VA 23 52 25-2010 LOW-PRESSURE WATER HEATING BOILERS.pdf

1、05-10 23 52 25 - 1 SECTION 23 52 25 LOW-PRESSURE WATER HEATING BOILERS SPEC WRITER NOTES: 1. Delete between /-/ if not applicable to project. Also delete any other item or paragraph not applicable in the section and renumber the paragraph. Deleted paragraphs should be labeled “omitted”. 2. Reference

2、s to pressure are gage pressure unless otherwise noted. PART 1 GENERAL SPEC WRITER NOTES: Provide dual-fuel arrangement when natural gas is used as the prime fuel. The back-up fuel shall be either Propane Gas or No. 2 Oil, both stored at site. 1.1 DESCRIPTION: This section specifies packaged hot wat

3、er boilers with trim (accessories), /dual fuel/ natural gas and /No. 2 oil/propane/burner, fuel valve and piping trains and other accessories. 1.2 RELATED WORK: A. Section 13 05 41, SEISMIC RESTRAINT REQUIREMENTS FOR NON-STRUCTURAL COMPONENTS. B. Section 22 05 23, GENERAL-DUTY VALVES FOR PLUMBING PI

4、PING. C. Section 23 05 11, COMMON WORK RESULTS FOR HVAC and STEAM GENERATION. D. Section 23 05 41, NOISE and VIBRATION CONTROL FOR HVAC PIPING and EQUIPMENT. E. Section 23 07 11, HVAC, PLUMBING, and BOILER PLANT INSULATION. F. Section 23 09 23, DIRECT-DIGITAL CONTROL SYSTEM FOR HVAC. G. Section 23 1

5、0 00, FACILITY FUEL SYSTEMS. H. Section 23 11 23, FACILITY NATURAL GAS PIPING I. Section 23 21 13, HYDRONIC PIPING. J. Section 23 21 23, HYDRONIC PUMPS. K. Section 23 51 00, BREECHING, CHIMEYS and STACKS. L. Section 23 05 93, TESTING, ADJUSTING, and BALANCING. 1.3 QUALITY ASSURANCE: A. Coordinate wo

6、rk of this section with all /existing /equipment and conditions. This includes, but is not limited to: boiler, boiler trim, burner, fuel valve and piping trains, gas pressure regulators and available gas pressure, /required fuel oil train pressures,/control systems,/combustion air piping,/and ventin

7、g. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-05-10 23 52 25 - 2 B. Provide a list of at least 5 installations, similar in size and scope as the proposed boilers. Include the name, address, and telephone number of a person familiar with each pro

8、ject as a reference source. C. Boiler shall be pressure tested at the factory and bear the ASME stamp. 1.4 SUBMITTALS: A. Before executing any work, submit in accordance with Section 01 33 23, SHOP DRAWINGS, PRODUCT DATA, and SAMPLES. B. Boiler: 1. Complete catalog information and outline drawings o

9、f boiler, burner, and accessories with dimensions including required service clearances and access space. 2. Catalog cuts showing arrangement and construction of pressure parts, casing, internals, and support frame. 3. Piping connection sizes, locations, types (threaded or flanged). 4. Technical dat

10、a including temperature rating and arrangement of refractory and insulation. 5. Design pressures and temperatures. /6. Seismic design data on boiler and anchorage of boiler to foundation. Refer to Section 13 05 41, SEISMIC RESTRAINT REQUIREMENTS FOR NON-STRUCTURAL COMPONENTS. / C. Boiler Trim: Inclu

11、des water level alarm and cutoff devices, low water cutoffs, piping, all valves and fittings furnished by boiler manufacturer /and stack thermometer/. 1. Design, construction, arrangement on the boiler. 2. Pressure and temperature limitations. 3. ASTM numbers and schedule numbers of piping. 4. Type

12、and pressure ratings of pipe fittings. 5. Scale ranges of gages, thermometers and pressure switches. 6. Set pressure and capacity of relief valves. D. Burner and Fuel Valve and Piping Trains: 1. Catalog data and drawings showing burner assembly and fuel train arrangement. 2. Drawings and catalog dat

13、a on all equipment in fuel trains. 3. ASTM numbers and schedule numbers on all piping. 4. Type and pressure ratings of pipe fittings. 5. Burner flow and pressure data E. Burner Management (Flame Safeguard) System: 1. Catalog data and drawings showing burner management system assembly and arrangement

14、 2. Refer to Section 23 09 23, DIRECT-DIGITAL CONTROL SYSTEM FOR HVAC. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-05-10 23 52 25 - 3 F. Provide a ladder-type electrical diagram for boiler showing interlock requirements and clear division between

15、 the factory wiring and field wiring. G. Submit water treatment test report to determine if selected boilers will be applicable to the facility. 1.5 DEFINITIONS: A. High Efficiency Condensing Boiler: A boiler designed to recover energy normally discharged to the atmosphere through the vent. The vent

16、 gasses will condense in the boiler and vent during normal operation. The boiler shall be constructed to withstand the presence of condensation. The vent shall be constructed of corrosion resistant materials. The minimum efficiency shall be 94% on low-fire with a return water temperature of 38 degre

17、es C (100 degrees F). B. High Efficiency Non-Condensing Boiler: A boiler designed to recover a portion of the energy normally discharged to the atmosphere through the vent. The vent gasses may condense in the boiler and vent during normal operation. The boiler shall be constructed to withstand the t

18、ransient presence of condensation. The vent shall be constructed of corrosion resistant materials. The minimum efficiency shall be 86% with a return water temperature of 49 degrees C (120 degrees F): C. Standard Efficiency Non-Condensing Boiler: A conventional boiler with a standard vent. The vent g

19、asses will not condense in the boiler or vent during normal operation. The minimum efficiency shall be 80% with a return water temperature of 60 degrees C (140 degrees F). 1.6 FUEL REQUIREMENTS A. Fuels to be Fired: /Natural gas and /No. 2 fuel oil/Propane/. B. Natural Gas: High heating value is rep

20、orted as _MJ per cubic meter (_Btu per cubic foot) at gas company base pressure and temperature. Pressure provided to the inlet of the boiler-mounted regulators will be _kPa (_ inches WC) gage as maintained by main regulator station. /C. Fuel Oil: Fuel oil furnished directly to the Government by a l

21、ocal supplier. Provide burner-mounted pump and relief valve as required./ /D. LP Gas: Propane furnished directly to the Government by a local supplier. Regulators at tank area will be set at 35 kPa (5 psi) gage./ SPEC WRITER NOTE: Make material requirements agree with applicable requirements specifi

22、ed in the referenced Applicable Publications. Update and specify only that which applies to the project. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-05-10 23 52 25 - 4 1.7 APPLICABLE PUBLICATIONS A. The publications listed below form a part of th

23、is specification to the extent referenced. The publications are referenced in the text by basic designation only. B. ASTM International (ASTM): A106/A106M-08 Seamless Carbon Steel Pipe for High Temperature Service. A178/178M-02(2007) . Electric Resistance Welded Carbon Steel and Carbon-Manganese Ste

24、el Boiler and Superheater Tubes A269-08 Seamless and Austenitic Welded Stainless Steel Tubing for General Service C612-09 Mineral Fiber Block and Board Thermal Insulation D396-09a . Fuel Oils C. American Society of Mechanical Engineers (ASME): Boiler and Pressure Vessel Code - 2007 Edition with Amen

25、dments. Section II . Material Specifications Section IV . Heating Boilers Section VI . Recommended Rules for Care of Heating Boilers Section IX . Welding and Brazing Qualifications Code for Pressure Piping: B31.1-2004 . Power Piping with addenda D. National Fire Protection Association (NFPA): 85-200

26、7 Boiler and Combustion Systems Hazards Code. E. National Fire Protection Association/American National Standard Institute (NFPA/ANSI): 54/Z223.1-2009 . National Fuel Gas Code. F. Underwriters Laboratories (UL): 50-2007 Standard for Enclosures for Electrical Equipment, Non-Environmental Consideratio

27、ns PART 2 - PRODUCTS SPEC WRITER NOTES: 1. Hot water boilers specified in this section shall be used where steam (from the existing central boiler plant) is not available and the use of steam is not envisioned. Examples of such applications are: Standalone facilities such as community living centers

28、 and domiciliary, regional offices, and outpatient clinics (where the steam requirements are minimum and can be met by separate dedicated steam boilers). 2. Fuel selection shall be based on availability of resources at the Provided by IHSNot for ResaleNo reproduction or networking permitted without

29、license from IHS-,-,-05-10 23 52 25 - 5 facility location. If natural gas is available, a secondary uninterruptable fuel source will be required. A life cycle cost analysis shall be performed to determine the most cost effective fuel selection or combination thereof. This method of selection will al

30、so apply to determining if high efficiency condensing boilers utilizing propane gas or high efficiency non-condensing boilers utilizing #2 fuel oil will be used. 3. High efficiency condensing boilers will use Natural gas/propane gas for dual fuel and Propane gas for single fuel arrangements. 2.1 HIG

31、H EFFICINCY CONDENSING BOILER: A. Type: Factory-assembled packaged low pressure hot water boiler suitable for forced draft/ natural gas and /Propane/ firing /with natural gas-propane selector switch/. Include fuel burning system, controls and boiler trim. B. Service: Continuous long-term operation g

32、enerating hot water at all loads from minimum to maximum output requirements in conformance to the specified performance requirements, shown in the schedules on drawings. C. Performance: 1. Minimum Efficiency at Required Maximum Output: Refer to schedules on drawings. D. Construction: 1. Codes: Comp

33、ly with ASME Boiler and Pressure Vessel Code, Section IV. SPEC WRITER NOTE: Coordinate the heat exchanger construction with the selected boiler. 2. Heat Exchanger: a. Boiler heat exchanger design/construction shall be one of the following: 1) Cast-iron sectional design 2) Cast aluminum sectional des

34、ign 3) Fin-tube design, with vertically aligned straight copper tubes, integral extruded fins and cast iron headers. 4) Flex-tube design 5) Fire tube design, constructed of a SA53 carbon steel primary heat exchanger and a 316L stainless steel secondary heat exchanger. The fire tubes and tube sheets

35、shall be configured in a one-pass combustion gas flow design. The pressure vessel/heat exchanger shall be welded construction. b. The boiler shall be capable of handling return water temperature down to 10 C (50F) without any failure due to thermal shock or Provided by IHSNot for ResaleNo reproducti

36、on or networking permitted without license from IHS-,-,-05-10 23 52 25 - 6 fireside condensation. The boiler shall be designed so that the thermal efficiency increases as the boiler firing rate decreases. /The boiler operating limits shall be aligned with the expected operating temperatures for spec

37、ial lower temperature applications (i.e. snowmelting)./ c. The heat exchanger shall be ASME stamped for a working pressure not less than / /1000/ kPa (/ /150/ psig). The boiler water pressure drop shall not exceed / /13/ kPa (/ /2/ psig) at the design flow rate. d. There shall be removable access co

38、vers on the heat exchanger headers for the purposes of inspection, cleaning or repair. The heat exchanger shall have externally accessible boiler drains. /An external viewing port shall be provided, permitting visual observation of burner operation./ 3. Insulation: Boiler manufacturers standard and

39、experience proven design except insulation on the boiler shell shall be a minimum of 50 mm (two inches) thick. No part of the external casing shall exceed 33 degrees C (60 degrees F) above ambient, except for areas within 300 mm (one foot) of the casing penetrations. 4. Casing: Galvanized steel casi

40、ng covering all areas of boiler shell. All openings in the casing shall be gasketed and sealed. 5. Skids/Bases: Boilers shall be factory-installed on the factory-fabricated skids/bases. E. FINISH 1. Provide surface preparation, heat-resistant prime and finish coats using standard color of the boiler

41、 manufacturer. F. BOILER TRIM (ACCESSORIES): 1. Conform to ASME Boiler and Pressure Vessel Code, Section IV 2. Relief Valves: a. Provide one (1) ASME rated relief valve per boiler. The valve shall be sized to relieve full boiler capacity. Type: Bronze bodies, side outlet, threaded inlet and outlet,

42、lifting lever, stainless steel trim and o-ring EPDM seats. b. Settings and Adjustments: Factory set, sealed, and stamped on nameplate. Valves shall be set to relieve at the ASME working pressure. 3. Pressure Gage: a. Case: Turret-style, bottom connection, threaded ring, blowout disc in rear. b. Dial

43、: 75 mm (3-1/4 inch) minimum diameter, non-corrosive, black markings on white background. Provided by IHSNot for ResaleNo reproduction or networking permitted without license from IHS-,-,-05-10 23 52 25 - 7 c. Measuring Element: Bourdon tube designed for hot water service. d. Movement: Stainless ste

44、el, rotary. e. Accuracy: One half percent of the full span. f. Range: / 0 - 667 kPa / 0 - 100 psi/ gage. 4. Water Level Safety Controls: a. Provide primary and auxiliary low water burner cutoffs. Primary and auxiliary low water burner cutoff devices shall be in two separate water columns, piped indi

45、vidually to the boiler water spaces. One device shall be float-type, the other device shall be conductivity probes. Primary and auxiliary cutoffs shall require manual reset. Auxiliary cutoff shall shut down power to the burner. /5. Factory Switch Safety Control: a. Provide flow switch to disable bur

46、ner in event of loss of flow through the boiler. b. Type: Brass body, paddle arm and pivot shaft. c. Electric Switch: Cam acting type with adjustable flow sensitivity. d. Ratings: 121 degrees C(250 degrees F), 1100kPA (160 psig)/ 6. Condensate drain connection and manufacturer supplied kit must be s

47、upplied for all condensing boilers. G. BURNER AND FUEL TRAINS: SPEC WRITER NOTE: Include NOx requirements only where required by local air emissions authorities. 1. Burner Type: /Combination natural gas and/propane/, packaged, forced draft, modulating firing/, variable speed forced draft fan/. /Comb

48、ination fuel burners shall be configured to allow automatic fuel changeover utilizing the fuel (natural gas-propane) selector switch/. /a. Gas Burner: Ring type with multiple ports or spuds./ 2. Service: a. Continuous operation at all firing rates on each fuel listed under Article, PROJECT CONDITION

49、S of Part 1. Design the entire burner and fuel train system for application to the specific boiler furnished and for service at the available fuel pressures. b. Main Fuels: /Natural gas/ Propane/. /After boilers are accepted for operation, choice of fuels will be based on cost and availability./ 3. Performance: a. Main flame