20 psi
Maximum Day Demand Average Pressure: 46.32 psi
Maximum Day Demand Maximum Pressure: 67.91 psi
Maximum Day Demand Available Fire Flow at 20 psi: 4,600 gpm
Hydrant ID#: 1754
Maximum Day Demand Minimum Pressure: 20.92 psi
Maximum Day Demand Average Pressure: 73.74 psi
Maximum Day Demand Maximum Pressure: 121.13 psi
Maximum Day Demand Available Fire Flow at 20 psi: 8,000 gpm
The two hydrants listed above were used to create a three-point pump curve to model the existing
connections to the City system. The first point uses the static pressure of the system when the flow
is equal to zero. The second point uses the maximum day demand available fire flow at 20 psi
(given above). The third point was determined by selecting an arbitrary pressure between the static
pressure and the minimum pressure of 20 psi. An example calculation for Hydrant ID #1550 is
given below:
Icon Homes Phase II Infrastructure Improvements
Water Design Report
Page 1 of 3
Q,= Qt[(Ps—Pm)/(Ps—P01
0.54
Q,=4,600 [(67.91 —46.32)/(67.91 —21.20)]0.54
Q, = 3,032 gpm at 46.32 psi
Qt= Maximum Day Demand Available Fire Flow @ 20 psi
Qr= Fire Flow at Desired Fire Flow Residual Pressure
Ps= Static Pressure
Pm = Desired Residual Pressure =46.32 psi
Pr= Minimum Residual Pressure =21.20 psi
B. Proposed Water System
The proposed water main extension for Icon Homes Phase 2 consists of approximately 910 linear
feet of 8" ductile iron pipe that will connect to the existing water main within West Babcock via
tapping tee and the existing cap and blowoff assembly within the development. The layout of the
proposed water main meets the COB design criteria and will be located within a 30' foot wide
public utility easement and separated from the proposed sanitary sewer main by a minimum of 10
feet horizontally. Fire hydrants will be installed per COB design criteria and will not exceed the
recommended distance.
C. Capacity Analysis
The Icon Homes water main extension is proposed for the multiphase development of 6 buildings.
The proposed project consists of a comprised total of 120-units (10 — 3 Bedroom Units, 64 — 2
Bedroom Units, 46 — 1 Bedroom Units), which sits on a 6.14 acre R-O (Residential — Office
District) zoned land. An estimation of the water flow rate was based on the City of Bozeman's
design standards and specification policy, which suggests using an average daily flow rate of 2.11
people per dwelling unit and 170-gallons per capita per day. Applied to the units in each phase the
required water flow rate is calculated:
Phase II—Full Build out
residents gallons
(120 units * 2.11 * 170 day) = 43,044 gpd
unit capita
Based on these parameters,the phased development will have an estimated water usage of 43,044
gpd (29.89 gpm) at full build out.
In addition to the average daily demand, the water main extension must account for peak periods
of daily use. Peaking factors are applied to the demand and account for these peak periods in daily
use. The peaking factors used are maximum daily use and peak hour and are obtained from the
City of Bozeman Design Standards. Table 1 shows the peaking factors and the resultant flows
from those factors when applied to the average daily demand.
Icon Homes Phase 11 Infrastructure Improvements
Water Design Report
Page 2 of 3
TABLE 1
PEAKING FACTORS
Flow Designation Peaking Factor Flow (gpm)
Average Day Demand 1 29.89
Maximum Day Demand 2.3 68.75
Maximum Hour Demand 3 89.67
Three types of buildings will be constructed and will consist of 4— 12 Plexes, 2—20 Plex and 1 —
32 Plex for a total of 7 individual buildings.
The square footage for each type of building are as follows: 12 Plex= 17,792 sf, 20 Plex=27,773
sf& 32 Plex =44,858 sf. Based off communication with th architect, the units are expected to be
type V-A construction with fire sprinklers. The largest building based of square footages was
choosen for a more conservative analysis. A Type V-A 44,858 sf building requires 1,500 gpm for
a 3-hour flow duration per the 2015 International Fire Code, Table B 105.1(2).
Results
Based on the analysis outlined above, the required minimum fire flow is 1,500 gpm and the
maximum hour demand is 89.67 gpm. The maximum hour demand was distributed throughout
each water service within the subdivision. The attached WaterCAD analysis was designed to
incorporate the maximum hour demand throughout the system.A fire flow analysis was performed
at each node throughout the system where a building has a potential fire flow demand in addition
to all hydrants. The flow analysis shows that an 8-inch DI pipe can provide the development with
the required flow of 1,500 gpm in addition to the peak hour demand and remain above the
minimum pressure of 20 psi. The maximum velocity within the water mains was constrained to 15
ft. per second per City of Bozeman specifications. See attached flow analysis for calculations.
D. Conclusion
Based on this analysis, the proposed 8-inch ductile iron water main extension serving the Icon
Homes Phase II residential office development provides adequate service to meet the 120-unit
peak hour demand and fire flow requirements for the development. The water main design is
consistent with the City of Bozeman Water Facility Plan.
This project will require the approval of the City of Bozeman Engineer and MDEQ.
Icon Homes Phase II Infrastructure Improvements
Water Design Report
Page 3 of 3
Page 1 of 1
Scenario: Automated Fire Flow Analysis
Current Time Step: 0.000 h
Fire Flow Node FlexTable: Fire Flow Report
Fire Flow Fire Flow Flow(Total Flow(Total Pressure Junction w/ Velocity of Pipe w/
Label (Needed) (Available) Needed) Available) (Calculated Minimum Maximum Maximum
(gpm) (gpm) (gpm) (gpm) Residual) Pressure Pipe(ft/s) Velocity
(psi) (Zone)
J-3 1,500 2,260 1,500 2,260 91 J-26 15.00 P-15
J-12 1,500 2,260 1,500 2,260 97 J-35 15.00 P-15
J-5 1,500 2,260 1,500 2,260 87 J-26 15.00 P-15
J-15 1,500 2,260 1,500 2,260 87 J-26 15.00 P-15
J-7 1,500 2,260 1,500 2,260 95 J-26 15.00 P-16
J-16 1,500 2,260 1,500 2,260 100 J-35 15.00 P-16
J-10 1,500 2,260 1,500 2,260 104 J-35 15.00 P-15
J-13 1,500 2,260 1,500 2,260 83 J-34 15.00 P-16
J-18 1.500 2,260 1 1.500 2,260 86 J-34 15.00 P-15
GAACAD\2019\19-113 Icon Apts PH II\dwg\Civil\WaterCad\Icon Apts. Phase II WaterCAD.wtg
file:///C:/Users/Tech7/AppData/Local/Temp/Bentley/WaterCAD/ba5mxzyd.xml 9/9/2020
Scenario: Automated Fire Flow Analysis
w
.n
y
yr
r
d LO
o 4.0
a 6A
U
01W
N
M
SEWER MAIN
DESIGN REPORT
FOR:
ICON HOMES AT FERGUSON FARM
INFRASTRUCTURE I PROVEMENTS
BOZEMAN, MT
O .• CiC►il15 G.
I,--
BUT r
BUD .� Cc
IlL5 Pc ; uJ= 'L
..
e-K;/6
CENS.11
NA+oils
Madison Engineering
895 Technology Blvd Ste 203
Bozeman, MT 59718
(406) 586-0262
OCTOBER 2020
ICON HOMES AT FERGUSON FARM
INFRASTRUCTURE IMPVORMENTS
SEWER SYSTEM DESIGN REPORT
A. General Project Description
This design report will give an overview of the proposed wastewater collection system for the
development of Icon Homes Infrastructure Improvements Phase 1I. The proposed improvements
are located South of West Babcock and West of Resort Drive in Bozeman, MT. The zoning for
the 6.14-acre area is listed as R-O, residential office district. The proposed buildings are
designed as four (4)twelve-plex buildings, two (2)twenty-plex buildings and one (1) thirty-two—
plex building for a total of 7 individual buildings and a total of 120 units in the development. The
infrastructure improvements for development are anticipated to be constructed during the winter
of 2020.
Included in this report is a description of the proposed wastewater collection system and design
parameters. Once the wastewater system is constructed and approved,the system will become a
part of the City of Bozeman(C.O.B.) system. The following references were used in the
wastewater facilities design and capacity analysis:
a. COB Design Standards and Specifications Policy, 2017. Addendum#6
b. COB Modification to Montana Public Works Standard Specifications (MPWSS)
c. City adopted MPWSS and adopted Addenda
d. COB Wastewater Facility Plan, 2017
e. WQB Circular No. 2
f. City of Bozeman Zoning Map
The procedures and parameters outlined in the COB Design Standards and Specifications Guide
were used in the design of the sewer infrastructure for the proposed development.
B. Proposed Sewer System (Capacity Analysis)
The proposed wastewater collection system consists of 381 linear feet of new 8"PVC sewer main
and will provide service to the proposed development. The effluent generated from the proposed
buildings will be collected by the wastewater collection system and ultimately flow West to the
existing COB Manhole located within the current site.
The wastewater demands from the proposed development were estimated based on a flow per
capita basis, which provided a more conservative flow than a per zoned acre basis. (COB Table
V-1 specifies an average daily flow rate of 980 gal/ac-day for R-O zoning, resulting in 6,017 gpd
= 6.14 ac x 980 gal/ac-day).
The proposed sewer main has been sized to flow at no more than 75-percent of full capacity at
peak hour conditions of full build out, and a Manning coefficient of 0.013 was used for PVC pipe.
Icon Homes Phase II Infrastructure Improvements
Wastewater Design Report
Page ] of 3
The average daily flow is based on the number of units, 2.11 residents per unit, and 89 gallons per
capita per day, the latter two values based on COB design standards:
( residents * 89 gallons l _120 units * 2.11 unit capita/day I 22,535 gpd
An approximate population for Icon Homes phase B development at full build out is calculated as:
residents
120 units * 2.11 = 254 persons
unit
This is a more realistic population value compared to utilizing the 5.2 units per acre (Table V-1
from COB design standards) applied to 6.14 acres, which only results in 32 persons.
This equivalent population can be utilized to determine a peaking factor:
(Q _ 18 + P•5 18 +.254.5
71ux _ = 4.11
\QAve 4 + p.5 4 +. 254-`
(P =Population/thousands)
Based on a total population of 254 people, a peaking factor of 4.11 was calculated. The peak flow
rate anticipated from the development based on an average daily flow of 22,535 gallons per day
is:
Peak Flow Rate = (22,535 gpd x 4.11) = 92,619 gpd
= 64 gpm
= 0.14 cfs
Additionally, an infiltration flow of 921 gpd(150 gal/acre/day x 6.14 acres)has been added to the
flow, resulting in a total flow of 93,540 gpd (0.144 cfs).
The sewer main size for the development will be an 8-inch, based on minimum required pipe size
and designed at a 0.45% slope,which is above the city required minimum slope of a 0.40%. An fl-
inch PVC sewer main at 0.40%slope has a capacity of 0.64 cfs at 3/4 pipe depth,which has adequate
capacity for the proposed peak flow of 0.144 cfs effluent generated from the site. Calculations are
included in the end of this report.
C. Proposed Collection System
PVC pipe meeting COB specifications will be used for the sewer mains. The effluent from the
Icon Homes Phase 1I development will drain into a proposed 8-inch diameter sanitary sewer main
via 6-inch sewer services. The effluent in the 8-inch wastewater collection system within the site
will flow to the West to the existing C.O.B. manhole already located within phase 11. The
Icon Homes Phase II Infrastructure Improvements
Wastewater Design Report
Page 2 of 3
maximum manhole spacing will be 400 feet for the 8-inch main. Manholes will be constructed
according to COB specifications. Sewer services will be 6-inch PVC installed at 1% minimum
grade. Sewer services will connect into the main with in-line gasketed wyes. The sewer main will
maintain a minimum separation of 10-feet horizontally and 18-inches vertically from any proposed
or existing public water mains.
D. Downstream Capacity Analysis
The sanitary sewer mains were designed in conformance with the City of Bozeman Wastewater
Improvement Plan. It is anticipated that the City of Bozeman sanitary sewer system has enough
capacity to accommodate the main extension as this was included in the onsite design of the
downstream collection system. A capacity letter from a City Engineer will be required prior to
DEQ approval of the system.
E. Conclusion
As outlined above, a proposed 8-inch sanitary sewer collection system serving the residential
development has the capacity for the effluent generated from the subdivision. The wastewater
sewer collection system was designed on a conservative premise for future development. This
project will require the approval of the City of Bozeman Engineer and MDEQ.
Icon Homes Phase II Infrastructure Improvements
Wastewater Design Report
Page 3 of 3
8-Inch PVC Pipe Capacity__
Project Description
Friction Method Manning Formula
Solve For Discharge
Input Dale
Roughness Coefficient 0.013
Channel Slope 0.40000 %
Normal Depth 5.58 In
Diameter 8.00 in
Results
Discharge 0.64 Wis
Flow Area 0.26 fN
Welled Perimeter 1.32 ft
Hydraulic Radius 2.37 in
Top Width 0.61 ft
Critical Depth 0.36 ft
Percent Full 69.8 % (93%full flow capacity x 75%flow depth)
Critical Slope 0.00748 ftM
Velocity 2.45 ft/s
Velocity Head 0.09 ft
Specific Energy 0.56 fl
Froude Number 0.66
Maximum Discharge 0.82 fN/s
Discharge Full 0.76 fP/s
Slope Full O.D0278 ft/ft
Flow Type SubCrftloaf
GVF Input Data
Downstream Depth 0.01) In
Length 0.00 1t
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 69.76 %
Downstream Velocity Infinity f/s
Bentley Systems,Inc. Neastad Methods 8oletmllipffi evMseter Vill(SELECTaeries 11 [06.11.01.031
4111/2016 0:20:06 AM 27 Slemons Company Drive Sulte 200 W Watertown,CT 09795 USA +1-203-766.1666 Page 1 of 2