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Home My WebLink AboutCT 11-04; Quarry Creek; Water Systems Analysis; 2015-03-30DEXTER WILSON ENGINEERING, INC. WATER • WASTEWATER • RECYCLED WATER CONSULTING ENGINEERS 2234 FARADAY AVENUE • CARLSBAD, CA 92008 • (760) 438-4422 WATER SYSTEM ANALYSIS FOR QUARRY CREEK CT 11-04 March 30, 2015 Prepared by: Dexter Wilson Engineering, Inc. 2234 Faraday Avenue Carlsbad, CA 92008 (760) 438-4422 Job No.: 691-010 RECEIVED APR 0 9 2015 LAND DEVELOPMENT ENGINEERING TABLE OF CONTENTS PAGE NO. Introduction 1 Water Service Design criteria 3 Project Water Demand 3 Existing Water System 4 580 Zone 6 446 Zone 6 Proposed Water System 6 Hydraulic Analysis 8 Recycled Water 9 Conclusions 9 APPENDIX A COMPUTER MODELING OUTPUT LIST OF TABLES PAGE NO. TABLE 1 QUARRY CREEK PROJECTED WATER DEMAND 3 Ul LIST OF FIGURES PAGE NO. FIGURE 1 FIGURE 2 FIGURE 3 FIGURE 4 LOCATION MAP 2 EXISTING WATER FACILITIES 5 PROPOSED WATER SYSTEM LAYOUT 7 PROPOSED ONSITE RECYCLED WATER FACILITIES 10 IV DEXTER WILSON ENGINEERING, INC. DEXTER S. WILSON, P.E. ANDREW M. OVEN, P.E. STEPHEN M. NIELSEN, P.E. NATALIE J. FRASCHETTI, P.E. March 30, 2015 691-010 McMillin Land Development 2750 Womble Road San Diego, CA 92106 Attention: Don Mitchell, Senior Vice President Subject: Quarry Creek Water System Analysis Introduction This letter-report summarizes our evaluation of the water system that will serve the proposed Quarry Creek project. The project is located along the south side of Freeway 78, just west of College Boulevard. Figure 1 provides a location map for the project. The proposed land use for the project includes mixed density residential homes with a maximum of 636 units, public use areas, and open space areas. The project area is within the Carlsbad Municipal Water District for water service. This study provides recommendations for public lines within the site, but does not evaluate water service laterals or meter sizing for non-residential sites. 2234 FARADAY AVENUE • CARLSBAD, CA 92008 • (760)438-4422 • FAX (760) 438-0173 o >-< o >-< CM o I CN T CO o o q T LU 0^ O LL O O a> CD o o o < Q_ HIGHWAY 78 FIGURE 1 LOCATION MAP QUARRY CREEK Water Service Design Criteria The water system planning criteria used in this study are in accordance with the City of Carlsbad Water Design Procedures and Guidelines, last revised November 30, 2009. The criteria pertinent to this study are summarized below: Minimum Pressure, Static = 60 psi Maximum Pressure, Static = 125 psi (up to 150 psi allowed with approval of City Engineer) Minimum Pressure, Peak Hour = 40 psi Minimum Pressure, Max Day plus Fire = 20 psi SF Residential Demand Factor = 550 gpd/unit MF Residential Demand Factor = 250 gpd/unit Commercial Demand Factor = 2,300 gpd/10,000 SF BIdg. Area (assume building coverage of 30 percent of gross acreage) Max Day Factor = 1.65 x Average Day Demand Peak Hour Factor = 2.9 x Average Day Demand SF Residential Fire Flow = 1,500 gpm MF Residential Fire Flow = 3,000 gpm Commercial Fire Flow = 4,000 gpm Maximum Pipeline Velocity, Peak Hour = 8.0 ft/s The actual fire flow requirement will be provided by the fire marshal based on the Uniform Fire Code. The fire flow requirement is based on building footprints, construction materials, and what reduction, if any, will be allowed for buildings with sprinklers. Since some of these factors are unknown at this planning stage, the fire flow requirements listed above were utilized. Protected Water Demand Based on the demand factors presented above. Table 1 summarizes the projected water demands for the project. For non-residential acreage, the assumption of 30 percent building coverage and a demand factor of 2,300 gpd/10,000 square feet result in a demand factor of approximately 3,000 gpd per gross acre. DEXTER WILSON ENGINEERING, INC. PAGE 3 TABLE 1 QUARRY CREEK PROJECTED WATER DEMANDS Planning Area Land Use Gross Acres Maximum Dwelling Units Demand Factor Average Demand, gpd R-1 MF Residential 7.1 127 250 gpd/unit 31,750 R-2 MF Residential 11.1 200 250 gpd/unit 50,000 R-3 MF Residential 6.7 95 250 gpd/unit 23,750 R-4 MF Residential 18.2 214 250 gpd/unit 53,500 P-l Public use 0.9 0 gpd/ac^ 0 P-2 Public Use 2.1 — 3,000 gpd/ac 6,300 P-3 Public Use 1.3 ... 3,000 gpd/ac 3,900 P-4 Public Use 3.9 ... 0 gpd/ac' 0 P-5 Public Use 2.2 ... 0 gpd/ac^ 0 OS Open Space 92.4 ... 0 gpd/ac 0 — Public Roads 9.5 ... 0 gpd/ac 0 TOTAL 155.4 636 169,200 I 1 These areas are to be irrigated with recycled water and do not require potable water service. Based on a projected average daily demand of 169,200 gpd (118 gpm), the projected maximum day demand is 279,180 gpd (194 gpm) and the projected peak hour demand is 490,680 gpd (341 gpm). Several water conservation measures will be implemented with this project that may result in reduced water demand for the project. Existing Water System There are numerous pipelines in different pressure zones in the vicinity of the project. Figure 2 graphically shows the location of existing facilities in the vicinity of the project and a brief description by pressure zone is provided below. DEXTER WILSON ENGINEERING, INC. PAGE A LEGEND EXISTING 446 ZONE EXISTING 580 ZONE 580/446 PR STATION o < 3 O >-< o o CD I CN T OD O CS> Q I UJ cr Z) o o CD o u o < CL FIGURE 2 EXISTING WATER FACILITIES QUARRY CREEK 580 Zone. The primary supply of water to this area comes from the 580 Zone. The 580 Zone is supplied from the San Diego County Water Authority No. 4 aqueduct connection. There is a 21-inch 580 Zone transmission line that conveys flow from this connection to service areas located south of the Quarry Creek project. The 580 Zone also supplies lower pressure zones in the area. 446 Zone. The 446 Zone is supplied by the Tap Reservoir located southeast of the Quarry Creek project. This reservoir has a capacity of 6.0 million gallons, a pad elevation of 446 feet, and a high water line of 473 feet. This reservoir and distribution system are supplied by 580/446 Zone pressure reducing stations in the area. A 580/446 Zone pressure reducing station is located along Carlsbad Village Drive south of the Tap Reservoir. There are 446 Zone distribution lines that have been extended to the southern boundary of the Quarry Creek project. Proposed Water System Figure 3 provides the proposed water system layout for the Quarry Creek project. Proposed pad elevations from the Quarry Creek project range in elevation from approximately 109 feet to 129 feet. Service to these areas from the 446 Zone would result in static pressures of 137 psi to 146 psi for the project. These pressures exceed the City's maximum recommended pressure of 125 psi, but are less than the maximum allowable pressure of 150 psi. Providing adequate redundancy to the Quarry Creek project is complicated due to the project being bordered on the north and east by the City of Oceanside and by open space on the west. The existing 446 Zone piping to the south of the project is looped and appears to be the only feasible source of water to the project. To meet the redundancy and pressure requirements, it is proposed to make two connections to the existing 446 Zone with new pressure reducing stations near each connection. The pressure reducing stations should be set for an output hydraulic gradeline of 330 feet to form a new onsite pressure zone. A gradeline of 330 feet would provide static pressures on the project ranging from 87 psi to 96 psi. DEXTER WILSON ENGINEERING, INC. PAGE 6 o >-< o >-< If) in in CD CN I to o o 5: Q ro I Ld Cd O O O 05 CD / O $ Q O Ll- O < Q_ L£ R-4 1 / / EXISTING 446 ZONE WATER LINE PROPOSED 446 ZONE WATER LINE PROPOSED 330 ZONE WATER LINE FIRE HYDRANT PLANNING AREA DESIGNATION FUTURE ONSITE PIPING. ALIGNMENT TO BE DETERMINED DURING FINAL ENGINEERING PROPOSED 446/330 ZONE PR STATION CONNECT TO EXIST. 8" LINE EXISTING CITY OF OCEANSIDE 511 ZONE WATER LINE FUTURE ONSITE PIPING, ALIGNMENT TO BE DETERMINED DURING FINAL ENGINEERING. EXISTING CITY OF OCEANSIDE 511 ZONE WATER LINE 12 __ _ _ MARRON ROAD N i SCALE 1" = 400' FIGURE 3 PROPOSED ONSITE WATER SYSTEM QUARRY CREEK From the pressure reducing stations, a backbone water loop will be constructed onsite to serve the project. Planning Areas R-1, R-2, and R-3 do not have circulation loops to the rest of the project so these areas will require special consideration to meet City redundancy requirements. An Internal pipe loop in Planning Areas R-3 will provide redundancy to this area. To provide adequate redundancy to Planning Areas R-1 and R-2, parallel pipelines will need to be constructed in the bridge. The installation of parallel water lines to meet redundancy requirements is allowed by other local agencies such as the City of San Diego. The system would include dual 12-inch pipelines across the bridge and an internal loop in Planning Area R-2. Hydraulic Analysis Analysis using the KYPIPE computer software developed by the University of Kentucky determined residual pressures throughout the proposed water system. This computer software utilizes the Hazen-Williams equation for determining headless in pipes. The Hazen-Williams "C" value used for all pipe sizes in our analysis is 120. The system was modeled with an estimated hydraulic grade line of 430 feet at the connection to the existing 446 Zone. A gradeline of 330 feet was set at the 446/330 pressure reducing stations. The system has been designed to provide a minimum residual pressure of greater than 20 psi under a maximum day demand plus fire flow scenario at all locations within the proposed project development. For the project, fire flows were modeled at a few critical locations within the site. The results of the computer analysis indicate that adequate domestic water pressures are provided to the project. Furthermore, fire flow requirements are being met with greater than 20 psi residual pressure at all locations within the project. Appendix A provides the computer modeling output and Exhibit A provides the corresponding node and pipe diagram. DEXTER WILSON ENGINEERING. INC. PAGE 8 Recycled Water There are currently no recycled water facilities immediately adjacent to the property. The closest existing recycled water line is at the intersection of Tamarack Avenue and Harwich Drive. The most recent recycled water master plan was prepared in 2012 by Carrollo Engineers. The 2012 Recycled Water Master Plan accounts for recycled water service to Quarry Creek. In keeping with the City's policy of using recycled water where possible to offset potable water use, it is recommended that piping be installed to the potential use areas within the site. A recycled water line will need to be extended offsite in Tamarack Avenue and connected to the existing 580 Zone recycled water system at Harwich Drive. A pressure reducing station will need to be constructed with a set output hydraulic gradeline of 375 feet to provide service to the recycled water areas in Quarry Creek. The major potential use areas within the project are the public use sites and irrigated slopes. Figure 4 provides the proposed onsite recycled water facilities and potential use areas for the project. Conclusions Water service can be provided to the Quarry Creek project by the Carlsbad Municipal Water District. Water service is proposed to be provided by connecting to the existing 446 Zone, and forming a new zone by constructing two new 446/330 Zone pressure reducing stations. The following conclusions have been made as a result of this study: 1. Figure 3 provides the proposed water system improvements for the project. Appendix A provides the hydraulic analysis used to verify recommended pipe sizing. 2. The northeastern portion of the project will require dual piping across the bridge to meet redundancy requirements for Planning Areas R-1 and R-2. 3. Internal pipe loops in Planning Areas R-2 and R-3 will be required to meet redundancy requirements to these areas of the project. DEXTER WILSON ENGINEERING, INC. PAGE 9 o >- < CO o in T CD CN I o a I UJ cr ZD O o o / O LL o < Q_ LEGEND EXISTING 580 ZONE RECYCLED WATER LINE PROPOSED 580 ZONE RECYCLED WATER LINE PROPOSED 375 ZONE RECYCLED WATER LINE POTENTIAL RECYCLED WATER USE AREA / / AMAKACK AVK. CONNECT TO EXIST. 12" LINE MARRON ROAD N SCALE r=400' FIGURE 4 PROPOSED ONSITE RECYCLED WATER QUARRY CREEK 4. Recycled water is proposed to be supplied to the project by constructing an offsite line in Tamarack Avenue and connecting to the existing 580 Zone recycled water distribution pipeline system. A 580/375 pressure reducing station will need to be constructed to serve the recycled water use areas in Quarry Creek. Figure 4 shows the proposed onsite recycled water system and potential recycled water use areas. If you have any questions on the information contained herein, please let us know. Dexter Wilson Engineering, Inc. Stephen M. Nielsen SMN:ps DEXTER WILSON ENGINEERING, INC. PAGE I I APPENDIX A COMPUTER MODELING OUTPUT The following conditions were modeled: 1. Average Day Demands. 2. Maximum Day Demands plus 3,000 gpm fire flow split between nodes 16 and 24. 3. Maximum Day Demands plus 3,000 gpm fire flow split between nodes 26 and 28. 4. Maximum Day Demands plus 3,000 gpm fire flow split between nodes 34 and 38. 5. Peak Hour Demands. Quarry Creek Water System Analysis Job Number: 691-010 March 26, 2015 File: 691010A FLOWRATE IS EXPRESSED IN GPM AND PRESSURE IN PSIG A SUMMARY OF THE ORIGINAL DATA FOLLOWS THERE IS A PRV AT JUNCTION 10 FOR LINE 13 SET AT A GRADE OF 330.00 THERE IS A PRV AT JUNCTION 20 FOR LINE 23 SET AT A GRADE OF 330.00 PIPE NO NODE NOS. LENGTH DIAMETER ROUGHNESS MINOR LOSS K FIXED GRADE (FEET) (INCHES) 1 0 2 900. 0 14.0 120.0 .00 430. 00 3 2 4 230. 0 12.0 120.0 .00 430. 00 5 4 6 180. 0 8.0 120. 0 .00 430. 00 7 6 8 1100. 0 8.0 120.0 .00 430 . 00 9 6 8 550. 0 8.0 120.0 .00 430. 00 11 8 10 150. 0 12.0 120.0 .00 430. 00 13 10 12 50. 0 12.0 120.0 .00 330. 00 15 12 14 50. 0 12.0 120.0 .00 330. 00 17 14 16 750. 0 8.0 120.0 .00 330. 00 19 2 18 350. 0 14.0 120.0 .00 430. 00 21 18 20 200. 0 12.0 120.0 .00 430. 00 23 20 22 50. 0 12.0 120.0 .00 330. 00 25 14 24 750. 0 12.0 120.0 .00 330. 00 27 22 26 1200. 0 12.0 120.0 .00 330. 00 29 25 28 500. 0 12.0 120.0 . 00 330. 00 31 26 30 250. 0 12.0 120.0 .00 330. 00 33 24 30 1250. 0 12.0 120.0 .00 330. 00 35 30 31 550. 0 12.0 120.0 .00 330. 00 37 30 32 850. 0 12.0 120.0 .00 330. 00 39 31 33 850. 0 8.0 120.0 .00 330. 00 41 32 36 300. 0 8.0 120.0 . 00 330. 00 43 36 38 650 . 0 8.0 120. 0 . 00 330. 00 45 33 38 600. 0 8.0 120. 0 .00 330. 00 47 33 34 200. 0 8.0 120.0 .00 330. 00 JUNCTION NUMBER DEMAND ELEVATION CONNECTING PIPES 2 .00 148.00 1 3 19 4 .00 165.00 3 5 6 .00 170.00 5 7 9 8 .00 165.00 7 9 11 10 .00 128.00 11 13 12 .00 128.00 13 15 14 .00 128.00 15 17 25 16 9 .50 128.00 17 18 .00 133.00 19 21 *A negative value for flowrate, velocity and headloss indicates that the flow is going in the opposite direction from the ways the nodes were input (i.e. from Node 30 to 24 instead of from Node 24 to 30). Quarry Creek Water System Analysis Job Number: 691-010 March 26, 2015 File: 691010A 20 .00 122 . 00 21 23 22 9.50 122. 00 23 27 24 9.50 112. 00 25 33 26 11.50 120. 00 27 29 31 28 13.00 130. 00 29 30 9.50 118. 00 31 33 35 31 .00 106. 00 35 39 32 17.50 124 . 00 37 41 33 .00 114 . 00 39 45 47 34 11.00 116. 00 47 36 17.50 130. 00 41 43 38 11.00 160. 00 43 45 SELECTION: ALL RESULTS ARE OUTPUT EACH PERIOD THIS SYSTEM HAS ONE SUPPLY ZONE (446) ZONE NO. 1 IS SUPPLIED THROUGH THESE PIPES; 13 23 THIS SYSTEM HAS 24 PIPES WITH 21 JUNCTIONS , Nodes (FGNS) 2 LOOPS AND 3 Fixed Grade THE RESULTS ARE OBTAINED AFTER 5 TRIALS WITH AN ACCURACY = .00180 AVERAGE DAY DEM2^S PIPE NO. NODE NOS. FLOWRATE HEAD LOSS PUMP HEAD MINOR LOSS VELOCITY HL/1000 1 0 2 119.50 . 02 . 00 .00 .25 .03 3 2 4 56.50 .00 .00 .00 .16 . 01 5 4 6 56. 50 .02 .00 .00 .36 . 10 7 6 8 23.03 .02 .00 .00 . 15 .02 9 6 8 33.47 . 02 . 00 .00 .21 .04 11 8 10 56.50 . 00 . 00 . 00 .16 . 01 13 0 12 56.50 . 00 . 00 . 00 .16 .01 15 12 14 56.50 .00 . 00 .00 .16 .01 17 14 16 . 9.50 .00 .00 .00 .06 . 00 19 2 18 63.00 .00 .00 .00 . 13 . 01 21 18 20 63.00 .00 .00 .00 . 18 . 02 23 0 22 63.00 .00 .00 .00 . 18 . 02 25 14 24 47.00 .01 .00 .00 . 13 .01 27 22 26 53.50 .02 .00 .00 . 15 .01 29 26 28 13.00 .00 .00 .00 .04 .00 *A negative value for flowrate, velocity and headloss indicates that the flow is going in the opposite direction from the ways the nodes were input (i.e. from Node 30 to 24 instead of from Node 24 to 30). Quarry Creek Water System Analysis Job Number: 691-010 March 26, 2015 File: 691010A 31 26 30 29.00 00 .00 .00 .08 .00 33 24 30 37.50 01 . 00 .00 . 11 .01 35 30 31 17 . 60 00 .00 .00 . 05 . 00 37 30 32 39.40 01 . 00 . 00 .11 . 01 39 31 33 17.60 01 .00 .00 .11 .01 41 32 36 21.90 01 . 00 .00 . 14 .02 43 36 38 4 .40 00 .00 .00 . 03 .00 45 33 38 6. 60 00 .00 .00 . 04 . 00 47 33 34 11.00 • 00 .00 .00 . 07 . 00 JUNCTION NUMBER DEMAND GRADE LINE ELEVATION PRESSURE 2 .00 429. 98 148.00 122. 19 4 . 00 429. 97 165.00 114. 82 6 . 00 429. 95 170.00 112. 65 8 . 00 429. 93 165.00 114. 80 10 .00 429. 93 128.00 130. 84 12 .00 330. 00 128.00 87. 53 14 .00 330. 00 128.00 87. 53 16 9. 50 330. 00 128.00 87. 53 18 .00 429. 97 133.00 128. 69 20 .00 429. 97 122.00 133. 45 22 9.50 330. 00 122.00 90. 13 24 9.50 329. 99 112.00 94. 46 26 11.50 329. 98 120.00 90. 99 28 13.00 329. 98 130.00 86. 66 30 9.50 329. 98 118.00 91. 86 31 . 00 329. 98 106.00 97. 06 32 17.50 329. 98 124.00 89. 26 33 . 00 329. 97 114.00 93. 59 34 11.00 329. 97 116.00 92. 72 36 17 . 50 329. 97 130.00 86. 65 38 11. 00 329. 97 160.00 73. 65 THE NET SYSTEM DEMAND 119 50 SUMMARY OF INFLOWS(+) AND OUTFLOWS(-) FROM FIXED GRADE NODES PIPE NUMBER 1 FLOWRATE 119.50 THE NET FLOW INTO THE SYSTEM FROM FIXED GRADE NODES = 119.50 THE NET FLOW OUT OF THE SYSTEM INTO FIXED GRADE NODES = .00 *A negative value for flowrate, velocity and headloss indicates that the flow is going in the opposite direction from the ways the nodes were input (i.e. from Node 30 to 24 instead of from Node 24 to 30). Quarry Creek Water System Analysis March 26, 2015 Job Number: 691-010 File: 691010A A SUMMARY OF CONDITIONS SPECIFIED FOR THE NEXT SIMULATION FOLLOWS THE DEMANDS ARE CHANGED FROM ORIGINAL VALUES BY A FACTOR = 1.65 THE FOLLOWING SPECIFIC DEMAND CHANGES ARE MADE : JUNCTION NUMBER DEMAND 16 1515.70 24 1515.70 THE RESULTS ARE OBTAINED AFTER 4 TRIALS WITH AN ACCURACY = .00004 M2VXIMUM DAY DEMANDS PLUS 3000 GPM FIRE FLOW SPLIT BETWEEN NODES 16 AND 24 PIPE NO. NODE NOS. FLOWRATE HEAD LOSS PUMP HEAD MINOR LOSS VELOCITY HL/1000 1 0 2 3197.23 10. 75 .00 .00 6. 66 11. 95 3 2 4 2468.81 3. 61 . 00 .00 7.00 15.68 5 4 6 2468.81 20. 33 .00 .00 15.76 112.97 7 6 8 1006.06 23. 57 .00 .00 6. 42 21.43 9 6 8 1462.74 23. 57 .00 .00 9.34 42.85 11 8 10 2468.81 2. 35 .00 .00 7.00 15. 68 13 0 12 2468.81 78 .00 .00 7.00 15. 68 15 12 14 2468.81 78 .00 .00 7.00 15. 68 17 14 16 1515.70 34. 33 .00 . 00 9. 67 45.77 19 2 18 728.42 27 .00 .00 1.52 .77 21 18 20 728.42 33 . 00 . 00 2.07 1.64 23 0 22 728.42 08 . 00 .00 2.07 1. 64 25 14 24 953.11 2. 02 .00 .00 2.70 2. 69 27 22 26 712.74 1. 89 .00 .00 2.02 1.57 29 26 28 21.45 00 .00 .00 . 06 . 00 31 26 30 672.32 35 .00 .00 1.91 1. 41 33 24 30 -562.59 -1. 27 .00 .00 -1. 60 -1.01 35 30 31 29.04 00 .00 .00 . 08 . 00 37 30 32 65.01 02 . 00 . 00 . 18 . 02 39 31 33 29.04 03 . 00 . 00 .19 .03 41 32 36 36.13 01 .00 .00 .23 .05 43 36 38 7.26 00 .00 .00 . 05 . 00 45 33 38 10.89 00 .00 .00 . 07 . 00 47 33 34 18.15 • 00 .00 .00 . 12 .01 JUNCTION NUMBER DEMAND GRADE LINE ELEVATION PRESSURE 2 .00 419. 25 148.00 117. 54 4 .00 415. 64 165.00 108. 61 6 .00 395. 31 170.00 97. 63 8 .00 371. 74 165.00 89. 59 10 . 00 369. 38 128.00 104. 60 12 .00 329. 22 128.00 87. 19 *A negative value for flowrate, velocity and headloss indicates that the flow is going in the opposite direction from the ways the nodes were input (i.e. from Node 30 to 24 instead of from Node 24 to 30). Quarry Creek Water System Analysis Job Number: 691-010 March 26,2015 File: 691010A 14 .00 328.43 128. 00 86.85 16 1515.70 294.11 128 . 00 71. 98 18 .00 418.98 133. 00 123.92 20 .00 418.65 122 . 00 128.55 22 15. 68 329.92 122 . 00 90.10 24 1515.70 326.41 112. 00 92.91 26 18. 98 328.03 120. 00 90.15 28 21.45 328.03 130. 00 85. 81 30 15. 68 327.68 118. 00 90. 86 31 . 00 327.68 106. 00 96. 06 32 28.88 327.66 124. 00 88.25 33 .00 327.65 114. 00 92.58 34 18.15 327.65 116. 00 91.72 36 28.88 327.65 130. 00 85. 65 38 18.15 327.65 160. 00 72. 65 THE NET SYSTEM DEMAND = 3197.22 SUMMARY OF INFLOWS(+) AND OUTFLOWS(-) FROM FIXED GRADE NODES PIPE NUMBER 1 FLOWRATE 3197.23 THE NET FLOW INTO THE SYSTEM FROM FIXED GRADE NODES = 3197.23 THE NET FLOW OUT OF THE SYSTEM INTO FIXED GRADE NODES = .00 *A negative value for flowrate, velocity and headloss indicates that the flow is going in the opposite direction from the ways the nodes were input (i.e. from Node 30 to 24 instead of from Node 24 to 30). Quarry Creek Water System Analysis Job Number: 691-010 March 26,2015 File: 691010A A SUMMARY OF CONDITIONS SPECIFIED FOR THE NEXT SIMULATION FOLLOWS THE DEMANDS ARE CHANGED FROM ORIGINAL VALUES BY A FACTOR = 1 . 65 THE FOLLOWING SPECIFIC DEMAND CHANGES ARE MADE JUNCTION NUMBER DEMAND 26 1519.00 28 1521.50 THE RESULTS ARE OBTAINED AFTER 3 TRIALS WITH AN ACCURACY = .00391 MAXIMUM DAY DEMANDS PLUS 3000 GPM FIRE FLOW SPLIT BETWEEN NODES 26 AND 28 PIPE NO. NODE NOS. FLOWRATE HEAD LOSS PUMP HEAD MINOR LOSS VELOCITY HL/1000 1 0 2 3197.25 10 .75 .00 .00 6. 66 11. 95 3 2 4 1343.71 1 . 17 .00 .00 3.81 5. 08 5 4 6 1343.71 6 .59 .00 .00 8.58 36. 62 7 6 8 547.57 7 . 64 .00 . 00 3.49 6. 94 9 6 8 796.13 7 . 64 .00 .00 5.08 13. 89 11 8 10 1343.71 .76 .00 .00 3.81 5. 08 13 0 12 1343.71 .25 .00 .00 3.81 5. 08 15 12 14 1343.71 .25 .00 .00 3.81 5.08 17 14 16 15. 68 . 01 .00 .00 . 10 .01 19 2 18 1853.54 1 .52 .00 .00 3.86 4.35 21 18 20 1853.54 1 .84 .00 .00 5.26 9.22 23 0 22 1853.54 .46 .00 .00 5.26 9.22 25 14 24 1328.03 3 .73 .00 .00 3.77 4 . 97 27 22 26 1837.87 10 .89 . 00 .00 5.21 9.08 29 26 28 1521.50 3 .20 . 00 .00 4.32 6.40 31 26 30 -1202.63 -1 .03 . 00 .00 -3.41 -4.14 33 24 30 1312.36 6 .08 .00 .00 3.72 4.87 35 30 31 29.04 . 00 .00 .00 .08 . 00 37 30 32 65.01 . 02 . 00 .00 .18 . 02 39 31 33 29. 04 . 03 .00 .00 .19 . 03 41 32 36 36.13 . 01 .00 . 00 .23 .05 43 36 38 7.26 . 00 .00 .00 . 05 .00 45 33 38 10. 89 . 00 .00 .00 .07 .00 47 33 34 18.15 .00 .00 .00 .12 .01 JUNCTION NUMBER DEMAND GRADE LINE ELEVATION PRESSURE 2 .00 419 .25 148.00 117 . 54 4 .00 418 . 08 165.00 109. 67 6 .00 411 .49 170.00 104. 64 8 . 00 403 . 85 165.00 103. 50 10 .00 403 . 08 128.00 119. 20 12 .00 329 .75 128.00 87. 42 14 .00 329 .49 128.00 87. 31 *A negative value for flowrate, velocity and headloss indicates that the flow is going in the opposite direction from the ways the nodes were input (i.e. from Node 30 to 24 instead of from Node 24 to 30). Quarry Creek Water System Analysis Job Number: 691-010 March 26, 2015 File: 691010A 16 15. 68 329.48 128.00 87.31 18 .00 417.72 133.00 123.38 20 .00 415.88 122.00 127.35 22 15. 68 329.54 122.00 89. 93 24 15. 68 325.76 112.00 92.63 26 1519.00 318.64 120.00 86.08 28 1521.50 315.45 130.00 80.36 30 15. 68 319.68 118.00 87.39 31 .00 319.68 106.00 92.59 32 28.88 319.66 124.00 84.79 33 .00 319.65 114.00 89.12 34 18.15 319.65 116.00 88.25 36 28.88 319.65 130.00 82.18 38 18.15 319.65 160.00 69.18 THE NET SYSTEM DEMAND = 3197.25 SUMMARY OF INFLOWS(+) AND OUTFLOWS(-) FROM FIXED GRADE NODES PIPE NUMBER 1 FLOWRATE 3197.25 THE NET FLOW INTO THE SYSTEM FROM FIXED GRADE NODES = 3197.25 THE NET FLOW OUT OF THE SYSTEM INTO FIXED GRADE NODES = .00 *A negative value for flowrate, velocity and headloss indicates that the flow is going in the opposite direction from the ways the nodes were input (i.e. from Node 30 to 24 instead of from Node 24 to 30). Quarry Creek Water System Analysis Job Number: 691-010 March 26, 2015 File: 691010A A SUMMARY OF CONDITIONS SPECIFIED FOR THE NEXT SIMULATION FOLLOWS THE DEMANDS ARE CHANGED FROM ORIGINAL VALUES BY A FACTOR 1.65 THE FOLLOWING SPECIFIC DEMAND CHANGES ARE MADE JUNCTION NUMBER DEMAND 34 1518.20 38 1518.20 THE RESULTS ARE OBTAINED AFTER 3 TRIALS WITH AN ACCURACY = .00052 MAXIMUM DAY DEMANDS PLUS 3000 GPM FIRE FLOW SPLIT BETWEEN NODES 34 AND 38 PIPE NO. NODE NOS. FLOWRATE HEAD LOSS PUMP HEAD MINOR LOSS VELOCITY HL/1000 1 0 2 3197.28 10. 75 .00 .00 6. 66 11 . 95 3 2 4 1457.10 1. 36 .00 .00 4.13 5 . 91 5 4 6 1457.10 7 . 66 .00 .00 9.30 42 .55 7 6 8 593.78 8. 88 .00 .00 3.79 8 .07 9 6 8 863.32 8. 88 .00 .00 5.51 16 . 14 11 8 10 1457.10 89 .00 .00 4.13 5 . 91 13 0 12 1457.10 30 .00 .00 4.13 5 . 91 15 12 14 1457.10 30 . 00 .00 4.13 5 . 91 17 14 16 15. 68 01 .00 .00 . 10 . 01 19 2 18 1740.17 1. 36 .00 . 00 3. 63 3 . 87 21 18 20 1740.17 1. 64 .00 . 00 4 . 94 8 .21 23 0 22 1740.17 . 41 .00 .00 4. 94 8 .21 25 14 24 1441.43 4 . 34 .00 .00 4 .09 5 .79 27 22 26 1724.50 9. 68 .00 .00 4.89 8 .07 29 26 28 21.45 , 00 .00 .00 .06 .00 31 26 30 1684.07 1. 93 .00 .00 4.78 7 .72 33 24 30 1425.75 7 . 09 .00 .00 4.04 5 . 67 35 30 31 1583.35 3. 79 .00 .00 4.49 6 .89 37 30 32 1510.80 5. 37 .00 .00 4.29 6 . 32 39 31 33 1583.35 42 . 18 . 00 . 00 10.11 49 . 62 41 32 36 1481.92 13. 17 . 00 .00 9.46 43 . 90 43 36 38 1453.05 27 . 51 .00 . 00 9.27 42 .33 45 33 38 65.15 , 08 . 00 .00 .42 . 13 47 33 34 1518.20 9. 18 . 00 .00 9. 69 45 . 91 JUNCTION NUMBER DEMAND GRADE LINE ELEVATION PRESSURE 2 .00 419. 25 148.00 117 .54 4 . 00 417. 89 165.00 109 .58 6 .00 410. 23 170.00 104 . 10 8 . 00 401. 35 165.00 102 . 42 10 .00 400. 47 128.00 118 .07 12 .00 329. 70 128.00 87 .41 14 .00 329. 41 128.00 87 .28 *A negative value for flowrate, velocity and headloss indicates that the flow is going in the opposite direction from the ways the nodes were input (i.e. from Node 30 to 24 instead bf from Node 24 to 30). Quarry Creek Water System Analysis Job Number: 691-010 March 26, 2015 File: 691010A 16 15. 68 329.40 128.00 87.27 18 . 00 417.89 133.00 123.45 20 . 00 416.25 122.00 127.51 22 15. 68 329.59 122.00 89. 96 24 15. 68 325.07 112.00 92.33 26 18. 98 319.91 120.00 86. 63 28 21.45 319.91 130.00 82.29 30 15.68 317.98 118.00 86. 66 31 .00 314.19 106.00 90.21 32 28.88 312.61 124.00 81.73 33 .00 272.01 114.00 68.47 34 1518.20 262.83 116.00 63. 62 36 28.88 299.44 130.00 73. 42 38 1518.20 271.93 160.00 48. 50 THE NET SYSTEM DEMAND = 3197.27 SUMMARY OF INFLOWS{+) AND OUTFLOWS(-) FROM FIXED GRADE NODES PIPE NUMBER 1 FLOWRATE 3197.28 THE NET FLOW INTO THE SYSTEM FROM FIXED GRADE NODES = THE NET FLOW OUT OF THE SYSTEM INTO FIXED GRADE NODES 3197.2f 00 *A negative value for flowrate, velocity and headloss indicates that the flow is going in the opposite direction from the ways the nodes were input (i.e. from Node 30 to 24 instead of from Node 24 to 30). Quarry Creek Water System Analysis Job Number: 691-010 March 26, 2015 File: 691010A A SUMMARY OF CONDITIONS SPECIFIED FOR THE NEXT SIMULATION FOLLOWS THE DEMANDS ARE CHANGED FROM ORIGINAL VALUES BY A FACTOR = 2.90 THE RESULTS ARE OBTAINED AFTER 3 TRIALS WITH AN ACCURACY = .00010 PEAK HOUR DEMANDS PIPE NO. NODE NOS. FLOWRATE HEAD LOSS PUMP HEAD MINOR LOSS VELOCITY HL/1000 1 0 2 346.55 .18 .00 .00 .72 .20 3 2 4 163.85 .02 .00 .00 .46 . 10 5 4 6 163.85 .13 .00 .00 1.05 .74 7 6 8 66.77 .16 . 00 .00 .43 . 14 9 6 8 97.08 .16 .00 .00 .62 .28 11 8 10 163.85 .02 .00 . 00 .46 .10 13 0 12 163.85 .01 .00 .00 .46 . 10 15 12 14 163.85 . 01 . 00 .00 .46 . 10 17 14 16 27.55 .02 . 00 .00 . 18 . 03 19 2 18 182.70 . 02 .00 .00 .38 . 06 21 18 20 182.70 .03 .00 .00 .52 . 13 23 0 22 182.70 .01 .00 .00 .52 . 13 25 14 24 136.30 .06 .00 . 00 .39 .07 27 22 26 155.15 .11 .00 .00 .44 .09 29 26 28 37.70 .00 .00 .00 .11 . 01 31 26 30 84.10 .01 .00 .00 .24 .03 33 24 30 108.75 .06 .00 . 00 .31 . 05 35 30 31 51.05 .01 .00 . 00 .14 . 01 37 30 32 114.25 . 04 . 00 .00 .32 . 05 39 31 33 51.05 .07 . 00 .00 .33 . 09 41 32 36 63.50 . 04 .00 .00 .41 . 13 43 36 38 12.75 .00 .00 .00 .08 .01 45 33 38 19.15 .01 .00 .00 .12 . 01 47 33 34 31. 90 .01 . 00 . 00 .20 .04 JUNCTION NUMBER DEMAND GRADE LINE ELEVATION PRESSURE 2 .00 429.82 148.00 122.12 4 . 00 429.80 165.00 114.75 6 . 00 429.67 170.00 112.52 8 . 00 429.51 165.00 114.62 10 . 00 429.50 128.00 130.65 12 .00 329.99 128.00 87.53 14 .00 329.99 128.00 87.53 16 27.55 329.97 128.00 87.52 18 .00 429.80 133.00 128.61 20 .00 429.78 122.00 133.37 22 27.55 329.99 122.00 90.13 24 27.55 329.93 112.00 94.44 *A negative value for flowrate, velocity and headloss indicates that the flow is going in the opposite direction from the ways the nodes were input (i.e. from Node 30 to 24 instead of from Node 24 to 30). Quarry Creek Water System Analysis Job Number: 691-010 March 26, 2015 File: 691010A 26 33. 35 329. 88 120 .00 90. 95 28 37 .70 329. 88 130 .00 86. 61 30 27 . 55 329. 87 118 .00 91. 81 31 . 00 329. 87 106 . 00 97. 01 32 50.75 329. 83 124 .00 89. 19 33 .00 329. 79 114 .00 93. 51 34 31.90 329. 79 116 .00 92. 64 36 50.75 329. 79 130 .00 86. 58 38 31. 90 329. 79 160 .00 73. 57 SYSTEM DEMAND 346 55 OF INFLOWS(+) AND OUTFLOWS(-) FROM FIXED GRADE NODES PIPE NUMBER 1 FLOWRATE 346.55 THE NET FLOW INTO THE SYSTEM FROM FIXED GRADE NODES = 346.55 THE NET FLOW OUT OF THE SYSTEM INTO FIXED GRADE NODES = .00 *A negative value for flowrate, velocity and headloss indicates that the flow is going in the opposite direction from the ways the nodes were input (i.e. from Node 30 to 24 instead of from Node 24 to 30). 3 < >-< ml T col CM I I O O 5: Q < — X X LLJJ o ol CDJ ol ol o — < CLJ LEGEND EXISTING 446 ZONE WATER LINE PROPOSED 446 ZONE WATER LINE PROPOSED 330 ZONE WATER LINE FIRE HYDRANT (24) COMPUTER MODEL NODE NUMBER I 8 I COMPUTER MODEL PIPE NUMBER / / R-3 MARRON ROAD P-2 , CONNECT TO EXIST. 8" LINE N SCALE 1"=400' EXHIBIT A NODE AND PIPE DIAGRAM QUARRY CREEK