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Home My WebLink AboutPA2017-248_20180319_MELA-001 Water Demand Study WATER DEMAND STUDY Mariner Square TTM 18135, Lot 1 1244 Irvine Avenue Newport Beach, California Prepared For: Melia Homes 8951 Research Drive, #100 Irvine, CA 92618 Prepared By: 6 Orchard, Suite 200 Lake Forest, CA 92630 Contact: Dane McDougall, PE 80705 T: 949-916-3800 F: 949-916-3805 March 2018 PA2017-248 Water Demand Study Mariner Square, Newport Beach TTM 18135 Melia Homes 2 TABLE OF CONTENTS I. INTRODUCTION ............................................................................................................... 3 II. EXISTING WATER FACILITIES .......................................................................................... 5 III. METHODOLOGY ............................................................................................................. 5 IV. PROPOSED WATER IMPROVEMENTS ............................................................................... 6 V. CONCLUSION ................................................................................................................... 6 APPENDICES APPENDIX A – Water Demand Calculations APPENDIX B – City Design Criteria APPENDIX C – IRWD Design Criteria APPENDIX D – Tentative Tract Map No. 18135 for Mariner Square APPENDIX E – Water Will Serve Letter APPENDIX F – Fire Hydrant Flow Test Results APPENDIX G – Existing As-Built Plans PA2017-248 Water Demand Study Mariner Square, Newport Beach TTM 18135 Melia Homes 3 I. INTRODUCTION Purpose The purpose of this study is to calculate the water demand for the proposed Mariner Square development project, located 1244 Irvine Avenue, in the City of Newport Beach, California. Site Description The Mariner Square project consists of approximately 5.77 acres and will be developed as a one lot subdivision for condominium purposes consisting of an attached residential development with associated paved drive aisles, landscaped outdoor spaces, parking areas, a community recreation area with pool, spa and BBQ areas throughout the site. The proposed development will consists of 92 condominium units with 2, 4 and 6-plex buildings. The existing site is currently utilized as an Apartment Community referred as Mariner Square and consists of residential buildings with associated parking, landscaped areas and recreational pool/ spa areas. The site is bounded by Irvine Avenue to the west, Mariners Drive to the north, Rutland Road to the east, and an existing commercial/ retail development to the south. The City boundary line between the City of Newport Beach and Costa Mesa is located within Irvine Avenue along the street centerline. All associated water improvements will be conducted within the City of Newport Beach’s jurisdiction. PA2017-248 Water Demand Study Mariner Square, Newport Beach TTM 18135 Melia Homes 4 PA2017-248 Water Demand Study Mariner Square, Newport Beach TTM 18135 Melia Homes 5 II. EXISTING WATER FACILITIES Domestic water service and fire protection is provided to the site by the City of Newport Beach. Based on review of available as-built improvement plans and City Water Atlas Maps, the site is surrounded by several existing water facilities. There is an existing 12” PVC water transmission main is located within Irvine Avenue, approximately 34’ east of the street centerline. This water main was recently constructed to replace an existing 8” ACP water main, which has been abandoned in place, located 2’ east of the new water main. Dwg. W-5290-S (October 2004) There is an existing 8” ACP water main is located within Mariners Drive, approximately 14’ south of the street centerline. Dwg. W-4995-S (December 1958) There is an existing 6” ACP water main is located within Rutland Road, approximately 14’ east of the street centerline. Dwg. TR 3606 (May 1960) According to the City Water Atlas Map, these existing water facilities are all owned and maintained by the City of Newport Beach and are part of the same water system. Copies of available As-built Plans and the City Water Atlas Map are located within Appendix G of this study. There is an existing City of Costa Mesa 8” water main located within Irvine Avenue, west of the street centerline. It is unknown at this time if this water main is interconnected with the City of Newport Beach’s water system. Fire hydrant flow testing was conducted by the City of Newport Beach on March 12, 2018 to determine available flows to serve the site. An existing hydrant being served by the existing 12” water main within Irvine Avenue, located near the southwest corner of site, has a static pressure of 88 pounds per square inch (psi) and a residual pressure of 78 psi. An existing hydrant being served by the existing 6” water main within Rutland Road, located near the northeast corner of the site, has a static pressure of 90 psi and residual pressure of 80 psi. The fire hydrant flow test results are located within Appendix F of this study. III. METHODOLOGY The proposed water demand calculations are based on the Domestic Water Demand provided by the City of Newport Beach Design Criteria, Section III Water System (rev. 2012). For the associated water demands of the various amenities located within the project, factors provided by the Irvine Ranch Water District (IRWD) were utilized. The demand from the amenities was then added to the demand for the residential units. The existing land use (apartments and amenities) was included as a credit to the calculated water demand. The Newport Beach Design Criteria provides the Maximum Month Average Daily Flow for uses within the development and details the calculation procedure to determine the Maximum Day Demand and Peak Hour Demand. A peaking factor of 1.31 has been applied to the Maximum Day Demand and 1.85 to the Peak Hour Demand. PA2017-248 Water Demand Study Mariner Square, Newport Beach TTM 18135 Melia Homes 6 Refer to the City of Newport Beach and IRWD Design Criteria located within Appendix B & C of this study for additional information. Refer to Appendix A within this study for water demand calculation results. IV. PROPOSED WATER IMPROVEMENTS The proposed development will be consisted with an attached multi-family residential development and proposes a looped onsite “public” water system. The onsite water system will consist of an 8” water main located within an easement connected between the existing 12” water main within Irvine Avenue and the existing 6” water main within Rutland Road. As part of the development, four (4) new public fire hydrants will be required in order to meet the minimum hydrant spacing requirements; two (2) fire hydrants will be located onsite and two (2) fire hydrants will be located offsite on Rutland Road to serve the site. The proposed development will consist of a combination 13D and 13R water systems. The proposed 2-plex (duplex) buildings will be designed utilizing a traditional 13D water system. The remaining buildings onsite will utilize the 13R water system requiring a full Fire Sprinkler System, therefore separate fire lateral services will be required for each building. Refer to the Conceptual Utility Plan located within Appendix D of this study. V. CONCLUSION The proposed development’s total peak hour demand yielded 530.05 gallons per minute (gpm) based on a total of 92 dwelling units. The existing development’s total peak hour demand yielded 483.19 gpm based on a total 114 dwelling units. As a result, the proposed development will increase the overall site water demand by 46.86 gpm (or approximately 8.84%). Refer to Appendix A within this study for peak hour demand calculations. Ultimately, the proposed development will reduce the total number of dwelling units, however due to the larger plan types (3 to 5-bedrooms), the capita per dwelling unit increased, resulting in the overall increased water demand. Although, there is a calculated increase for the overall water demand for the proposed development, it should be noted that the current water fixture design is much more efficient than the traditional water fixtures utilized during the late 1960’s. PA2017-248 APPENDIX A Water Demand Calculations PA2017-248 MARINER SQUARE1244 IRVINE AVENUE, NEWPORT BEACHTTM 18135, LOT 1Proposed Residential ‐ Water DemandsNumber of UnitsMax. MonthAveage Daily Flow(gpcd)*Max. DayDemand FactorMax. DayDemand(gpcd)Max. Peak HourDemand FactorPeak HourDemand(gpcd)Average Personsper DUPeak HourDemand(gpd/du)Total Demand(gpd)Total Demand(gpm)52 1000 1.31 1310 1.85 2423.5 3.0 7270.5 378066 282.626 1000 1.31 1310 1.85 2423.5 3.5 8482.25 220538.5 153.1814 1000 1.31 1310 1.85 2423.5 4.0 9694 135716 94.27Total 530.05Proposed Amenities ‐ Water DemandsNumber of Units Size (sf)Max. MonthAveage Daily Flow(gal/ksf/day)**Max. Month Aveage Daily FlowDemand (gpcd)Max. DayDemand FactorMax. DayDemand(gpcd)Max. Peak HourDemand FactorPeak HourDemand(gpcd)Peak HourDemand(gpm)Pool/ Spa 1318 0.6 790.8 1.31 1035.95 1.85 1916.50 1.33Club House 440 0.6 264 1.31 345.84 1.85 639.80 0.44Total 1.77Total Proposed Water Demand 531.82Existing Residential ‐ Water DemandsNumber of UnitsMax. MonthAveage Daily Flow(gpcd)*Max. DayDemand FactorMax. DayDemand(gpcd)Max. Peak HourDemand FactorPeak HourDemand(gpcd)Average Personsper DUPeak HourDemand(gpd/du)Total Demand(gpd)Total Demand(gpm)114 1000 1.31 1310 1.85 2423.5 2.5 6058.75 690697.5 479.75Total 479.75Existing Amenities ‐ Water DemandsNumber of Units Size (sf)Max. MonthAveage Daily Flow(gal/ksf/day)**Max. Month Aveage Daily FlowDemand (gpcd)Max. DayDemand FactorMax. DayDemand(gpcd)Max. Peak HourDemand FactorPeak HourDemand(gpcd)Peak HourDemand(gpm)Pool/ Spa13200.67921.311037.521.851919.411.33Club House20900.612541.311642.741.853039.072.11Total3.44* 1,000 gpcd is representative of predominantely residential use per City of Newport Beach Design Criteria** 0.6 gal/ksf/ day per IRWD Water Resources Master PlanTotal Existing Water Demand 483.19Note: Demand Factors per City of Newport Beach Design Criteria. Proposed Residential: Assume 3.0 persons per unit for 3‐bedroom, 3.5 persons per unit for 4‐bedroom and 4.0 persons per unit for 5‐bedroom.Amount Increase46.86Existing Residential: Assume 2.5 persons per unit (Apartments).Percentage8.84%Conversion: 1 gpm = 1439.7138 gpdPA2017-248 APPENDIX B City Design Criteria PA2017-248 - DC-17 - 2. Bikeway facilities shall be designed in accord with the "Planning and Design Criteria for Bikeways in California", latest edition, prepared by the State of California Business and Transportation Agency -- Caltrans. III. WATER SYSTEM A. General 1. Substantiating engineering calculations for demand, pressure and structural design of pipe shall accompany all plan submittals to the City. 2. Unless otherwise specified, water pipe material shall be ductile iron, polyvinyl, AC, chloride or steel (by special permission). 3. All water pipe shall have a minimum working pressure rating of 150 psi for normal operation and shall be capable of withstanding test pressures of 75 psi or greater. Higher pressure ratings may be dictated in certain locations within the distribution system. Consult the Utilities Department for further details. 4. Special design and approval is required for pipe fabricated from non-standard pipe materials. B. Demand Design 1. Water consumption and demand design shall be incorporated into all water system designs where water mains, regulators, fire hydrants and/or pump stations will be added or considered. a. System pressure and demand design shall be as per the table(s) and data listed herein below, except where modified by the Engineer. b. System fire flow delivery shall be provided via design of pipes, pumps and reservoirs sized in accord with the table(s) and data listed herein below, except where modified by the Engineer. 2. Domestic Water Demands - System Demands: a. Design flows for determining pipe size, system impacts and fire flow availability shall be in accord with the table(s) herein below. Utilize the average daily, maximum day and peak hour flows and factors for system pressure design for the appropriate water pressure gradient(s). (1.) Where the water facilities under design are proposed to be in a new pressure gradient or where more than one pressure gradient is involved; consult with the Engineer for more detailed additional requirements. PA2017-248 - DC-18 - (2.) Refer to the Public Works or Utilities Department for a determination as to the correct water pressure gradient(s) applicable to the design. b. The demand table below has been established based on actual water consumption data from water billing, consumption and production records over a period of years. This table will from time to time be revised to reflect current water consumption trends. c. "Maximum Day" and "Peak Hour Demands" shall be determined from the appropriate factor multiplied by the demand value in the "Domestic Water Demands Table". (1.) These factors were determined based upon general water consumption trends in all pressure zones using the available data and trend analysis. (2.) These factors will from time to time be revised to reflect current water consumption trends. 3. Domestic Water Demands Table: 3 yr. Average Maximum Month Maximum Month Pressure Gradient Average daily flow Max. Mo. Factor Average day flow (name ) (number) (gpcd) (avg day:max mo) (gpcd) Coastal Newport 1 420 1.55 651 Big Canyon Reservoir 2 510 1.98 1012 San Joaquin Reservoir 3 508 3.85 1956 Spyglass - Harbor Ridge 4 1072 1.48 1585 Spyglass - Harbor Ridge Booster 5 1080 1.33 1433 Alta Vista Regulated 6 766 1.29 985 Ocean Birch Regulated 7 680 1.26 857 Harbor View Regulated 8 591 1.45 859 Newport Center Regulated 9 3379 2.13 7192 Big Canyon Regulated 10 938 2.36 2214 North Ford Regulated 11 393 1.21 475 Balboa Island 12 324 1.26 409 Lido Island13 420 1.15 482 Granville Regulated 14 344 1.39 478 Bren Tract Regulated 15 636 1.23 782 Dover Shores Regulated 16 685 1.26 860 PA2017-248 - DC-19 - a. "Maximum Day Demand Factor" shall be 1.31. b. To determine the "Maximum Day Demand" value, multiply "Maximum Month; Average Daily Flow" value by the "Maximum Day Demand Factor". (1.) "Maximum Day Demand" = ( 1.31 ) x (Maximum Month; Average Daily Flow Value) (2.) Eg., For "Balboa Island" gradient; "Maximum Day Demand" = ( 1.31 ) x (409 gpcd) = 536 gpcd. c. "Peak Hour Demand Factor" shall be 1.85. d. To determine the "Peak Hour Demand" value, multiply the "Maximum Day Demand" value obtained via the procedure above, in subparagraph "b", subsection (1)., by the "Peak Hour Demand Factor". (1.) "Peak Hour Demand" = ( 1.85 ) x (Maximum Daily Demand Value) (2.) Eg., For "Balboa Island" gradient; "Peak Hour Demand" = ( 1.85 ) x (536 gpcd) = 992 gpcd. 4. Fire Flow Requirements: a. Design for determining pipe, reservoir and pump sizes for a given fire flow shall be in accord with the "Fire Flow Requirements" table herein below. (1.) Except where the Fire Department has determined that a higher flow requirement is warranted. (2.) In no case shall the public water system installations be sized to provide less than the fire flows stated in the "Fire Flow Requirements" table below. On site requirements may be reduced by the Fire Department where special fire resistant construction is provided or where a fire sprinkler system is installed, but public system fire flows shall not be reduced below the required flows given below. b. Fire flows, reservoirs and pumps shall be designed to meet the appropriate requirements under a "Maximum Day Demand" scenario. 5. Fire Flow Requirements Table: Use Category Fire Flow Demand Duration Number of Hydrants (gallons per minute) (hours) (each) Single Family 1,000 2 1 PA2017-248 - DC-20 - Community Facilities 1,500 2 1 Multiple Family (one & two stories) & Closely Built Residential 2,000 2 2 Multiple Family (three stories or more) & Closely Built Residential2,500 3 2 Multiple Family Attached Residential 3,000 3 2 Commercial (up to two stories)3,000 3 3 Commercial (over two stories)5,000 5 4 High-Rise Residential 5,000 5 4 Business Park / Industrial Park 5,000 6 4 Regional Shopping Center6,000 6 4 a. This table compiled from ISO and California Public Utilities Commission requirements for public fire flow. C. System Pressure Design 1. Minimum residual pressures shall be 20 psi on the Maximum Day for all Fire Flow demand designs. a. Maximum static pressure for the purposes of building and fire sprinkler system designs shall be 80 psi. 2. Minimum residual system pressure shall be 40 psi at Peak Hour on the Maximum Day. 3. Maximum static pressure shall be 140 psi, design shall attempt to achieve a maximum pressure of 110 psi, wherever practical. 4. Wherever possible, the water system shall be designed to have normal system pressures between 60 psi and 90 psi respectively at the upper and lower ends of a given pressure gradient. 5. If static pressure exceeds 100 psi, pressure regulators are required on the water mains at specified locations to create a separate system pressure gradient. a. Creation of a new system pressure gradient requires approval of the Engineer and the Utilities Department. Design must be in accord with the City's Water Master Plan and/or must be compatible with existing surrounding pressure gradients and their operation. 6. When the area requiring pressure reduction has less than 25 residential lots, individual pressure regulators shall be installed and maintained by property owners. PA2017-248 - DC-21 - a. They shall be installed by the developer and shall become the property and responsibility of the property owner. b. Individual pressure regulators shall be set to maintain 80 psi on the downstream side. Individual pressure regulators shall be as manufactured by ClaVal Company of Costa Mesa, California. D. Structural Design 1. Pipe shall be designed and specified per ASTM and AWWA standards, current accepted engineering practice and the pipe manufacturer's recommendations, provided that: a. Flexible pipe backfill load shall be the weight of the column of soil directly over the pipe (prism load), b. Flexible pipe design deflection shall be a maximum of 3% (DL=1.0). c. Minimum test pressure shall be 225 psi and minimum hydrostatic proof pressure for pipe shall be 300 psi, normal pressure test shall be the pressure rating or class of pipe plus 50 psi. d. Gasketed bell & spigot, mechanical or flanged pipe-to-pipe and pipe-to-fitting joints shall be specified, (1.) Mechanical joints shall be used on all pipe bends on DIP and PVC mains and shall specify retainer glands. (2.) Where flanged joints are specified, bolts, nuts and washers shall be type 316 stainless steel. e. Standard Dimensional Ratio (SDR) or Dimension Ratio (DR) shall be determined and specified considering working pressures, external loads, 100˚ F operational temperatures, 100 year service life and maximum design deflection of 3% (DL = 1.0), except that: (1.) Minimum thickness for PVC pipe closure pieces shall conform to the requirements of AWWA Standard C-900. (2.) Use of any steel pipe requires special permission of the City Engineer. f. Thickness class of ductile iron shall be determined and specified considering working pressures, external loads, diameter to thickness ratios for E' = 500 PSI, service and casting allowances specified in ANSI A21.50, provided that the following minimum thickness criteria is followed: PA2017-248 - DC-22 - (1.) Minimum thickness for ductile iron pipe shall be class 52 for bell & spigot pipe, class 53 for flanged pipe and class 54 for groove-end pipe. (2.) Pressure thickness classes of pipe outlined in the latest version of AWWA specifications are not recognized and are not approved by the City of Newport Beach. 2. Valve vaults and covers shall be designed and specified per these criteria and the Standard Special Provisions and Standard Drawings and the manufacturer's recommendations, provided that: a. They shall be designed to support HS-20-44 loads, plus impact and earth pressures when situated in an existing or future roadway; b. They shall be designed to support 300 psf plus earth pressure for the non-roadway installations, and; c. Metal parts shall be provided in stainless steel, brass or aluminum materials. (1.) Stainless steel covers and materials shall be required for all traffic loading designs. (2.) Aluminum or stainless steel covers may be utilized for parkway or non-traffic designs. E. Water Mains 1. Mains shall be sized to conform to the City's Water Master Plan. Where fire flow and hydraulic design dictate, the mains shall be increased in size over that specified in the Master Plan, but shall not be sized less than that which is specified in the Master Plan. 2. Minimum diameter shall be 6 inches except that dead end lines serving 6 or less dwelling units not providing fire protection service may be 4 inches. In industrial areas, the minimum diameter shall be 8 inches. Water mains shall not be sized at 10, 14 or 20 inches in diameter. Other non-standard sizes shall not be allowed. The next larger, readily available, standard pipe size shall be specified. 3. Locations shall be in accord with STD-101-L. a. Mains shall not be placed in parkway or median areas without special permission from the Utilities Department. 4. If future extension is possible, temporary dead ends shall be capped and extended beyond street improvements. 5. Mains shall be looped wherever possible. PA2017-248 - DC-23 - 6. Depth of cover from finished sub-grade to top of pipe shall be as follows: a. 36 inches for 12-inch diameter and smaller mains. b. Mains 12 inches in diameter and larger in arterial streets require special design. c. PVC and other flexible pipe materials require special design and special permission from both the Utilities Department and the Engineer for approval. 7. Design flows shall ordinarily be based on Maximum Day plus Fire Flow or Peak Hour, whichever is greater. a. For transmission mains 12 inches or larger, design head loss shall not exceed 5 feet per 1,000 linear feet. b. For distribution mains 10 inches or smaller, design velocity shall not exceed 8 ft./sec. c. Fire flow velocity in mains shall be at least __fps but less than 10 ft./sec. d. Fire flow velocity in fire service connection pipes shall be at least __fps but less than 25 ft./sec. 8. Thrust blocks shall be installed in accord with STD-510-L. If applicable, special design is required. 9. All mains 12 inches and larger shall have a profile shown on the improvement plans. Other plans for mains may require profiles at the request of the Engineer. a. Determinate factors will include the complexity of the installation proposed, the number and proximity of adjacent utility conduits the need for greater detail on the construction plans for clarity and ease of contractor installation. 10. All high points shall be equipped with air and vacuum release valve assemblies in accord with STD-515-L. 11. Maximum deflection allowable on curved alignments for pipe shall be in accord with the pipe manufacturer's recommendations. 12. Pipe deflections for short radius curves and angle points shall normally be accomplished by means of standard fittings, the location and type of which shall be detailed on the plans. 13. All ductile iron pipe and fittings shall be encased with a loose 8 mil thick polyethylene wrap. All pipe shall be sand bedded before pipe is laid in trench. Refer to City STD-106-L. F. Water Valves PA2017-248 - DC-24 - 1. Maximum valve spacing shall be: a. Residential .............................................................................. 800' b. Commercial ............................................................................ 500' c. Transmission Mains ............................................................ 1300' d. Valves shall be located at every junction of pipe in the distribution system network. As a rule of thumb, there should be no fewer than the number of pipes joined less one. (eg., at a cross intersection of pipes, there are 4 pipes, therefore, a minimum of 3 valves should be installed.) 2. Valve location requirements: a. On the prolongation of a property line, preferably at BCR's or ECR's. b. Flanged to main at cul-de-sac, private drive, easement or alley intersections at other locations. 3. Butterfly valves shall be used on all mains with a diameter of 12 inches or greater. Valves shall be epoxy lined. Lining shall be factory applied to sandblasted SSPC-10 "near white" surface via electrostatic application and shall be thermal fusion bonded to the surface. Minimum dry film thickness of lining shall be 5 mils. Brush on epoxy coating systems for valves shall not be considered an acceptable alternate coating. 4. Resilient wedge gate pattern valves may be used in lieu of butterfly valves on water mains and pipelines less than 12 inches in diameter. a. Tapping valves shall be resilient wedge pattern. The make, model and manufacturer of the valves must be on the Utilities Department's approved list. b. Resilient wedge valves may be used on valves larger than 12" with prior approval from Utility Department. c. Resilient wedge valves shall have valve discs fully encapsulated, shall be epoxy lined and coated, shall have type 316 stainless steel stem and bolted parts. 5. Butterfly valves and gate valves shall not be used on mains where operating pressures exceed 150 psi. 6. Pressures in excess of 150 psi require the use of lubricated plug valves. Such valves shall be approved in advance by the Engineer. 7. All valves 18 inches and larger shall be in City standard concrete vaults of minimum 8 ft. x 10 ft. dimension. PA2017-248 - DC-25 - 8. A valve anchor shall be installed in accord with STD-506-L. If not applicable, special design is required. 9. Except those installed in vaults, all valves installed with greater than 4H feet of cover (from street surface to top of operating nut) shall have a valve operator nut extension installed in accord with City specifications. 10. Buried valves which are normally closed shall have 4" x 4" redwood posts inserted in the valve operator riser can. a. Redwood post shall be painted white and shall be cut to a length such that it will rest on the operator nut of the valve and extend to within 4 inches of the bottom of the valve riser box without bearing against any part of it. b. Inscribed onto a brass tag nailed or screwed onto the end of the post shall be the message, "normally closed valve - do not open". G. Valve Vaults 1. Vaults shall be reinforced concrete and equipped with the following: a. Spring-open-assist hinged access opening with minimum 30" x 36" dimension and OSHA dimensioned ladder. b. Removable manhole cover at least 30 inches in diameter centered over the valve or regulator, larger if necessary. The valve must fit thru the clear opening of the manhole over it. c. Air vents high (1 ft. from the vault ceiling) and low (1 ft. from the vault floor) through the vault walls, duct shall be PVC schedule 40 duct pipe, fittings and riser assemblies. d. Floor drainage consisting of a round, recessed sump of 12-inch minimum diameter. Sump shall be located at the low point of the vault floor which shall be near the access opening and shall have a cast iron grate cover. e. Victaulic and flexible couplings with banded restraint opposite sides of each valve or regulator. Couplings shall have stainless steel connecting hardware and bolts. 2. Vaults to receive thrust or heavy traffic loading require special design and special permission. Piping shall be designed to prevent thrust against vault walls wherever possible. 3. Additional requirements and more detailed specifications are applicable. Contact the Utilities Department for these requirements. PA2017-248 - DC-26 - a. Refer to the written specifications, "Valve Vault Specifications", dated, July 1994. H. Fire Hydrants 1. Fire hydrant spacing shall be as follows: a. Desired spacing is 300 feet, with 500 feet maximum for low density residential. b. Desired spacing is 300 feet, with 400 feet maximum for commercial, multiple or closely built residential and industrial. 2. Location of hydrants shall be as follows: a. Within 3 feet of the prolongation of the BC or EC radial or property line on the tangent curb. b. On the same side of the street as the main. c. Off the largest main at the intersection of mains where the larger main is not a transmission main. 3. Hydrants shall be installed in accord with STD's-500-L or 501-L. If not applicable, special design is required. 4. If a cul-de-sac is over 350 feet long, a fire hydrant shall be installed approximately 100 feet from the closed end of the street. 5. Hydrants shall not be connected to mains larger than 12 inches in diameter without prior approval of the Utilities Department. 6. Fire Marshall may require commercial type or double steamer outlet fire hydrants in non-residential or high density locations. I. Domestic Water Services 1. One separate service shall be installed for each lot or condominium unit. a. New developments of duplex, triplex and four-plex structures require individual water service connections, unless otherwise approved by the Public Works Department. b. New apartment developments require separate water service connections for each apartment unit, unless otherwise approved by the Public Works and Utilities Departments. 2. Minimum size service shall be 1-inch diameter. Copper services shall be installed in accord with the applicable City standards. PA2017-248 - DC-27 - 3. Services shall be installed in accord with STD-502-L or 503-L and 513-L, and for multiple services use STD-519-L. If not applicable, a special design is required and must be approved by the Public Works Department and the Utilities Department. 4. Where solder joints are specified, low lead-content, silver solder material shall be used. 5. Copper flared joints may not be used on service pipe or fittings 1H inches diameter or larger. These larger sizes require solder or threaded connections only. 6. Compression type couplings, fittings and connectors are expressly prohibited for all sizes of water service piping. J. Fire Service or Fire Sprinkler Connections 1. Fire service connections shall be constructed per the applicable City Standard Drawings. 2. Exclusive water facility easements shall be provided for all sprinkler and fire service connection piping and backflow devices. Refer to the applicable Standard Drawing for minimum dimensions. 3. Siamese pumper connections and any other required appurtenant piping or controls shall be installed downstream of the backflow device. a. Downstream of the City-owned portion of the backflow assembly and the below- grade 90˚ bend on the private side of the backflow device. 4. Calculations for fire sprinkler designs shall be submitted to the Building and Fire Departments for review. 5. The level of backflow protection shall be determined by the City Public Works Department. a. The minimum level of backflow prevention for a fire service or fire sprinkler connection shall be a double-check device. b. A higher level of backflow protection may be required. Refer to the Public Works Department for more detailed information about the City's Backflow and Cross Connection Control Program. 6. Reduced Pressure Principal (RPP-type) backflow prevention devices shall be required wherever: a. There is a private booster pumping system on the site being served. PA2017-248 - DC-28 - b. There are more than one fire service connection to the same parcel or site. c. The building being serviced by the connection is 3-stories in height or greater. d. There are hazardous chemicals or materials either stored or used on the site being served by the connection. e. There is a private storage or fire protection reservoir on the site being served by the connection. f. The connection serves a marina or boat dock slip. K. Pressure Booster Pump Stations (Private Domestic & Private Fire) 1. Pressure boosting stations shall be permitted only as a temporary installation by special permission from the Public Works Department. a. Where such installations are allowed, they shall be served by metered service connections having both RPP type backflow prevention assembly and pressure sustaining valve equipment. (1.) These installations require special design and review by the Utilities Department and the Public Works Department. b. Backflow device shall be reduced pressure principle (RPP) type in accord with the applicable City standards. IV. SEWER SYSTEM A. Mains 1. General a. Substantiating engineering calculations for sizing pipe and structural designs shall accompany all plan submittals. b. Minimum size shall be 8 inches inside diameter. c. Design flow shall not exceed H of full depth. d. Pipe joints shall be elastomeric compression type unless otherwise specified. e. Pipe material shall be SDR-35 PVC or standard strength VCP. f. HDPE, ductile iron, RPM or filament bonded PVC flexible pipe materials can only be used upon special approval by the Utilities Department. PA2017-248 APPENDIX C IRWD Design Criteria PA2017-248 PA2017-248 APPENDIX D Tentative Tract Map No. 18135 for Mariner Square PA2017-248 DWG: P:\M\MELA-001\dwg\Sheets\TTM\TTM-P0-01_TS.dwg BY: jhendricks Feb 08, 2018 - 11:52:01amPROJ:OLSO-100 0SCALE: 1" = 50'25 100200PA2017-248 DWG: P:\M\MELA-001\dwg\Sheets\TTM\TTM-P0-02_SP.dwg BY: jhendricks Feb 08, 2018 - 11:52:20amPROJ:OLSO-100 0SCALE: 1" = 30'15 30602020202020PA2017-248 DWG: P:\M\MELA-001\dwg\Sheets\TTM\TTM-P0-03_GP.dwg BY: jhendricks Feb 08, 2018 - 11:52:38amPROJ:OLSO-100 0SCALE: 1" = 20'10 20402020202020PA2017-248 DWG: P:\M\MELA-001\dwg\Sheets\TTM\TTM-P0-03_GP.dwg BY: jhendricks Feb 08, 2018 - 11:52:45amPROJ:OLSO-100 0SCALE: 1" = 20'10 2040PA2017-248 DWG: P:\M\MELA-001\dwg\Sheets\TTM\TTM-P0-05_SECT.dwg BY: jhendricks Feb 08, 2018 - 11:53:05amPROJ:OLSO-100 PA2017-248 DWG: P:\M\MELA-001\dwg\Sheets\TTM\TTM-P0-05_SECT.dwg BY: jhendricks Feb 08, 2018 - 11:53:16amPROJ:OLSO-100 PA2017-248 DWG: P:\M\MELA-001\dwg\Sheets\TTM\TTM-P0-07_UT.dwg BY: jhendricks Feb 08, 2018 - 11:51:47amPROJ:OLSO-100 0SCALE: 1" = 30'15 30602020202020PA2017-248 0SCALE: 1" = 30'15 3060DWG: P:\M\MELA-001\dwg\Sheets\TTM\TTM-P0-08_FA.dwg BY: jhendricks Feb 08, 2018 - 11:53:36amPROJ:OLSO-100 2020202020PA2017-248 APPENDIX E Water Will Serve Letter PA2017-248 PA2017-248 APPENDIX F Fire Hydrant Flow Test Results PA2017-248 10201024 1032 10401048 1058 106210801028 1036 1044 105211001627 1068(1-6)1082(7-12)1100(1-12)1128(1-6)1142(1-6)1156(1-6)16331101 1100110511111106111211171123111811241522 15271533153915451201120012041207121012151216 1170(1-6)1270(1-7)1214(1-6)1228(1-6)1184(1-6)1200(1-6)1242(1-6)1256(1-6)1104110811121116112011281130 1150 11241132 2100 112911301135113611411142114712011200120612071212121512181221122412211222122713011307190719151921192712461250125212482145 21492147 2143 2139 2141 21372135 21312133 2129 2127 21152113 21012103 2123 2125 210921112121 21052107127312711281128512831279127512771269126512611257125912631267125512511253 1235123312471245 1237 1239 1249 12411243 1203 12051207 12311229 11991201 120912111213121512251227121712191221122311971195 1183 118111871185118911881186119111931184118211961198120212001194123811901192121012081212121412421240120612041216123612341222 12301228 1226 1224 1220 1232 1218 2119211711801244 10821126 !( !( !(!(!( !( !( !( !( !( !( !( !( !( !( !( !( !( !( !( !(!( !( !( !( !( !(!( !( !( !( !( !( ! ! ! ! ! ! ! ! !! ! ! ! ! !12'' PVC6'' ACP 12'' PVC12'' PVC8'' ACP 6'' A C P 8'' ACP12'' PVC8'' ACP 6 ' ' ACP 6' ' AC P24'' RCP18'' RCP27'' RCP36'' RCP36'' RCP 15'' RCP 3 0 ' ' R C P 3 0 ' ' RCP8'' VCP 8' ' VCP 8'' V C P ''''8'' VCP 8' ' VC P ''8'' V C P 8'' VCP KENT LN 18TH ST ABBIE WAY MARINERS DR PEMBROKELNR U TL A N D R D IRVINE AVEN E W P O RT BEACHN E W P O RT BEACHC O S T A MESAC O S T A MESA Mariners Pointe.mxd Mariner's Pointe1244 Irvine Avenue 0 12562.5 FeetI City of Newport BeachGIS DivisionDecember 05, 2017 !Hydrant !(Sewer Manhole !(SD Manhole City Water City Sewer Other Agency Sewer Private Sewer City SD Other Agency SD Private SD City Boundary Building PA2017-248 CITY OF NEWPORT BEACH UTILITIES DEPARTMENT FIRE HYDRANT FLOW TEST AMOUNT PAID:$338.00 DATE:03/12/2018 CHECK NO:TIME:6:00 AM TEST NO:WEATHER:CLEAR PROJECT: PROJECT LOCATION:1224 IRVINE AVE TEST CONDUCTED FOR:C&V CONSULTING, INC. TEST PERFORMED BY:BULLMAN, AUGER TEST WITNESSED BY: FIELD OBSERVATIONS AND FLOW DATA STATIC HYDRANT # : 541 LOCATION: 1150 IRVINE AVE F/H MANUFACTURER: JONES NUMBER & SIZE OF OUTLETS: 1-2.5" 1-4" STATIC PRESSURE, ( Ps , psi), PRE-FLOW:88 RESIDUAL PRESSURE, (Pr , psi) FLOWING:78 FLOW HYDRANT # : 543 LOCATION: 1224 IRVINE AVE F/H MANUFACTURER:JONES NUMBER & SIZE OF OUTLETS:2- 2.5" 1-4 " STATIC PRESSURE, PRE-FLOW (INFO ONLY, NOT FOR TEST CALCS) : F/H OUTLET SIZE ( 2.5 or 4.0):2.5 (d, inches) FLOW LOSS COEFFICIENT - TUBE C=1.0 / BUTT C=0.9 0.9 PITOT GAUGE READING ( p, psi ):62 OBSERVED FLOW: THE OBSERVED FLOW FROM A HYDRANT OUTLET IS CALCULATED FROM THE FOLLOWING EQUATION: WHERE; Q IS THE OBSERVED FLOW IN GPM; d IS THE OUTLET DIAMETER IN INCHES; p IS THE PITOT GAUGE PRESSURE IN PSI; AND C IS THE FLOW LOSS COEFFICIENT ( C = 1.0 FOR FLOW TUBES AND C = 0.9 FOR BUTT FLOW READINGS ). OBSERVED FLOW (Qs, gpm):1321 GPM DISCHARGE CALCS: THE DISCHARGE FOR A GIVEN FIRE HYDRANT CAN BE DETERMINED FROM THE FOLLOWING EQUATION USING THE INITIAL ( STATIC ) WATER PRESSURE AND THE RESIDUAL ( DYNAMIC ) WATER PRESSURE: WHERE; Q ( STATIC OR RESIDUAL ) IS THE FLOW IN GPM; AND P ( STATIC OR RESIDUAL ) IS THE PRESSURE IN PSI. NOTE: A 10 PSI DROP IS REQUIRED FOR VALID TEST! CALCULATED FLOW AT 20 psi (Qr, gpm):3720 GPM Q s =29.83 Cd 2( )p2 Q r =Q s Ps -20 Ps -Pr æçè ö÷ø 0.54 PA2017-248 CITY OF NEWPORT BEACH UTILITIES DEPARTMENT FIRE HYDRANT FLOW TEST AMOUNT PAID:$338.00 DATE:03/12/2018 CHECK NO:TIME:6:00 AM TEST NO:WEATHER:CLEAR PROJECT: PROJECT LOCATION:1270 RUTLAND ROAD TEST CONDUCTED FOR:C&V CONSULTING, INC. TEST PERFORMED BY:BULLMAN, AUGER TEST WITNESSED BY: FIELD OBSERVATIONS AND FLOW DATA STATIC HYDRANT # : 546 LOCATION: 1184 RUTLAND ROAD F/H MANUFACTURER: JONES NUMBER & SIZE OF OUTLETS: 2-2.5", 1-4" STATIC PRESSURE, ( Ps , psi), PRE-FLOW:90 RESIDUAL PRESSURE, (Pr , psi) FLOWING:80 FLOW HYDRANT # : 545 LOCATION: 1270 RUTLAND ROAD F/H MANUFACTURER:CLOW NUMBER & SIZE OF OUTLETS:1- 2.5" 1-4 " STATIC PRESSURE, PRE-FLOW (INFO ONLY, NOT FOR TEST CALCS) : F/H OUTLET SIZE ( 2.5 or 4.0):2.5 (d, inches) FLOW LOSS COEFFICIENT - TUBE C=1.0 / BUTT C=0.9 0.9 PITOT GAUGE READING ( p, psi ):53 OBSERVED FLOW: THE OBSERVED FLOW FROM A HYDRANT OUTLET IS CALCULATED FROM THE FOLLOWING EQUATION: WHERE; Q IS THE OBSERVED FLOW IN GPM; d IS THE OUTLET DIAMETER IN INCHES; p IS THE PITOT GAUGE PRESSURE IN PSI; AND C IS THE FLOW LOSS COEFFICIENT ( C = 1.0 FOR FLOW TUBES AND C = 0.9 FOR BUTT FLOW READINGS ). OBSERVED FLOW (Qs, gpm):1222 GPM DISCHARGE CALCS: THE DISCHARGE FOR A GIVEN FIRE HYDRANT CAN BE DETERMINED FROM THE FOLLOWING EQUATION USING THE INITIAL ( STATIC ) WATER PRESSURE AND THE RESIDUAL ( DYNAMIC ) WATER PRESSURE: WHERE; Q ( STATIC OR RESIDUAL ) IS THE FLOW IN GPM; AND P ( STATIC OR RESIDUAL ) IS THE PRESSURE IN PSI. NOTE: A 10 PSI DROP IS REQUIRED FOR VALID TEST! CALCULATED FLOW AT 20 psi (Qr, gpm):3494 GPM Q s =29.83 Cd 2( )p2 Q r =Q s Ps -20 Ps -Pr æçè ö÷ø 0.54 PA2017-248 APPENDIX G Existing As-Built Plans PA2017-248 10201024 1032 10401048 1058 106210801028 1036 1044 105211001627 1068(1-6)1082(7-12)1100(1-12)1128(1-6)1142(1-6)1156(1-6)16331101 1100110511111106111211171123111811241522 15271533153915451201120012041207121012151216 1170(1-6)1270(1-7)1214(1-6)1228(1-6)1184(1-6)1200(1-6)1242(1-6)1256(1-6)1104110811121116112011281130 1150 11241132 2100 112911301135113611411142114712011200120612071212121512181221122412211222122713011307190719151921192712461250125212482145 21492147 2143 2139 2141 21372135 21312133 2129 2127 21152113 21012103 2123 2125 210921112121 21052107127312711281128512831279127512771269126512611257125912631267125512511253 1235123312471245 1237 1239 1249 12411243 1203 12051207 12311229 11991201 120912111213121512251227121712191221122311971195 1183 118111871185118911881186119111931184118211961198120212001194123811901192121012081212121412421240120612041216123612341222 12301228 1226 1224 1220 1232 1218 2119211711801244 10821126 !( !( !(!(!( !( !( !( !( !( !( !( !( !( !( !( !( !( !( !( !(!( !( !( !( !( !(!( !( !( !( !( !( ! ! ! ! ! ! ! ! !! ! ! ! ! !12'' PVC6'' ACP 12'' PVC12'' PVC8'' ACP 6'' A C P 8'' ACP12'' PVC8'' ACP 6 ' ' ACP 6' ' AC P24'' RCP18'' RCP27'' RCP36'' RCP36'' RCP 15'' RCP 3 0 ' ' R C P 3 0 ' ' RCP8'' VCP 8' ' VCP 8'' V C P ''''8'' VCP 8' ' VC P ''8'' V C P 8'' VCP KENT LN 18TH ST ABBIE WAY MARINERS DR PEMBROKELNR U TL A N D R D IRVINE AVEN E W P O RT BEACHN E W P O RT BEACHC O S T A MESAC O S T A MESA Mariners Pointe.mxd Mariner's Pointe1244 Irvine Avenue 0 12562.5 FeetI City of Newport BeachGIS DivisionDecember 05, 2017 !Hydrant !(Sewer Manhole !(SD Manhole City Water City Sewer Other Agency Sewer Private Sewer City SD Other Agency SD Private SD City Boundary Building PA2017-248 PA2017-248 PA2017-248 PA2017-248 PA2017-248 PA2017-248 PA2017-248 PA2017-248 PA2017-248 PA2017-248