Columbia Hydronics Brochure
Transcription
Columbia Hydronics Brochure
Pressure Booster Pumping Systems (FMV) Pressure Booster Multistage Variable Speed Pumping Systems (FMV) Multistage Variable Speed Meets ASHRAE Standard 90.1-2010 Energy Standard without the need of remote sensors Certified Compliant to the Federal Safe Drinking Water Act (Section 1417) Meets Meets ASHRAE ASHRAE Standard Standard 90.1-2010 90.1-2010 Energy Energy Standard Standard without without the the need need of of remote remote sensors sensors Certified Compliant to NSF61 (Drinking Water Components—Health Effects) Certified Certified Compliant Compliant to to the the Federal Federal Safe Safe Drinking Drinking Water Water Act Act (Section (Section 1417) 1417) Certified Compliant to the State of California Health & Safety Code 116875 Compliant Certified Certified Compliant Compliant to to NSF61 NSF61 (Drinking (Drinking Water Water Components—Health Components—Health Effects) Effects) (No-Lead Plumbing Products) Interfaces to Building Automation Systems (B.A.S.) Certified Certified Compliant Compliant to to the the State State of of California California Health Health & & Safety Safety Code Code 116875 116875 and Supervisory Control and Data Acquisition Systems (SCADA) (No-Lead (No-Lead Compliant Compliant Plumbing Plumbing Products) Products) Approved by the City of Los Angeles RR5706 Interfaces Interfaces to to Building Building Automation Automation Systems Systems (B.A.S.) (B.A.S.) and and Supervisory Supervisory Control Control and and Data Data Acquisition Acquisition Systems Systems (SCADA) (SCADA) Approved Approved by by the the City City of of Los Los Angeles Angeles RR5706 RR5706 Made in America FTPB FMV 2014 FTPB FMV 2014 Made Made in in America America FLOWTHERM SYSTEMS BOOSTER DESCRIPTION Standard sizes are available with flow rates up to 1200 gpm and boost pressures exceeding 200 psi. All of the FMV series boosters are UL listed and built to the requirements of NSF/ANSI 61 and NSF/ANSI 372 insuring the most dependable and safest delivery system of domestic water. The control system provides an energy efficient solution to any booster application with algorithms which meet ASHRAE Standard 90.1-2010 without the need of remote sensors. The control panels can interface with Building Automation Systems (BAS) including BACnet and LonWorks and are available with Scada Interfaces. FlowTherm systems FMV series of booster pumps provide the highest in reliability for delivery of potable and reclaim water system in the industry. Every system is built with series 300 stainless steel manifolds which are supported from the integral structural steel frame. Each system utilizes Xylem multistage pumps constructed of stainless steel impellers and pumps sleeves and rugged cast iron or stainless steel pump bodies. These booster systems are easy to startup and services with door mounted H/O/A switches and disconnects for each motor and isolation valves for each pump. The tables and charts included with this brochure are for standard FlowTherm FMV booster systems. Non-standard systems are available in any capacity a configuration. Contact FlowTherm systems for custom system requests. History of Flowtherm Systems systems FlowTherm systems has over 40 years of experience in the manufacturing of package systems for the plumbing and mechanical contracting industries. Our proven system application experience has resulted in our ability to provide robust, efficient and dependable packaged systems meeting the most stringent industry requirements. Our booster systems are certified to NSF/ANSI 61 & 372 insuring a clean safe delivery of potable water. Flowtherm systems mechanical pumping packages and boiler packages are all UL Listed providing the highest quality assurance for every system. FlowTherm systems works closely with our customers in the commercial, manufacturing and institutional markets to provide the best custom package solutions, including integration of DDC controls systems, ASME piping standards and coordination of power and system connections required to meet the facility needs. Customer Lists Commercial San Francisco 49’ers San Francisco Giants Ritz Carlton Qualcomm Starbucks Jay Paul Co. Institutional San Franciso Int Airport Los Angeles Int Airport Stanford University University of Nevada U. S. Navy Industrial & Manufacturing Intel Apple PG&E Tesla U.S. Marine Corp Roche Sutter Hospital Chevron Olive Garden Cal Trans Genentech Amici’s Pizza East Bay Municipal Utility District Motorola Apple Stores Hyatt Regency Santa Rita Jail Marriott Hotels Boston Properties Holiday Inn Hotels Peppermill Reports Sizzler Restaurants Kaiser Permanente Wasco State Prison Mule Creek Prison Dow Chemical Hewlett Packard Lawrence Livermore McNeil Island Prison National Laboratory Tehama County Jail Lockheed Martin Santa Clara County Jail Dow Chemical College of Marin KLA Tencor Butte College Bechtel El Camino Hospital Guam Community College Feather River Hospital Santa Clara University Urban West Associates Albany School District Cache Creek Resort San Leandro School District North Star Ski Resort San Lorenzo School District E-Power Mammoth Mountain Woodside School District National Semi-Conductor Monji Forest Products, Guam Micron Coca Cola ,Guam Optisolar San Jose Crime Lab Camp Hovey, Korea Page 2 FMV DUPLEX BOOSTER SELECTION FMV series of duplex booster pump models are selected using the family of Duplex Booster Capacity Curves for the duplex booster models (FMV2-XX) included in this brochure. The total required system design flow rate is typically determined by using the fixture unit method and then converting the total fixture units to gpm using the Hunter Curves. The required pressure boost of the system is typically determined by adding the static lift required to the highest fixture, the friction loss of the system at the maximum flow rate and then adding the minimum inlet pressure required at the critical fixture. The minimum suction pressure available at the booster pump inlet is then subtracted to determine the required pressure boost. The Required Pressure Boost shown on the capacity curves include all internal booster system pressure losses so there is no need to include any additional booster system pressure losses when using these capacity curves. Standard duplex sizes are available with flow capacities in excess of 800gpm and pressure boosts exceeding 200 psi. Contact FlowTherm systems for custom sizes and configurations. FMV Duplex Booster Capacity Curves System Performance SYSTEM Page 3 Booster Models Skid Width Discharge Height Suction Height Center to Center Bolt Width (SW) (DH) (SH) (CC) (BW) FMV2-1LH 3'-6" 9-7/8" 9-7/8" 3'-1-1/8" 3'-3" FMV2-1 3'-6" 9-7/8" 9-7/8" 3'-1-1/8" 3'-3" FMV2-2 3'-6" 9-7/8" 9-7/8" 3'-1-1/8" 3'-3" FMV2-3LH 3'-6" 10-1/2" 10-1/2" 3'-1-1/2" 3'-3" FMV2-3 3'-6" 10-1/2" 10-1/2" 3'-1-1/2" 3'-3" FMV2-4 3'-6" 10-1/2" 10-1/2" 3'-1-1/2" 3'-3" FMV2-5LH 3'-6" 10-1/2" 10-1/2" 3'-1-5/8" 3'-3" FMV2-5 3'-6" 10-1/2" 10-1/2" 3'-1-5/8" 3'-3" FMV2-6 3'-6" 10-1/2" 10-1/2" 3'-1-5/8" 3'-3" FMV2-7 3'-6" 10-1/2" 10-1/2" 3'-1-5/8" 3'-3" FMV2-8 3'-6" 10-1/2" 10-1/2" 3'-1-5/8" 3'-3" FMV2-9LH 3'-6" 11-1/8" 11-1/8" 2'-8-3/8" 3'-3" FMV2-9 3'-6" 11-1/8" 11-1/8" 2'-8-3/8" 3'-3" FMV2-10 3'-6" 11-1/8" 11-1/8" 2'-8-3/8" 3'-3" FMV2-11 3'-6" 11-1/8" 11-1/8" 2'-8-3/8" 3'-3" FMV2-12 3'-6" 11-1/8" 11-1/8" 2'-8-3/8" 3'-3" FMV2-13LH 3'-6" 1'-0-7/8" 1'-0-7/8" 3'-0-3/4" 3'-2" FMV2-13 3'-6" 1'-0-7/8" 1'-0-7/8" 3'-0-3/4" 3'-2" FMV2-14 3'-6" 1'-0-7/8" 1'-0-7/8" 3'-0-3/4" 3'-2" FMV2-15 3'-6" 1'-0-7/8" 1'-0-7/8" 3'-0-3/4" 3'-2" FMV2-16 3'-6" 1'-0-7/8" 1'-0-7/8" 3'-0-3/4" 3'-2" FMV2-17LH 4'-0" 1'-0-7/8" 1'-0-7/8" 3'-4-1/2" 3'-8" FMV2-17 4'-0" 1'-0-7/8" 1'-0-7/8" 4'-1-1/2" 3'-8" FMV2-18 4'-0" 1'-0-7/8" 1'-0-7/8" 3'-4-1/2" 3'-8" FMV2-19 4'-0" 1'-0-7/8" 1'-0-7/8" 3'-4-1/2" 3'-8" FMV2-20 4'-0" 1'-0-7/8" 1'-0-7/8" 3'-4-1/2" 3'-8" FMV2-21 4'-0" 1'-0-7/8" 1'-0-7/8" 3'-4-1/2" 3'-8" DUPLEX PRESSURE BOOSTER DUPLEX PRESSURE BOOSTER DIMENSIONS TABLE Notes: 1) Grooved pipe connections on all 4 ends. 2) Standard ANSI stub ends with 150# or 300# backup flanges are available. 3) All dimensions are in inches and may vary +/- 1/2" 4) Information shown should not be used for construction Certified drawings available for construction. Page 4 DUPLEX PRESSURE BOOSTER DETAIL TABLE TABLE MODEL # PUMPS HP CHECK VALVE HEADER OPER. (LBS) *FLA 208v/230v/460v CGL CGH CGW FMV2-1LH 5eSV-3 1 1 ½" 2 ½" 670 8.4 / 7.6 / 3.8 1'-4" 2'-2" 1'-6" FMV2-1 5eSV-5 1½ 1 ½" 2 ½" 690 11.1 / 10.0 / 5.0 1'-4½" 2'-3" 1'-6" FMV2-2 5eSV-10 3 1 ½" 2 ½" 730 17.2 / 15.6 / 7.8 1'-5" 2'-4" 1'-6" FMV2-3LH 10eSV-2 2 1 ½" 2 ½" 730 13.3 / 12.0 / 6.0 1'-4½" 2'-3" 1'-6" FMV2-3 10eSV-6 5 1 ½" 2 ½" 840 27.4 / 24.4 / 13.4 1'-5½" 2'-9" 1'-6" FMV2-4 10eSV-9 7½ 1 ½" 2 ½" 890 41.6 / 37.6 / 18.8 1'-6" 2'-9½" 1'-6" FMV2-5LH 22eSV-1 3 2" 3" 790 17.2 / 15.6 / 7.8 1'-5" 2'-4" 1'-6" FMV2-5 15eSV-2 5 2" 3" 850 27.4 / 24.4 / 13.4 1'-5½" 2'-9" 1'-6" FMV2-6 15eSV-4 7½ 2" 3" 900 41.6 / 37.6 / 18.8 1'-6" 2'-9½" 1'-6" FMV2-7 15eSV-5 10 2" 3" 1,000 55.9 / 50.6 / 25.3 1'-6 ½" 2'-10" 1'-6" FMV2-8 15eSV-8 15 2" 3" 1,200 79.4 / 71.8 / 35.9 1'-7" 2'-11" 1'-6" FMV2-9LH 33eSV-1 5 2 ½" 4" 1,160 27.4 / 24.4 / 13.4 1'-5" 2'-9" 1'-6" FMV2-9 33eSV-2/2 7½ 2 ½" 4" 1,220 41.6 / 37.6 / 18.8 1'-5½" 2'-9½" 1'-6" FMV2-10 33eSV-2 10 2 ½" 4" 1,300 55.9 / 50.6 / 25.3 1'-6" 2'-10" 1'-6" FMV2-11 33eSV-3 15 2 ½" 4" 1,480 79.4 / 71.8 / 35.9 1'-6 ½" 2'-11" 1'-6" FMV2-12 FMV2-13LH FMV2-13 33eSV-4 20 2 ½" 4" 1,700 105.0 / 9.5 / 47.5 1'-7" 3'-0" 1'-6" 46eSV-1/1 5 3" 4" 1,550 27.4 / 24.4 / 13.4 1'-6 ½" 2'-9" 1'-6" 46eSV-1 10 3" 4" 1,550 55.9 / 50.6 / 25.3 1'-8" 2'-10" 1'-6" FMV2-14 46eSV-2 15 3" 4" 1,680 79.4 / 71.8 / 35.9 1'-9" 2'-11" 1'-6" FMV2-15 46eSV-3/2 20 3" 4" 1,900 105.0 / 9.5 / 47.5 1'-9" 3'-0" 1'-6" FMV2-16 46eSV-3 25 3" 4" 1,930 128.3 / 116.0 / 58.0 1'-9" 3'-3" 1'-6" FMV2-17LH 66eSV-1/1 10 4" 6" 2,130 55.9 / 50.6 / 25.3 1'-10" 3'-0" 1'-9" FMV2-17 66eSV-1 15 4" 6" 2,130 79.4 / 71.8 / 35.9 1'-11" 3'-1 " 1'-9" FMV2-18 66eSV-2/1 20 4" 6" 2,220 105.0 / 9.5 / 47.5 1'-11" 3'-1 ½" 1'-9" FMV2-19 66eSV-2 25 4" 6" 2,560 128.3 / 116.0 / 58.0 1'-11 ½" 3'-2 " 1'-9" FMV2-20 66eSV-3/2 30 4" 6" 2,640 150.4 / 136.0 / 68.0 2'-0" 3'-2 ½" 1'-9" FMV2-21 66eSV-3 40 4" 6" 2,650 203.4 / 184.0 / 92.0 2'-0" 3'-3" 1'-9" *Pump motor amps are based on 3500RPM, Premium Efficient, TEFC Motors. Page 5 FMV TRIPLEX BOOSTER SELECTION FMV TRIPLEX BOOSTER SELECTION FMV series of triplex booster pump models are selected using the family of Triplex Booster Capacity Curves for the triplex booster models (FMV3-XX) included in this brochure. The total required system design flow rate is typically determined by using the fixture unit method and then converting the total fixture units to gpm using the Hunter Curves. The required pressure boost of the system is typically determined by adding the static lift required to the highest fixture, the friction loss of the system at the maximum flow rate and then adding the minimum inlet pressure required at the critical fixture. The minimum suction pressure available at the booster pump inlet is then subtracted to determine the required pressure boost. The Required Pressure Boost shown on the capacity curves include all internal booster system pressure losses so there is no need to include any additional booster system pressure losses when using these capacity curves. Standard triplex sizes are available with flow capacities in excess of 800gpm and pressure boosts exceeding 200 psi. Contact FlowTherm systems for custom sizes and configurations. FMV Triplex Booster Capacity Curves System Performance SYSTEM Page 6 Skid Width Discharge Height Suction Height Center to Center Bolt Width (SW) (DH) (SH) (CC) (BW) FMV3-1LH 4'-0" 9 7/8" 9 7/8" 3' - 1 1/8" 3' - 8 1/2" FMV3-1 4'-0" 9 7/8" 9 7/8" 3' - 1 1/8" 3' - 8 1/2" FMV3-2 4'-0" 9 7/8" 9 7/8" 3' - 1 1/8" 3' - 8 1/2" FMV3-3LH 4'-0" 10 1/2" 10 1/2" 3' - 5 3/4" 3' - 8 1/2" FMV3-3 4'-0" 10 1/2" 10 1/2" 3' - 5 3/4" 3' - 8 1/2" FMV3-4 4'-0" 10 1/2" 10 1/2" 3' - 5 3/4" 3' - 8 1/2" FMV3-5LH 4'-0" 10 1/2" 10 1/2" 3' - 4 5/8" 3' - 8 1/2" FMV3-5 4'-0" 10 1/2" 10 1/2" 3' - 4 5/8" 3' - 8 1/2" FMV3-6 4'-0" 10 1/2" 10 1/2" 3' - 4 5/8" 3' - 8 1/2" FMV3-7 4'-0" 10 1/2" 10 1/2" 3' - 4 5/8" 3' - 8 1/2" FMV3-8 4'-0" 10 1/2" 10 1/2" 3' - 4 5/8" 3' - 8 1/2" FMV3-9LH 4'-0" 11 1/8" 11 1/8" 3' - 0 1/4" 3' - 8 1/2" FMV3-9 4'-0" 11 1/8" 11 1/8" 3' - 0 1/4" 3' - 8 1/2" FMV3-10 4'-0" 11 1/8" 11 1/8" 3' - 0 1/4" 3' - 8 1/2" FMV3-11 4'-0" 11 1/8" 11 1/8" 3' - 0 1/4" 3' - 8 1/2" FMV3-12 4'-0" 11 1/8" 11 1/8" 3' - 0 1/4" 3' - 8 1/2" FMV3-13LH 4'-0" 1' - 0 7/8" 1' - 0 7/8" 3' - 2 5/8" 3' - 8 1/2" FMV3-13 4'-0" 1' - 0 7/8" 1' - 0 7/8" 3' - 2 5/8" 3' - 8 1/2" FMV3-14 4'-0" 1' - 0 7/8" 1' - 0 7/8" 3' - 2 5/8" 3' - 8 1/2" FMV3-15 4'-0" 1' - 0 7/8" 1' - 0 7/8" 3' - 2 5/8" 3' - 8 1/2" FMV3-16 4'-0" 1' - 0 7/8" 1' - 0 7/8" 3' - 2 5/8" 3' - 8 1/2" FMV3-17LH 4'-0" 1' - 0 7/8" 1' - 0 7/8" 3' - 6 5/8" 3' - 8 1/2" FMV3-17 4'-0" 1' - 0 7/8" 1' - 0 7/8" 3' - 6 5/8" 3' - 8 1/2" FMV3-18 4'-0" 1' - 0 7/8" 1' - 0 7/8" 3' - 6 5/8" 3' - 8 1/2" FMV3-19 4'-0" 1' - 0 7/8" 1' - 0 7/8" 3' - 6 5/8" 3' - 8 1/2" FMV3-20 4'-0" 1' - 0 7/8" 1' - 0 7/8" 3' - 6 5/8" 3' - 8 1/2" FMV3-21 4'-0" 1' - 0 7/8" 1' - 0 7/8" 3' - 6 5/8" 3' - 8 1/2" TRIPLEX PRESSURE BOOSTER TRIPLEX PRESSURE BOOSTER DIMENSIONS TABLE Booster Models Notes: 1) Grooved pipe connections on all 4 ends. 2) Standard ANSI stub ends with 150# or 300# backup flanges are available. 3) All dimensions are in inches and may vary +/- 1/2" 4) Information shown should not be used for construction Certified drawings available for construction. Page 7 TRIPLEX PRESSURE PRESSURE BOOSTER BOOSTER DETAIL TRIPLEX DETAIL TABLE TABLE MODEL # FMV3-1LH PUMPS HP CHECK VALVE HEADER OPER. (LBS) *FLA 208v/230v/460v CGL CGH CGW 5eSV-3 1 1 ½" 2 ½" 930 12.6 / 8.6 / 5.7 2'-2" 1'-1" FMV3-1 5eSV-5 1½ 1 ½" 2 ½" 960 16.6 / 15.0 / 7.5 2'-0" 2'-0" 2'-2" 1'-1" FMV3-2 5eSV-10 3 1 ½" 2 ½" 1,030 25.9 / 23.4 / 11.7 2'-0" 2'-2" 1'-1" FMV3-3LH 10eSV-2 2 1 ½" 3" 1,060 19.9 / 18.0 / 9.0 2'-0" 2'-2" FMV3-3 10eSV-6 5 1 ½" 3" 1,220 41.1 / 36.6 / 18.6 2'-0" 2'-4" 1'-1" 1'-1 ½" FMV3-4 10eSV-9 7½ 1 ½" 3" 1,290 62.4 / 56.4 / 28.2 2'-0" 2'-9" 1'-1 ½" FMV3-5LH 22eSV-1 3 2" 4" 1,170 25.9 / 23.4 / 11.7 2'-0" 2'-2" FMV3-5 15eSV-2 5 2" 4" 1,270 41.1 / 36.6 / 18.6 2'-0" 2'-4" 1'-1" 1'-1 ½" FMV3-6 15eSV-4 7.5 2" 4" 1,340 62.4 / 56.4 / 28.2 2'-0" 2'-9" 1'-1 ½" FMV3-7 15eSV-5 10 2" 4" 1,490 83.4 / 75.4 / 37.2 1'-2" 15eSV-8 15 2" 4" 1,790 118.5 / 107.2 / 53.9 2'-1" 2'-1 ½" 2'-10" FMV3-8 2'-11" FMV3-9LH 33eSV-1 5 2 ½" 6" 1,840 41.1 / 36.6 / 18.6 2'-0" 2'-2" 1'-2" 1'-1 ½" FMV3-9 33eSV-2/2 7½ 2 ½" 6" 1,930 62.4 / 56.4 / 28.2 2'-0" 2'-9" 1'-1 ½" FMV3-10 33eSV-2 10 2 ½" 6" 2,050 83.4 / 75.4 / 37.2 2'-10" 1'-2" FMV3-11 33eSV-3 15 2 ½" 6" 2,320 118.5 / 107.2 / 53.9 2'-1" 2'-1 ½" 2'-11" 1'-2" FMV3-12 33eSV-4 20 2 ½" 6" 2,640 157.0 / 142.0 / 71.0 2'-2" 3'-0" 46eSV-1/1 5 3" 6" 2,240 41.1 / 36.6 / 18.6 2'-0" 2'-3" 1'-3" 1'-1 ½" FMV3-13 46eSV-1 10 3" 6" 2,240 83.4 / 75.4 / 37.2 1'-2" 46eSV-2 15 3" 6" 2,430 118.5 / 107.2 / 53.9 2'-1" 2'-1 ½" 2'-10" FMV3-14 2'-11" 1'-2" FMV3-15 46eSV-3/2 20 3" 6" 2,760 157.0 / 142.0 / 71.0 2'-2" 2'-2 ½" 3'-0" 1'-3" 3'-3" 1'-3" 3'-0" 1'-2" 3'-1" 1'-2" 1'-3" 1'-3 ½" FMV3-13LH FMV3-16 FMV3-17LH FMV3-17 46eSV-3 25 3" 6" 2,800 191.3 / 173.0 / 86.5 66eSV-1/1 10 4" 8" 3,060 83.4 / 75.4 / 37.2 66eSV-1 15 4" 8" 3,060 118.5 / 107.2 / 53.9 2'-1" 2'-1 ½" FMV3-18 66eSV-2/1 20 4" 8" 3,200 157.0 / 142.0 / 71.0 2'-2" 3'-2" FMV3-19 66eSV-2 25 4" 8" 3,700 191.3 / 173.0 / 86.5 2'-3" FMV3-20 66eSV-3/2 30 4" 8" 3,830 224.5 / 203.0 / 101.5 2'-3" 3'-5" 3'-5 ½" 40 4" 8" 3,840 304.1 / 275.0 / 137.5 2'-3" 3'-6" FMV3-21 66eSV-3 1'-4" 1'-4 ½" *Pump motor amps are based on 3500RPM, Premium Efficient, TEFC Motors. Page 8 FLOWTHERM SYSTEMS CONTROLS Aqualogic 1.0 Flowtherm Systems FMV series control panels are UL Listed 508A Industrial Control Panels. The panels are available in NEMA 1, NEMA 3R, NEMA 4 and NEMA 12 enclosures. All panels require only a single point power connection and include a door mounted main disconnect and are SCCR rated. Aqualogic 1.2 Each motor is individually protected with a motor system protection device and have individual disconnect switches. Aqualogic 2.0 All panels include door mounted H/O/A switches for each pump and a Human Machine Interface (HMI) for easy system operation. Custom built available. enclosures are also The control panel includes a PLC with PID control algorithms providing highly energy efficient solutions for any booster application. These algorithms include Dynamic Set Point (DSP) adjustment which meets the ASHRAE Standard 90.1-2010 without the need of remote sensors. Trend logging of all critical operation and alarms is provided and displayed on the door mounted HMI. The control panels will interface with Building Automation Systems (BAS) including BACnet, LonWorks and other systems. Page 9 PRESSURE BOOSTER SYSTEMS SYSTEMS FOR FOR NON-POTABLE PRESSURE BOOSTER NON-POTABLEWATER WATER Water reclamation systems are benefiting the world in which we live in many ways. Reclaim systems help to decrease diverting water from limited resources and sensitive eco-systems. The final process of a reclaim system is the Water Pumping Station or Booster Pump System. FlowTherm systems has provided integrated pumping systems to boost the pressure of reclaimed water for a wide variety of applications including: Supply water to urinals and water closets Irrigations systems Water make-up to cooling towers Many of these systems include controls which integrate with SCADA or other Building Management Systems. Page 10 PRESSURE BOOSTER BOOSTER WORKSHEET: WORKSHEET: PRESSURE Job Name: Location: Required Discharge Pressure Available Suction Pressure Static Lift: (top fixture elevation—booster inlet elevation) PSI Static Gain or Loss: (From water main to booster) PSI Piping Friction Loss: PSI Piping Friction Loss: PSI PSI Required at highest fixture: (check fixture requirements; typically30 PSI) PSI Water Meter Loss: (Check meter curves) PSI Drawdown differential allowance: PSI Backflow Preventer Loss: (Check BFP Curves) PSI PSI Total Supply Pressure Available: PSI (recommend 10 PSI) Total Discharge Pressure Required: (Total Discharge Pressure Required) — (Total Supply Pressure Available) = (Required Pressure Boost) Required Pressure Boost: __________________ (PSI) Duplex System Model # FMV2- __ __ __ System Design Flow Rate: System Design Flow Rate: __________________ (GPM) Triplex System Model # FMV3- __ __ __ Job Name: Location: Required Discharge Pressure Available Suction Pressure Static Lift: (top fixture elevation—booster inlet elevation) PSI Static Gain or Loss: (From water main to booster) PSI Piping Friction Loss: PSI Piping Friction Loss: PSI PSI Required at highest fixture: (check fixture requirements; typically30 PSI) PSI Water Meter Loss: (Check meter curves) PSI Drawdown differential allowance: PSI Backflow Preventer Loss: (Check BFP Curves) PSI PSI Total Supply Pressure Available: PSI (recommend 10 PSI) Total Discharge Pressure Required: (Total Discharge Pressure Required) — (Total Supply Pressure Available) = (Required Pressure Boost) Required Pressure Boost: __________________ (PSI) Duplex System Model # FMV2- __ __ __ System Design Flow Rate: __________________ (GPM) Triplex System Model # FMV3- __ __ __ Page 11 FLOWTHERM SYSTEMS CUSTOM PACKAGES FLOWTHERM SYSTEMS PACKAGES FLOWTHERM SYSTEMS CUSTOMCUSTOM PACKAGES FLOWTHERM SYSTEMS CUSTOM PACKAGES For more information, please contact: For For more more information, information, please please contact: contact: For more information, please contact: 11100 NE 34th Circle 1655 Fairview Ave #202 Vancouver, WA 98682 Boise, ID 83702 Phone: 360-883-2600 Phone: 208-345-2744 11100 11100 NE NE 34th 34th Circle Circle 1655 1655 Fairview Fairview Ave Ave #202 #202 12828 Gateway Dr, Bldg 5 552 W. 58th Ave, Unit A Vancouver, Vancouver, WA WA 98682 98682 Boise, Boise, ID ID 83702 83702 Anchorage, AK 99518 Tukwila, WA 98168 Phone: Phone: 360-883-2600 360-883-2600 Phone: Phone: 208-345-2744 208-345-2744 Phone: 206-241-0500 Phone: 907-563-3337 12828 12828 Gateway Gateway Dr, Dr, Bldg Bldg 55 552 552 W. W. 58th 58th Ave, Ave, Unit Unit A A 200 N. Mullan Road, Suite 200 P O Box 755 Tukwila, Tukwila, WA WA 98168 98168 Anchorage, Anchorage, AK AK 99518 99518 11100 34th Circle 1655 Fairview Ave #202 Spokane, WANE 99206 Philipsburg, MT Phone: Phone:WA 206-241-0500 206-241-0500 Phone: Phone: 907-563-3337 907-563-3337 Vancouver, 98682 Boise, ID 83702 Phone: 509-363-1832 Phone: 406-360-7456 Phone: 360-883-2600 Phone: 208-345-2744 200 200 N. N. Mullan Mullan Road, Road, Suite Suite 200 200 P PO O Box Box 755 755 Spokane, WABldg 99206 99206 Philipsburg, Philipsburg, MT MTA 12828Spokane, Gateway WA Dr, 5 552 W. 58th Ave, Unit Phone: Phone: 509-363-1832 509-363-1832 Phone: Phone: 406-360-7456 406-360-7456 Tukwila, WA 98168 Anchorage, AK 99518 Email: [email protected] Web: www.chchydronics.com Phone: 206-241-0500 Phone: 907-563-3337 200 N. Mullan Road, Suite 200 P O Box 755 Email: Email: [email protected] [email protected] Web: Web: www.chchydronics.com www.chchydronics.com Spokane, WA 99206 Philipsburg, MT Phone: 509-363-1832 Phone: 406-360-7456 Email: [email protected] Web: www.chchydronics.com