HomeMy WebLinkAboutApp. A_Water & Sewer Design Report_2019-12-12
Design Report - Page 2 of 6
INTRODUCTION
The Parklands Subdivision project is a major subdivision that proposes to create 1 multi-household
lot, 9 single-household lots, 1 park, and 1 common open space. For the purpose of this report, the
multi-family lot was assessed at 11 dwelling units to meet the 8 dwelling units per acre net
residential density. Water for domestic use and fire protection will be provided by connections to
the City of Bozeman water system.
PROPOSED WATER LAYOUT AND EXISTING FACILITIES
There is an existing 8” water main in Village Downtown Boulevard running under the north side
of the roadway. The existing 8” main will be live tapped on the north end and the south side of
the project. A new 8” water main will loop down Front Street and between Block 1 and Block 2
before tying in to the existing water main in Village Downtown Boulevard. Two existing
hydrants: #1857 and #1858 will service Block 1 and two additional hydrants will be installed
with this project to service Block 2. One new hydrant is proposed at the intersection of Alley and
Front Street and another is proposed within the Alley. A valve will be located at Front St. and the
Alley intersection which will allow the new hydrants to be isolated.
WATER SYSTEM DESIGN
A WaterCAD analysis is enclosed at the end of the report analyzing the existing 8-inch water main
extension proposed with this project. The connection to the existing system was modeled as a
pump curve using data obtained from the City of Bozeman Water Department. The hydrant data
used was for hydrant #5, located at East Mendenhall Street and North Broadway Avenue. The flow
test was conducted for the original Village Downtown PUD is 2002 and as such is older water
system data. It is assumed that this hydrant flow data is still a reasonable representation of site
conditions. The original pump curve from the Village Downtown PUD water design report was
used at the connectin point to model the existing system. The following equation based off of the
Hazen Williams method is used to generate the pump curve:
Q = Qf x ((Ps - P) / (Ps - Pr))0.54
Where: Q = flow predicted at desired residual pressure, Qf = total flow measured during test, Pr=
Design Report - Page 3 of 6
residual pressure during test, Ps = static pressure and P = residual pressure at the desired flow rate.
Ps = 125 PSI
Pr = 110 PSI
Qf = 1,635 GPM
In the model, the pump is connected to a reservoir which acts as a source of water. The elevation
of the reservoir is fixed at the elevation of the pump, which is also equivalent to the elevation of
the tie-in point. The reservoir does not create any head on the system; the head is generated entirely
by the pumps. The input data and the pump curves are included at the end of the report. The pump
curve table includes all calculations and equations used in determining flow characteristics at the
connection point. A C-factor of 130 and 80 were chosen for ductile iron pipe and cast iron pipe,
respectively. The C-factor of 80 was chosen for cast iron due to its age. Cast iron pipe typically
has a higher friction loss than ductile iron, especially with older pipe.
DEMAND FORECASTING
A water distribution model was created using WaterCAD Version 10.01.00.72 for demand
forecasting and describing domestic and fire protection requirements. In order to model the system,
each junction node of the water distribution system was assessed a demand based on its service
area. The table shown below quantifies the demands placed at the junction nodes and calculates
the demands for Average Day, Maximum Day and Peak Hour within the subdivision. The peaking
factor for each case is 1, 2.3 and 3.0 respectively.
Residential Units:
Average Daily Residential Usage = 170 gallons per capita per day
Average Population Density = 2.11 persons/dwelling unit
Minimum Fire Hydrant Flow = 1,500 gpm
Residual Pressure Required = 20 psi for Fire Flow
Average Day Demand (Peaking Factor = 1)
Maximum Day Demand (Peaking Factor = 2.3)
Maximum Hour Demand (Peaking Factor = 3.0)
Design Report - Page 4 of 6
Residential Water Demands (Junction 57 – Lot 1, Block 1 and Lots 1-9, Block 2)
Average Day Demand = 20 d.u. x 2.11 persons/d.u. x 170 gpcpd = 7,174 gpd = 4.98 gpm
Maximum Day Demand = 5.0 gpm x 2.3 = 11.45 gpm
Peak Hour Demand = 5.0 gpm x 3.0 = 14.94 gpm
Parklands Demand Summary (average day, max day and peak hour):
DEMAND JUNCTION
NODE
DWELLING UNITS
(D.U.)
POPULATION
(RES.) 2.11 PEOPLE PER
D.U.
AVERAGE DAY GPM (170
GALLONS PER DAY PER
PERSON)
MAX. DAY
GPM
PEAK HOUR
GPM
J-57 20 42 5.0 11.5 14.9
Total 20 42 5.0 11.5 14.9
CONCLUSIONS
The 8-inch DIP water main does provide adequate capacity with regards to the Peak Hour
Demands. The flows and pressures within the system for the Peak Hour Demands were generated
with the WaterCAD program and can be found at the end of the report.
The capacity of the system to meet fire flow requirements was tested by running a steady state fire
flow analysis for all junctions at fire hydrant locations. The model shows that existing water system
will satisfy fire flow constraints (residual pressure > 20 psi, flow rate > 1500 gpm), while providing
service to the buildings at peak hour. The results of the analysis at peak hourly flow are given at
the end of the report.
SEWER SYSTEM
An existing 12” asbestos cement sewer main runs from north to south through the proposed
Parklands Subdivision. This existing gravity interceptor line is referred to as the Front Street
Interceptor in the 2015 Wastewater Facility plan and is indicated as a near-term improvement. This
sanitary sewer main will be relocated with this project and the main will be upgraded to a 21” PVC
SDR 35 main. The new main size was determined based on the City of Bozeman Capital
Improvements Plan recommended upgrades to the existing system. The existing 12” asbestos
Design Report - Page 5 of 6
cement main will be replaced downstream of existing manhole D0419 installed with SID 425. At
this location, a new 60” sanitary sewer manhole will be installed and the new gravity main will
run northeast to future Front Street. From here, the main will head northwest through the future
Front Street right-of-way and tie back in to the existing sanitary sewer manhole D0421 installed
with SID 425 north of Village Downtown Boulevard.
DESIGN REQUIREMENTS
The flow rates used herein are according to Shawn Kohtz of the City of Bozeman Engineering
Department. He has stated that the City Design Standards and Specifications Policy will be updated
to change the standard from 89 gpcd with an occupancy of 2.11 people per unit to 65 gpcd with an
occupancy of 2.17 people per unit. The peaking factor for the design area is determined by figuring
the equivalent population and inserting the population into the Harmon Formula.
Using the city average of 2.17 persons per household, the equivalent is calculated.
Sewer Flows from Parklands Subdivision:
Equivalent Population = (2.17 persons/dwelling unit)(20 units) = 43.40 persons
Harmon Formula: Peaking Factor = (18 + P0.5)/(4 + P0.5)
where: P = Population in thousands
Peaking Factor = (18 + 0.049910.5)/(4 + 0.049910.5)
Peaking Factor = 4.33
Assumed infiltration rate = 150 gallons/acre/day = 150 (11.84 acres) = 1776 gal/day
The peak flow rate is calculated by multiplying the City's design generation rate of 65 gallons per
capita per day by the population, multiplying by the peaking factor, and adding the infiltration rate:
Peak Flow Rate = 65 gpcpd (43.40 persons) (4.33) + 1776 gpd= 13990.93 gpd
= 9.72 gpm
(0.0217 cfs)
The capacity of a 21-inch main is checked using Manning’s Equation:
Design Report - Page 6 of 6
Qfull = (1.486/n)AR2/3S1/2
For the 21-inch main:
Manning's n = 0.013 for PVC Pipe
Minimum Slope = 0.004 ft/ft
A = area = (3.14/4)d 2 = (3.14/4)(21/12)2 = 2.404 ft2
P = perimeter = 2(3.14)r = 2(3.14)(10.5/12) = 5.495 ft
R = hydraulic radius = A/P = 2.404/5.495 = 0.4375 ft
R2/3 = 0.5763 ft
S = 0.004 ft/ft
S1/2 = 0.0632 ft/ft
Qfull = (1.486/0.013)(2.404)(0.5763)(0.0632) = 10.01 cfs
The 2015 Wastewater Facility plan indicates that the existing Front Street Interceptor in the project
vicinity is flowing at 50-75% of maximum depth. The current flow rate in the existing 12” asbestos
cement main at this depth is calculated below from the online Haws-EDC calculator:
Based on these calculations, the 21-inch sewer line is more than adequate to carry the additional
design flows created by this subdivision.
Scenario Summary Report
Scenario: Base
Scenario Summary
1ID
BaseLabel
Notes
Base Active TopologyActive Topology
Base PhysicalPhysical
Base DemandDemand
Base Initial SettingsInitial Settings
Base OperationalOperational
Base AgeAge
Base ConstituentConstituent
Base TraceTrace
Base Fire FlowFire Flow
Base Energy CostEnergy Cost
Base TransientTransient
Base Pressure Dependent DemandPressure Dependent Demand
Base Failure HistoryFailure History
Base SCADASCADA
Base User Data ExtensionsUser Data Extensions
Base Calculation OptionsSteady State/EPS Solver Calculation
Options
Base Calculation OptionsTransient Solver Calculation Options
Hydraulic Summary
Steady StateTime Analysis Type TrueUse simple controls during
steady state?
Hazen-WilliamsFriction Method FalseIs EPS Snapshot?
0.001Accuracy 12:00:00 AMStart Time
40Trials Fire FlowCalculation Type
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Scenario: Base
P-70P-69
P-88P-79P-82P-91P-76P-80
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FlexTable: Pipe Table
Headloss
Gradient
(ft/ft)
Hydraulic
Grade (Stop)
(ft)
Hydraulic
Grade
(Start)
(ft)
Velocity
(ft/s)
Flow
(gpm)
Minor Loss
Coefficient
(Derived)
Has
Check
Valve?
Hazen-Williams
C
MaterialDiameter
(in)
Length
(User
Defined)
(ft)
Label
0.0005,099.455,099.450.0001.870False80.0Cast iron6.0334P-52
0.0005,099.455,099.450.0000.740False80.0Cast iron6.0433P-53
0.0005,099.455,099.450.0002.470False80.0Cast iron6.026P-54
0.0005,099.455,099.450.0001.480False80.0Cast iron6.0265P-55
0.0005,099.455,099.450.0002.270False80.0Cast iron10.0394P-58
0.0005,099.435,099.430.0351.670False130.0Ductile
Iron8.0201P-69
0.0005,099.435,099.430.01-10.740False130.0DuctileIron8.0419P-70
0.0005,099.435,099.430.01-10.800False130.0Ductile
Iron8.010P-72
0.0005,099.435,099.430.01-10.740False130.0DuctileIron8.0260P-73
0.0005,099.435,099.430.0001.280False130.0DuctileIron8.0112P-74
0.0005,099.435,099.430.0000.000False130.0Ductile
Iron6.00P-75
0.0005,099.435,099.430.0230.350False130.0DuctileIron8.0300P-76
0.0005,099.435,099.430.0231.280False130.0Ductile
Iron8.0143P-77
0.0005,099.435,099.430.12190.350False130.0DuctileIron8.065P-79
0.0005,099.435,099.430.0001.940False130.0DuctileIron6.010P-80
0.0005,099.435,099.430.0000.000False130.0Ductile
Iron6.010P-81
0.0005,099.435,099.430.0000.000False130.0DuctileIron6.015P-82
0.0005,099.435,099.450.12192.720False130.0Ductile
Iron8.01,365P-84
0.0005,099.455,099.450.0000.740False130.0DuctileIron8.0741P-85
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FlexTable: Pipe Table
Headloss
Gradient
(ft/ft)
Hydraulic
Grade (Stop)
(ft)
Hydraulic
Grade
(Start)
(ft)
Velocity
(ft/s)
Flow
(gpm)
Minor Loss
Coefficient
(Derived)
Has
Check
Valve?
Hazen-Williams
C
MaterialDiameter
(in)
Length
(User
Defined)
(ft)
Label
0.0005,099.455,099.450.0002.470False80.0Cast iron6.034P-86
0.0004,827.004,827.000.0000.000False130.0DuctileIron99.01P-87
0.0005,099.455,099.450.0000.000True130.0DuctileIron99.01P-88
0.0005,099.455,099.450.0002.270False80.0Cast iron6.0658P-89
0.0004,811.004,811.000.00190.000False130.0DuctileIron99.01P-90
0.0005,099.455,099.450.00190.000True130.0Ductile
Iron99.01P-91
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FlexTable: Junction Table
Pressure
(psi)
Hydraulic Grade
(ft)
Demand
(gpm)
Demand CollectionZoneElevation
(ft)
LabelID
1155,099.450<Collection: 0 items><None>4,833.00BUTTONWOOD
AVE145
1155,099.450<Collection: 0 items><None>4,833.00E. MAIN147
1415,099.430<Collection: 0 items><None>4,773.00HYD 1187
1425,099.430<Collection: 0 items><None>4,771.00HYD 2199
1255,099.450<Collection: 0 items><None>4,811.00HYD5MENDENHALL
AND BROADWAY201
1185,099.450<Collection: 0 items><None>4,827.00HYD211143
1185,099.450<Collection: 0 items><None>4,827.00HYD234139
1385,099.430<Collection: 0 items><None>4,781.00HYD1857195
1415,099.430<Collection: 0 items><None>4,774.00HYD1858197
1265,099.450<Collection: 0 items><None>4,808.00J-46156
1415,099.432<Collection: 1 items><None>4,774.00J-54171
1375,099.4311<Collection: 1 items><None>4,783.00J-55174
1415,099.436<Collection: 1 items><None>4,773.00J-56177
1425,099.430<Collection: 0 items><None>4,771.00J-57179
1425,099.430<Collection: 0 items><None>4,771.00J-58182
1415,099.430<Collection: 0 items><None>4,773.00J-59185
1415,099.430<Collection: 0 items><None>4,774.00J-61189
1385,099.430<Collection: 0 items><None>4,781.00J-62192
1255,099.450<Collection: 0 items><None>4,811.00J-67204
1255,099.450<Collection: 0 items><None>4,811.00NORTH
BROADWAY149
1245,099.450<Collection: 0 items><None>4,812.00S. WALLACE AVE154
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FlexTable: Pump Table
Pump Head
(ft)
Flow (Total)
(gpm)
Hydraulic Grade
(Discharge)
(ft)
Hydraulic Grade
(Suction)
(ft)
Status (Initial)Pump DefinitionElevation
(ft)
LabelID
0.0005,099.454,827.00OffHydrant 2344,827.00PMP-3207
288.45195,099.454,811.00OnHydrant 54,811.00PMP-4218
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Pump Definition Detailed Report: Hydrant 5
Element Details
221ID Notes
Hydrant 5Label
Pump Curve
Head
(ft)
Flow
(gpm)
288.460
276.92903
230.772,154
184.622,959
138.463,609
92.314,172
46.154,676
0.005,138
Pump Efficiency Type
Constant
EfficiencyPump Efficiency Type %100.0Motor Efficiency
%100.0Constant Efficiency FalseIs Variable Speed Drive?
Transient (Physical)
lb·ft²0.000Inertia (Pump and Motor)SI=25,US=1280Specific Speed
rpm0Speed (Full)TrueReverse Spin Allowed?
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Pump Definition Detailed Report: Hydrant 5
Graph
Head(ft)300.00
275.00
250.00
225.00
200.00
175.00
150.00
125.00
100.00
75.00
50.00
25.00
0.00 PumpEfficiency(%)110.0
100.0
90.0
80.0
70.0
60.0
50.0
40.0
30.0
20.0
10.0
0.0
Flow (gpm)
5,0004,5004,0003,5003,0002,5002,0001,5001,0005000
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Fire Flow Node FlexTable: Fire Flow Report
Junction w/ Minimum Pressure
(System)
Pressure
(Calculated
System
Lower Limit)(psi)
Pressure
(Calculated
Residual)
(psi)
Pressure
(Residual
Lower
Limit)(psi)
Flow (Total
Available)
(gpm)
Flow (Total
Needed)
(gpm)
Fire Flow
(Available)
(gpm)
Fire Flow
(Needed)
(gpm)
Label
(N/A)(N/A)(N/A)20(N/A)(N/A)(N/A)1,500HYD234
(N/A)(N/A)(N/A)20(N/A)(N/A)(N/A)1,500HYD211
(N/A)(N/A)(N/A)20(N/A)(N/A)(N/A)1,500BUTTONWOODAVE
(N/A)(N/A)(N/A)20(N/A)(N/A)(N/A)1,500E. MAIN
(N/A)(N/A)(N/A)20(N/A)(N/A)(N/A)1,500NORTHBROADWAY
(N/A)(N/A)(N/A)20(N/A)(N/A)(N/A)1,500S. WALLACE
AVE
(N/A)(N/A)(N/A)20(N/A)(N/A)(N/A)1,500J-46
(N/A)(N/A)(N/A)20(N/A)(N/A)(N/A)1,500J-54
(N/A)(N/A)(N/A)20(N/A)(N/A)(N/A)1,500J-55
(N/A)(N/A)(N/A)20(N/A)(N/A)(N/A)1,500J-56
(N/A)(N/A)(N/A)20(N/A)(N/A)(N/A)1,500J-57
(N/A)(N/A)(N/A)20(N/A)(N/A)(N/A)1,500J-58
(N/A)(N/A)(N/A)20(N/A)(N/A)(N/A)1,500J-59
J-593320202,4301,5002,4301,500HYD 1
(N/A)(N/A)(N/A)20(N/A)(N/A)(N/A)1,500J-61
(N/A)(N/A)(N/A)20(N/A)(N/A)(N/A)1,500J-62
J-553220202,5941,5002,5941,500HYD1857
J-613220202,5091,5002,5091,500HYD1858
J-583320202,4851,5002,4851,500HYD 2
(N/A)(N/A)(N/A)20(N/A)(N/A)(N/A)1,500
HYD5MENDENHALLANDBROADWAY
(N/A)(N/A)(N/A)20(N/A)(N/A)(N/A)1,500J-67
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