ARMY UFGS-43 11 00-2008 FANS BLOWERS PUMPS OFF-GAS《风扇 鼓风机 气泵(废气)》.pdf

1、*USACE / NAVFAC / AFCESA / NASA UFGS-43 11 00 (April 2008)-Preparing Activity: USACE SupersedingUFGS-43 11 00 (January 2008)UNIFIED FACILITIES GUIDE SPECIFICATIONSReferences are in agreement with UMRL dated March 2008*SECTION TABLE OF CONTENTSDIVISION 43 - PROCESS GAS AND LIQUID HANDLING, PURIFICATI

2、ON, AND STORAGEEQUIPMENTSECTION 43 11 00FANS/BLOWERS/PUMPS; OFF-GAS04/08PART 1 GENERAL1.1 UNIT PRICES1.1.1 Measurement1.1.2 Payment1.2 REFERENCES1.3 SYSTEM DESCRIPTION1.3.1 Design Requirements1.3.2 Selection Criteria1.3.3 Performance Requirements1.3.4 Service Conditions1.4 SUBMITTALS1.5 QUALITY ASSU

3、RANCE1.5.1 Contractor1.5.2 Single Source Supplier1.5.3 Manufacturers Representative1.5.4 Detailed Drawings1.5.5 Detailed Process Flow Diagrams1.5.6 Piping and Instrumentation Diagram1.6 PARTNERING/PRE-INSTALLATION MEETING1.7 DELIVERY, STORAGE, AND HANDLING1.8 SEQUENCING AND SCHEDULING1.9 EXTRA MATER

4、IALS1.10 MAINTENANCE SERVICEPART 2 PRODUCTS2.1 MATERIALS AND EQUIPMENT2.1.1 Standard Products2.1.2 Nameplates2.2 AIR MOVING EQUIPMENT2.3 FANS2.3.1 Single-Stage2.3.2 Industrial Centrifugal2.3.3 Pressure BlowerSECTION 43 11 00 Page 1Provided by IHSNot for ResaleNo reproduction or networking permitted

5、without license from IHS-,-,-2.3.4 Multiple Stage2.3.5 Backwards Inclined Impeller2.4 DYNAMIC BLOWERS2.4.1 Single Stage Centrifugal2.4.2 Regenerative2.4.3 Axial Flow2.5 POSITIVE DISPLACEMENT BLOWERS2.5.1 Rotary Lobe2.5.2 Helical Screw2.6 VACUUM PUMPS2.6.1 Dry Rotary Blower2.6.2 Water-Sealed Rotary B

6、lower2.6.3 Rotary Vane2.6.4 Liquid Ring2.7 CASING OR HOUSING2.7.1 Constructiion Materials2.7.2 Single Piece Casing2.7.3 Horizontally Split Casing2.7.4 Vertically Split Casing2.7.5 Connections2.7.5.1 Inlet and Discharge Connections2.7.5.2 Casing Drains2.7.5.3 Lifting Eyes2.8 BLADES OR IMPELLERS2.8.1

7、Dynamic Impellers2.8.2 Rotary Lobe Impellers2.9 SHAFT2.10 SEALS, GASKETS AND PACKING2.10.1 Shaft Seals2.10.2 Internal Seals2.10.3 Bearing Seals2.11 BEARINGS2.11.1 Shaft Bearings2.11.2 Blower Bearings2.12 DRIVE CONNECTION2.12.1 Coupling2.12.2 V-Belt Drive2.13 GEARS2.14 LUBRICATION SYSTEM2.14.1 Pressu

8、re Oil2.14.2 Splash Oil2.14.3 Grease2.15 INTAKE FILTER2.15.1 Efficiency2.15.2 Surface Area2.15.3 Media2.15.4 Weather Hood2.16 NOISE MINIMIZATION2.16.1 Silencer2.16.2 Muffler2.16.3 Acoustical Insulation2.16.4 Sound Barriers2.17 MONITORING2.17.1 Flow2.17.2 Temperature2.17.2.1 Thermometers2.17.2.2 Ther

9、mocouples2.17.3 Pressure2.17.3.1 Draft GaugeSECTION 43 11 00 Page 2Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-2.17.3.2 Pressure Gauge2.17.3.3 Differential Pressure Gauge2.17.3.4 Piston Element2.17.3.5 Bellows Element2.17.4 Contaminant Monitoring

10、 and Sampling2.17.4.1 Explosimeter2.17.4.2 Hygrometer2.17.4.3 Sampler2.17.4.4 Transmitter2.17.4.5 Remote Indicator and Recorder2.18 CONTROL SYSTEM2.18.1 Sequence of Control2.18.2 Sequence of Equipment Operation2.18.3 Intake Volume Control2.18.4 Outlet Volume Control2.18.5 Panel2.18.6 Protective Devi

11、ces2.18.6.1 Bearing Temperature2.18.6.2 Surge and Overload Protection2.18.6.3 Oil Temperature and Pressure2.19 ELECTRICAL EQUIPMENT2.19.1 Electric Motors2.19.2 Control Equipment2.19.3 Variable Speed Controls2.19.3.1 Description2.19.3.2 Governing Requirements2.19.3.3 Basic Features2.19.3.4 Protective

12、 Circuits and Features2.19.3.5 Adjustments2.20 APPURTENANCES2.20.1 Dielectric Fittings2.20.2 Isolation Joints2.20.2.1 Sleeve-type Couplings2.20.2.2 Split-sleeve Type Couplings2.20.3 Valves2.20.3.1 Relief Valve2.20.3.2 Unloading Valve2.20.3.3 Combination Relief and Unloading Valve2.20.3.4 Purge Valve

13、2.20.3.5 Vacuum Breaker2.20.3.6 Check Valve2.20.3.7 Control Valve2.20.3.8 Back Pressure Valve2.20.3.9 Manual Valve2.20.4 Inlet and Discharge Elbows2.20.5 Expansion Coupling2.20.6 Heat Exchanger2.20.7 Flame Arrestor2.20.8 Drip Trap2.20.9 Liquid Receiver2.20.10 Air Receiver2.21 BASE PLATE2.22 WEATHERP

14、ROOF ENCLOSURE2.23 ATTACHMENTS2.24 COATINGS OR FINISHES2.25 FACTORY TESTS2.25.1 Integrity2.25.2 Balance2.25.3 DeflectionSECTION 43 11 00 Page 3Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-2.25.4 Vibration2.25.5 Capacity2.25.6 Noise2.25.7 Variable

15、Speed Drive2.25.8 Continuity2.25.9 Receivers2.25.10 Valve TestingPART 3 EXECUTION3.1 EXAMINATION3.2 INSTALLATION3.2.1 Concrete Foundations3.2.2 Seismic Requirements3.3 FIELD PAINTING3.3.1 Touch-Up Painting3.3.2 Exposed Ferrous Surfaces3.4 MANUFACTURERS FIELD SERVICES3.5 POSTING FRAMED INSTRUCTIONS3.

16、6 FIELD TRAINING3.7 FIELD TESTING3.7.1 Deficiencies3.7.2 Correct Installation3.7.3 Field Equipment Test3.7.4 Noise Suppression- End of Section Table of Contents -SECTION 43 11 00 Page 4Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-*USACE / NAVFAC /

17、 AFCESA / NASA UFGS-43 11 00 (April 2008)-Preparing Activity: USACE SupersedingUFGS-43 11 00 (January 2008)UNIFIED FACILITIES GUIDE SPECIFICATIONSReferences are in agreement with UMRL dated March 2008*SECTION 43 11 00FANS/BLOWERS/PUMPS; OFF-GAS04/08*NOTE: This guide specification covers the requirem

18、ents for fans, blowers or vacuum pumps and drive units.Edit this guide specification for project specific requirements by adding, deleting, or revising text. For bracketed items, choose applicable items(s) or insert appropriate information.Remove information and requirements not required in respecti

19、ve project, whether or not brackets are present.Comments and suggestions on this guide specification are welcome and should be directed to the technical proponent of the specification. A listing of technical proponents, including their organization designation and telephone number, is on the Interne

20、t.Recommended changes to a UFGS should be submitted as a Criteria Change Request (CCR).*PART 1 GENERAL1.1 UNIT PRICES*NOTE: On many hazardous, toxic, radioactive waste (HTRW) projects, the Contractor is required to treat air or off-gas, as well as furnish the equipment. Measurement and payment and u

21、nit pricing may be necessary to cover treatment costs.When it is determined that lump sum contract is advisable this paragraph will be deleted.*Measurement and payment will be based on completed work performed in accordance with the drawings, specifications, and the contract payment SECTION 43 11 00

22、 Page 5Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-schedules. No additional payment will be made for installation, calibration or commissioning of the equipment.1.1.1 MeasurementVolume of air supplied off-gas treated will be determined by initial

23、 and final meter readings.1.1.2 PaymentPayment will be made for volume of air supplied off-gas treated at the contract unit price per actual cubic meter foot. Payment will include the furnishing of testing, plant, labor, and material and incidentals necessary to complete the work, as specified and a

24、s shown.1.2 REFERENCES*NOTE: This paragraph is used to list the publications cited in the text of the guide specification. The publications are referred to in the text by basic designation only and listed in this paragraph by organization, designation, date, and title.Use the Reference Wizards Check

25、 Reference feature when you add a RID outside of the Sections Reference Article to automatically place the reference in the Reference Article. Also use the Reference Wizards Check Reference feature to update the issue dates.References not used in the text will automatically be deleted from this sect

26、ion of the project specification when you choose to reconcile references in the publish print process.*The publications listed below form a part of this specification to the extent referenced. The publications are referred to within the text by the basic designation only.AIR MOVEMENT AND CONTROL ASS

27、OCIATION INTERNATIONAL (AMCA)AMCA 210 (1999; 2001a) Laboratory Methods of Testing Fans for Aerodynamic Performance RatingAMCA 300 (2005) Reverberant Room Method for Sound Testing of FansAMCA 301 (2005) Methods for Calculating Fan Sound Ratings from Laboratory Test DataAMCA 99 (2003) Standards Handbo

28、okAMERICAN BEARING MANUFACTURERS ASSOCIATION (ABMA)ABMA 11 (1990; R 1999) Load Ratings and Fatigue SECTION 43 11 00 Page 6Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-Life for Roller BearingsABMA 9 (1990; R 2000) Load Ratings and Fatigue Life for

29、Ball BearingsAMERICAN CONFERENCE OF GOVERNMENTAL INDUSTRIAL HYGIENISTS (ACGIH)ACGIH-2092S (2004) Industrial Ventilation: A Manual of Recommended PracticeAMERICAN GAS ASSOCIATION (AGA)AGA B109.2 (2000)Diaphragm-Type Gas Displacement Meters (500 cubic ft./hour Capacity and Over)AMERICAN GEAR MANUFACTU

30、RERS ASSOCIATION (AGMA)AGMA 6011 (2003i) Specifications for High Speed Helical Gear UnitsAMERICAN PETROLEUM INSTITUTE (API)API Spec 6D (2002; Errata 2005) Specification for Pipeline ValvesAMERICAN SOCIETY OF HEATING, REFRIGERATING AND AIR-CONDITIONING ENGINEERS (ASHRAE)ASHRAE 52.1 (1992) Gravimetric

31、 and Dust-Spot Procedures for Testing Air-Cleaning Devices Used in General Ventilation for Removing Particulate MatterASME INTERNATIONAL (ASME)ASME B16.1 (2005) Standard for Gray Iron Threaded Fittings; Classes 125 and 250ASME B16.40 (2002; Errata 2003) Manually Operated Thermoplastic Gas Shutoffs a

32、nd Valves in Gas Distribution SystemsASME B16.5 (2003) Standard for Pipe Flanges and Flanged Fittings: NPS 1/2 Through NPS 24ASME B40.100 (2006) Pressure Gauges and Gauge AttachmentsASME BPVC SEC VIII D1 (2007) Boiler and Pressure Vessel Code; Section VIII, Pressure Vessels Division 1 - Basic Covera

33、geASME PTC 19.3 (1974; R 2004) Temperature Measurement Instruments and ApparatusASME PTC 25 (2001) Pressure Relief DevicesSECTION 43 11 00 Page 7Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-ASTM INTERNATIONAL (ASTM)ASTM D 4167 (1997; R 2007) Fiber

34、-Reinforced Plastic Fans and BlowersASTM F 1139 (1988; R 2004) Steam Traps and DrainsASTM F 1508 (1996; R 2004) Angle Style, Pressure Relief Valves for Steam, Gas, and Liquid ServicesAcoustical Society of America (ASA)ASA S2.19 (1999; R 2004) Mechanical Vibration - Balance Quality Requirements of Ri

35、gid Rotors, Part 1: Determination of Permissible Residual Unbalance, Including Marine ApplicationsISA - THE INSTRUMENTATION, SYSTEMS AND AUTOMATION SOCIETY (ISA)ISA MC96.1 (1982) Temperature Measurement ThermocouplesMANUFACTURERS STANDARDIZATION SOCIETY OF THE VALVE AND FITTINGS INDUSTRY (MSS)MSS SP

36、-25 (1998) Standard Marking System for Valves, Fittings, Flanges and UnionsMSS SP-72 (1999) Standard for Ball Valves with Flanged or Butt-Welding Ends for General ServiceNATIONAL ELECTRICAL MANUFACTURERS ASSOCIATION (NEMA)NEMA ICS 1 (2000; R 2005) Standard for Industrial Control and Systems General

37、RequirementsNEMA ICS 6 (1993; R 2006) Standard for Industrial Controls and Systems EnclosuresNEMA MG 1 (2007) Standard for Motors and GeneratorsNATIONAL FIRE PROTECTION ASSOCIATION (NFPA)NFPA 70 (2007) National Electrical Code - 2008 EditionNATIONAL INSTITUTE OF STANDARDS AND TECHNOLOGY (NIST)NIST S

38、P 250 (1991) Calibration Services Users GuideU.S. NATIONAL ARCHIVES AND RECORDS ADMINISTRATION (NARA)47 CFR 15 Radio Frequency DevicesSECTION 43 11 00 Page 8Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-WATER ENVIRONMENT FEDERATION (WEF)WEF MOP OM-

39、5 (1984) Prime Movers: Engines, Motors, Turbines, Pumps, Blowers delete snow load where maximum snow is not a factor. In some cases, local climates and topography will dictate that a value greater than 197 Pa (25 psf) be used for snow loading; this may be determined from ANSI A58.1, local codes, or

40、by research and analysis of the effect of local climate and topography. Coordinate with paragraph Seismic Requirements in PART 3.*Capacity and design of the air moving equipment and accessories shall be suitable for 24-hour full load service in an outdoor indoor _ location, and shall meet the follow

41、ing criteria.a. Design LifeMinimum _ years.b. Altitude (above MSL)Minimum _ m ft.c. Barometric pressureMaximum _ kPa in Hg.Minimum _ kPa in Hg.d. Ambient air temperatureMaximum _ degrees C F.Minimum _ degrees C F.e. Seismic parameters _f. Soil bearing capacityMaximum _ MPa psf.g. Wind speedMaximum _

42、 km/h mph.h. Ground snow loadMinimum _ kPa psf.SECTION 43 11 00 Page 9Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-i. Air relative humidityMaximum 100+ _ percent.Minimum _ percent.1.3.2 Selection Criteria*NOTE: Requirements included here may limit

43、 the selection of specified equipment.*Design air moving equipment using criteria based upon actual model developmental test data, and select it at a point within the maximum efficiency for a given impeller/casing combination. Deviations within 10 5 3 percent of maximum efficiency are permissible. A

44、ir moving equipment having impeller diameters larger than 90 95 percent of the published maximum impeller diameter for the casing, or less than 15 10 5 percent larger than the published minimum impeller diameter for the casing, will be rejected. Do not base acceptable maximum impeller diameter calculations on percentage of impeller diameter range for a given casing.1.3.3 Performance Requirements