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HomeMy WebLinkAboutApp. A. - Water Design Report 09-24-2019 WATER DESIGN REPORT NORTON EAST RANCH SUBDIVISION PHASE 5 Prepared for: Norton Properties, LLC. 63026 Lower Meadow Drive #200, Bend, OR 97701-5877 Prepared by: Project Number: 161141 April 2018 INTRODUCTION Phase 5 of Norton East Ranch Subdivision proposes to develop the existing R2 and R3 zoned portions of the existing property into 124 single household lots and 17 affordable housing lots. Blocks 14–25 will be completed with this subdivision. The remainder lot will be further subdivided in a future subdivision phase. Table 1 was put together for this water design report this figure summarizes the proposed dwelling units and projected average, max day and peak water demand. This project is located in the City of Bozeman’s Sourdough Pressure Zone. WATER SYSTEM LAYOUT Phase 5 of Norton East Ranch Subdivision will extend the existing 8” class 51 ductile iron water main installed in South El Dorado Avenue with Norton East Ranch Phase 3B and will tap into the existing 8” water main running along West Babcock Street for the 8” mains along Westgate Avenue, South Reliance Avenue, and Gooseberry Drive. All new water mains are to be installed in the City standard location for local streets. The water main installed in Laurel Parkway will be a 12” class 51 ductile iron water main. All water mains will be looped and blowoffs will be installed at each dead-end location. A WaterCAD analysis is enclosed at the end of the report analyzing the 8-inch water main extension installed 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: static, residual and pitot pressures were read at hydrant #2671, located at the intersection of Laurel Parkway and May Fly Street. The flow test was conducted on October 17, 2017. This data was used to develop the pump curve used at the connection 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= residual pressure during test, Ps = static pressure and P = residual pressure at the desired flow rate. 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 was chosen for ductile iron class 51 pipe. WATER DISTRIBUTION SYSTEM SIZING 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) Residential Water Demands (Demand Junction 1) Average Day Demand = 8 d.u. x 2.11 persons/d.u. x 170 gpcpd = 2,870 gpd = 2.0 gpm Maximum Day Demand = 2.0 gpm x 2.3 = 4.6 gpm Peak Hour Demand = 2.0 gpm x 3.0 = 6 gpm Residential Water Demands (Demand Junction 2) Average Day Demand = 12 d.u. x 2.11 persons/d.u. x 170 gpcpd = 4,304 gpd = 3.0 gpm Maximum Day Demand = 3.0 gpm x 2.3 = 6.9 gpm Peak Hour Demand = 3.0 gpm x 3.0 = 9.0 gpm Residential Office Water Demands (Demand Junction 3) Average Day Demand = 6 d.u. x 2.11 persons/d.u. x 170 gpcpd = 2,152 gpd = 1.5 gpm Maximum Day Demand = 1.5 gpm x 2.3 = 3.4 gpm Peak Hour Demand = 1.5 gpm x 3.0 = 4.5 gpm Residential Office Water Demands (Demand Junction 4) Average Day Demand = 7 d.u. x 2.11 persons/d.u. x 170 gpcpd = 2,511 gpd = 1.7 gpm Maximum Day Demand = 1.7 gpm x 2.3 = 4.0 gpm Peak Hour Demand = 1.7 gpm x 3.0 = 5.2 gpm Residential Office Water Demands (Demand Junction 5) Average Day Demand = 12 d.u. x 2.11 persons/d.u. x 170 gpcpd = 4,304 gpd = 3.0 gpm Maximum Day Demand = 3.0 gpm x 2.3 = 6.9 gpm Peak Hour Demand = 3.0 gpm x 3.0 = 9.0 gpm Residential Office Water Demands (Demand Junction 6) Average Day Demand = 4 d.u. x 2.11 persons/d.u. x 170 gpcpd = 1,435 gpd = 1.0 gpm Maximum Day Demand = 1.0 gpm x 2.3 = 2.3 gpm Peak Hour Demand = 1.0 gpm x 3.0 = 3.0 gpm Residential Office Water Demands (Demand Junction 7) Average Day Demand = 19 d.u. x 2.11 persons/d.u. x 170 gpcpd = 6,815 gpd = 4.7 gpm Maximum Day Demand = 4.7 gpm x 2.3 = 10.9 gpm Peak Hour Demand = 4.7 gpm x 3.0 = 14.2 gpm Residential Office Water Demands (Demand Junction 8) Average Day Demand = 5 d.u. x 2.11 persons/d.u. x 170 gpcpd = 1,794 gpd = 1.2 gpm Maximum Day Demand = 1.2 gpm x 2.3 = 2.9 gpm Peak Hour Demand = 1.2 gpm x 3.0 = 3.7 gpm Residential Office Water Demands (Demand Junction 9) Average Day Demand = 4 d.u. x 2.11 persons/d.u. x 170 gpcpd = 1,435 gpd = 1.0 gpm Maximum Day Demand = 1.0 gpm x 2.3 = 2.3 gpm Peak Hour Demand = 1.0 gpm x 3.0 = 3.0 gpm Residential Office Water Demands (Demand Junction 10) Average Day Demand = 19 d.u. x 2.11 persons/d.u. x 170 gpcpd = 6,815 gpd = 4.7 gpm Maximum Day Demand = 4.7 gpm x 2.3 = 10.9 gpm Peak Hour Demand = 4.7 gpm x 3.0 = 14.2 gpm Residential Office Water Demands (Demand Junction 11) Average Day Demand = 3 d.u. x 2.11 persons/d.u. x 170 gpcpd = 1,076 gpd = 0.7 gpm Maximum Day Demand = 0.7 gpm x 2.3 = 1.7 gpm Peak Hour Demand = 0.7 gpm x 3.0 = 2.2 gpm Residential Office Water Demands (Demand Junction 12) Average Day Demand = 14 d.u. x 2.11 persons/d.u. x 170 gpcpd = 5,022 gpd = 3.5 gpm Maximum Day Demand = 3.5 gpm x 2.3 = 8.0 gpm Peak Hour Demand = 3.5 gpm x 3.0 = 10.5 gpm Residential Office Water Demands (Demand Junction 13) Average Day Demand = 18 d.u. x 2.11 persons/d.u. x 170 gpcpd = 6,457 gpd = 4.5 gpm Maximum Day Demand = 4.5 gpm x 2.3 = 10.3 gpm Peak Hour Demand = 4.5 gpm x 3.0 = 13.5 gpm Residential Office Water Demands (Demand Junction 14) Average Day Demand = 10 d.u. x 2.11 persons/d.u. x 170 gpcpd = 3,587 gpd = 2.5 gpm Maximum Day Demand = 2.5 gpm x 2.3 = 5.7 gpm Peak Hour Demand = 2.5 gpm x 3.0 = 7.5 gpm Available Pressure: 8-inch class 51 ductile iron main May Fly Street and Laurel Parkway Static = 70 psi (Hydrant #2671) Residual = 62 psi (Hydrant #2671) Pitot (2.5” nozzle) = 52 (Hydrant #2671) Flowing = 1,210 gpm (Hydrant #2671) HYDRAULIC ANALYSIS 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. Norton East Ranch Phase 5 (Table 1): 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 DJ 1 8 17 2.0 4.6 6.0 DJ 2 12 25 3.0 6.9 9.0 DJ 3 6 13 1.5 3.4 4.5 DJ 4 7 15 1.7 4.0 5.2 DJ 5 12 25 3.0 6.9 9.0 DJ 6 4 8 1.0 2.3 3.0 DJ 7 19 40 4.7 10.9 14.2 DJ 8 5 11 1.2 2.9 3.7 DJ 9 4 8 1.0 2.3 3.0 DJ 10 19 40 4.7 10.9 14.2 DJ 11 3 6 0.7 1.7 2.2 DJ 12 14 30 3.5 8.0 10.5 DJ 13 18 38 4.5 10.3 13.5 DJ 14 10 21 2.5 5.7 7.5 Total 141 298 35.12 80.78 105.37 *See Demand Junction Map for more information on which lots contribute to each Demand Junction. CONCLUSION The 8-inch class 51 ductile iron 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 the new hydrant junction satisfies fire flow constraints (residual pressure > 20 psi, flow rate > 1500 gpm), while providing service to the proposed lots at peak hour. The results of the analysis at peak hourly flow are given at the end of the report. 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 Page 1 of 227 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 3/9/2018 WaterCAD CONNECT Edition Update 1 [10.01.00.72] Bentley Systems, Inc. Haestad Methods Solution CenterNorton Phase 5 WaterCAD Model.wtg Pump Definition Detailed Report: HYD 2671 Element Details 33ID Notes HYD 2671Label Pump Curve Head(ft)Flow(gpm) 161.540 150.00939 138.461,365 126.921,699 115.381,985 103.852,239 92.312,470 80.772,685 69.232,886 57.693,075 46.153,255 34.623,427 23.083,592 11.543,751 0.003,904 Pump Efficiency Type Best Efficiency Point Pump Efficiency Type %100.0Motor Efficiency %100.0BEP Efficiency FalseIs Variable Speed Drive? gpm0BEP Flow Transient (Physical) lb·ft²0.000Inertia (Pump and Motor)SI=25, US=1280Specific Speed rpm0Speed (Full)TrueReverse Spin Allowed? Page 1 of 227 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 3/9/2018 WaterCAD CONNECT Edition Update 1 [10.01.00.72] Bentley Systems, Inc. Haestad Methods Solution CenterNorton Phase 5 WaterCAD Model.wtg Pump Definition Detailed Report: HYD 2671 Page 2 of 227 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 3/9/2018 WaterCAD CONNECT Edition Update 1 [10.01.00.72] Bentley Systems, Inc. Haestad Methods Solution CenterNorton Phase 5 WaterCAD Model.wtg Scenario: Base P-1P-7P-16P-19P-23P-24P-27P-29P-34P-35P-36P-37P-38P-39P-40P-41P-42P-43P-46P-47P-51P-52P-53P-54P-58P-61P-62 P-63Page 1 of 127 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-16663/9/2018 WaterCAD CONNECT Edition Update 1[10.01.00.72]Bentley Systems, Inc. Haestad Methods Solution CenterNorton Phase 5 WaterCAD Model.wtg FlexTable: Pipe Table Headloss Gradient (ft/ft) Hydraulic Grade (Stop) (ft) Hydraulic Grade (Start) (ft) Velocity (ft/s) Flow (gpm) Minor Loss Coefficient (Unified) Hazen-Williams C MaterialDiameter (in) Length (User Defined) (ft) Label 0.000107.62107.620.001060.000150.0PVC999.01P-1 0.000268.65268.960.671062.870130.0Ductile Iron8.01,000P-2 0.000268.63268.650.34530.000130.0Ductile Iron8.0266P-3 0.000268.63268.630.19300.000130.0Ductile Iron8.0254P-4 0.000268.62268.630.08130.000130.0Ductile Iron8.0264P-5 0.000268.62268.630.11172.950130.0Ductile Iron8.039P-7 0.000268.62268.620.0000.000130.0Ductile Iron6.014P-8 0.000268.62268.620.0000.000130.0Ductile Iron6.014P-11 0.000268.62268.620.02-22.060130.0Ductile Iron8.0115P-14 0.000268.62268.620.02-20.390130.0Ductile Iron8.0229P-15 0.000268.62268.620.0000.000130.0Ductile Iron6.015P-16 0.000268.62268.620.0000.000130.0Ductile Iron6.010P-19 0.000268.62268.620.0342.060130.0Ductile Iron8.0276P-20 0.000268.62268.620.07121.720130.0Ductile Iron8.0385P-23 0.000268.62268.620.0230.390130.0Ductile Iron8.046P-24 0.000268.62268.620.0000.000130.0Ductile Iron6.014P-26 0.000268.62268.620.0242.450130.0Ductile Iron8.0369P-27 0.000268.62268.620.0121.670130.0Ductile Iron8.041P-28 0.000268.62268.620.0000.000130.0Ductile Iron6.014P-29 0.000268.62268.620.07-111.670130.0Ductile Iron8.041P-32 0.000268.62268.620.07-110.390130.0Ductile Iron8.0212P-33 0.000268.62268.620.0000.000130.0Ductile Iron6.015P-34 0.000268.62268.620.08131.530130.0Ductile Iron8.0506P-35 0.000268.62268.620.11171.670130.0Ductile Iron8.0295P-36 0.000268.62268.620.0581.190130.0Ductile Iron8.0209P-37 0.000268.62268.620.06-92.430130.0Ductile Iron8.0469P-38 0.000268.62268.630.15232.860130.0Ductile Iron8.0542P-39 0.000268.65268.650.34522.950130.0Ductile Iron8.039P-40 0.000268.64268.650.34521.670130.0Ductile Iron8.088P-41 0.000268.63268.640.19292.060130.0Ductile Iron8.0180P-42 0.000268.62268.630.16261.190130.0Ductile Iron8.0236P-43 0.000268.65268.650.0000.000130.0Ductile Iron6.014P-44 Page 1 of 227 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 3/9/2018 WaterCAD CONNECT Edition Update 1 [10.01.00.72]Bentley Systems, Inc. Haestad Methods Solution CenterNorton Phase 5 WaterCAD Model.wtg FlexTable: Pipe Table Headloss Gradient (ft/ft) Hydraulic Grade (Stop) (ft) Hydraulic Grade (Start) (ft) Velocity (ft/s) Flow (gpm) Minor Loss Coefficient (Unified) Hazen-Williams C MaterialDiameter (in) Length (User Defined) (ft) Label 0.000268.63268.630.0000.000130.0Ductile Iron6.014P-45 0.000268.62268.620.08121.720130.0Ductile Iron8.0610P-46 0.000268.62268.620.01-20.390130.0Ductile Iron8.041P-47 0.000268.62268.620.0121.670130.0Ductile Iron8.0213P-48 0.000268.62268.620.09-141.670130.0Ductile Iron8.041P-49 0.000268.62268.620.09-140.390130.0Ductile Iron8.0224P-50 0.000268.62268.620.0000.000130.0Ductile Iron6.015P-51 0.000268.62268.620.12181.670130.0Ductile Iron8.030P-52 0.000268.62268.620.12181.720130.0Ductile Iron8.0283P-53 0.000268.62268.620.07111.430130.0Ductile Iron8.0321P-54 0.000268.62268.620.0002.940130.0Ductile Iron8.0340P-55 0.000268.62268.620.0000.000130.0Ductile Iron6.014P-56 0.000268.62268.620.0000.000130.0Ductile Iron6.014P-57 0.000268.62268.620.0000.000130.0Ductile Iron6.014P-58 0.000268.63268.620.06-102.450130.0Ductile Iron8.0277P-59 0.000268.63268.630.0001.100130.0Ductile Iron12.0867P-61 0.000268.63268.630.0000.000130.0Ductile Iron6.00P-62 0.000268.63268.640.15232.330130.0Ductile Iron8.0560P-63 0.000268.62268.620.0000.000130.0Ductile Iron6.015P-64 Page 2 of 227 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 3/9/2018 WaterCAD CONNECT Edition Update 1 [10.01.00.72]Bentley Systems, Inc. Haestad Methods Solution CenterNorton Phase 5 WaterCAD Model.wtg Fire Flow Node FlexTable: Fire Flow Report Junction w/ Minimum Pressure (System) Pressure (Calculated Zone Lower Limit) (psi) Pressure (Zone 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 J-621020201,8241,5001,8241,500HYD 1 DJ 221020201,8411,5001,8411,500HYD 2 J-420020201,8641,5001,8641,500HYD 3 J-420020201,8841,5001,8841,500HYD 4 J-420020201,8891,5001,8891,500HYD 5 J-419020201,8951,5001,8951,500HYD 6 J-420020201,9061,5001,9061,500HYD 7 J-420020201,9001,5001,9001,500HYD 8 J-419020201,9111,5001,9111,500HYD 9 J-3421020201,8701,5001,8701,500HYD 10 DJ 821020201,8591,5001,8591,500HYD 11 J-421020201,8831,5001,8831,500HYD 12 DJ 1421020201,8651,5001,8651,500HYD 13 J-421020201,8751,5001,8751,500HYD 14 DJ 1322020201,8521,5001,8521,500HYD 15 Page 1 of 127 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 3/9/2018 WaterCAD CONNECT Edition Update 1 [10.01.00.72]Bentley Systems, Inc. Haestad Methods Solution CenterNorton Phase 5 WaterCAD Model.wtg FlexTable: Junction Table Pressure (psi) Hydraulic Grade (ft) Demand (gpm) Demand CollectionElevation (ft) Label 78268.626<Collection: 1 items>87.57DJ 1 77268.629<Collection: 1 items>90.16DJ 2 78268.625<Collection: 1 items>88.09DJ 3 81268.625<Collection: 1 items>81.76DJ 4 80268.629<Collection: 1 items>82.94DJ 5 81268.623<Collection: 1 items>82.27DJ 6 78268.6214<Collection: 1 items>87.58DJ 7 76268.634<Collection: 1 items>92.23DJ 8 78268.623<Collection: 1 items>88.85DJ 9 81268.6214<Collection: 1 items>80.87DJ 10 82268.622<Collection: 1 items>79.09DJ 11 81268.6211<Collection: 1 items>81.63DJ 12 78268.6314<Collection: 1 items>88.79DJ 13 80268.627<Collection: 1 items>84.47DJ 14 76268.620<Collection: 0 items>93.36HYD 1 77268.620<Collection: 0 items>90.16HYD 2 78268.620<Collection: 0 items>87.32HYD 3 81268.620<Collection: 0 items>81.76HYD 4 78268.620<Collection: 0 items>87.58HYD 5 80268.620<Collection: 0 items>82.94HYD 6 82268.620<Collection: 0 items>79.16HYD 7 78268.620<Collection: 0 items>87.73HYD 8 81268.620<Collection: 0 items>80.87HYD 9 74268.650<Collection: 0 items>97.22HYD 10 76268.630<Collection: 0 items>92.23HYD 11 78268.620<Collection: 0 items>88.35HYD 12 80268.620<Collection: 0 items>84.47HYD 13 81268.620<Collection: 0 items>81.63HYD 14 78268.630<Collection: 0 items>88.79HYD 15 74268.650<Collection: 0 items>97.17J-1 75268.630<Collection: 0 items>95.39J-2 76268.630<Collection: 0 items>93.70J-3 75268.620<Collection: 0 items>94.71J-4 76268.620<Collection: 0 items>93.36J-6 78268.620<Collection: 0 items>87.32J-15 82268.620<Collection: 0 items>79.16J-26 78268.620<Collection: 0 items>87.58J-30 74268.650<Collection: 0 items>97.22J-34 75268.640<Collection: 0 items>94.93J-35 81268.620<Collection: 0 items>80.64J-41 78268.620<Collection: 0 items>87.73J-42 78268.620<Collection: 0 items>88.35J-44 81268.630<Collection: 0 items>82.52J-51 Page 1 of 127 Siemon Company Drive Suite 200 W Watertown, CT 06795 USA +1-203-755-1666 3/9/2018 WaterCAD CONNECT Edition Update 1 [10.01.00.72] Bentley Systems, Inc. Haestad Methods Solution CenterNorton Phase 5 WaterCAD Model.wtg