TECHNICAL ENGINEERING SPECIFICATIONS CHAPTER X
Transcript of TECHNICAL ENGINEERING SPECIFICATIONS CHAPTER X
CHAPTER X - TECHNICAL ENGINEERING SPECIFICATIONS
Chapter X: Detailed Eninecdng Speitications— page I 2017-22R Water Filtration Plant Boiler System Replacement Project, City olsethiehem
CHAPTER X - TECHNICAL ENGINEERING SPECWICATIONS
TABLE OF CONTENTS
Summary of Work 3 pages
Section 15600— Heat Generation* 8 pages
Water Filtration Plant Boiler Name Plate Information I page
Water Filtration Plant Boiler Name Plate Photo I page
Peerless Cast Iron Boilers Installation lnstructions** 27 pages
Installation and Service Instructions For Series LA-LE Pumps** 10 pages
Submittal Data Sheet** 13 pagesDiaphragm Expansion TankAir PurgerAir VentFeed Water Pressure Regulator
*- Original specs from 1991 plant construction
**_ Original submittal from 1991 plant construction
Chapter X — Technical Specifications-page 1 Bid No. 2017 22R WFP Boiler System Replacement, City of Bethlehem
Detailed SpecificationsBid No. 2017 22k
Water Filtration Plant Boiler System Replacement Project
SUMMARY OF WORK
Part I — General
1.1 RELATED DOCUMENTS
A. Drawings and general provisions of this Contract, including, but not limited to, Generaland Supplementary Conditions, apply to this section.
B. Applicable Boiler Equipment specification and submittals from the original constructionof the City’s Water Filtration Plant are included in the project documents. Contractorshall refer to these documents for original material and installation provided. All otherspecifications referenced in these documents do not apply.
1.2 PROJECT DESCRIPTION
A. Project Identification: The project consists of replacing the current Boiler System,addressing design deficiencies with the current System, demolish and remove oldequipment, procure, install and start up new code-compliant Boiler System.
I. Project Location: 355 Granger Rd. Northampton, PA 18067 (Lehigh Township,Northampton County)
2. Owner: Bethlehem Authority, 10 E Church St. Bethlehem, PA 18018
3. Operator: City of Bethlehem, 10 E Church Si, Bethlehem, PA 18018
1.3 CONTRACTS
A. This project will be constructed under one general construction contract.
1.4 SUMMARY
A. The Base Bid work associated with this contract includes:
I. Evaluate current Boiler system and appurtenances, address design deficiencies andreplace with equipment that complies with current applicable construction codes.
2. Employ the services of a design professional registered in the Commonwealth ofPennsylvania to prepare and submit approved engineering schematic plans to the Cityof Bethlehem for review.
Chapter X - Summary of Work Bid No. 2017 22R WFP Boiler System Replacement, City of Bethlehem
3. Address all current design deficiencies as described under 1.5 MiscellaneousProvisions below.
4. Demolition of current Boiler system and removal from facility.
5. Items to be provided include:a. Boiler with same or equivalent specifications as existing cast iron boiler name
plate data.b. Burner with Lo Hi fire.c. Manual reset hi limit.d. Low water Cut Off.e. Barometric Damper.f. Expansion Tank.g. Two (2) oil feed pumps.h. Pressure Relief Valve.i. Start up and testing by certified technician.j. I year warranty on parts and labor.k. Note: Draft Blower may be required based on flue draft requirements. See
Section 1.5, D., a.1. Owner Installation, Operation and Maintenance Manuals for all equipment
installed.
6. Bidder to be responsible for all electrical and piping connections.
1.5 MISCELLANEOUS PROVISIONS
A. Perform the work under a single prime contract with the OPERATOR. GeneralConstruction work, City of Bethlehem Water Filtration Plant Boiler System ReplacementProject is located in Lehigh Township, Northampton County.
B. Bidders will have the opportunity to visit the site up to and including one (I) workingday subsequent to the Pre-Bid Meeting by contacting Daniel J. Becker, MaintenanceSupervisor at (610) 865-7251 to evaluate the current Boiler System and Appurtenancesfor details necessary to procure a new Boiler System.
C. All work must be coordinated with the OPERATOR.
D. Currently know design deficiencies include:a. Lack of draft on burner high fire.b. Boiler Safety Release Valve needs to be a minimum of 40 psi versus the current 30
psi due to increased water pressure.c. Water Feed Regulator must be adjustable from 10 psi to 25 psi versus the original 5
psi to IS psi.d. Boiler flue pipe does not have its own individual Barometric damper.e. Supply and return oil hne in trough does not meet L&I code.
chapter X - Summary of Work Bid No. 2017 22R WFP Boiler System Replacement, City of Bethlehem
E. After installation, Boiler System is to be started up and tested by a certified technician.This is to be coordinated with the OPERATOR.
1.6 CONTRACTOR’S USE OF PREMISES
A. CONTRACTOR’S use of Premises:
I. CONTRACTOR shall limit the use of premises for their Work and for storage so asnot to impact OPERATOR’S operation of the plant.
2, Coordinate use of premises with OPERATOR.
3. CONTRACTOR shall assume full responsibility for security of all their and theirsubcontractor’s materials and equipment stored on the site.
4. CONTRACTOR shall move any stored items that interfere with plant operations, ifdirected by the OPERATOR.
5. CONTRACTOR shall obtain and pay for use of additional storage or work areas ifneeded to perform the Work.
B. Sequence of ConstructionI. Prior to commencing Work, the CONTRACTOR shall submit a proposed sequence
of construction to the OPERATOR for review and approval . After coordinating with[he OPERATOR, the CONTRACTOR is responsible for overall coordination of allWork associated with this Project.
PART 2— PRODUCTS (Not used)
PART 3— EXECUTION (Not used)
PART 4-MEASUREMENT AND PAYMENT (Not used)
END OF SECTION
Chapter X - Summary of Work Bid No. 2017 22R WFP Boiler System Replacement, City of Bethlehem
DW1SION 15 - MECHANICAL
U SECTION 15600 - HEAT GENERATION
PART 1 - GENERAL
1.01 RELATED WORK
A. Basic Mechanical Requirements: Section 15010.
3. Basic Mechanical Materials and Methods: Section 15050.
C. Supports. Anchors, and Seals: Section 15090.
fl I). Mechanical Insulation: Section 15250.
O1.02 QUALITY ASSURANCE
A. Boiler Efficiency Guarantee: Boiler manufacturer shall guaranteeboiler to operate at a minimum fuel to water efficiency of 80 percentfrom 30 to 100 percent of rating. Subzit such guarantee as part ofSubmittals.
B. Source Quality Control:
U 1. Shop Test: Complete heat generation package shop fired and testedprior to shipment to ensure its proper operation and to adjust airand fuel flows.
2. Test Report: Submit test report to Engineer of results of abovestated shop test. This report to include the followinginformation:a. Manometer readings at the main gas regulator, pilot gas
regulator, burner inlet • burner • and furnace.
b. Amps drawn by all motors.c. Voltage of pilot and main flame controller signal.d. Flue gas reads including percent oxygen, percent carbon
dioxide, temperature, efficiency, and smoke test results.
C. Manufacturer’s Representative Services:1. Include in the Bid Price the services of the heat generation
equipment manufacturer’s field service representative for a period
fl of eight hours.
U 2. This service for the purposes of installation check-out, initial,
start-up, certification of performance, and instruction of Ownar’spersonnel in equipment operation.
U 1.03 REFERENCES
A. American Society of Mechanical Engineers (ASME): ASL1E Pressure Vessel
U Code and Interpretations; Section IV Heating Boilers, latest edition.
3, Commonwealth of Pennsylvania, Department of Labor and Industry
U Regulations for Boilers and Unfired Pressure Vessels.
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C. The institute of Boiler and Radiator Manufacturers; I—B—K Ratings asapply to specified Products.
0. National Electric Manuhcturer’s Association (NEMA) Standards as applyto specified Products.
E. National Fire Protection Association (NFPA):1. NFPA 54; National Fuel Gas Code.2. NFPA 211; Chimneys, Fireplaces, Vents and Solid Fuel Burning
Appliances.
F. Underwriters Laboratories, Inc. (Ut) Listings and Labels shall governthe quality and perforuance of certain Products as specified herein.
1.04 SUSHITTALS
A. Product Data: As specified in Section 15010: submittal, required forthe following items:1. flue/Chimney Materials.2. Cast Iron Boiler.3. Boiler Trim.4. Fuel Oil Pump Set.
B. Factory Test Report: Submit to the Engineer test reports of thefactory tests of the complete boiler-burner package. Factory tests maybe witnessed by Engineer if desired. Factory shall notify Engineer oftest date.
PART 2 - PRODUCTS
2.01 MATERIALS
A. Piping System Specification No. 1; as specified in Section 15050.
B. Piping System Specification No. 4; as specified in Section 15050.
C. Pipe Insulating Materials: As specified in Section 15250.
D. Auxiliary Steel, Rods, Equipment Supports, and Anchors and Fasteners:As specified in Section 15090.
2.02 nAJE/CHVINEY MATERIALS
A. Prefabricated (All-Steel) Flue: Ut Listed for steady operation up to1000 degrees F., double wall, dual-fuel, all steel chimney. Innerliner of Type 316 stainless steel and outer casing of aluminized steel.1. Provide accessory tees, elbows, supports, storm collar, stack cap,
and such other components as required to complete the installation,2. Provide a standard tee or a reduction tee with a barometric damper
similar to Type K-C by Field Control Division Conco, Inc., orequal.
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3. Acceptable Manufacturers:a. Wallace-Murray Corporation; Metalbestos Model H.b. Neil Process Equipment Corp.c. General Products Co., Inc.d. Or Equal.
2.03 CAST IRON BOILER
O A. General Boiler Design:1. Hot Water Boiler: Packaged cast iron type designed for 15 pounds
steam or 30 pounds water, factory assembled, complete withmanufacturer’s standard equipment including forced draft burner,
P insulated steel jacket, and burner control panel mounted and wired.Boiler capacity and ratings as follows:a. Gross output rating: As indicated on the Drawings, and I—B—R
Rated.b. Furnace heat release: Not to exceed 80 MEN per cu. ft. of
furnace volume.c. Efficiency: Not less than 80 percent at maximum firing rate.d. Construction: Cast Iron sectional.e. flue size: As recommended by boiler manufacturer.f. ASME Code approval.
O g. PA L & I Regulation compliance.2. oil Burner: Design and capacity matched to the boiler and an
integral part of the packaged boiler. Burner operation shall bepressure atomizing design for burning CS No. 2 light oil. Burnercomponents include a forced draft fan and two stage oil pumpintegrally mounted in the burner and direct connected to the motorwith a flexible shaft; and an oil filter1 of the replaceable mediatype, correctly sized to burner capacity. Burner ignition of the
U interrupted electric type with high voltage ignition transformerand dual electrodes. Burner electrical components Ut Listed.
D 3. Burner Control: Electronic Combustion Safeguard Control systemtotally enclosed in an enameled steel cabinet. Upon interruptionof electrical power, the safeguard control shall recycle the burnerbefore the fuel valve opens and on flame failure the electronic
LI combustion control shall lockout and require manual reset. Burnermotor shall not run during lockout. Safeguard control system shallinclude but is not limited to the following:a. Manual ON-OFF switch; Low fire start; Controlled air and fuel.b. Pre..purge and post-purge timers.c. Motor starter or relay.d. Control circuit transformer.a. Numbered or labeled terminal strips.f. Oil indicating signal light.g. Ignition light.It. Flame failure light.i. Control circuit fusing.
B. Acceptable Boiler Manufacturers:1. Weil-HcUin.2. The Peerless Neater Company.3. H. 3. Smith Company.6. Or Equal.
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2.04 BOILER TRIM
A. General: Hot water boiler trim shall include, but is not limited tothe following:1. Combination altitude, pressure and temperature gauge; boiler
manufacturer’ s standard.2. ASKS relIef valve; as specified.3. Emergency low water cut-off; as specified.6. Operating and high limit aquastats; boiler manufacturer’s standard.
5. Drain valve; boiler aanufacturer’s standard.6. Automatic fill assembly; as specified.7. Expansion tank system; as specified.
B. ASHE Relief Valve: Diaphragm type with the valve seating against aface of LIT rubber, or equal. Size valve equal to boiler gross output.
C. Emergency Low Water Cut-off: McDonnell & Miller, or equal, having amaximum pressure rating of 150 PSI.
D. Automatic Fill Assembly: Composed of a pressurized diaphragm tank,fill valve assembly, in-line air purger and automatic air vent.1. Diaphragm tank constructed for a test pressure of 150 PSIC and
design working pressure of 75 PSIC at maximum operating temperatureof 240 degrees F. Tank factory pre-charged at 12 P510 air.
2. fill valve of all bronze construction incorporating a spring-loadfill valve, cold water control check valve and a stainless steelscreen on cold water intake.
3. In-line air purger of one piece cast iron or fabricated steelconstruction and designed for maximum vorking pressure of 125 P510,with proper quantity of tappings suited to conditions of usage.
4. Automatic air vent having cast iron body and cover and float typevent.
5. Acceptable Manufacturers:a. Amtrol Inc.; FIIL-TROL No. 110/No. 706 Air Vent.b. Taco, Inc.c. Or Equal.
S. Expansion Tank; Pressurized diaphragm type suitable for a maximumworking pressure of 125 PSI and furnished with ASNE stamp andcertification papers.1. Sealed-in elastomer diaphragm designed for operating temperature of
240 degrees P and factory pra-charged at 12 P510 air. Tank ofhorizontal or vertical style, as indicated on Drawings, andprovided with necessary installation hardware suited to tankconfiguration.
2. Acceptable Manufacturers:a. Autrol Inc.; Model AX-400-L.I,. Taco, Inc.a. Or Equal.
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2.05 FUEL OIL PUMP SET
fl A. General: Pumps shall be capable of continuous duty circulation ofCS No. 2 fuel oil (viscosity 34; 5513), and Underwriters’ LaboratoriesUt Listed.
B. Spare Parts: Furnish one each spare pump units of each size furnishedand installed under this Contract.
C. Pump Units: Provide positive displacement type, cast iron/steel fitted
construction pump of self-priming, internal rotating gear design, withmechanical seal and integral safety relief valve. Pump direct-connectedto a 1750 RPM, open drip-proof motor through a flexible couplingequipped with a safety guard.
GD. Puaps factory-piped with necessary shut-off valves, check valves, oil
strainers, and vacuum and pressure gauges. Entire motor/pump assemblyfactory mounted on formed steel base plate and tested prior to
a shipment. Pump capacities and motor electrical characteristics asindicated herein.
E. Pump Schedule:Symbol: VP-i FP-2Location: Boiler Room Boiler RoomPump Capacity: 0.5 6PM 0.5 6PMPump Motor: 1/4 II? 1/6 HPPower Supply: 120 V/l liP/GO HZ 120 V/ 1 PH/60 HZModel No.: Viking Pump C432D Viking Pump C432D
r F. Acceptable Manufacturers;1. Viking Pump Company.2. Gordon-Piatt.3. ruthill Pump Company.6. Webster Electric Company.5. Or Equal.
A. ftop Oil-Fired Hake-Up Air Unit: Factory assembled and wired, flteste t the factory and shipped as a packaged assembly consis offurnace, bination filter, return and mixing air plenum, plenum,
dampers, and ercent outside air intake and blower tion rigidly
U bolted to a sub-fr to provide a single unit fo oftop weatherized
set-vice. Unit componen acities as ind.ica erein.1. Heater Section:
a. Burner System: The burn be full modulating, highpressure atomizing it for burning fuels through #2grade to a maxim 60 S.S.U. a 00 degrees F. The unit
incorporates ombination air blower, tor, two stage oil
fl pump, i on transformer, solenoid oil v a(s) and are le drawer assembly.
b. ontrols: Factory mounted control transformer, pre e timer,
fan/limit switch, draft switch, combustion air-switch, ar
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switch, blower starter, pilot flame safeguard and all necessarelays and switches. Control current shall be 120 volt.
c. eat Transfer System: Stainless steel all-welded heata hanger.
ci. Ye ing: Furnace equipped with an aluminized collector bvi single vent adaption at top center for field instal ationof g vity vent cap. Extensions (where required) and v nt capare st dard and shipped separately.
2. AIr System ction:a. Blowers: Forward tune multi-blade type (statical and
dynamical]. balanced) driven by an open, drip-pro Ut Listedmotor and m tching adjustable V-belt drive. Whe a multipleblowers are quired, a single motor and singl shaft providedwith blowers unted thereon. Blower wheels unted on a solidtuned ground aft with keyway for divan sh ayes. Shaftbearings of ball self-aligning, permanent lubricated type.Blower and motor unted on an adjustable ase which isdesigned to ensure igidity and quiet op ation. Variablepitch sheaves provi ci on V-belt drives
b. Controls: Blower mot ra factory prew ad for intermittentoperation. Electrical Characteristi as indicated herein.1) Factory prewired co rots inclu a motor starter with two
auxiliary contacts an overlo heaters, controltransformer, two outsi e air ontrollers, twopotentiometers. two-ste t rmostat with locking guardcovers, outside and retu air dampers, four relays withauxiliary contacts (120 ta, 10 amps), and two endswitches rated at 120 v ta 10 amps each.
2) For the sequence of co trol equireinents refer to Section15950.
3. Cabinet and Mounting:a. Cabinet factory desi d to provide unified, single-package
appearance with 100 rcent outside a r intake package, returnand mixing air/filt r section, blower ection, duct furnacesection, and disc rge plenum section. complete cabinetpackage weather fled and factory insul ed and finished foroutdoor service
b. Access panels rovided.to allow complete ac en to motors,filters and ectrical controls.
c. Filters: rowaway type.d. Air intak equipped with weather (rain) hood corrosion
resistan bird screen.a. Sub-fr e provided under complete cabinet package and shall
have integral curb cap suitable for full roof c binst lation with return and supply air connections brough theroo curb opening. Perimeter roof curb provided as standardi by unit manufacturer.
if. cessorias shall include cabinet mounted, factory wire • fuseddisconnect.
4. £ pment Capacity;bol: 1W-i
Total Supply Air: 3500 CFMMinimum Outside Air: 2100 CR1temperature Rise: 90 F ‘1
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ternal Static Pressure: 0.5 in. w.c.Fan tar Size: 2 HP
g :tons2.SGPH
PH/EQ
Supply Roof Cpa g: 36 . x 22 in..5” Return Roof Openin . in. x 22 in.
U Model No.: md is). rsystems IAC-35-HW-2-6.5. Acceptable ufacturer:
a. In rial Air Systems, In . jAG Series.
: 0,1usti1, Inc.
PART 3 - EXECUTION
3.01 PERFORMANCE
A. Installation Instructions: Install those Products, as specifiedpreviously under PART 2 and flat specifically covered for installationherein under PART 3, in strict accordance with manufacturer’sinstallation instructions and at locations indicated on the Drawings.
B. Electrical Interface: As specified in Section 15010.
3.02 PIPING INStAllATION
A. Fabrication and Installation: As specified in Section 15050.
B. Valve Installation: Install gate valves in the piping systems toisolate equipment components as indicated on the Drawings. Wherevalves are included as an integral part of a packaged system omit valveinstallation.
C. Pipe Insulating: As specified in section 15250.
3.03 HEAT GENERATION EQUIPMENT INSTALlATION
A. General: Install heat generation equipment in strict accordance withmanufacturer’s installation instructions or manual. Installationincludes unloading equipment at the site • rigging into place and makingthe required connections to provide a complete operating system.1. Perform installation of boiler tris components in accordance with
installation requirements of the individual equipment componentsmanufacturer’s installation requirements.
2. Perform installation of prefabricated flue components in accordancewith manufacturer’s installation requirements.
B. Equipment Start-Up: Perform heat generation equipment start-up inaccordance with manufacturer’s instructions or manual.
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3.01. FIELD QUALITY CONTROL
A. Equipment Leak Tests: Following heat generation equipment installationperform a hydrostatic test on the installation to a cast pressure of 45PSI. Conduct test for a sufficient length of time to make a completeexamination of piping joints to equipment, using soap suds solution oneach Joint to detect leak5. Hake such repairs, if any, as necessary.
B. Cleaning and Flushing: Following boiler installation perform a boilerboil-out operation. Use a boil-out solution of soda ash at the rate ofone pound per twenty gallons of water. Following the boil-out flushout the boiler with clean water until all traces of the soda ashsolution are removed.1. Note: Boiler boil-out and heating system piping cleaning may be
performed as one operation.
C. Water Treaent: Following heating system filling, and prior toplacing heating system into operation, perform a one-time watertreatment on the beating system. Provide water treatment service andequipment as supplied by a single water treatment company for undividedresponsibility.1. Acceptable Manufacturers:
a. Mogul Water Treatment; Program BP-l.b. Olin Water Service.c. Culligan Chemicals.d. Or Equal.
2. Equipment: Use feeding and control equipment such as Mogul One-Shot Feeder System which shall remain in the heating system and beinstalled in a manner to facilitate its repeated use.
END OF SECTION
126426 15600-5
Water Filtration Plant Boiler Name Plate Information
Manufacture: Peerless
Model No. O-713FDA-WU
Serial No. 7FDA-8073-1292
Pressure Rating: Steam 15 PSI
Water 50 PSI
Burner: 14.2 Gal/Hr. Lt. Oil
Output: BTU/HR 1,619,000
Net IBR Rating: 5179 SQ. FT. Steam
1,243,000 BTU/HR Steam
1,408,000 BTU/HR Water
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INSTALLATION INSTRUCTIONS
HANG THESE INSTRUCTIONS IN VICINITY OF BOILER
THE PEERLESS HEATER COMPANYDIVISION OF PEERLESS INDUSTRIES INCORPORATED
BOYFRIOWN, PENNSYLVANIA 19512! PHONE (610) 367-2153
HEATING PRODUCTS SINCE 1908
CAST IRON BOILERS
SERIES 7FDAOIL, GAS, GAS OIL FIRED
CAST IRON BOILERS
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INSTALLATION INSTRUCTIONS
SERIES 7FOA
Read these instructions carefully, it will save Installation time.
CAUTION: THIS BOILER SERIES OPERATES UNDER A POSITIVE PRESSURE IN THE COMBUSTION CHAMBER AND ALSO THE FLUE WAYS.THE SECTIONS MUST BE SEALED TIGHTLY TOGETHER TO PREVENT LEAKAGE OF PRODUCTS OF COMBUSTION INTO SURROUNDING ATMOSPHERE
A — SETTING UP SECTIONSI—Provide a good level foundation. Sufficient clearance should be pmvided in order to facilitate assembly and service. Locate asclose to chimney as possible. See Figure #1 for recommended foundation dimensions.
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21FD4 l2flt’7:-2F04 LaW723P0A 131½”7?4FDA 131½”
Steel channels are now being supplied with Peerless 7FDA boilers They ate packed with the boiler draw rods and are to beused to aid assembly of the sections on rough flooirng surfaces.To use simply place the channels on the floor approximately 25 inches apart on centers. (Front View) Position the tear of theBack Sect ion flush with the ends of the channel lengths. (Right Side View) Fallow the assembly procedures in the InstallationInstructions Manual sliding each section along inside the channel grooves. Channels may be oiled to eliminate friction.
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BAC KSECTION
FRONT VIEW RIGHT SIDE VIEW
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2—Place the rear boiler section on the foundation and support it with a prop or other appropriate means. See Figure 2.
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3—Before assembling the sections, thoroughly clean the nipple ports and push nipples with an acceptable solvent. Make sure thereare no burrs around the outside edge of the Nipple ports.
4—Apply large diameter rope gasket to groove provided in section. Using Peerless ‘Rope Adhesive” provided, apply a coating to thegroove as an adhesive and then apply rope. See Figure #3. DO NOT USE SAME BRUSH USED FOR APPLYING NIPPLE SEALER.THIS WILL AVOID ThE POSSIBILITY OF CEIlING FOREIGN MAIlER INTO THE NIPPLE PORTS WHICH COULD CAUSE LEAKS OR BROKENSECTIONS.
S—Do not use oil on nipples or in nipple ports when assembling sections. This will cause sections to draw hard and nipples to leak.Spread a thin coating of Peerless Nipple Sealer in the nipple ports, NEVER ON NIPPIIS. Follow instructions printed on can.
6—Inseri nipples in ports and tap lightly on the edge with a non-metallic hammer. Make certain nipples are clean, free at burrs and straight
7—Pface intermediate section on foundation and allow nipples in back section to enter nipple ports. See Figure #4.
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B—Insert draw rods through nipple ports with large cast-iron washers on each end of the rods. See Figure #5.
9—Attach draw-up clamps with jaws on long end of the rods. See Figure #5. On the other end at the rods, wrought washers andnuts may be applied (the sections are to be drawn by the HAND ASSEMBLY METHOD. If the sections are to be drawn up bythe HYDRAULIC JACK ASSEMBLY METHOD, then the jacks are attached to the opposite end of the rod. See Figure #6. Thefollowing are the instructions covering both methods of assembly.
I. HAND ASSEMBLY METHODS
a. BEFORE STARTING DRAW, OIL THE ThREADS AND BETWEEN THE NUTS AND WASHERS TO ELIMINATE AS MUCH FRICTION ASPOSSIBLE.
I,. Tighten hex nuts (See Figure #5) to draw sections together. Draw all three nipples evenly until four small pads on thecorners of each section just touch. II washers, nuts and threads are oiled frequently, the sections should draw easily.if the draw is hard, look for cocked nipples, dirt in the nipple ports or burrs on the nipples or around the nipple parts.
c. Apply rope to groove as described in Paragraph 4 above and put next intermediate section in place. Draw up in the samemanner and continue until all sections are assembled. Be sure to oil threads, nuts and washers on each draw.
d. The draw rods are now used as the tie rods. The rod5 are excessive in length for draw up purposes. It is necessary toremove 5” from one end of the rods in order to adapt them For tie rod purposes.Insert the tie rods in the lugs on the end sections, using the wrought iron washers and nuts only on each end.
e. Check to make certain that alt the small pads are drawn iron to iron and the push nipples have been drawn straight.
I, Tighten the hex nuts on the tie rods until hand tight.
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It. HYDRAULIC JACK ASSEMBLY METHOD:
a. Attach hydraulic jacks to opposite end of rod alter following steps #1 to #9 with hex nuts and washers provided. Thelaths are attached so Thai the hose connections are toward the boiler. Tighten hex nuts to lake up alt loose play. SeeFigure #6.
b. Close valves on pumps (See Figure #6) and pump each jack evenly until spacer pads on all sections just touch. Periodiccheck of space between spacer pads should be made to assure an even draw,c. Open valves on jack pumps. Remove jaws, cast iion washers, jacks and draw rods. Place the nett set of sections inplace (mnimum of four sections) and proceed with steps (B), and (9) . (a) and (b) See Figure #7.d. Repeat this procedure until the last intermediate and front sections are assembled. The Front section may be a part ofthe last group ol sections.
Place large Cl. washars on one end and attach jacks. On the opposite end ol the drawand 9” extension piece to each draw rod. See Figure #8 and Figure #9. Tighten coup-Place CI. washers on end of rods with nuts and washers and proceed w.th final draw up.
e. Boiler is now completely drawn up. Remove draw rods and use as tie rods as described in 9 . I d.NO7& When using a Si feeder, 51-2 combination feeder cutoff, or 157 pump control low water cut-oft, the Special Tapped Intermediateis to be located first section from the front. Refer to Figuies #25 and #26.
When assembling the sections on the Models 714F0A thr 724F0A be sure to place the tapped intermediate sections in thecorrect position. Refer to Figure #17.
Insert draw rods as previously.rod, attach the knurled couplingling and extension hand tighlSee Figure #9.
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-t r4JL4?f-Ztt 6jtjt 10—Attach the flue collector High temperature rope is providedt’Ij r3._.a...t r1..,&4w ‘, - for sealing between the bottom of the flue collector and the
— tops of the sections. Lay the rope around the entire top of‘7 j the sections against the bead provided on the end sections
r and the lower end of the intermediate sections. On the upperend of the intermediate sections a flat surface is providedand the rope must lay on lop of these surfaces See Figure
i “ #19 Items (30) and (31) by the flue collector on the top
I , of the rope. Draw the flue collector down by means of thehook bolts provided (48) for the sides of the flue collector.
1 The straight end of the hook bolts are inserted through theholes provided in the angles attached along the sides of theflue collector. The hooked end of the bolt is inserted in thelugs provided on the sections Draw the bolts tightly withnuts provided The flue collector br Models 7I7FDA thru724F0A is two sections Place the collector section with flueoutlet to the front of the boiler. Place the rear section ofthe flue collector on the boiler and butt against front sectionNote the cover strip that is used to join the flue collector
Figure #9 High temperature tape for providing a gas tight seal is gluedto the joint cover strip When the flue collector is joined
toge’her, it is to be secured in place by (10)— #10 x ½” sheet metal screws provided. Refer to Figure #10. BE SURE THEREARE NO GAPS OR OPENINGS BEtWEEN THE ROPE AND RUE COLLECTOR OR ROPE AND BOILER SECTIONS Any visible openings mustbe sealed with pyroseal or other type sealer.
11—COMBUSTION CHAMBERThe Series 7FDA does not incorporate a combustion chamber, however, a CERAFELT BASE LINER is provided and may be found inthe jacket carton The liner is laid on the inside bottom of the boiler, the front edge being placed approimately 1” from the frontedge ol the front section The liner may or may not exlend the full length of the boiler, depending on the model boiler being erected
Install rear observation door w44) 5 ‘16”-18 x ¾” cap screws provided See Figure 14 and Figure 19,
0
12—REAR OBSERVATION DOORItems (52) and (53).
JOINT COVER STRIPATTACHED TO REAR SECTIONor FLUE COLLECTOR BYMANUFACTURER
HIGH-TEMP TAPESEAL ATTACHEDTO COVER STRIP
10 SHT. METAL SCREWS USEDBY INSTALLER TO JOIN FLUE
COLLECTOR SECTION S
7ZIFDA THRU 724FDA
4
12—WATER HEATER
Install water heater, it required, in locations as indicated in the chart, Figure #12. See Figures #15 and #16 for suggestedpiping when one or two heaters are employed.
When water heaters are not employed, cover all heater openings with cover plates prnvfded.
TANKLESS HEATER RATINGS — SERIES 7FDA
Hnlw bug — G.P.M.
Huh, Ho.X.1020 Hut,. No.X.l021 Huh, No.X.lOfl Two Nw.,. NeX.1020 Two Hut.,, Ha,X.lfl2t Two Hut.n NsA-fIn5In — — —
Mod,I Lonilni LoaUcn tocatlo, Lsc.U,a Location ball,,No. GYM. ‘GPM &PJ — LP.M.___.._ 0P.M. —Slum Wal.r St.am Wit., Steam Wit., Steam Wilt, Slum WiLt, St..m WalerIGIFIA £5 1 2 — — — — —
— 8,0 — 11.2 — — — — — —
705F18 535 I 2 7.0 1 2 — — — 10.0 1TI W1 — — — —
711111 6.25 I 2 725 1 2 — —— 12.0 Tji9jiz 182 — — —
IDHIA 64 I 2 8.5 1 2 13.0 1 2 13.0 — 182 154— 11.2 154 — 11.2
741111 7.0 1 29.25 1 2 14,0 — 11.2 173 — 11.2 itO —
ThI1H 7.25 I 2 10.0 I 2 14.5 I 2 144 11.3 182 20.0 — 11.2 20.0 — 11.2711111 74 I 2 1075 1 2 15.3 I 2 15.0 11.3 11.2 2)3 11.3 11.2 224 — 11.2711111 8,0 1 2 11.50 1 2 164 1 2 16,0 11.3 11.2 233 11.3 11.2 244 — 11.271210* — — — 1225 I 2 17.5) 2 —_
— 24,511.3 11.227,0 — 11.271310* — — — 13.00 1 2 19.0 I 2 — — — 26,0 11.3 11.2 29.0 — 182WIll — — — 13.00 I 2 187512.... —
— 26,011.3 11.2 31.5 — 11.2715181 — — — 13.00 I 2 19,5 1 2 — — — 76.0 11.3 11.2 333 11.3 18271511* — — — 13.00 I 2 20.0 1 2 — —
— 26.0 1.3 11.2 355 183 11.27)718* — — — 13.00 I 2 20.0 1 2 — — — 26.0 11.3 11.2 373 11.3 11.271111* — — — 13.00 I 2 20.0 I 2 — — — 26.0 11.3 11.2 39.5 11.3 11.2IIIFD*Ibm — — — 13.00 I 2 20.0 I 2 — —
— 26.0)1.311.240,011.311.2Jfl FDA
Figure 12
estra tharg.—whan otdved with boll.,,
Wat.r bailer rating. are ba,ed on intnmltled d,mend—.40°F lo 140°F Ri,. will, 200°F boiler war.,,“Water heal., locallon, may be found on “Water Healer and Control Location. &awlng above“Wben two 12) tanIeoo wale, beaten are used in e steam boflar, a epocht rear section ii fu,nbhad at no
Ceutleni Water misbig valve should alway, be ln,laUed In the hot waler supply to prevent hsleny.
WATZRWCATCN
WC4TON ‘2
0
5
TAPPING SIZESTEAM W%TERLOCATION INCHES
D W GAUGE GLASS NOT USED
E lit PRESSUIIETROt THERALIIICER
F C pREssuRt GAUGE OPERATING CONTROl.
G 3’C OPERATING CONTXL NOT USED
the standard back section. A special back section is provided when this heater open-with the ¾” pipe tapping should be installed at heater opening #2.PLACE BETWEEN THE COVER PLATE AND BOILER SECTION.
HEATERWCATION’[
LW.CQ(OPTcNAL’)
LOWCUT-OFF
(OPTIONALWATER ONLY)
Figure #13 FIgure #14
0NOTE Healer opening #3 is not provided in
ing is required. The cover plateBE SURE RUBBER GASKET IS IN
MIXED WATER
FLOW CONTPOLILOW CONTI.
Figure #16
Figure #156
B — ACCESSIBILITY CLEARANCES
1—To provide for reasonable conditions ci accessibility, the following minimum clearances are recommended:
a. Boiler installed without Domestic Water Healer 24” between the side oF the boiler and adjacent wall or other appliance, whenaccess is required for servicing.
b. Boiler installed with Domestic Waler Healer 24 between the side of the boiler and adjacent wall or other appliance.Minimum clearance from the front or back of jacket to provide for removal of the tankless heater should be as follows:
Minimum Cleannce — Inches
Heater No. X-1020 Heater No. X-1021 Heater Na. X-1022
30 35 45
C — AIR FOR cOMBUSTION AND VENTILATION
I—Be certain adequate facilities are available to provide air for satisfactory combustion and ventilation.
2—Appliances Located in Unconfined Spaces.
a, Installations In unconfined spaces with conventional construction and larger areas such as basements, the supply of air brcombustion and ventilation can usually be considered adequate.
3—Appliances Located in Confined Spaces
a. IF all air for combustion and ventilation is to come from within the building, two openings, one near the ceiling and one near thefloor of the boiler room shall be provided wilh the minimum free area of each opening equal to 140 sq. in. per gallon oF oIl burned.b. If all air For combustion and ventilation is to come from outside the building; two openings, one near the ceiling and one near thefloor of the boiler room shall be provided with the minimum tree area of each opening equal to 35 sq. in. per gallon ci oilburned.
If ducts are used to convey the air, areas of 35 sq. in. per gallon of oil burned for vertical ducts or 70 sq. in. per gallon ofoil burned for horizontal ducts are to be provided. Ducts shall have the same area as the free area of the openings to whichthey are connected.
0 — PIPING
I—Supply and return piping may be installed permanently before the jacket is applied. See Figure #17 and Figure #16 for suggested piping to the boiler.
2—DO NOT INSTAI,L CONTROLS DR GAUGES UNTIL JACKET IS INSTALLED.
3—Make up cold waler supply connection to the bailer. NOTE: After pressure testing, water supply should be connected to returnpiping and tempered before eventually entering boiler.
4—Install pressure gauge or Iheraltimeter in bailer tapping provided.
5—Plug all open tappings in the boiler and till with waler. App’y appropriate amount of pressure. Check to make certain that all joints and Fittingsare water tight
6—After all joints and connections have been proven water tight, drain water and remove plugs from all tappings that are to be used.See Figures #13 and #14 for tapping locations.
NQT& IF flitS BOIL,ER AND DISTRIBUTING SYSTEM IS USED IN CONJUNCTION WITH A REFRIGERATION SYSTEM, WE CHILLED MEDIUMSHALL BE PIPED IN PARALLEL WITh THE BOILER AND WE PROPER VALVES APPLIED TO PREVENT THE CHILLED MEDIUM FROMENTERING ThE BOILER. WHEN THE BOILER IS CONNECTEO TO HEATING COILS LOGATLO IN AIR HANOUNG UNITS WHERE THEYMAY BE EXPOSED 10 REFRIGERATED AIR CIRCULATION, THE BOILER PIPING SYSTEM MUST BE EQUIPPED WITH FLOW CONTROLVALVES OR OThER AUTOMATIC MEANS TO PREVENT GRAVITY CIRCULATION OF ThE BOILER WATER DURING THE COOLING CYCLE.
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NNNN71711*
NNNN71111*
NNNN711f0*
NNNN7flffl
NNNN71110*
NNNN72241*
NNNN71311*
NNNN71110*
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SS
E — JACKET ASSVIBLY — FLUSH
Refer to Figure #19 for Items used in Jacket asseflily.
1—Set side panels In place
a The side panels on Models 704F0A thm 708FDA are in one piece (17) and (41).b.The side panels on Models 709FDA Ibm 71 5FOA are in two sectIons (18), (19), (42) and (43) and must be joined together by three (3) bolts
and nuts provided.
c.The side panels on Models 716FD4 Ibm 718FDA are in three sections (18), (19), (20), (42),(43) and (44), and must be joined togetherby six(5) bolts and nuts provided.
d. The sIde panels on Models 719FDA thm 721F0A are In tour sections (18), (19), (20). (21), (42), (43), (44) and (45) and must be joinedtogetherby nine (9) bolts and nuts provided. Reinforcing angles are attached with #10 x ½’ sheet metal scrnws at the bottom of these sidepanels across the loints.
e. ThesJe panelson Models 722FOAthm724FDAare inlive(5) sections(18)j1 9),(20),(21),(21A),(42),(43),(44), (45)and (45A)and mustbe joined together by twelve (12) bolts and nuts provided. Reinforcing angles are attached with a #10 x ½’ sheet metal screws at thebotloni at these side panels across the joints
2—Join back panel (39) to side panels with #10 x ½” sheet metal screws provided.
3—Attach top front panel (11) with #10 x ½’ sheet metal screws provided.
4—Attach center (rant panel (9) with #10 z ½” sheet metal screws provided.
5—Attach boiWn front panel (6) with #10 x ½” sheet metal screws provided.
6—Attach two small vertical side rails (7) and (8) with two (2) #10 x ½” sheet metal screws provided.
7—Attach top of jacket
a The lop cislsis of three pieces (32), (33) and (34) on Models 704FDA ibm 710F0&
b The top consists of four pieces (32). (33), (35) and (36) on Models 711FDA lhw 115F0A
c The top consists of five pIeces (32), (33), (35), (36), and (37) on Models 7I6FDA thm 718FDk
ci The top consists of six pIeces (32), (33), (35), (36), (37) and (38) on Models 719F0A thm 721 FOke.The top consists of seven pieces (32), (33), (35), (36), (37). (36), and (38A) on Models 722F0A thru 724193k
The two end pieces (32) and (33) overlap pieces (34) or (35), (35), (37), (38) and (38A) and are attached with two (2) #10 x44” shed metal screws.
8—Apply seven U) %“-lG x 2¼” Studs (22) to front boiler section and attach combustion charter cover plate (5) with seven U)%“-16 nuts.
F — BURNER SPECIFICATI OHSBECREIT BURNER
Bolter Berner NonIe PHmpModel No. Model No. She Pressure Lbs.7O4FDA CF-BOO A-Tube 1 - 3.50 709 1407OSFOA CF-BOO 8-Tube I 4.50 609 140706F0A CF-BOO B-Tube I 5.00 509 14070710A Cr4400 1 - 4.50 451 3007OBFDA Cr1400 1 - 5.00 459 3007O9FDA CF-1400 1 - 5.50 459 3007IOFOA CF-2300 1 - 6.00 45°f’ 3007IIFDA CF-2300 1 7MG 45°f’ 300712FVA CF-2300 1 - 7.50 45°f’ 300
.-.e-JI3FOA CF-2300 I - &0O 45°f’ 300J14FDA CF-2300 1 - 9.00 45°P 300715F0A CF-2300 1 - 9.50 45°F 3007IGFDA CF-2300 I - 10.00 45°F 300717FflA CF-2500 2 - 5.50 45°P 300718A CF-2500 2 - &00 45°F 27571SFOA CF-2500 2 - 6.00 45°F 300720FDA CF-2500 2 - 6.50 45°F 285
Q 721F0A CF-2500 2 - 7.00 45°F 280722F0A CF-3500 2 7.00 45°F 30072310A CF-3500 2 - 7_SO 45°f’ 290724F0A CF-3500 2 - 800 45°F 275
B-Delavan r-Hago
16
1-1—I.1—
Nrnl.Sb.
4.00 30’5.00 80’3.00 602.00 603.25 60’2.75 66’3.50 60’4.00 60’4.00 50’4,50 60’5.50 454.50 45’5.50 43’5.00 45’
1 . 6.00 45° H1 - 5.50 45’ H
6.00 45’ H
______
1 - 6.50 43’ HI - 6.50 45’ H
• 7.00 45’ H1- 6.50 45I - 8.00 45’
6.50 45’
_______________
8.50 43’1000 45’500 45
I 1000 452- 55645’
)•- 11,0045’• 550 45’
I .110045’2’ 6.00 45’I - 1100 45°2- 606 45I • 12.00 452. 65045’
- 13.00 450
2 . 6.50 45’
ss85HH
150
150
150
150
ISO
150
100
100‘
• HAGO NOZZLES
PEABODY GOROON-PIRU GAS - COMB. GAS-all. BURNIRS —
Bailer Ga Buners Ga-OH Burner “Honle(s) PressmiModel No. Model N.. Model No. Typ. B P81070410A R5.2-G-03 R6.2-B0-03 • 250 90’ 250705FDA R6.2-G-03 116.10003 • 3.00 90’ 290706104
- R6.2-G-03 RI 2-6003 1 • 4.00 90° 24070710A H6.3-G-U RB 3•GO-05 1 • 4.50 90’ 27070810A R6.3-G-0 R6.3-G0.05
_________
I- 5.00 90’—
29070910A — B8-G-05 R8-GO-05 2T300 60’ 260710104 RB-C-OS
________
RB-GO-OS
______
2 ‘ 3.260_, 275 -
t1iod 2 -3.50 6D 295712FOA RB.l-O-05 R8.1-GO-05 2 - 4.00 60’
______
26571D ‘ R82.G-OC / RW2-ã007
_______
714F0A ‘ RB;2GO7 6 i9.00’60° 295715F0A
- -.-_-_
R82-G0-0)FTO60°
_____
300)IEFDA — RIDS-C-IS R10.9-60-15
_____
2 •5.50 60’ 2607l7F0A ‘ Rl0.9-G-15 RICO-GO-IS 2 • 5.50 60’ 295718F0A RIO-C-IS RIO-GO-IS 2 - 6.00 60’ 280119104 H1O-C-15 Rl0-GO-I5 - - 6.00 60 300720104 RIO-C-IS RIO-GO-IS 2 - 6.50 60’ 265
RIO -15 RI0-6a-1C 2-7.0060’ --
-
722104 — Rl0620 I0-Ga2o —— 2 7.50 50 270
-. 723104 R10-G-20 RlO-GO•20 — 2•i5060’ 2907NFDA -
— Rl0.1-030 - RIO 1-00-30 2 - 6.00 60’ 275
CARLIN BURNER —
BoilerModel Na.704 FDA705104
706104
BurnerModel Ni.
3DICRD3OICRD
7OICRD
70710* 7O1CRO
7081DA 7OICRO 2 -709104 7010R0 2 -
710104 7OICRO
PtesvureLbs.100100
150
711104 801CR0
HH 150
H 150H t50HH 150
I712104 BOICRO -
713104
71410*
715104
HH
80l0R0
ROtC RD
801CR0
HH
716104 8OICRD
I—717104 BOLeRO I -
718104 1050110
HH 150
719104 1050110
720104 1050110
HH55ss
721104 IOSOFFD - -
722104 1150110
723104 1150110
724104 1150110
100SsSB
--
100
100
100SBSB
- DEUVAN N0UL
I
17
C — OIL BURNER INSTALLATION
1—The Oil Burners incorporate a Steel Burner Mounting Plate Welded Gas-Tight to the 8last Tube. Insert FDUr (4) 31” 16 x 1¼”Long Studs in the Tapped Hales in the Combustiun Chamber Cover Plate. Apply High Temperature Rope to Burner Flange close tothe Inside of the Bolt Holes to insure a Gas Tight Seal.
When a Pedestal is provided in addition lo the Flange, the Pedestal is to be applied to the Bottom at the Burner Housing as explained in the Burner Installation Manual. The Application of Both Pedestal and Flange Mountings provides for Rigid Vertical andHorizontal Support.
Other Information relative to the Burner is given in the Installation Manual accomoanvin the Burner.
NOTE: OIL BURNER CO2 TO BE SET AT 12.5% MAXIMUM.
1—POWER FLAME BURNER (SIEMON)
C-i — GAS AND COMB. GAS - OIL BURNER INSTALLATION
The burners incorporate a steel mounting plate, welded gas tight to the blast tube. Insert (4) %“•lE 1¼” long studs.in thetapped ‘holes in the combustion chamber cover ptate. A rape seal is provided on the combustion chamber cover plate to sealbetween the burner flange and the plate.
2—GORDON & P1411 BURNER
Instructions covering the mounting are provided in the burner Instillation Instructions.NDT& When installing the burner, it is generally accepted pracUce that provisions must be made in The wiring and gas and oil
lines to facilitate removal of the burner and combustion chamber cover plate for proper cleaning of the flue ways and combustion chamber area,
NOTE: OIL BURNER CDI TO BE SET AT 12,5% MAXIMUM.GAS BURNER CO2 TO BE SET AT 9% MAXIMUM, CO .04 MAXIMUM.
H — CHIMNEY AND IREECHING
I—The Series 7FDA boilers are designed for forced draft firing only. The boiler bafflIng and flue outlet sizes pfoduce the requIted pressures in thecombustion chamber when operating alboiler rating.The boilerbreeching should be the lull 51ze oF the flue collectoroutlet and may be attachedto a conventional chimney or a short vent A 3 ft minimum height ol vent above the mc? is recommended.
2—Install damper assembly tarnished with boiler in posilion shown in Figure #20.3—When attached to a conventional chimney an excess draft may be available. It such
stalled and set to provide minimum draft. The dampei supplied should then be setwater column or minimum of 0” water column at the outlet of the flue collector.See Figure #20.
- MAX. t OJ’W.C.
MIN. O”W.C.
It should be pointed out here that ccnventienal smoke pipe siould not be used as it will teak flue gases through the seams and joints.
When constwcting the welded breeching for the Stiles 7FDAboilers. it is obvious a means of dIsconnecting (Flange) must be provided to lacilitateremoval of flue collector (or proper vertical cleaning of the holler and chimney. Note Figure #20.
I-
is the case a draft regulator should be into provide a maximum pressure at +0.1”
Lock damper in place by use of set screws.
DAMPER—..,,
Ci:jrM NE Y
I DRAFTREGULATOR
FLUECOLLECTOR
c Figure #ZO
18
— CONTROLS
1—Apply controls as follows
a. WATER BOILERS:
Install the limit or operahng control, theraltimeter and pressure relief valve. See Figures #13 and #14.
b. STEAM OOlERS,
Install pressure limit contra’, pressure gauge, gauge glass trim and pop safety valve. See Figures #13 and #14. For apphcation of low waler cutoft, water gauge glass set, see Figures :2! thru 26 and control manufacturers sheet in the controlshipping carton.
figure #21
0
0
S
(2)(2
NIPPLE5 &
JACKETAPPLICATION OF WATER GAUGE GLASS SET
19
:a. 6’ NIPPLE.
F4GHT HAND -HOWNUT HAND PPiITE
— PRE ‘tJRETROLS
STEAM GAUGL/PRESSURETROISPIPING ARRANGEMENT
Figure #22
3/3..
STEAl.’
/2 CR0 19
211/1 V RD 4cc
t,:FPLI
It PLt’C
/2” V NIPPLE
2.5’ MPPIj
PLUG
NOTE S.
I ‘V RED’ :1N3 CE
I:2. 4’ NIP
CR05’
A’. F Iii’NG, L.IA EA8
• /1’ HEX OUSHING
/2’ PL
PRE S RE I ROt
0
C
l,’2’ CROSS
3/$•. ut HEX DUSHING(WHEN 11(GUIRCD)
/2 rJ:PP_(
/4’.)’ 6P4 NPPLE
I/a’. 1/2’ • /4’ REDUCING TEE
it euo
l/t. I/2 .1/4’ REDUCING ICE
I/3. r BRASS NIPPLE
‘it PLUG
-1/2’ • 1/2’ • 1/8’ REDUCING ICC
STEAM GAUGE
I/V. 3’ NIPPLE
It CROSS
I/a’ PLUG
Itt’ N’PP..E
ALL FITTI,C,S MALLEABtE
SrEAM GAUGUPRESSUREtROISALTERNATE PIPING ARRANGEMENT
FIgure #23
20
X_4’BflAtIIPI rs (2 ira 0)
SPECIAL TAPPED INTERMEDIATEIS TO BE LOCATED FIRST SECTIONFROM ThE FRONT.
0
I
NOTES:SI FEEDER OR 51.2 COMB. FEEDER CUT-OFF USED ON MODELS 0-ill FDA THRU 0424 FDA.CONNECTING FIllINGS SHOWN ON THIS DRAWING ARE TO BE SUPPLIED BY INSTALLER.ON COMB. FEEDER CUT-OFF MODELS lifE BURNER cUT-OFF LEVEL IS 2 ‘/‘‘ BELOW NORMAL WATER LINE.
Figure #25
‘—-I
APPUCATION OF E7PE-2LOW WATER CUT-OFF
WL
1 I LIct. OFF LEVE
TGF%SS UNION P;PE TAP
I ‘E CONDUIT
tjL ccu Cnp
RCQ’O)J —i
dl
JACISET I, SRASS CLOSE NIPPLES (
Figure #24
/.1
±:zEi
1•
ii]I.
p
-ftLmd’(4’ L
aLl
‘ -t
.1
4
21
-
I.’
SPECIAL TAPPED INTERMEDIATEIS TD BE LOCATED FIRST SECTIONFROM THE FRONT.
Figure #26
APPLiCATION OF 157PUMP CONTROL. 1.0W WATER CUT•OFF
N
.LSL?’!UJLS9 —r2j -
--
;.us, •,T.T__c44.Fflt IJ’ii!L.i ire-.-
-
‘CM fl.TACC
‘1 fl—7414 ‘PA o—7o, ‘EtACial. tzCPp F.FIE
(QAVETV AATI FE 19fl STE AU
0FSS COY_ft!H °!3..&$hL
EtS AJC
Figure #27
0
)
NOTE; CONNECTINC FITTINGS SHOWN ON ThIS DRAWINGARE TO RE SUPPLIED BY THE INSTALLER.
fLAAF Nflj_fttfl!flU? I I flY
•FIIFLLJUZttUE
/ 1r j—-ri--± i \tt fsaci1 c:.ii ‘ ‘
— O1AE.uL r 1J -j__J L2
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CC APQt.c.roh Wtti OECT.flO)
22
— WIRING
I—411 electrical wiring shall be done in accordance with the National Electrical Code and local requirements.
2—For recommetided wiring of all Carlin oil fired boilers, see Figures #27 lhru #31 inclusive. Complete wiring diagrams forother oil, gas and gas-nil burners are found in the burner carton.
3—For complete servicing and adjustment of controls, refer to the attached conlrol specification sheets.
rn ‘r(
:C±ifSL—
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_____
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_____________
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_____
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S I CI 1,1111 I
—‘ I t*1 LI IS 14 STIR SIC
‘a Es .cIi,Trn
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r lCDU?_W’3SI rL.LO2\ tJiltfi ‘ a5_L__..
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- ,IL&I ‘kaLCC’J1f
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Figure #28
\L& “n;[tii‘r) !J
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figure #29
23
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C
K — RATING AND DIMENSIONAL DATA
‘i=9=R Bumc, Capacly ‘Nel IBsR R,bngG.on
&du D;I Ca, Steam HaIhi K.,tbeeBuaeei %aI Beau PH. UGH Watt, Steam Sini Purq Feel dWilMa UGH H.P lajl ‘lout UGH UGH Sq H. Fnitt Sin Un) Sectns
+7O4FDASUorWU 446 13 3,95 571 386 335 1,395 1.333 9 3 4+7O5FDASUarWU 576 17 5.10 735 501 432 1.800 1.333 9’ 3 5+7O6FOASUCrWU 707 21 6.20 899 615 530 2,208 1.333 9” 3 6+7O7FDASUorWU 637 25 7.40 1,064 728 625 2,617 1.333 10” 3 7+7O8FDA5UorWU 967 29 8.50 1.228 841 725 3.021 1.333 10” 3 8+7OBFDA Si) or WU 1.098 33 9.50 1,392 955 824 3,433 1.333 10” 3 9+71OFDASU orWu 1.228 37 10.80 1.556 1.060 921 3,830 1.333 10” 3 10+71 IFDA SU orWU 1,358 41 12.00 1.720 1.181 1.026 4,275 1.323 12” 3 ii+712F0A SU orWU 1,488 45 13.00 1,864 1,294 1.135 4,729 1.311 12” 3 12+713FOASU orWU 1.619 45 14.20 2,048 1.405 1.243 5.179 1.302 12” 3 13+714FDASU orWU 1,749 52 15.40 2,212 1.521 1,352 5,633 1.294 12” 3 14+715F0A SU orWU 1.879 56 16.40 2.376 1.634 1.458 5,075 1.289 14” 3 15+716F0A5u orWU 2.010 60P 17,60 2,541 1,748 1,561 6,504 1.288 14 3 16+717FOASU orWU 2.140 84 18.80 2,705 1,861 1.561 6,921 1.288 14” 3 17+7IOF0ASU orWU 2.270 68 19,60 2,869 1,974 1.762 7,342 1.288 14” 3 18+719FDASUQrWU 2.401 72 21.00 3,033 2,088 1,864 7,767 1,268 14” 3 19+T2OFDA Si) orWU 2,531 76 22.00 3.197 2,201 1.965 8,188 1.288 14” 3 20+72IFOASUorWU 2,661 80 23.50 3,361 2,314 2.066 8.608 1.288 14” 3 21+722F0A Si) or Wi) 2,791 83 24.50 3,525 2,427 2.167 9,029 1.288 16” 3 22+723F0A5U’orWU 2,922 87 25,50 3.689 2.541 2,269 9.454 1.288 16” 3 23+724F0A SU orWU 3,052 91 26.50 3,854 2.654 2,370 9,875 1.286 16” 3 24
fApply PreFix “0” for oil — “C” for gas — GO” for gas-oil.The Net l=B=R Ratings shown include allowance fornormal piping loss and pick-up load, in accordance wilh the Testing and Rating Code ofLow Pressure Cast Iron Heating Boilers of The Hydronlcs Institute. Water ratings are based on a piping and pick-up allowance (actor of 1.15steam ratings based on graduated Factors in accordance with Ihe Hydronics Institute Rating Code.The Peerless Healer Co.should be consulted before selecting a boiler forgravily hot water installations and installations having unusual pipingand pick-up requirements such as extended piping systems, exposed piping, night set-back, night shut-down, etc.1B=R Burner Capacity is based on fuel oil with a heating value of 140,000 BTU/gat.
* “A 3 ft. minimum height of vent above the roof is recommended. For any unusual venting conditions, consult your local building code orauthority.
wEt, Dtoil
n
IMN Csc
SERIES 7FDA BOILER RATINGS & VENT SIZES
N
Ratings Based On 12’14% CO2
25
a
a
35’
TI—- IS—.J
AA’ WETVg VAUIELi pa,u ‘&VE
0•0 0
Scft€c.no’l
1—Remove smoke pipe, top of jacket and flue collector.
2—Remove center front jacket panel (9). See Figure 19.
3—Remove clean out cover plate (29) horn boiler. See Figure 19.
4—Brush tubes with wire brush both vertically and horizontally, through the flueways and between the tubes.
5—Remove any scale or soot from the combuslion chamber by means of vacuum cleaning or any other available means.burner must be removed to facilitate this operation.CAUTION: ON THE SERIES FDA BOILERS RE CAREFUL WHEN VACUUMING. THE CERAFELT FLOOR LINER IS RELATIVELY FRAGILE
6—Replace flue collector. Follow directions carefully as described in section A•IO of these instructions.
7—Replace au racket panets.
B—Replace oil burner. BE SURE GASKET IS IN PLACE BETWEEN BURNER FLANGE AND COMBUSTION CHAMBER COVER PLATE.
The oil
rOIVJG
RONV’
ZUlU 7F0* OINEIZIONI
L.uØ Lash.,. Numb., ?fum.bir L.c.tmnnun C.aibgutI., flu. iI’ Fm. ti of Mu.s.,Wbt. t.ni,, 41 T,oorngiOolkm Bij’n.r mint ciu.mft. ogu.’ Fivil Suoøy thin. Tnød —UMi N, Tu*np ThØp 51dm... “r”F.i”r-T’”r-r “F-4“A’ -r ‘a -r rr.. flo.1
t-IO4FOASU orwu 25%’ 1934’ 9’ 12%’ 2.4’ 1 -3” — 1634’ — — —
t-7OSFDASUorWU 3034’ ‘24%’ 9’ 15’ 2-4’ I - 3” — 21½’ — — — —
t-JOBFDA 511 Ml 3335’ 30’ 9’ 1735’ 2-4’ 1 - 3”— 26%’ — — — —
t-7OJFDA 511 orWU 40½’ 35’ 1O 20½’ 2-4’ I - 3” — 31%’ — — — —
3-lOaFOASUo,WU 33½’ 40¼’ 10’ 22%’ 24’ I -3” — 36%’ — — — —
;-7O9FDASUorWU 50%’ 45½’ 10’ 35¼’ 34’ 1-3” — 41%’ — — — —
t-?IDFOASUaIWu 55%’ 50%’ 10’ 27%’ 2-4’ 1. 3” — 46%’ — — — —
#.lIIFoASuoiWd 60%’ 55¼’ 12’ 3Q35’ 2.4’ 1-3” — 51%’ — — — —
}ThFXSu&wu! 65½’ 60%’ 12’ 32¾’ 24’ 1 - 3” — n’ — — — —
4ThaFoAsbiwu 7034’ 65%’ 12’ 35¼’ 2-4’ 1 -3” — 62’ — — — —
,itFuAsUiiwu 76’ 70½’ 12’ 14¼’ 24’S 1.2’ 2-3” 6th 67%’ 36’ — — —
:-7I5FUASUO,WO 61’ 74’ 14’ 14¼’ 2-4’S I.!’ 2 3” 6th 72¼’ 36’ — — —
F1TtFDKSUorwlP 68%’ 80%’ IA’ 14¼’ 2-4’S 2-3’ 3- 3” 8th 8. 11th 77%’ 26’ 26’ — —
:-71?PbKsUoiWu’ 91%’ 85%’ 14’ 14¼’ 2-4’ 8. 2-3’ 3- 3” Yit, 8. 12th 6234’ 41’ 26’ — —
j718F0A5Uo,wu’ 96¼’ 90%’ it’ 14%’ 24’S 2.3’ 3-3” 6th 8. 13th 87%’ 26’ 26’ — —
t-llgFOASUorwu 101¼’ 93%’ 14’ 14¼’ 2-4’S 3.3’ 4 -3” 7th, 10th 8. 13th 92%’ 31’ 31’ U’ —
-720FOA 511 orWU 106%’ 100%’ i4’ 14¼’ 2-4’S 3-3’ 4- 3” 7th, 1 itt. 8. 14th 97%’ 31’ 31’ 20’ —
72lFOA SU orWU 111%’ 105%’ 14’ 14¼’ 2-4’S 3-3’ 4-3” 6th, 11th 8. 16th 102½’ 26’ 26’ 25%’ —
$-722F0ASUeWU 11634’ III’ ir 14¼’ 2-4’S 4-3’ 5 -3” 5th, 9th, 13thK 17th 107%’ 2014’ 26’ 20¼’ 20¼’t423FDA SuorWil 121½’ 116¼’ 16’ 13¼” 2.4’ 8.4-3’ 5 -3” 6t%, 10th, 14th& 16th 112%’ 26’ 26’ 20¼’ 20%’t’fl*OA su a,WU 126%’ 121%’ 16’ 15¼’ 24’ & 4.3’ 5. 3” 6th, 11th, 15th & 19th 117¾’ 36’ 26’ 25¾’ 20%’
I — CLEANING HEATER SURFACES
26
3
SERVICE INSTRUCTION NO. 11
C INSTALLATION AND SERVICE INSTRUCTIONSFOR SERIES LA — I E PUMPS
GENERAL DESCRIPTION Page 1Pumping Principle Page 1Seal Pagel
INSTALLATIONSelection Page 2Method of Drive Page 3Strainer Protection Page 3
SERVICEPage 4Disassembly of Seal Page 4Disassembly of Pump Page 5Inspection Page 5Assembly of Pump Page 5J Pump Performance Test Page 5Assembly of Seal Page 6Trouble-Shooting Hints Page 7
REPLACEMENT PARTS LISTRelief Valve Detail Model LEV - — — Page 9ModelLA PagelOModel 91.4
Page 11Model LE Page 12Model 2LE Page 13
fl TUTHILL PUMP COMPANY
L 12500 So. Crawford Avenue, Chfcago, Illinois 6065S
Telephone a Area Cod.312 • 389-2500S
INSTALLATION
SELECTION
The Series LA and LE pumps are designed for working pressures up to 500 -
psi and are required to develop 25” mercury vacuum at 0 psi on factorytest. While these pumps win develop as high as 27 of vacuum, it issound engineering to avoid extreme vacuum whenever possible. Selectpipe size to reduce line friction loss to a minimum. On transfer service, place pump as close to supply tank as conditions will permit,and eliminate the use of foot valves or check valves in the suctionline whenever possible. The LA and LE pumps are self priming and particularly suited to handle liquids of 35 SSU to 1000 SSU viscosity.Higher viscosities can be handled at reduced speeds. It is importantthat the piping used in connecting the pump be clean and free of chipsor scales.
:iaEraIIlS and tables show an dimensions necessary to position theTuthill LA and £2 pump in your application. Consult us in selectingthe proper pump and size of motor, giving us all the following in!or—mation:
3OLA I__________ .5 5 3’?, 1’)ç, 13 ¾-ISGaLA 2.1 1.0 5% 3% 3) 1% 1% 44-14
CLA j 3.1 1.8 5% 3% 3, I I’)f 1% 44-16ILA ] 6.3 32 5¾ 3% 33 1% 1% 34-14
iii I 6.2
r’i
itllLs(lit ri —
1W
PUMP DIMENSIONS
3OI.EV .9 .5 3 5 3”,, 2. 1%) 3U, 2b 41.18 —
5001EV 2.1 1.0 .6 3%, 3% 2 I 3% 2½ 34-1401EV 3.7 I 1.5 I 12 3% 3% 2 3% 2% 34-14ILEVi 5.3 32 t 2.1 5’ 3, I 3’.. 2 J3½ 2% 34-14
0
1. Capacity required.2. Maximun and minimum liquid temperature when entering the pump.3. The viscosity at the minitmam temperature.4. Total length of suction pipe and discharge pipe, including pipe
sizes.5. Suction lift and height to which the pump must force the liquid.
DIMENSIONALDATA ANDPUMP RATINGS
PUMP I NOMINAL CAPACITY GPMMODEL 3500 RPM 1800 RPM A B
PUMP DIMENSIONSC D E
Llb
T
4 3% I 2
IMI2itZ.i
J.D,eqII(*1I,t
NOMINAL CAPACITY GPM3600 RPM 1800 RPM I 1200 RPM
1½ 44-14
PUMPMODEL A 101 C 0 F 0
5?Ii I 4i
T
½142LEV 11.8 6.2 4.1 3¾ 2 3¾
INSTAllATION AND SERVICE INSTRUCTIONS
ci FOR SERIES LA — LE PUMPS
GENERAL DESCRIPTION
The Ththifl Series LA-I.E is a compact, highly efficient, positive displacement3 rotary internal gear type pump with mechanical seal. Builtin five sizes, it provides capacities from 20 to 360 gallons per hourand pressures up to 500 psi and is available with 2—bolt flange in theLA Series and 3—bolt flange in the LE Series. Optional mounting feetare available. It is multi-directional in rotation and designed fordirect drive at standard motor speeds, with modifications availablefor indirect drive.
PUMPING PRINCIPLE
These pumps employ the Tuthill internal gearprinciple which is based upon the use of arotor, idler gear and a crescent—shaped partition that is cast integrally with thecover. (See accompanying figure.) Thus3only two moving parts comprise this effi
C cient pumping element. Power is applied tothe rotor and transmitted to the idler gearwith which it meshes. The space between theoutside diameter of the idler and the insidediameter of the rotor is sealed by the crescent. When the pump is started, there is anincrease in volume as the teeth come out ofmesh. This creates a partial vacuum, drawing the liquid into the pump through thesuction port. The liquid fills the spacesbetween the teeth of the idler and rotor andis carried past the crescent partition tothe pressure side of the pump. When theteeth mesh on the pressure side, the liquidis forced from the spaces and out throughthe discharge port.
SEAL
The seal is a device to prevent leakage between the stationary pumpbody and rotating drive shaft. A rotating lapped surface is attachedto the shaft by an elastomer bellows. This rotating face is springloaded to nib against a stationary lapped surface in the housing plugbushing. The clearance between these two surfaces is so minute thatresistance to flow is great enough that fluid will not leak out andair will not be drawn in.
COUNflRCLOCKWIS! ROYATiDH
-1-
Mt thOU Ut UXIVINU
Direct motor drive through a flexible coupling is the most satisfactorymethod.
Th NOTE: LA and LE puoms can be driven in either direction of rotation.
Q The seal chamber coimminicates with the neutral zone and therefore the seal is subjected to one-half of the discharge pressure.
Viewing the pump from the shaft end, the inlet port is on theright-hand side for clockwise rotation, on the left—hand sidefor counter-clockwise rotation.
Pumps with built—in relief valves are uni-directional. Therefore, rotation, clockwise or counter-clockwise, facing the shaftend, must be specified.
1. All pump and motor units are properly aligned at the factory.However, misalignment may occur due to abuse or conditions beyondour control.
2. Pipe strains often force the pump and motor shafts out of alignment. See that all piping leading to the pump is properly supported by wall brackets. Do not expect the pump to act as a pipesupport.
3. Provide for proper expansion of pipes when handling hot liquid.4. Series L pumps are not designed to take end thrust toward the cover
Provide sufficient clearance, 146” to 1/8” between couplinghalves with shafts in closest operating position, to allow forend wear in the driving shaft.
5. Never align the pump and motor supplied with pin type couplingwithout first removing the pins.
6. Iever depend upon sight or feel for freeness in aligning a pump.
IA and LE pumps should be filled with oil at installation and shouldnever be allowed to run dry.
STRAINER PROTECTION
Strainers are used to remove contathinating particles from the hydraulicsystem and every Ththill pump should be protected from these particlesby a strainer in the suction line.
1. Strainer size and mesh of screen is determined by rate of flowand viscosity of fluid. Consult strainer nnufacturer for re—conunendat ions.
2. Never use a strainer with a built—in automatic by-pass on thesuction line set to open under 30” Hg. vacuum.
3. Install strainer according to arrows or flow designation.4. Have strainer accessible for servicing.5. Use a duplex type where shutdown during service is not permitted.6. Provide a vacuum gage in the suction line for determining when
the strainer requires cleaning.7. Make certain strainer baskets are properly reinforced so as not
to collapse under 30” Hg. vacuum.
Series LA—I.E pumps should always be installed with both ports pointinga upward to insure proper priming. If it becomes necessary to install the\!3Y pump with the ports pointed to the side, then the top port should be the
suction,,prt. When the pump is installed above the supply tank, an inverted U bend should be incorporated in the suction line close to thepump to trap liquid in the pump for priming.
—3-
0
C
SE R\’ ICE
HOUSING
IDLER
IDLER PIN
COVER
COVERBOLTS
COVER
DISAS5EIsLy OF SEAL
The seal assembly of the LA and LE pump may be changed without dis—assembly of the rest of the pump.
1. Place the pump in vise3 shaft facing up, so that one jaw gripsacross the two ports. Do not tighten excessively as pumphousing may be distorted.
2. Inspect shaft at keyway, flat or drive tang. Any burrs willinterfere with removal of housing plug bearing assembly.
3. Remove housing plug with face tyte spanner wrench (availablefrom Ththifl as part No. 0L506).
U. Remove the seal from shaft. The rubber boot will be bonded tothe shaft, so it is necessary to push down on the seal to breakthis bond. Grasp the metal outer shell with any suitable deviceand pull the seal assembly upwards. The spring and washershould also be removed.
5. The 3OLk through 1LA and 3OLE through 1LE pump assemblies havea snap ring on the shaft to back up the seal assembly. Do notremove this snap ring unless you are completely disassemblingthe pump. The 2LA and 21E pumps do not have a snap ring. A
- step on the shaft is used as the seal back up.o. Remove stationary seal face from housing plug by pressing out
from opposite side.7. If damaged, remove the 0—ring from 0.0. of housing plug.
GAS KEY2
ROTOR
BUSHINGRING
SEALASSEKELY
HOUSINGPLUG
II II
0 L
DISASSEMBLY OF PUMP
Seal assembly must be remed before disassembly of pump. Also removesnap ring on shaft on 301A through 1LA and JOLE through ThE.
Mark cover and body of the pump for proper reassembly Remove capscrews, cover, idler and rotor from housing.
INSPECTION
Check pump housing, rotor, idler gear, idler pin and crescent forwear, chipped or broken teeth.
Housing bore and rotor 0.0. may be checked for wear by positioningrotor in the housing and check for clearance in the bearing. Theshaft must turn freely without any detectable side play. Any sideplay will require replacement of the housing, rotor or both. Ifboth housing and rotor require replacing, it IS economically advisable to replace the pump.
ASSEMBLY OF PUMP
The following must be carefully followed when pump is reassembled:
1. Clean all parts thoroughly using great care to eliminate alldirt.Install rotor in pump body.Apply gasket to cover. Use new gasket if old one is damaged.Place idler gear on pin in cover assembly.Place cover assembly with gear on pump. (Align matching marksfor proper location.)Install cover cap screws. Pull down gradually and alternatefrom a screw on one side to one on the opposite aide.
7. Install snap ring on shaft.
PUMP SIZE
30LOOLOLlL2L
SPEED (RPM)
17501750175017501750
PRESStfl3E ( PSI)
100100100100100
CAPACITY (GPM)
.30
.751.502.705.70
Performance data based on pumping a liquid of 100 SSU viscosity.
0-2.3.It.5.
6.
PUMP PERFORMANCE TEST
—5.
ASSEMBLY OF SEAL
Q 1. Clean all parts thoroughly using great care to eliminate all dirt.2. Oil shaft with suitable lubricating oil.3. oil inside of new rotary seal assembly.For standard full length shafts with flat and/or keyway:a. Place rotary seal assembly on pump shaft.b. Push seal down with your fingers to a position approxi—matelt half way down shaft.For Mod. “A’ tang shafts
a. Use plastic seal assembly tapered sleeve.(Available from Tuthill as part No. lLPF53l-70l0.)b. Oil seal assembly sleeve.c. Place rotary seal assembly on sleeve. Tapered end ofsleeve fits into spring end of assembly.d. Place slotted end of sleeve on bench. Press down oncarbon face of seal with your fingers and slide sealabout mid-point on sleeve.e. Place slotted end of tool over tang on pump shaft. Lineup outside diameters of sleeve and shaft by eye.f. Push seal down with your fingers so that it passes from theassembly sleeve to a position half way down the shaft.. Press stationary face into housing plug. Lapped surface must be up.Protect this lapped surface by covering it with a piece of paperwhen pressing down on face. Use your fingers for this operation.5. Place new 0-ring on O.D. of housing plug, if required, and lubricate with oil.
Q 6. Lubricate carbon face liberally with lube oil.7. Reassemble housing plug Into pump housing. Use care when placinghousing plug into position over the pump shaft. Do not nick sealface by hitting pump shaft. Tighten the housing plug withspanner wrench (0L506). Rotating seal will automatically bepositioned by this operation.8. if pump is equipped with ball bearing (“K” Model only), pressbearing on to shaft. Press on bearing inner race with suitablesleeve. Do not hammer into position or press on bearing outer race.9. Check pump for free rotation by turning shaft with suitable wrench.There will be a definite resistance to turning because of the sealload. The pump must turn freely without binding.
HOUSING
HOUSING PLUG(LkK37)HOUSING
BUSHINGBAIl BEARING(oLK5n-E)
RETAININGRING ROTOR
C LASSEMBLY
-6— MODIFICATION “K” (BALL BEARING)
PUMP PERFORMANCE
0 WHAT TO LOOK FOR WHEN
NO Oil. IS DE.1EID.
a. Suction lift too high for vapor pressures of liquidpumped. While Ththill pumps will develop as high as27 inches of vacuum, it is good engineering practiceto reduce the vacuum to a minimum.
b. Bad leaks in suction line or port passages can be detected by submerging pressure line from discharge sideof pump into a pail of oil, where the air will be seenin the form of bubbles.
c. Pump shaft not rotating.Coupling defective — tongue and groove or gear notengaged.
CAPACITY IS TOO LOW.
a. Suction lift too high.b. Air leaks in suction line.c. Suction line too small.
Q Can be detected by installing a vacuum gauge directlyat the pump suction. The maximum vacuum at the pumpsuction should never exceed 15 inches of mercury. Itis necessary to keep below 15 inches, not because ofthe inability of the pump to handle a higher vacuum,but primarily because of the vaporization that isliable to take place at a higher vacuum. Vaporizationcaused by higher vacuums will generally result in capacity drop—off.
d. Pump speed too slow.e. Strainer too small or obstructed.f. Suction pipe or port not immersed in the liquid deep
enough.g. Piping improperly installed, permitting air pocket to
form in pump.h. Increased clearances or wear in the pump will sometimes
cause the pump to deliver an insufficient supply of liquid.
Pt94P WORKS SPASMODICALLY.
a. Leaky suction lines.b. Suction lift too high.c. Air or vapor in liquid.d. Coupling slipping on pump shaft.
-7-
0PUMP WASTES POWER.
a. Pressures too high.b. Liquid more viscous than desired.a. Suction or discharge.lthes obstructed.d. Mechanical defects.
End thrust on pump shaft. (7’uthin pumps are not tie—signed to take end thrust toward the pump cQver andextreme care rm.ist be taken to prevent thrust in thisdirection.)Driving shaft and pump shaft misaligned.The pump may be binding due to insufficient endclearance.Pump shaft bent.Misalignment within pump due to strains built up bybad piping or installation of pump into equipment.
PUI4? IS NOISY.
a. Machine or part of it is acting as a sounding board.b. Misalignment or bad design of coupling.
C c. Coupling set up too close to pump.d. Vibration of pump.
Bent shaft.Worn pump.Inferior workuanship.
e. Air leaks into suction side of pump.1. Suction lift so high that vapor forms within liquid.
PUMP LEM.
a. Cover bolts need tightening, or cover gasket is defective.b. See seal under service instructions.
HANDLE WITH CARE.
If it becomes necessary to remove pump from your equipmentto return to the manufacturer, plugs should be inserted inthe ports to prevent foreign material from getting into themoving parts. Puthill pumps are precision-built and shouldbe given every reasonable care.
C.
o TIPICAL RELIEF VALVE ASSEM8L’i
MODEL tLLY’’
• /f:::: :::a000 ,° I
REPLACEeWP PARTS LIST FOR LEV VSLVE ASSE{ELY
ITEMNUMBER PART ?IITP{BER PART DESCRIPtION
1 301256 Valve Cap Ccver2 P103—li 546—13 NC2 X 1—3/8” Long Set Screw3 30LE528 Nut4 30LE64-A Valve Cap Cover Gasket5 0LW56 Valve Cap6 30F64 X 201 Valve Cap Gasket7 30EN92 Spring RetaInerS Spring (SpecIfy Relief Pressure)9 OLWV5B X 201 Plunger
a
C
November 24, 1992
SOBMIUAL DATA SKEET
PrQJect: Bethlelie, Wtr Tr t’-.c’, PitC.jntrert ILL —
P;oject ;. •_•:caVo.:
______________
Dr
Pef. Dre:n3i5p€c_J_
&t€rtific&t,n Stnt.:t.nt: Sj LIF çl :r21, I;.erebv ‘cc’ anc ahab 1 him dcLernJ endvrif ltd ii cli f i t;n:tctSoncriteria, natcr!Is, uinnclan;, c3talog flUt)WSand ir,i1&r data and I ha.e checked aid coordinatedeach iten with te Contract Drsdnga,Tankftcations. other appilceble shop rainq andall Cctrct recuiecGtt.
V’ C I
£ i :Ct s I: i:w:
12 Sets for Submittal
C
Submitted by: THE BAASE COMPANYNorthampton md. Park
140 Railroad DriveIvyland, PA 18974
Phone No.j215) 364-8855FAX No. (215) 364—3050
It shall be undersiDod ibm reviewof this drawing by GF, Inc. islimited in spe and that epprovaldoes not convey or inply acceptanceot responsibihly lot the designor completeness and accuracy ofthe drawing.
JOB: BETHLEHEM WATER TREATMENT PLANTNorthampton, PA
Engineer: Gannett Fleming
Contractor: Worth & Company, Inc.
HVAC
One (1) Amtrol 400-L Diaphragm Expansion
One (1) Ajntrol #449 4” Air Purger
One (1) Mitral #706 Air Vent
—Sift—fl) AmL,uV#t12 FiI+4rul — #4)4cc(f) LJctl nE(P
At? Qtt- 4cscwn gv/ce
1. 3 ;,rae ei
! r’ cr orrecticns I I Ikt ro;d
&,; TAPe.
________________
AMI’IOLNC.
SUBMITTAL DATA
“LM SERIES (ASME) EXTROL®EXPANSION TANKS
F
SYSTEMCONNECTION
I t2 NPT LIFTING RING CHARGING VALVE
//
B
MATERIALS OF CONSTRUCTION
TANK VOLUME T DIMEI4SIUN 1 OLMENSIGU SHIPPING
NUMDEH KIGIff DIAMETER WEIGHTGals. Lileis Ins. mm Ins. mm Lbs. k
200-L 53 200 38’?. 975 24 610 192 87300-1 79 300 52% 1330 24 610 230 $10600-L 105 400 66’!. 1683 24 610 263 126500-L 132 500 5W/s 2036 24 510 328 149600-I.. 156 600 65 1651 30 762 510 231600-L 211 800 83 2108 30 762 640 2901000-L 264 1000 739 1857 35 914 760 3451200-1 317 1200 65’!. 2181 36 914 854 3921400-L 370 1400 98’?. 2496 36 914 958 4391500-1 422 1600 ii’?, iBiD 48 1219 1560 7172000-L 526 2000 65’k 2162 48 1219 1510 821
LIFTING
NOTE: NI Hgures above e nominal.
I Descrtpllon Slandard
Shell Sleel
L Diap)ragm Heavy Duly 6sIyl
DESIGNED AND CONSTRUCTED PER ASME SECTION VIIIMaw 1W (460mm) Minimum Clearance For Piping.
MAXIMUM OPERATING CONDONSOpemling Temperalure 240? (I 15C)
Wosking Pressure 125 P510(882 kPa)
AvailaNe In 175 and 250 P510,
BETHLEHEM WATER TREATMENT PL.
NORTHANPTON, PA
JOB NAME
LOCATION
QNEER —
CONTRACTOR
THE BAASE COMPANY
400—I.
GANNETT FLEMING
WORTH & COMPANY, INC.
SALES REPRESENTATIVE
MODEL ND. ORDERED —
DESEGN PRESSURE
___________________________
PSIG
ASME CERTIFICATION REQUIRED X YES
_________
CHARGE PRESSURE
__________
PSIG
__________kPa
Standard faclwy air chwge Is 72 P57G. 80 kPa)unless otherwise specified. Ma,bnum available aftdiarpa isGO PSIG, per aar. reguiaPons.
NO
CONTRACTOR P.O. NO. M9200 —0015
A &blb. *1.1.1*£qvsed..Bd.Infl.L.I
INSTALLATION INSTRUCTIONS
AMTROL AX and “L” SERIESEXTROLC EXPANSION TANKS
WHY AN EXPANSION TANK IS NECESSARYIN HOT OR CHILLED WATER SYSTEMSAs waler lemperalure increases so does its volume. Theexpansion tank accepts this excess while keeping systemptessuro within design limits. When the system cools, thewaler hold in the expansion lank returns. This means thatthe toIlet and liii valves act only as salew devices. Undueoperations of either should be examined.LOCATION OF EXTROL EXPANSION TANKSThe AMTROL expansion lank may be placed in any cowvenient position within the mechanical room (or building).II will work equally welt In either vertical or horizontal position. ii multiple lanks are installed, they should all be onthe same level. Unless desired, it Is not necessary toThe’ a tanks directly over boiler as with conventional lanks.
As with any expansion lank, ills recommended that theEXTROL is connected to the suction side of the pump.This will prevent the pump head From becoming subtracthe which may result in entry o( air and vapor formation athigh points in the system.By connecting tank on boiler return, displacement ofcoolest system waler into tank is Insured reducing energywastage. Low pressure drop components such asseparators and boilers may be placed between point orconnection and pump suction ii desired. Sy5tem designwilt dictate the feasibility vi this.Natural convection losses and the entry at air into tank areeliminated by connecting to the side or underside of mainpipe. Any potential air traps in piping connecting tank tosystem should be vented.
CW. WARWICI RHODE ISLAND 02693
SUPPLYRETURN
rUM,
-7
C———.’
nTrnNArwE TAM( LOCATO4 IS OIflCCThv AT P13W SUCTIOn.
HOflUOICTAt U SOUlS
POINT OF CONNECTIONUnlike a conventional tank, the permanently sealed aircushion does not require replenishment so DO NOT connect to separalor or other air collection device.
VERI1 CAL AZ NINES
-0L- sails ron LANDER flSThUS
(over)
MINIMUM PIPE SIZE
BRING LENGTH OF PIPE CONNECTINGflATEOF TANK TO SYSTEU:flOILER
OELOW Iifl.T0 31F1.TOMO1UIPI lIFT. 30fl. IDOFT.
2,000 ½’ ¾’ I’
4000 ¾’ r 1W
D,000 V 1¼’ 1½’
12,000 IV.’ 1½’ 2’
16.000 1¼’ 2’ 2½’
20.0001W 2’ 2W
Using the above table, select appropriate pipe size; connection to each EXTROL must have a lock shield galevalve and union La allow Isolation and removal ii required.Make up and fill valves whether manual or automaticshould be tied in to the connecting line. This will Insurethat pump operation will not altect valve operation.A pressure gauge and drain may also be installed.
AIR SIDE CONNECTIONS — NONECheck EXTROL air charge using air valve at lop at tankbalore entry ci waler. The pressure should be equal tothe minimum system pressure required to till the systemand provide adequate positive pressure at top.
a. EXTROL must be isolaled during pressure testing ofsystem. This requires complete closing or the systemIsolation valve and it is recommended that this valvebe so tagged.
b. After the system isolation valve is securely closed, it itrecommended that the union between the lank and thesystem be slowly opened and that the liquid bedirected to a floor drain, if possible. Caution should beexercised so as not to drain system liquid onto anyarea that could be damaged.
c. The L-series tanks are equipped with an air valvelocaled on top ol the tank when the lank is installed mavertical position. This air valve is protected by a 1 ½”NP]’ ptug. Removal of this plug allows access to the airvalve. Using standard type airgauge (such as used Inthe automotive tire industry and the domestic wellindustry) one can then check the precharge pressureas with a standard automotive tire.
d. The precharge pressure can be reduced by simplydepressing the Internal valve pin of the air valve andreleasing the air precharge to desired pressure. Pro-charge pressure can be Increased by adding compressed air.
a To return the expansion tank to the system, start byreinstalling the 1W’ NPT plug which protects the airvalve. Close system tank drain valve. Slowlyopen sys
•tern isolation valve to fully “OPEN” position.
SUPPORTThe surf ace on which the EXTROLIs mounted should be ‘ —‘capable of supporting the combined weIght ol the tankand water.
The expansion lank is precharged at the taclory and thischarge pressure can be veriFied or changed in the field, itnecessary, as follows:
MAIl SYSTEUhET URN
SYnELI PRCSW& GAUGE
LOCK SHIELD GATE VALVE oScI.AtIOIl VALVE1
I,WIUAU AU I DMA I ICTL ASSLMGL?
ZYSJU4rTANKORMN VALVE
M1vs1.VE,pnorEcINE PWOADJUST FIICCIIMTQEIIERE
CMR SSOC CIIAIN•
‘NOTE: The air itde drnln connection shoutd not be opened during nalaltatlon, or under any condtitons, without5u1,crvklcn ol Iaclory.Iralned penonnel.
AC)%-.L)
W WARMCFC, nitoor IstNn 11260] Pin, • II’’
‘on.. W5a7fl
0
0
AWEST WARWICK. RHODE ISLAND O29J
LW LI Ask I4..jn
hihi
0
C
t
SUBMITTAL DATA4” to 12” AIR PURGERS
MAXIMUM OPERATING CONDITIONSMoOt No. WOIMIII Pinsias
449 725 rn (162 IPaI461465 ISO psi (1030 IPaI
MATERIALS OF CONSTRUCTIONDetalplbo Slindard C.,nilr,xllanNo 449 Cut Irm
H 461 465 Sled
DESIGNED AND CONSTRUCTED PEAASME SECTION VIII
JOB NAME
LOCATION NORTHAMPTON. PAMODEt NO ORDERED
GANNETT FLEMINGENGINEER
U
\AMTROL #443 SERIES AIR PURGER FLOW CHART
1E*:EEE”
z17:-‘zz7:z
±E ZEEa — — — Pa— a
US GaLLONS PER UUflTE
DIMENSIONS
— — C
“D DIM. “F’ DIM SHIPPINGMODEL “A’ DIMENSION’ ‘S” DIMENSION ‘C’ DIMENSION (VanI T.pØ) (Onin Tapønt) WEIGHTNVM&R Ini. mm In. mm Ins. nu,i ((IPTI Ins. (NPT7 Ins. lb. k449 4 10? 12 305 5 121 ¾ 56 25461 5 Ii? 20 503 lA 151 IA I’4 60 21462 6 IS? 24 LtD 0 216 1% IA 63 29463 20] 32 HI] 11% 286 1% 14 II) SI464 10 234 40 1016 II 156 1% I6 Ill 19465 I? 305 IS 1219 16t 425 1% I’.4 iia ISO
BETHLEHEM WATER TREATMENT PLANTSALES REPRESENTATIVE THE BAASE COMPANY
449
CONTRACTOR WORTH & COMPANY, INC.
CONTRACTOR P 0 NO M92002—OOI5
Fotni Ho. IHP-I2IIa2
AmericanAIR PURGERS
-“I
AIR PURGERSToday’s smaller, more efficient boilers for heating systems permit useof smaller tube or piping, smaller radiation, and high-head circulatingpumps. In these compact systems1 the problem of trapped air is ofcritical Importance if optimum system pressure, performance and lifeare to be realized.
AIR in the System• City water contains air in solution. This air in a water system consists ofabout 80% nitrogen (including a small mixture of other gases) and 20°/ooxygen. The oxygen is more readily absorbed in solution and carried throughthe system combIning with metallic surfaces to formoxides— corrosion.• Eventually a system’s air consists only of nitrogen, unless more air entersthe system, either in gaseous form or when make up water Is introduced. (• Undissolved air collects in the form of aIr bubbles at the top of vertical andhorizontal pipes and system components. When syslem water flows at Ihe rateof 1.5 to 2 feet per second or more, the air bubbles are carried through thesyslem and inhibited from rising.• Since the air is kept in contact with the water it can be absorbed. Absorptionis dependent upon temperature and pressure. Hotter water holds less air insolution than colder water. Water at lower pressures hold less air in solutionthan at hIgher pressures. SInce pressure and temperature in a systemconstantly change, depending on location and operating cycle, the water’s airholding capacity constantly varies.• When the air-holding capacity of lhe water is exceeded, air is released toForm bubbles again. These bubbles contain water vapor as welt as air and theirsize increases rapidly as they rise to the top ol the system. The amount of thewater vapor in the bubbles is proportIonal to the temperature Increase, thepressure decrease and the increase In bubble size. The amount of’water vaporIn a bubble may be many times greater than the amount of air.• Experience has proven that these gas bubbles are not carrIed, as may beexpected, back down 10 the boltom of the system where both the air and thewater vapor would be reabsorbed. In fact, they cause the pervasive problemsrelated to trapped air In a system: btockage and binding of terminals resultingin noise, inefliclent operation, and energy waste. The related loss of pumpperformance and corrosion ci equipment create expenstve maintenance andreplacement problems.
C
American
q
-o
DescriptionThe AMERICAN Air Purger Ia a one-piece cast-Iron ch&nberwith two passages through which system waters must flow.Internal contours and baffles are designed to efficientlyseparate air from water, trapping air bubbles in a collectionchamber to which an AMERICAN Air Vent Is connected forreleasing the air into the environment.PURGER-TROL models include additonal tappings for optional mounting of a pressure relief valve and pressure-altitude-temperature gauge, grouping all items In a singlelocation to save space and provide neater installation.
InstallationAMTRQL’s AMERICAN Air Purgers and in4ine PURGER-TROL unitsare florizontally installed on the main as close to the boiler as possible. The angle-type PURGER-TROL units are Installed horizontallyand on a nipple in the boiler supply tapping. Flow from the PURGERTROL maybe either right or IeU or in both directions from thetoller tothe main.
The hot-waler heating system accessories required icr elimination oftrapped air Include air vents (see AMTROL’s AMERICAN Float TypeAir Vents catalog) and air purgIng devlces—AMTROL’s AMERICANAir Purgers and PURGER-TROt..
q
Mod.) NWwhh lopoullil
balm
M.J.i 0440wiih lop .uIJ,l
hail.,
Mod.1j440 Mad.1f431’ MaJ.1f431wiil, ad. ..tl.i will, Isp a,,il,I with dd, .idktbail,, hail., bail.
SummationThe purging of aIr from water is a con- gases can collect and must be removedIlnuous process. While most of the air Is continuously. Use of AMTROL air eIimInaeliminated upon filling of the system, lIon accessories insures continuous pro-smaller troublesome amounts of air and lection from the problems of system air.
•
I.
0
Oilier lapping combinations avallawe.
S
[t’u
TL
r
TABLE OF MODELS:S ‘a
0AMERICAN Air Purgers and PURGER-TROL
Modal Dlnwnions Tapping.’ NflNo Slit
A B C U V 2
443 1’. 5” 4” 2W’ 1” ‘K’ w’444 1W’ 6” 4” 2W’ 1W’ W
445 1W’ 8” 5” 3W’ 1W’ ‘K’ W’446 2” 8” 5” 3W’ 2” ½” Ic’447 2W’ 10” 5” 5” 2W’ ‘/“ ‘A”
448 3” 10” 6” 5” 3” 3” Ic’
0
4
0PURGER-TROL UNITS
Modal Oim.mkni Tapping.’ Nfla’
A U C U V X V ZI480 1” 6” 4’ 2%” I” W” W’ 14” Ic’441 lW 5” 4” 2%” 1Z”’b” W’W’W’
Angle Types
T Modal Ulminoon, Typical tapping.. NFlNo.
A B C S T U V W X V 2j 4382 IL” 7 %“ 6%” 3w’ 1W’ 1.’ I” 14” E”w’ ‘A”
L39.l 1’A” ‘k” 6%” 3W’ ii” 1%” flt”%” 14” 14” Ic’ ‘A”
A AM’mOLNC*WEST WARWICK. R I 02893
Primed In USA
In SOSOIlIA
V
0
AWEST WARWICK. RHODE ISLAND 02893
B
cm’
FIE
SUBMITTAL DATAMODEL 706INDUSTRIAL AIR VENT
0 Slilppln1ILd.I A B C 0 lftlihl70€ S% 4% ‘/,Itl 1.11?! 6Th,.
MATERIALS OF CONSTRUCTIONDESCRIPTION SIANDARO COHSTRUCTIONDoily Cast lionCove, CnI lionInieroal
MAXIMUM OPERATING CONDiTIONSjwoflang 1empe:tne 7401 (I LSC)
L WwbngPtesiure ISO PSI (1030 hPaj
1492002—0015
JOB NAME BETHLEHEM WATER TREATMENT PLANT
LOCATION NORTHAMPTON. PA
ENGINEER
CONTRACTOR
SALES REPRESENTATIVE THE OAASE COMPANY
MODEL NO ORDERS 706
GANNETT FLEMING
WORTH & COMPANY, INC.
CONTRACTOR P0 NO
BUUEFIN 706-1AMzmOTrc.1400 DIVISION ROADW.WARWICK RHODE ISLAND 02893(401) 854-6300
INSFAIIA11ON INSTRUCTIONSAMERICAN INDUSTRIAL AIR VENT
Model No. 706SEPTEMBER, 1976
OPERATION
This American Automatic Air Vent has been designed totusc, on any hydronic or waler service system where prasuiadoes nai exceed 150 PSI and Icmperaiure is no greater than240°F, I should be installed in an accsible location atthe high points of the wsiom.
INSTALLATION
In a hydronic healing system, air removal can be accomp‘ tished most efticlently by installing a No. 705 Vent with a
procerly sized Air Purger or Air Separator. The purgerseparates the ar from the water end diverIs Ilto the Ventfor quick and automatic removal. A NPT lapping isprovided on the Vent lot this connection,The W’ tapping at the top of the No. 106 Vent accerns asaloly drain line br discharging any moisture that may becontained in the air as ills vented.
Since any vent may occasionally require cleaning when thesystem contains dirt or sludge, it is common procedure toinstall a gate valve to isolate the vent. The No. 105 Vent maybe cleaned simply by removing the flange bolts, lifting GUIthe inner assembly and washing oil the strainer. Allow 6”clearance above Iho lop ol the No, 706 Vent for removal althis assembly,
K” NP?FOR SAFETY DRAINAGE
FLANGE BOLTS
MODEL 706AIR VENT
AMERICANAIR PURGER
3/4” NPT
MAINTENANCE
9011-107
A LEADER rn VALVE rECKNOLODY IS-11SBFWATIS
REGULATOR—I.c. ‘74 Y4r. 1tW.br Produth OMdoe • Bd.ty & coattlv&n4
Instructions For InstallingWaits Feed Water Pressure Regulators
Series 1156F,T156B and N256Installation:
INSTAlLATION DLRGRAM1. The Watts Feed Water Pressure RaguL.r mustbe installed on the cd Id waler supply line to the boiler. •Pnnu End WfltIt may be Instalied in either vertical or horizontal pus)- i,irer pnnw, n.guIier at itlion. Allow sufficient clearance to operate the itht nil TO Yb,.
and purge lever. EXA1SON. rmnlv
2. Install a shutoff viWe upstream of the regulator..e—jQ HADIATIONiNote: Local cod s typically re 1elhe use of a
backflow preventr in the systçp; atts Mode! 90).Consult local auth VdUes for the type Installation andtesting requiremerjs. The backflow preventer mustbe Installed upstr4ttn of the regtator.
3. PrIor to Installing trio reguiatoi flush out the supplypipe to clear ft of cfllps, scale, din, etc.
4. Install the Watts regulator In the supp.y ilne to theboiler with the arrow on the aWe body potr.tir.g Inthe direction of flaw to the bo(.
Operation:1. To fill the system, open the shutoff valve upstream of the regulator. This valve must always be kept open when the
sisteni Is in opera’n. W2tr will flow Into thu systeiai .ir iii it is full and under pressure. Note: Series with FastflU and Purge LeverW valves are equipped with a unIque and simple “fast fill and purge levW. . . whichpermits rapid tilling of the system . . . and sustained flow for air purging.When the lever Is raised to the vertical positIon ft pushes a removable “Push Rod”down. This manually forces the valve to a wide open position for maximum flow. Reluming the lever to its normal position releases the tension on the rod permitting thevalve to maintain normal system pressure. Caution: Always observe the Boiler Pressure Gauge when using this feature. Using this feature with the Purge Valve closed canresult In over pressurizing the system or exceeding the Pressure Safety Railer Valvesetting. Over pressirization can result in a water discharge from the Relief Valve. Thisfeature can be disabled to prevent tampering or accidental misuse of the fast fill featureby simply unscrewing the fast fill lever cap and removing the push rod.
2. The regulator is set to deliver water to the boiler at approximately 15 lbs. pressure. This pressure is sufficient fora 3 story building. To reset the reducing valve (or higher pressure (when the pressure Is not sufficient to lift thewater to highest ra&stion):A. Calculate the number of feet fmm the regulator to the top of highest radiation.S. Multiply this number by 0.43 and addS lbs. iNs wTh give the pressure required to raise the water to the highest
radiator and keep the system under pressure.3. To reset the regulator valve:
Remove the fast fill lever cap. and loosen the lock nut. To raise the reduced pressure - slowly turn the adlustingscrew clockwise until the system gauge indicates the pressure required. To lower the reduced pressure - turnthe adjusting screw counterclockwise. After completing adjustments, tighten the lock nut and replace the fast flillever cap.
Hole: Watts Is not responsible for boiler failure on boilers without low water cutoffs.
IMPORTANTAnnual inspecilon of all water system safely andcontrol valves istequired and necessary. Regularinspection, teiting and cleaning assures maximumlife and proper produci function.
J’See reverse side for servicing and impodint lnlormalionj
CAWORHIR PRQPO3OH 65 WAfiNINGWARNING: This product contains themaIsMiown to the Stats of California to cause taxerand bIrth detects or other reproductive hann.(Installer California law requir that thiswanting be given to the consumer.)Far rem ialeaneUoa: nwaflhedsosi4inø6
Servicing:The strainer screen should be serviced at least twice a year.This series Is a new development for standard capacity domesticwater regulation service. it has special unitized construction whichconsists of the seat, disc and stem assembly, and strainer screen alltogether In one unit for complete replacement maintenance.To clean or replace parts:
1. Close the shutoff valve upstream of the regulator.2. Bleed pressure from system.3. Loosen and remove the fast fill cap. Remove the spring cageand all parts above the diaphragm.4. Loosen and remove the diaphragm lock nut and lock washer,pressure plate and diaphragm from the valve stem.5. Unscrew seat cylinder 1mm body and remove entire assembly.6. Prior to reassembly flush valve to remove sediment.7. After repairs are completed reassemble In reverse order.
Troubleshooting:A dripping Pressure Safety Relief Valve can bean Indication that theFeed Water Pressure Regulator requires service.
tmpodanttThe pressure Safety Relief Valve is on the system to protect againstexcessive water pressure only. The function ot the valve is torelease any excess pressure from the system caused by thermalexpansion of the water. Therefore, do not be alarmed at waterdrippage as the valve Is do1ng what it Is designed to do. Thisdrippage will not prevent the natural buildup of temperature inthe boiler because the valve operates on pressure only. The valvewill open when the gauge pressure reaches 30 lbs.To avoid water damage or scaldIng due to valve operation, a drainpipe must be connected to the Pressure Safety RelIef Valve andron to a safe place of disposal.Never plug the discharge of a pressure safety relief aIvelOther possIble causes should also be examined prior to servicIng the regulator.Some other possible causes are a water logged air cushIon tank,an over pressurized diaphragm style air cushion tank, an undersized air cushIon Lank and, on systems with a domestic watercoil, a leak in the tankiess coil.
Periodic Inspection of the system by a qualified plumbing and heating technIcIan is recommended. Corrosive water condItions, exIremely high water temperatures, unauthorized adjustments or repair could renderthe valve Ineffective for the service intended. Regular inspection and cleaning of all water safety and control valves assures maximum life and proper product and system function.
Fast FillLever andCap Assembly
1. OrderIng Code Number2. Size of Valve
SeatCylinder
3. Type Number4. Model Shown on Nameplate
Kit for No. 1156F, N256 includesall Items shown.
Ordering Kit SizeCode No. No. (Inches)884390 1156FRK ½878339 N25ORK 3/4
Disc
Repair KitsSeries 1156F-N256
StrainerScreen
DiscintegralStainless SteelValve Seat
When ordedng, Specify:
A LKADKN 1k V4LVS TECNSULOCY
REGULATOR—..nfl Ill.
flt Pnfl 0*0.400 • SflIy Ca,bt Win.111k lIz o*,ni Z P Wd,w4 tkQ1I43; w.wtfl1505!) t.rk, & oWl Ut .fl. wnwm
___I
UMRE) WRMMIfl; Watt &guWar Caqiany wamrds, piodid açahist dela In nutedal and waiflwsNpradoneywlwnthedaodginatsNpngid.lntheeventdsuhd&v1NnUwvninntg—, the at S* ruplaa Dr izsrc OUiB wod1wtUat JtissI cbtl theozkse ry tar biich at nrtac(y. and Us Ceqany stuli not be I!spensible toT any bztdemtal 0? MecMbi daimg. lrciudMç without Itcfori.dn or dhert rasihç horn aor choiges, delays, vwdam. neJeiz Iouf mei by IoSn nmfli, thnu fm atherse wUr idWs, c&m, or anyother ciiumwtn ow Us C00çany Ins no ittt lit wauanty giull be Thi$4at by any bia .anplor trçroper ktttthn at Us pctdt. 1W COM?M I*CS NO tTU*B WMRMIEES ECPRESS OR IMPLIED CErTAS PROV1OfU IN ThIS UM[ThD WARRANTY.
lS-1156F 0223 EUPif 1910265 C Watts Reçul,Iarca.. 2000 Printed In U.S.A.