1、11-10 22 11 23 - 1 SECTION 22 11 23 DOMESTIC WATER PUMPS SPEC WRITER NOTE: Delete between /-/ if not applicable to project. Also delete any other item or paragraph not applicable in the section and renumber the paragraphs. PART 1 - GENERAL 1.1 DESCRIPTION A. Hot water circulating pump, hot water rec
2、irculation pump and domestic water pressure booster system. 1.2 RELATED WORK A. Section 22 05 11, COMMON WORK RESULTS FOR PLUMBING. B. Section 22 05 12, GENERAL MOTOR REQUIREMENTS FOR PLUMBING EQUIPMENT. C. SECTION 22 08 00 COMMISSIONING OF PLUMBING SYSTEMS. Requirements for commissioning, systems r
3、eadiness checklist, and training. D. Section 26 29 11, LOW-VOLTAGE MOTOR STARTERS. 1.3 QUALITY ASSURANCE A. Domestic Water Pressure Booster System: 1. Components shall be furnished by a single manufacturer and the system shall be the standard cataloged product of the manufacturer. 2. Shop Test: Wate
4、r booster unit and its component parts shall undergo a thorough electric and hydraulic operating test prior to shipment. Tests shall include a system operating flow test from zero to 100 percent of design flow rate under specified suction and system pressure conditions. Certified performance curves
5、shall be furnished. 1.4 SUBMITTALS A. Submit in accordance with Section 01 33 23, SHOP DRAWINGS, PRODUCT DATA, AND SAMPLES. B. Manufacturers Literature and Data: 1. Pump: a. Manufacturer and model. b. Operating speed. c. Capacity. d. Characteristic performance curves. 2. Motor: a. Manufacturer, /fra
6、me and type/. b. Speed. c. Current Characteristics. d. Efficiency. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-11-10 22 11 23 - 2 C. Certificate of shop test for domestic water booster system. Provide certified performance curves. D. Certified co
7、pies of all the factory and construction site test data sheets and reports. E. Complete operating and maintenance manuals including wiring diagrams, technical data sheets and information for ordering replaceable parts: 1. Include complete list indicating all components of the systems. 2. Include com
8、plete diagrams of the internal wiring for each item of equipment. 3. Diagrams shall have their terminals identified to facilitate installation, operation and maintenance. F. Completed System Readiness Checklist provided by the Commissioning Agent and completed by the contractor, signed by a qualifie
9、d technician and dated on the date of completion, in accordance with the requirements of Section 22 08 00 COMMISSIONING OF PLUMBING SYSTEMS. 1.5 APPLICABLE PUBLICATIONS A. The publications listed below form a part of this specification to the extent referenced. The publications are referenced in the
10、 text by the basic designation only. B. National Electrical Manufacturers Association (NEMA): ICS6-93 (R2006 ) . Industrial Control and Systems Enclosures 250-08 . Enclosures for Electrical Equipment (1000 Volts Maximum) C. American Society of Mechanical Engineers (ASME): Boiler and Pressure Vessel
11、Code: 2010 Section VIII . Pressure Vessels, Division I and II D. Underwriters Laboratories, Inc. (UL): 508-99 (R2008) . Standards for Industrial Control Equipment PART 2 - PRODUCTS SPEC WRITER NOTE: Make material requirements agree with applicable requirements specified in the referenced Applicable
12、Publications. Update and specify only that which applies to the project. Coordinate and assure that the electrical characteristics specified below are clearly shown on the proper drawings. 2.1 CIRCULATING PUMP A. Centrifugal, single or multi stage, constructed to prevent contact of water with metal
13、other than nonferrous. Driver shall be electric motor, close coupled or connected by flexible or magnetic coupling. Pump for hot water system shall be designed for 65 degrees C (150 degrees F) water service. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IH
14、S-,-,-11-10 22 11 23 - 3 B. Mounting shall be either of the following: 1. In-line mounted. 2. Floor mounted set on common bed plate with drip lip. C. Casings: Epoxy coated cast iron, bronze, stainless steel, vertically or horizontally split. D. Impeller: High grade, cast brass or bronze, accurately
15、machined and properly balanced. E. Motors: Maximum 40 degrees C (104 degrees F) ambient temperature rise, drip proof, for operation with current, voltage, phase and cycle shown in schedule on Electrical drawings, conforming to NEMA 250-Type 4. Size the motor capacity to operate the pump without over
16、loading. In-line pump motors shall not exceed 1800 rpm and shall be provided with spring mountings or equal devices to assure quiet operation. Motors shall be equipped with thermal overload protection. When motor has cooled down it shall re-start automatically if the operating control has been left
17、on and the system requires pump to start. F. Pump shall operate continuously with “on-off“ switch for shut down. In the inlet and outlet piping of the pump, shutoff valves shall be installed to permit service to the pump without draining the system. G. A check valve shall be installed in the pump di
18、scharge piping immediately downstream of the pump 2.2 INLINE HOT WATER RECIRCULATING PUMP A. Centrifugal in-line horizontal oil lubricated pump designed for quiet operation and 862 kPa (125 psi). B. Bronze body construction capable of pumping _ LPM ( _GPM) _ Meters of head ( _ Feet of head) when dri
19、ve by _ HP single phase, _ VAC motor. Pump shall be non-overloading at any point on the pump curve. C. Pump controlled from on/off aquastat located at pump. In addition, the pump shall be provided with “on-off“ switch for shut down. In the inlet and outlet piping of the pump shutoff valves shall be
20、installed to permit service to the pump without draining the system. A check valve shall be installed in the pump discharge piping immediately downstream of the pump. 2.3 DOMESTIC WATER PRESSURE BOOSTER SYSTEM SPEC WRITER NOTE: Coordinate and assure that the electrical characteristics specified belo
21、w are clearly shown on the Contract Drawings. A. General: Provide a factory prefabricated, prewired and pretested multi-stage pumping system including variable speed drive motors, pressure regulating valves with integral check valves, pressure transducers, Provided by IHSNot for ResaleNo reproductio
22、n or networking permitted without license from IHS-,-,-11-10 22 11 23 - 4 vibration pads, emergency switches, duplex flow switches, power and control panels, suction and discharge manifolds, gate valves, bypass loops with appropriate valves and check valves, low pressure cut off switches, hydro pneu
23、matic tanks and accessories. All components shall be furnished by a single manufacturer and the system shall be the standard cataloged product of the manufacturer. All components shall be factory installed on a common structural steel skid and shall be completely tested in the factory before shipmen
24、t. Manufacturer shall assume “unit responsibility” to ensure that all components effectively interface to execute the operation of the designed system. Provide auxiliary contacts for remote alarming to the Energy Control Center and BAC net compatible open-protocol type interface to DDC controls syst
25、em. B. System Operation and Controls: 1. System shall automatically maintain constant system pressure of _ kPa ( _ psi) at the outlet of the pressure control valve and hydropneumatic tank check valve at all times. Suction pressure varies from _ kPa ( _ psi) to _ kPa ( _ psi). The pump station shall
26、receive a 4-20mA signal from each pressure transducer, as provided by the pumping station manufacturer. A pressure transducer signal shall be provided for each pump controller. This will provide a complete lead/ lag system coupled with a true back-up control. The differential pressure transducers wi
27、ll monitor system discharge pressure versus suction line pressure and provide an analog signal (4- 20mA) to the pump control software, and allow the variable speed pump controller, to provide a variable Volts/ Hz output to the motor. Once the pressure drops below the set system pressure, the pump wi
28、ll start and provide system pressure (as determined by the station operator), if this pressure cannot be maintained by one pump, the next pump in sequence shall operate in a lead/lag capacity to provide the extra flow and pressure automatically without the use of additional panels or alternators. Th
29、e sequence of the pumps shall be field adjustable, and completely automatic without additional panels or alternator controls. The variable speed pump controller shall be completely integrated with the VFD. Special type motors will not be allowed. Refer to Section 22 05 12, GENERAL MOTOR REQUIREMENTS
30、 FOR PLUMBING EQUIPMENT. Pumps shall alternate based on elapsed run time. All program settings shall be based on centrifugal pump language and centrifugal pumps. Program settings must be field adjustable to provide on site adjustments. When the system experiences low demand, the variable speed pump
31、controllers will reduce the speed of each Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-11-10 22 11 23 - 5 pump, until demand has stopped. Pump controllers will stop each pump at zero demand, without the use of external switches or controls. 2. The
32、 pump logic controller shall provide the following standard user-selectable features: a. Low Suction Pressure Alarm and Cut Out b. High Suction Pressure Alarm and Cut Out c. Low System Pressure Alarm d. High System Pressure Alarm and Cut Out e. High Temperature Alarm and Cut Out f. Low Level Alarm a
33、nd Cut Out g. No-Flow Shut Down h. A-V alarm with push to silence feature i. Overload Failure Alarm j. Pump Failure Alarm C. Vertical Turbine Pump: Pumps shall be vertical multistage short-coupled industrial turbine pumps with variable speed drive motor, low pressure cutoff switches and bypass loops
34、 with ball, gate, check valves as indicated on the Contract Drawings. 1. Impellers: SAE 40 cast bronze, mixed flow enclosed type. 2. Balancing of Impellers: Each impeller shall be statically and dynamically balanced prior to assembly in pump casing. 3. Pump shaft: Stainless steel type 416. 4. Lubric
35、ation: Water lubricated type pump. 5. Pump Bowls: Cast Iron, stainless steel or bronze flanged and bolted. 6. Pump Bearings: SAE 660 bronze, radial type. 7. Pump Head: Fabricated steel with continuous bypass for low seal pressure. Cast iron heads are not acceptable. Pump head shall be lined same as
36、pump barrel. 8. Seal: Mechanical general purpose type, with sleeve mounting. Seal shall be rated at 1200 kPa (175 psi) maximum. 9. Adjustable Spacer Coupling: Removable type required so that pump seal can be replaced without disturbing motor. 10. Motor: Solid shaft motors balanced to 0.22 mm (0.0085
37、-inch) vibration amplitude shall be operated at any point on the pump head curve without overloading the motor. Conform to NEMA 250-Type 2. 11. Pump Barrel: Schedule 40 steel pipe with two-coat “baked“ internal lining to meet the potable water requirements of U.S. Food and Drug Administration. Unlin
38、ed pump barrels are not acceptable. Provide drain tapping. D. Pressure Regulating Valves: System pressure shall be maintained by pilot-operated, diaphragm type pressure regulating valves, rated at 2050 Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-
39、11-10 22 11 23 - 6 kPa (300 psi) minimum, one for each pump. Valves shall be piloted to control system pressure and to cause the valve to act as a non-slam check valve. Pilot shall be rated at 1200 kPa (175 psi) minimum. E. Hydropneumatic Tank: Bladder type, hydropneumatic, designed and constructed
40、in accordance with requirements of the ASME Pressure Vessel Code and stamped with appropriate symbol. Tank shall include pre-pressurized, sealed-in air cushion which shall accommodate pressure increases and expanded water volumes in the tank. Tank shall include butyl rubber or poly-propylene liner i
41、n lower, or water side of chamber. Minimum working pressure of tank shall be 1200 kPa (175 psi). Unit shall be designed and manufactured for domestic water applications. Insulate tank as specified. Check valve at hydropneumatic tank shall include small orifice for undue loading. F. Power and Control
42、 Panel: Class “A“ shadow box double NEMA 1 enclosure, UL labeled, bonderized double prime coated with baked enamel finish: 1. Fused disconnect switches with external operating handles. 2. Magnetic contactor for each motor with H.O.A. switch. 3. Door interlock. 4. Thermal overload protection relay fo
43、r each motor, three leg type. 5. Running light for each motor. 6. Power light for each motor. 7. Minimum run timers to prevent short cycle operation. 8. Control transformer, switch, circuit breaker, light. 9. Lead pump failure protection. 10. Provide auxiliary contacts for remote alarm monitoring to
44、 Energy Control Center II for a connection to a DDC type open protocol system cont5rol system capable of backnet interface. G. Motor and Starter: Maximum 40 degrees C (104 degrees F) ambient temperature rise, drip proof type motor, ball bearings, voltage and phase as shown in schedule on Electrical
45、drawings, conforming to NEMA 250-Type 4. Motor shall be of such capacity that brake horsepower required by driven equipment at normal rated capacity will not exceed nameplate rating of the motor. Refer to Section 22 05 12, GENERAL MOTOR REQUIREMENTS FOR PLUMBING EQUIPMENT. Provide each motor with au
46、tomatic, fully enclosed, magnetic starter of type specified in Section 26 29 11, LOW-VOLTAGE MOTOR STARTERS. H. Instrumentation: All instrumentation shall be factory installed and shall include the following 115 mm (4-1/2 inch) dial gages with shut-off cock. 1. Pump pressure gage for each pump. 2. S
47、ystem pressure gage. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-11-10 22 11 23 - 7 3. Suction pressure gage. I. Operating and Emergency Controls: 1. The pump station shall receive a 4-20mA signal from each pressure transducer, as provided by the
48、 pumping station manufacturer. A pressure transducer signal shall be provided for each pump controller. This will provide a complete lead/ lag system coupled with a true back-up control. The differential pressure transducers will monitor system discharge pressure versus suction line pressure and pro
49、vide an analog signal (4- 20mA) to the pump control software, and allow the variable speed pump controller, to provide a variable Volts/ Hz output to the motor. Once the pressure drops below the set system pressure, the pump will start and provide system pressure (as determined by the station operator), if this pressure cannot be maintained by one pump, the next pump in s
