Loading...A.O. Smith BTN-120, BTN-154, BTN-180, BTN-199C, BTN-199 Installation Manual
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Instruction Manual
Commercial gas water heaters
500 Tennessee Waltz Parkway
Ashland City, TN 37015
MODELS BTN 120 - 400(A) Low NOx SERIES 108
INSTALLATION - OPERATION - SERVICE - MAINTENANCE - LIMITED WARRANTY
WARNING: If the information in these instructions is not followed exactly, a fire or explosion may result causing property damage, personal injury or death.
Do not store or use gasoline or other flammable vapors and liquids in the vicinity of this or any other appliance.
WHAT TO DO IF YOU SMELL GAS:
•Do not try to light any appliance.
•Do not touch any electrical switch; do not use any phone in your building.
•Immediately call your gas supplier from a neighbor’s phone. Follow the gas supplier’s instructions.
•If you cannot reach your gas supplier, call the fire department.
Installation and service must be performed by a qualified installer, service agency or the gas supplier.
Thank you for buying this energy efficient water heater. We appreciate your confidence in our products.
Read and understand this instruction manual and the safety messages herein before installing, operating or servicing this water heater.
Failure to follow these instructions and safety messages could result in death or serious injury.
This manual must remain with the water heater.
place these instructions adjacent to heater and notify owner to keep for future reference.
PRINTED 0613 |
318815-003 |
Table Of Contents
Safe Installation, Use and Service 3 General Safety Information 4 Precautions 5
Grounding Instructions 5
Hydrogen Gas Flammable 5
Introduction 6 Abbreviations Used 6
Qualifications 6
Preparing For The Installation 6
FEATURES AND COMPONENTS 7 The Eliminator (self-cleaning system) 7
High Limit Switch 7
Electronic Ignition Control 7
Exhaust Inducer (blower assy.) 7 Uncrating 7 Low Gas Pressure Switch 7 Installation considerations 8 Rough In Dimensions 8 Recovery Capacities 8 Gas and Electrical Characteristics 8 Locating the Water Heater 9 Clearances 9 Installation on Combustible Flooring 10 Insulation Blanket 10
HARD WATER 10 Circulation pumps 10 High Altitude Installations 11
Installation Requirements 12
Gas Supply System 12
Gas Pressure Requirements 12 Supply Gas Regulator 12 Power Supply 12
Water Temperature Control and Mixing Valves 12
Dishwashing Machines 13 Closed Water Systems 13 Thermal Expansion 13 Temperature-Pressure Relief Valve 13
Contaminated Air 14 Air Requirements 14 Unconfined Space 15
Confined Space 15
VENTING INSTALLATION 15 Venting 15 Multiple Heater Manifold 16
Fresh Air Openings for Confined Spaces 16 Outdoor Air Through Two Openings 16
Outdoor Air Through One Opening 16
Outdoor Air Through Two Horizontal Ducts 16
Outdoor Air Through Two Vertical Ducts 17
Air From Other Indoor Spaces 17 Technical Data Venting 18 Water heater installation 20 Water Line Connections 20 T&P Valve Discharge Pipe 20 Installation Diagrams - Top Inlet/Outlet Usage 21
Heater Wiring 22
Gas Piping 23
Gas Line Leak Testing 23
Purging 23
Start Up 24 Prior to Start Up 24
Initial Start Up 24 Checking Venting 25
Gas Valves 25 Checking the Input 25
Water Temperature Adjustment 25 SEQUENCE OF OPERATION 26
Lighting & Operation Label 26
Sequence of Operation Flow Chart 27 Maintenance 28 Check the Igniter Assembly and Main Burners 28 Igniter Assembly 28 Main Burner 28 Venting System 28
Remote Storage Tank Temperature Control 28
Temperature-Pressure Relief Valve Test 28 Anode Rod Inspection 29 Draining and Flushing 29
Recommended Procedure for Periodic Removal of Lime Deposits from Tank Type Commercial Water Heaters 29
Deliming Solvents 30 Tank Cleanout Procedure 30 Deliming Using FLO-JUG Method 30
SERVICE 32
Checklist 32 System Diagnostics 32
Electrical Servicing 32 For Your Information 33 Start Up Conditions 33 Operational Conditions 33
Troubleshooting 34
Water Piping Diagrams 35 Manifold Kits 50 Warranty 51
2
Safe Installation, Use and Service
The proper installation, use and servicing of this water heater is extremely important to your safety and the safety of others.
Many safety-related messages and instructions have been provided in this manual and on your own water heater to warn you and others of a potential injury hazard. Read and obey all safety messages and instructions throughout this manual. It is very important that the meaning of each safety message is understood by you and others who install, use, or service this water heater.
This is the safety alert symbol. It is used to alert you to potential personal injury hazards. Obey all safety messages that follow this symbol to avoid possible injury or death.
DANGER indicates an imminently
DANGER hazardous situation which, if not avoided, will result in injury or death.
WARNING indicates a potentially hazardous
WARNING situation which, if not avoided, could result in injury or death.
CAUTION indicates a potentially hazardous
CAUTION situation which, if not avoided, could result in minor or moderate injury.
CAUTION used without the safety alert CAUTION symbol indicates a potentially hazardous
situation which, if not avoided, could result in property damage.
All safety messages will generally tell you about the type of hazard, what can happen if you do not follow the safety message, and how to avoid the risk of injury.
The California Safe Drinking Water and Toxic Enforcement Act requires the Governor of California to publish a list of substances known to the State of California to cause cancer, birth defects, or other reproductive harm, and requires businesses to warn of potential exposure to such substances.
Warning: This product contains a chemical known to the State of California to cause cancer, birth defects, or other reproductive harm. This appliance can cause low level exposure to some of the substances listed in the Act.
APPROVALS
Note: ASME construction is optional on the water heaters covered in this manual.
3
General Safety Information
Fire or Explosion Hazard
Do not store or use gasoline or other flammable vapors and liquids in the vicinity of this or any other appliance.
Avoid all ignition sources if you smell gas.
Do not expose water heater controls to excessive gas pressure.
Use only the gas shown on the water heater rating label.
Maintain required clearances to combustibles.
Keep ignition sources away from faucets after extended periods of non-use.
Read instruction manual before installing, using or servicing water heater.
Fire Hazard
For continued protection against risk of fire:
Do not install water heater on carpeted floor.
Do not operate water heater if flood damaged.
Fire and Explosion Hazard
Use joint compound or Teflon tape compatible with propane gas.
Leak test before placing the water heater in operation.
Disconnect gas piping and main gas shutoff valve before leak testing.
Install sediment trap in accordance with NFPA 54.
CAUTION
Property Damage Hazard
•All water heaters eventually leak.
•Do not install without adequate drainage.
Electrical Shock Hazard
•Turn off power to the water heater before performing any service.
•Label all wires prior to disconnecting when performing service. Wiring errors can cause improper and dangerous operation.
•Verify proper operation after servicing.
•Failure to follow these instructions can result in personal injury or death.
Fire and Explosion Hazard
Do not use water heater with any gas other than the gas shown on the rating label.
Excessive gas pressure to gas valve can cause serious injury or death.
Turn off gas lines during installation.
Contact a qualified installer or service agency for installation and service.
Jumping out control circuits or components can result in property damage, personal injury or death.
•Service should only be performed by a qualified service agent using proper test equipment.
•Altering the water heater controls and/or wiring in any way could result in permanent damage to the controls or water heater and is not covered under the limited warranty.
•Altering the water heater controls and/or wiring in any way could result in altering the ignition sequence allowing gas to flow to the main burner before the hot surface igniter is at ignition temperature causing delayed ignition which can cause a fire or explosion.
Any bypass or alteration of the water heater controls and/or wiring will result in voiding the appliance warranty.
4
General Safety Information
Read and understand this instruction manual and the safety messages herein before installing, operating or servicing this water heater.
Failure to follow these instructions and safety messages could result in death or serious injury.
This manual must remain with the water heater.
Water temperature over 125°F (52°C) can cause severe burns instantly resulting in severe injury or death.
Children, the elderly and the physically or mentally disabled are at highest risk for scald injury.
Feel water before bathing or showering.
Temperature limiting devices such as mixing valves must be installed when required by codes and to ensure safe temperatures at fixtures.
Explosion Hazard
Overheated water can cause water tank explosion.
Properly sized temperature and pressure relief valve must be installed in the opening provided.
CAUTION
Improper installation, use and service may result in property damage.
•Do not operate water heater if flood damaged.
•Inspect anode rods regularly, replace if damaged.
•Install in location with drainage.
•Fill tank with water before operation.
•Properly sized thermal expansion tanks are required on all closed water systems.
Refer to this manual for installation and service.
Verify the power to the water heater is turned off before performing any service procedures.
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General Safety Information |
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Precautions |
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Hydrogen Gas Flammable |
DO NOT USE THIS WATER HEATER IFANY PART HAS BEEN UNDER WATER. Immediately call a qualified service agency to inspect the water heater and to make a determination on what steps should be taken next.
If the unit is exposed to the following, do not operate heater until all corrective steps have been made by a qualified service agency.
1.External fire.
2.Damage.
3.Firing without water.
Grounding Instructions
This water heater must be grounded in accordance with the National Electrical Code and/or local codes. These must be followed in all cases.
Thiswaterheatermustbeconnectedtoagroundedpermanent wiring system; or an equipment grounding conductor must be run with the circuit conductors and connected to the equipment grounding terminal or lead on the water heater, see Figure 22.
Explosion Hazard
Flammable hydrogen gases may be present.
Keep all ignition sources away from faucet when turning on hot water.
Hydrogen gas can be produced in a hot water system served by this water heater that has not been used for a long period of time (generally two weeks or more). Hydrogen gas is extremely flammable. To reduce the risk of injury under these conditions, it is recommended that a hot water faucet served by this water heater be opened for several minutes before using any electrical water heater connected to the hot water system. If hydrogen is present there will probably be an unusual sound such as air escaping through the pipe as the water begins to flow. There should be no smoking or open flame near the faucet at the time it is open.
5
Introduction
Thank You for purchasing this water heater. Properly installed and maintained, it should give you years of trouble free service.
Abbreviations Used
Abbreviations found in this Instruction Manual include :
•ANSI - American National Standards Institute
•ASME - American Society of Mechanical Engineers
•AHRI - Air-Conditioning, Heating and Refrigeration Institute
•NEC - National Electrical Code
•NFPA - National Fire Protection Association
•UL - Underwriters Laboratory
•CSA - Canadian Standards Association
Qualifications
Qualified Installer or Service Agency
Installation and service of this water heater requires ability equivalent to that of a Qualified Agency (as defined by ANSI below) in the field involved. Installation skills such as plumbing, air supply, venting, gas supply and electrical supply are required in addition to electrical testing skills when performing service.
ANSI Z223.1 2006 Sec. 3.3.83: “Qualified Agency” - “Any individual, firm, corporation or company that either in person or through a representative is engaged in and is responsible for (a) the installation, testing or replacement of gas piping or (b) the connection, installation, testing, repair or servicing of appliances and equipment; that is experienced in such work; that is familiar with all precautions required; and that has complied with all the requirements of the authority having jurisdiction.”
If you are not qualified (as defined by ANSI above) and licensed or certified as required by the authority having jurisdiction to perform a given task do not attempt to perform any of the procedures described in this manual. If you do not understand the instructions given in this manual do not attempt to perform any procedures outlined in this manual.
Preparing For The Installation
1.Read the entire manual before attempting to install or operate the water heater. Pay close attention to the General Safety Information on pages 4 and 5. If you don’t follow the safety rules, the water heater may not operate safely. It could cause property damage, injury and/or death.
This manual contains instructions for the installation, operation, and maintenance of the water heater. It also contains warnings throughout the manual that you must read and be aware of. All warnings and all instructions are essential to the proper operation of the water heater and your safety.
Detailed installation diagrams are also found in this manual. These diagrams will serve to provide the installer with a reference. It is essential that all venting, water piping, gas piping and wiring be installed as shown.
Particular attention should be given to the installation of thermometers at the locations indicated in the piping diagrams as these are necessary for checking the operation of the water heater.
The principal components of the water heater are identified in "Features And Components" on page in this manual. Use this reference to locate and identify various components on the water heater.
See Troubleshooting on page 34. By using this information the user may be able to make minor operational adjustments and avoid unnecessary service calls. However, service and diagnostic procedures should only be performed by a Qualified Service Agency.
Note: Costs to correct installation errors are not covered under the limited warranty.
2.Be sure to turn off power when working on or near the electrical system of the water heater. Never touch electrical components with wet hands or when standing in water.
3.The installation must conform to all instructions contained in this manual and the local code authority having jurisdiction. These shall be carefully followed in all cases. Authorities having jurisdiction should be consulted before installation begins if there are any questions regarding compliance with local, state or national codes.
In the absence of local codes, the installation must comply with the current editions of the National Fuel Gas Code, ANSI Z223.1/NFPA 54 and the National Electrical Code, NFPA 70 or CAN/CSA-B149.1, the Natural Gas and Propane Installation Code and CSA C22.1, the Canadian Electrical Code. All documents are available from the Canadian Standards Association, 8501 East Pleasant Valley Road, Cleveland, OH 44131. NFPA documents are also available from the National Fire Protection Association, 1 Batterymarch Park, Quincy, MA 02269.
4.If after reading this manual you have any questions or do not understand any portion of the instructions, call the toll free number on the back cover of this manual for technical assistance. In order to expedite your request, please have the full Model, Serial and Series number of the water heater you are working with available for the technician. This information is located on the water heater’s rating label.
5.Carefully plan the placement of the water heater. Examine the location to ensure that it complies with the requirements in Locating The Water Heater on page 9 and the Rough In Dimensions on page 8.
6.For installation in California this water heater must be braced or anchored to avoid falling or moving during an earthquake. See instructions for correct installation procedures. Instructions may be obtained from California Office of the State Architect, 1102 Q Street, Suite 5100, Sacramento, CA 95811.
6
FEATURES AND COMPONENTS
The Eliminator (self-cleaning system)
These units include The Eliminator (Self-Cleaning System) installed in the front water inlet, See Figure 1. The Eliminator inlet tube can only be used in the front water inlet connection. Do not install the Eliminator inlet tube in either the top or back inlet water connection. The Eliminator must be oriented correctly for proper function. There is a marked range on the pipe nipple portion of the Eliminator, that must be aligned with the top of the inlet spud. A label above the jacket hole has an arrow that will point to the marked portion of the pipe nipple if the orientation is correct. If the arrow does not point within the marked range on the pipe nipple, adjust the pipe nipple to correct. A pipe union is supplied with the Eliminator to reduce the probability of misaligning the Eliminator accidentally while tightening the connection to the inlet water supply line. Improper orientation of theEliminator can cause poor performance of the heater and can significantly reduce outlet water temperatures during heavy draws.
Note: The Eliminator may have 1, 3 or 7 cross tubes.
FIGURE 1.
High Limit Switch
The digital thermostat (Figure 2) contains the high limit (energy cutoff) switch. The high limit switch interrupts main burner gas flow should the water temperature reach 203°F (95°C).
In the event of high limit switch operation, the appliance cannot be restarted unless the water temperature is reduced to approximately 120°F (49°C). The high limit reset button on the front of the control then needs to be depressed.
Continued manual resetting of high limit control, preceded by higher than usual water temperature is evidence of high limit switch operation. The following is a possible reason for high limit switch operation:
•A malfunction in the thermostatic controls would allow the gas valve to remain open causing water temperature to exceed the thermostat setting. The water temperature would continue to rise until high limit switch operation.
Contact your dealer or qualified service agency if continued high limit switch operation occurs.
DIGITAL THERMOSTAT
FIGURE 2.
Electronic Ignition Control
Each heater is equipped with an ignition control. The solid state ignition control (Figure 3), ignites the main burner by utilizing a silicon nitride igniter. The silicon nitride igniter shuts off during the heating cycle and the main burner flame is sensed through a remote flame sensor integral to the silicon nitride igniter assembly.
The ignition control will try to ignite the main burner three times before lockout. Then it waits one hour before trying again to ignite the main burners. This is a continuous cycle.
IGNITION CONTROL BOARD
FIGURE 3.
Exhaust Inducer (blower assy.)
All models are equipped with an exhaust inducer. The inducer assists in drawing in fresh air to the unit for combustion and then assists in dispensing the combustion by-products into the venting leading outside.
The exhaust inducer is equipped with a gravity controlled damper to reduce the amount of heat loss through the flue, improving efficiency.
EXHAUST INDUCER
FIGURE 4.
Uncrating
The heater is shipped with the inducer already installed. The wiring conduit runs from the thermostat to the inducer. Before turning unit on, check to make sure the wiring conduit is securely plugged into the inducer.
Low Gas Pressure Switch
The Low Gas Pressure Switch monitors the gas supply pressure. If the gas supply pressure drops below 5.2” W.C. (1.29 kPa), the burners are extinguished (if the heater is running) or the heater will not start up.
7
Installation considerations
Rough In Dimensions
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TOP |
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F |
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TOP |
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OUTLET |
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INLET |
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1 1/2” NPT |
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1 1/2” NPT |
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TOP VIEW |
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FIGURE 5. |
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FRONT VIEW |
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BACK VIEW |
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TABLE 1. ROUGH-IN-DIMENSIONS |
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Model |
BTN-120 |
BTN-154 |
BTN-180 |
BTN-199C |
BTN-199 |
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BTN-200 |
BTN-250 |
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BTN-275 |
BTN-310 |
BTN-366 |
BTN-400 |
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Dim. |
inches |
mm |
inches |
mm |
inches |
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mm |
inches |
mm |
inches |
mm |
inches |
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mm |
inches |
mm |
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inches |
mm |
inches |
mm |
inches |
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mm |
inches |
mm |
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A |
63 |
1800 |
68 |
1727 |
72 |
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1829 |
72 |
1829 |
72 |
1829 |
72 |
1829 |
72 |
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1829 |
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72 |
1829 |
73 |
1854 |
73 |
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1854 |
73 |
1854 |
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B |
4 1/4 |
108 |
4 1/2 |
114 |
4 1/2 |
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114 |
4 1/2 |
114 |
4 1/2 |
114 |
4 1/2 |
114 |
4 1/2 |
114 |
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4 1/2 |
114 |
41/2 |
114 |
4 1/2 |
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114 |
4 1/2 |
114 |
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C |
59 1/2 |
1511 |
62 |
1575 |
70 |
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1778 |
70 |
1778 |
70 |
1778 |
70 |
1778 |
70 |
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1778 |
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70 |
1778 |
72 |
1829 |
72 |
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1829 |
72 |
1829 |
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D |
50 7/8 |
1292 |
53 5/8 |
1362 |
61 5/8 |
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1565 |
61 5/8 |
1565 |
61 5/8 |
1565 |
61 5/8 |
1565 |
61 5/8 |
1565 |
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61 5/8 |
1565 |
62 1/2 |
1588 |
62 1/2 |
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1588 |
62 1/2 |
1588 |
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E |
19 11/16 |
500 |
20 1/2 |
521 |
20 1/2 |
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521 |
20 1/2 |
521 |
20 1/2 |
521 |
20 1/2 |
521 |
20 1/2 |
521 |
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20 1/2 |
521 |
22 1/2 |
572 |
22 1/2 |
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572 |
22 1/2 |
572 |
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F |
19 |
483 |
21 |
533 |
21 |
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533 |
21 |
533 |
21 |
533 |
21 |
533 |
21 |
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533 |
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21 |
533 |
21 |
533 |
21 |
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533 |
21 |
533 |
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G |
3/4 NPT |
3/4 NPT |
3/4 NPT |
3/4 NPT |
3/4 NPT |
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3/4 NPT |
3/4 NPT |
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3/4 NPT |
3/4 NPT |
1 NPT |
1 NPT |
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H |
51 7/8 |
1318 |
54 5/8 |
1387 |
61 |
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1549 |
61 |
1549 |
61 |
1549 |
61 |
1549 |
61 |
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1549 |
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61 |
1549 |
63 |
1600 |
63 |
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1600 |
63 |
1600 |
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I |
5 |
127 |
6 |
152 |
6 |
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152 |
6 |
152 |
6 |
152 |
6 |
152 |
6 |
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152 |
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6 |
152 |
6 |
152 |
6 |
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152 |
6 |
152 |
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J |
27 3/4 |
705 |
27 3/4 |
705 |
27 3/4 |
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705 |
27 3/4 |
705 |
27 3/4 |
705 |
27 3/4 |
705 |
27 3/4 |
705 |
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27 3/4 |
705 |
27 3/4 |
705 |
27 3/4 |
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705 |
27 3/4 |
705 |
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K |
1 1/2 NPT |
1 1/2 NPT |
1 1/2 NPT |
1 1/2 NPT |
1 1/2 NPT |
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2 NPT |
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2 NPT |
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2 NPT |
1 1/2 NPT |
1 1/2 NPT |
1 1/2 NPT |
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L |
1 1/2 NPT |
1 1/2 NPT |
1 1/2 NPT |
1 1/2 NPT |
1 1/2 NPT |
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2 NPT |
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2 NPT |
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2 NPT |
1 1/2 NPT |
1 1/2 NPT |
1 1/2 NPT |
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Approx. |
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236 |
550 |
249 |
550 |
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249 |
620 |
281 |
550 |
249 |
660 |
299 |
660 |
299 |
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660 |
299 |
720 |
327 |
830 |
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376 |
830 |
376 |
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Shipping |
520 Ibs. |
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Weight |
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Kg. |
Ibs. |
Kg. |
Ibs. |
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Kg. |
Ibs. |
Kg. |
Ibs. |
Kg. |
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Ibs. |
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Kg. |
Ibs. |
Kg. |
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Ibs. |
Kg. |
Ibs. |
Kg. |
Ibs. |
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Kg. |
Ibs. |
Kg. |
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STD |
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Approx. |
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710 |
322 |
710 |
322 |
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710 |
322 |
770 |
349 |
880 |
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399 |
880 |
399 |
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Shipping |
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Weight |
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Ibs. |
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Kg. |
Ibs. |
Kg. |
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Ibs. |
Kg. |
Ibs. |
Kg. |
Ibs. |
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Kg. |
Ibs. |
Kg. |
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ASME |
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TABLE 2. RECOVERY CAPACITIES, based on 80% thermal efficiency
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Input |
Input |
U.S. |
Liters |
Eff. % |
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U. S. Gallons/Hr. and Liters/Hr. at TEMPERATURE RISE INDICATED |
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BTUH |
KW |
Gal. |
Deg. F |
36 |
40 |
50 |
54 |
60 |
70 |
72 |
80 |
90 |
100 |
108 |
110 |
120 |
126 |
130 |
140 |
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Deg. C |
20 |
22 |
28 |
30 |
33 |
39 |
40 |
44 |
50 |
56 |
60 |
61 |
67 |
70 |
72 |
78 |
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BTN-120 |
120000 |
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71 |
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80 |
GPH |
321 |
289 |
231 |
214 |
192 |
165 |
160 |
144 |
128 |
115 |
107 |
105 |
96 |
92 |
89 |
82 |
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35 |
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269 |
LPH |
1214 |
1093 |
874 |
810 |
729 |
625 |
607 |
546 |
486 |
437 |
405 |
397 |
364 |
347 |
336 |
312 |
||
|
|
|
|
|||||||||||||||||||
BTN-154 |
154000 |
|
81 |
|
80 |
GPH |
412 |
371 |
296 |
274 |
247 |
212 |
206 |
185 |
165 |
148 |
137 |
135 |
124 |
118 |
114 |
106 |
|
45 |
|
307 |
LPH |
1559 |
1403 |
1122 |
1039 |
935 |
802 |
779 |
701 |
623 |
561 |
520 |
510 |
468 |
445 |
432 |
401 |
||
|
|
|
|
|||||||||||||||||||
BTN-180 |
180000 |
|
100 |
|
80 |
GPH |
481 |
433 |
346 |
321 |
289 |
247 |
241 |
217 |
192 |
173 |
160 |
157 |
144 |
137 |
133 |
124 |
|
53 |
|
379 |
LPH |
1822 |
1639 |
1312 |
1214 |
1093 |
937 |
911 |
820 |
729 |
656 |
607 |
596 |
546 |
520 |
504 |
468 |
||
|
|
|
|
|||||||||||||||||||
BTN-199C |
199000 |
|
93 |
|
80 |
GPH |
532 |
479 |
383 |
355 |
319 |
274 |
266 |
239 |
213 |
192 |
177 |
174 |
160 |
152 |
147 |
137 |
|
58 |
|
352 |
LPH |
2014 |
1813 |
1450 |
1343 |
1208 |
1036 |
1007 |
906 |
806 |
725 |
671 |
659 |
604 |
575 |
558 |
518 |
||
|
|
|
|
|||||||||||||||||||
BTN-199 |
199000 |
|
100 |
|
80 |
GPH |
532 |
479 |
383 |
355 |
319 |
274 |
266 |
239 |
213 |
192 |
177 |
174 |
160 |
152 |
147 |
137 |
|
58 |
|
379 |
LPH |
2014 |
1813 |
1450 |
1343 |
1208 |
1036 |
1007 |
906 |
806 |
725 |
671 |
659 |
604 |
575 |
558 |
518 |
||
|
|
|
|
|||||||||||||||||||
BTN-200 |
199000 |
|
100 |
|
80 |
GPH |
532 |
479 |
383 |
355 |
319 |
274 |
266 |
239 |
213 |
192 |
177 |
174 |
160 |
152 |
147 |
137 |
|
58 |
|
379 |
LPH |
2014 |
1813 |
1450 |
1343 |
1208 |
1036 |
1007 |
906 |
806 |
725 |
671 |
659 |
604 |
575 |
558 |
518 |
||
|
|
|
|
|||||||||||||||||||
BTN-250 |
250000 |
|
100 |
|
80 |
GPH |
668 |
602 |
481 |
446 |
401 |
344 |
334 |
301 |
267 |
241 |
223 |
219 |
201 |
191 |
185 |
172 |
|
73 |
|
379 |
LPH |
2530 |
2277 |
1822 |
1687 |
1518 |
1301 |
1265 |
1139 |
1012 |
911 |
843 |
828 |
759 |
723 |
701 |
651 |
||
|
|
|
|
|||||||||||||||||||
BTN-275 |
275000 |
|
100 |
|
80 |
GPH |
735 |
662 |
529 |
490 |
441 |
378 |
368 |
331 |
294 |
265 |
245 |
241 |
221 |
210 |
204 |
189 |
|
81 |
|
379 |
LPH |
2783 |
2505 |
2004 |
1855 |
1670 |
1431 |
1392 |
1252 |
1113 |
1002 |
928 |
911 |
835 |
795 |
771 |
716 |
||
|
|
|
|
|||||||||||||||||||
BTN-310 |
310000 |
|
85 |
|
80 |
GPH |
829 |
746 |
597 |
553 |
497 |
426 |
414 |
373 |
332 |
298 |
276 |
271 |
249 |
237 |
230 |
213 |
|
91 |
|
322 |
LPH |
3137 |
2824 |
2259 |
2092 |
1882 |
1613 |
1569 |
1412 |
1255 |
1129 |
1046 |
1027 |
941 |
896 |
869 |
807 |
||
|
|
|
|
|||||||||||||||||||
BTN-366 |
366000 |
|
85 |
|
80 |
GPH |
978 |
881 |
705 |
652 |
587 |
503 |
489 |
440 |
391 |
352 |
326 |
320 |
294 |
280 |
271 |
252 |
|
107 |
|
322 |
LPH |
3704 |
3334 |
2667 |
2469 |
2222 |
1905 |
1852 |
1667 |
1482 |
1333 |
1235 |
1212 |
1111 |
1058 |
1026 |
952 |
||
|
|
|
|
|||||||||||||||||||
BTN-400 |
390000 |
|
85 |
|
80 |
GPH |
1043 |
938 |
751 |
695 |
626 |
536 |
521 |
469 |
417 |
375 |
348 |
341 |
313 |
298 |
289 |
268 |
|
114 |
|
322 |
LPH |
3947 |
3552 |
2842 |
2631 |
2368 |
2030 |
1973 |
1776 |
1579 |
1421 |
1316 |
1292 |
1184 |
1128 |
1093 |
1015 |
||
|
|
|
|
|||||||||||||||||||
TABLE 3. GAS AND ELECTRICAL CHARACTERISTICS
|
|
Gas Supply Pressure |
|
|
|
|
Model |
Type of Gas |
Minimum |
Maximum |
Gas Manifold Pressure |
Volts/Hz |
Amperes |
All Models |
Natural |
5.2" W.C. (1.29 kPa) |
14" W.C. (3.48 kPa) |
3.5" W.C. (0.87 kPa) |
120/60 |
<5 |
|
|
|
|
|
|
|
8
Installation Considerations
Locating the Water Heater
CAUTION
Property Damage Hazard
•All water heaters eventually leak.
•Do not install without adequate drainage.
When installing the heater, consideration must be given to proper location. Location selected should be as close to the stack or chimney as practicable, with adequate air supply and as centralized with the piping system as possible.
Fire or Explosion Hazard
Do not store or use gasoline or other flammable vapors and liquids in the vicinity of this or any other appliance.
Avoid all ignition sources if you smell gas.
Do not expose water heater controls to excessive gas pressure.
Use only the gas shown on the water heater rating label.
Maintain required clearances to combustibles.
Keep ignition sources away from faucets after extended periods of non-use.
Read instruction manual before installing, using or servicing water heater.
There is a risk in using fuel burning appliances such as gas water heaters in rooms, garages or other areas where gasoline, other flammable liquids or engine driven equipment or vehicles are stored, operated or repaired. Flammable vapors are heavy and travel along the floor and may be ignited by the water heater's igniter or main burner flames causing fire or explosion. Some local codes permit operation of gas appliances in such areas if they are installed 18" or more above the floor. This may reduce the risk if location in such an area cannot be avoided.
Do not install this water heater directly on a carpeted floor. A fire hazard may result. Instead the water heater must be placed on a metal or wood panel extending beyond the full width and depth by at least 3 inches in any direction. If the water heater is installed in a carpeted alcove, the entire floor shall be covered by the panel. Also, see the DRAINING requirements in MAINTENANCE Section.
The water heater shall be located or protected so it is not subject to physical damage by a moving vehicle.
Flammable items, pressurized containers or any other potential fire hazardous articles must never be placed on or adjacent to the water heater. Open containers or flammable material should not be stored or used in the same room with the water heater.
The water heater must not be located in an area where it will be subject to freezing.
Locate the water heater near a floor drain. The water heater should be located in an area where leakage from the water heater or connections will not result in damage to adjacent area or to lower floors of the structure.
When such locations cannot be avoided, a suitable drain pan should be installed under the water heater. Such drain pans should be fabricated with sides at least 2” deep, with length and width at least 2” greater than diameter of the water heater and must be piped to an adequate drain. The drain pan must not restrict combustion air flow.
Clearances
This water heater is approved for installation on combustible flooring (with NSF leg kit #9003425205) in an alcove when minimum clearance from any combustion construction are followed as indicated in Figure 6 and Table 4.
In all installations the minimum combustible clearances from vent piping shall be 6” (152 mm). Vent piping passing through a combustible wall or ceiling must be a continuous run (no joints) and retain 6” (152 mm) clearance unless an approved reducing thimble is used.
A service clearance of at least 24” (61 cm) should be maintained from serviceable parts.
The units are approved for installation with side, rear and ceiling clearances as indicated below:
TABLE 4.
MINIMUM CLEARANCES TO COMBUSTIBLES IN INCHES (mm) |
||||
|
|
|
|
|
MODEL |
“A” RIGHT SIDE |
“B” LEFT SIDE |
“C” BACK |
“D” CEILING |
|
|
|
|
|
BTN-120 |
2” (51 mm) |
2” (51 mm) |
2” (51 mm) |
12” (305 mm) |
BTN-154 |
2” (51 mm) |
2” (51 mm) |
2” (51 mm) |
12” (305 mm) |
|
|
|
|
|
BTN-180 |
2” (51 mm) |
2” (51 mm) |
2” (51 mm) |
12” (305 mm) |
|
|
|
|
|
BTN-199C |
2” (51 mm) |
2” (51 mm) |
2” (51 mm) |
12” (305 mm) |
|
|
|
|
|
BTN-199 |
2” (51 mm) |
2” (51 mm) |
2” (51 mm) |
12” (305 mm) |
|
|
|
|
|
BTN-200/A |
2” (51 mm) |
2” (51 mm) |
2” (51 mm) |
12” (305 mm) |
|
|
|
|
|
BTN-250/A |
2” (51 mm) |
2” (51 mm) |
2” (51 mm) |
12” (305 mm) |
|
|
|
|
|
BTN-275/A |
2” (51 mm) |
2” (51 mm) |
2” (51 mm) |
12” (305 mm) |
|
|
|
|
|
BTN-310/A |
6” (152 mm) |
6” (152 mm) |
6” (152 mm) |
12” (305 mm) |
|
|
|
|
|
BTN-366/A |
6” (152 mm) |
6” (152 mm) |
6” (152 mm) |
12” (305 mm) |
|
|
|
|
|
BTN-400/A |
3” (76 mm) |
3” (76 mm) |
3” (76 mm) |
12” (305 mm) |
|
|
|
|
|
TABLE 5.
MINIMUM CLEARANCES TO NON-COMBUSTIBLE CONSTRUCTION
MODEL |
“A” RIGHT SIDE |
“B” LEFT SIDE |
“C” BACK |
“D” CEILING |
|
|
|
|
|
BTN-120 |
0” (0 mm) |
0” (0 mm) |
0” (0 mm) |
12” (305 mm) |
|
|
|
|
|
BTN-154 |
0” (0 mm) |
0” (0 mm) |
0” (0 mm) |
12” (305 mm) |
BTN-180 |
0” (0 mm) |
0” (0 mm) |
0” (0 mm) |
12” (305 mm) |
|
|
|
|
|
BTN-199C |
2” (51 mm) |
2” (51 mm) |
2” (51 mm) |
12” (305 mm) |
BTN-199 |
0” (0 mm) |
0” (0 mm) |
0” (0 mm) |
12” (305 mm) |
|
|
|
|
|
BTN-200/A |
0” (0 mm) |
0” (0 mm) |
0” (0 mm) |
12” (305 mm) |
|
|
|
|
|
BTN-250/A |
0” (0 mm) |
0” (0 mm) |
0” (0 mm) |
12” (305 mm) |
|
|
|
|
|
BTN-275/A |
0” (0 mm) |
0” (0 mm) |
0” (0 mm) |
12” (305 mm) |
|
|
|
|
|
BTN-310/A |
3” (76 mm) |
3” (76 mm) |
3” (76 mm) |
12” (305 mm) |
|
|
|
|
|
BTN-366/A |
0” (0 mm) |
0” (0 mm) |
0” (0 mm) |
12” (305 mm) |
|
|
|
|
|
BTN-400/A |
0” (0 mm) |
0” (0 mm) |
0” (0 mm) |
12” (305 mm) |
|
|
|
|
|
9
FIGURE 6.
Installation on Combustible Flooring
All units are approved for installations on combustible flooring when installed with NSF leg kit number 9003425205. The installed height of the water heater will increase by 3" (7.6 cm) when the leg kit is installed.
FIGURE 7.
1.Unit needs to be lifted in a way not to damage unit or laid on it’s side to access the bottom of the legs.
2.Slide leg extension under leg and the bolt up through the bottom hole located in the bottom of the leg.
3.Once in place, screw nut down and secure.
4.Front of leg should line up with front of leg extension as shown in Figure 7. to make sure weight of unit is distributed through the leg extension.
Insulation Blanket
Breathing Hazard - Carbon Monoxide Gas
Do not obstruct water heater air intake
with insulating blanket.
Gas and carbon monoxide detectors
are available.
Install water heater in accordance with
the instruction manual.
Breathing carbon monoxide can cause brain damage or death. Always read and understand instruction manual.
Insulation blankets are available to the general public for external use on gas water heaters but are not necessary with these products. The purpose of an insulation blanket is to reduce the standby heat loss encountered with storage tank heaters. The water heaters covered by this manual meet or exceed the Energy Policy Act standards with respect to insulation and standby heat loss requirements, making an insulation blanket unnecessary.
Should you choose to apply an insulation blanket to this heater, you should follow these instructions. See the Features and Components section of this manual for identification of components mentioned below. Failure to follow these instructions can restrict the air flow required for proper combustion, potentially resulting in fire, asphyxiation, serious personal injury or death.
•DO NOT apply insulation to the top of the water heater, as this will interfere with safe operation of the exhaust inducer.
•DO NOT cover the gas valve, thermostat or theTemperaturePressure Relief Valve.
•DO NOT allow insulation to come within 2” (5 cm) of the burners, to prevent blockage of combustion air flow to the burners.
•DO NOT allow insulation to come within 9 inches (23 cm) of floor, (within 2 inches (5 cm) of bottom cover) to prevent blockage of combustion air flow to the burners..
•DO NOT cover the instruction manual. Keep it on the side of the water heater or nearby for future reference.
•DO obtain new warning and instruction labels from the manufacturer for placement on the blanket directly over the existing labels.
•DO inspect the insulation blanket frequently to make certain it does not sag, thereby obstructing combustion air flow.
HARD WATER
Where hard water conditions exist, water softening or the threshold type of water treatment is recommended. This will protect the dishwashers, coffee urns, water heaters, water piping and other equipment.
See the Maintenance Section in this manual for sediment and lime scale removal procedures.
Circulation pumps
A circulating pump is used when a system requires a circulating loop or there is a storage tank used in conjunction with the water heater. See Water Piping Diagrams in this manual for installation location of circulating pumps.
See the Circulation Pump Wiring Diagrams (Figure 8., Figure 9.) in this manual for electrical hookup information. Install in accordance with the current edition of the National Electrical Code, NFPA 70 or the Canadian Electrical Code, CSA C22.1.
All-bronze or stainless steel circulating pumps are recommended for use with commercial water heaters.
10
Some circulating pumps are manufactured with sealed bearings and do not require further lubrication. Some circulating pumps must be periodically oiled. Refer to the pump manufacturer’s instructions for lubrication requirements.
CIRCULATING PUMP WIRING DIAGRAM
STORAGE TANK OR BUILDING RECIRCULATION
FIELD SUPPLIED TEMPERATURE CONTROL INSTALLED IN THE STORAGE TANK
OR CIRCULATING LOOP RETURN LINE
NOTE: USE SEPARATE 120 VAC POWER
SUPPLY FOR PUMP CIRCUIT. DO NOT SHARE POWER WITH WATER HEATER AS THIS MAY CAUSE ELECTRICAL LINE NOISE AND LEAD TO ERRATIC CONTROL SYSTEM OPERATION.
L1 HOT
120 VAC |
CIRC |
POWER |
PUMP |
|
MOTOR |
L2 NEUTRAL
FIGURE 8.
CIRCULATING PUMP WIRING DIAGRAM
DISHWASHER LOOP WITH TOGGLE SWITCH
DISHWASHER
TOGGLE
SWITCH
NOTE: USE SEPARATE 120 VAC POWER SUPPLY FOR PUMP CIRCUIT. DO NOT SHARE POWER WITH WATER HEATER AS THIS MAY CAUSE ELECTRICAL LINE NOISE AND LEAD TO ERRATIC CONTROL SYSTEM OPERATION.
L1 HOT
120 VAC POWER
L2 NEUTRAL
FIELD SUPPLIED TEMPERATURE CONTROL INSTALLED IN THE CIRCULATING LOOP RETURN LINE
CIRC
PUMP
MOTOR
FIGURE 9.
High Altitude Installations
Fire and Explosion Hazard
Under no circumstances should the input exceed the rate shown on the water heater’s rating label.
Overfiring could result in fire or explosion.
Gas and carbon monoxide detectors are available.
Breathing Hazard - Carbon Monoxide Gas
Under no circumstances should the input exceed the rate shown on the water heater’s rating label.
Overfiring could result in damage to the water heater and sooting.
Gas and carbon monoxide detectors are available.
Breathing carbon monoxide can cause brain damage or death. Always read and understand instruction manual.
INSTALLATIONS ABOVE 2000 FEET (610 METERS) REQUIRE REPLACEMENT OF BURNER ORIFICES IN ACCORDANCE WITH CURRENT EDITION OF THE NATIONAL FUEL GAS CODE (ANSI Z223.1). FOR CANADIAN INSTALLATIONS CONSULT CANADIAN INSTALLATIONS CODE CAN/CSA B149.1. FAILURE TO REPLACE ORIFICES WILL RESULT IN IMPROPER AND INEFFICIENT OPERATION OF THE WATER HEATER RESULTING IN THE PRODUCTION OF INCREASED LEVELS OF CARBON MONOXIDE GAS IN EXCESS OF SAFE LIMITS WHICH COULD RESULT IN SERIOUS PERSONAL INJURY OR DEATH.
You should contact your gas supplier for any specific changes which may be required in your area.
As elevation above sea level is increased, there is less oxygen per cubic foot of air. Therefore, the heater input rate should be reduced at high altitudes for satisfactory operation with the reduced oxygen supply. Failure to make this reduction would result in an over firing of the heater causing sooting, poor combustion and/or unsatisfactory heater performance.
Ratings specified by manufacturers for most appliances apply for elevations up to 2000 feet (610m). For elevations above 2000 feet (610), ratings must be reduced at the rate of 4% for each 1000 feet (305m) above sea level. For example, if a heater is rated at 78,000 Btuh (22.9 Kwh) at sea level, to rate the heater at 4000 feet (1219m), you subtract 4 (once for each thousand feet) x.04 (4% input reduction) x 78,000 (original rating) from the original rating.
Therefore, to calculate the input rating at 4,000 feet (1219m): 4 x .04 x 78,000 = 12,480 Btuh (3.7 Kwh), 78,000 (22.9 Kwh) - 12,480 (3.7 Kwh) = 65,520 Btuh (19.2 Kwh). At 6000 feet (1829m) the correct input rating should be 59,280 Btuh (17.4 Kwh).
11
Installation Requirements
Gas Supply System
Low pressure building gas supply systems are defined as those systems that cannot under any circumstances exceed 14” W.C. (3.48 kPa) (1/2 PSI Gauge). These systems do not require pressure regulation. Measurements should be taken to insure that gas pressures are stable and fall within the requirements stated on the waterheaterratingplate.Readingsshouldbetakenwithallgasburning equipment off (static pressure) and with all gas burning equipment runningatmaximumrate(dynamicpressure).Thegassupplypressure must be stable within 1.5” W.C. (0.37 kPa) from static to dynamic pressure to provide good performance. Pressure drops that exceed 1.5” W.C. (0.37 kPa) may cause rough starting, noisy combustion or nuisance outages. Increases or spikes in static pressure during off cycles may cause failure to ignite or in severe cases damage to water heater gas valves. If your low pressure system does NOT meet these requirements, the installer is responsible for the corrections.
High Pressure building supply systems use pressures that exceed 14” W.C. (3.48 kPa) (1/2 PSI Gauge). These systems must use field supplied regulators to lower the gas pressure to less than 14” W.C. (3.48 kPa) (1/2 PSI Gauge). Water heaters require gas regulators that are properly sized for the water heater input and deliver the rating plate specified pressures. Gas supply systems where pressure exceeds 5 PSI (34.5 kPa) often require multiple regulators to achieve desired pressures. Systems in excess of 5 PSI (34.5 kPa) building pressure should be designed by gas delivery professionals for best performance. Water heaters connected to gas supply systems that exceed 14” W.C. (3.48 kPa) (1/2 PSI Gauge) at any time must be equipped with a gas supply regulator.
Gas Pressure Requirements
All models require a minimum gas supply pressure of 5.6” W.C. (1.39 kPa). The minimum supply pressure is measured while gas is flowing (dynamic pressure). The supply pressure (dynamic) should never fall below 5.6” W.C. (1.39 kPa). The supply pressure should be measured with all gas fired appliances connected to the common main firing at full capacity. If the supply pressure drops more than 1.5” W.C. (0.37 kPa) as gas begins to flow to the water heater then the supply gas system including the gas line and/or the gas regulator may be restricted or undersized. See Supply Gas Regulator section and Gas Piping section of this manual. The low gas pressure switch will shut down the water heater if the supply gas pressure drops below the minimum allowable value.
The gas valve on all models has a maximum gas supply pressure limit of 14" W.C. (3.48 kPa). The maximum supply pressure is measured while gas is not flowing (static pressure).
Supply Gas Regulator
The maximum allowable gas supply pressure for this water heater is 14.0 inches W.C. (3.48 kPa). Install a positive lock-up gas pressure regulator in the gas supply line if inlet gas pressure can exceed 14.0 inches W.C. (3.48 kPa) at any time.
If a positive lock-up regulator is required follow these instructions:
1.Positive lock-up gas pressure regulators must be rated at or above the input Btu/hr rating of the water heater they supply.
2.Supply gas regulators shall have inlet and outlet connections not less than the minimum supply gas line size for the water heater they supply. See Table 8, page 23.
3.Positive lock-up gas pressure regulator(s) should be installed no closer than 3 feet (1 meter) and no farther than 8 feet (2.4 meters) of equivalent length from the water heater’s inlet gas connection.
4.After installing the positive lock-up gas pressure regulator(s) an initial nominal supply pressure setting of 7.0” W.C. (1.74 kPa) while the water heater is operating is recommended and will generally provide good water heater operation. Some addition adjustment maybe required later to maintain a steady gas supply pressure.
5.When installing multiple water heaters in the same gas supply system it is recommended that individual positive lock-up gas pressure regulators be installed at each unit from the supply gas connection on the water heater.
Power Supply
The water heaters covered in this manual require a 120 VAC, 1Ø (single phase), 60Hz, 15 amp power supply and must also be electrically grounded in accordance with local codes or, in the absence of local codes, with the National Electrical Code, ANSI/ NFPA 70 or the Canadian Electrical Code, CSA C22.1.
Water Temperature Control and Mixing Valves
Water temperature over 125°F (52°C) can cause severe burns instantly resulting in severe injury or death.
Children, the elderly and the physically or mentally disabled are at highest risk for scald injury.
Feel water before bathing or showering.
Temperature limiting devices such as mixing valves must be installed when required by codes and to ensure safe temperatures at fixtures.
Water heated to a temperature which will satisfy clothes washing, dish washing, and other sanitizing needs can scald and cause permanent injury upon contact. Short repeated heating cycles caused by small hot water uses can cause temperatures at the point of use to exceed the water heater’s temperature setting by up to 20°F (11°C).
Some people are more likely to be permanently injured by hot water than others. These include the elderly, children, the infirm and the physically/mentally disabled. Table 6 shows the approximate time-to-burn relationship for normal adult skin. If anyone using hot water provided by the water heater being installed fits into one of these groups or if there is a local code or state law requiring a certain water temperature at the point of use, then special precautions must be taken.
In addition to using the lowest possible temperature setting that satisfies the demand of the application a Mixing Valve should be installed at the water heater (see Figure 10) or at the hot water taps to further reduce system water temperature.
Mixing valves are available at plumbing supply stores. Consult a Qualified Installer or Service Agency. Follow mixing valve manufacturer’s instructions for installation of the valves.
Table 6.
Water Temperature |
Time for 1st Degree Burn |
Time for Permanent Burns |
|
2nd & 3rd Degree |
|||
°F (°C) |
(Less Severe Burns) |
||
(Most Severe Burns) |
|||
|
|
||
110 (43) |
(normal shower temp.) |
|
|
116 (47) |
(pain threshold) |
|
|
116 (47) |
35 minutes |
45 minutes |
|
122 (50) |
1 minute |
5 minutes |
|
131 (55) |
5 seconds |
25 seconds |
|
140 (60) |
2 seconds |
5 seconds |
|
149 (65) |
1 second |
2 seconds |
|
154 (68) |
instantaneous |
1 second |
(U.S. Government Memorandum, C.P.S.C., Peter L. Armstrong, Sept. 15, 1978)
12
HOT WATER
OUTLET
12” TO 15” (30-38 cm)
TEMPERED WATER
OUTLET
COLD |
|
CHECK |
WATER |
|
VALVE |
INLET |
|
MIXING |
|
CHECK |
|
|
VALVE |
|
|
VALVE |
|
|
|
|
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FIGURE 10.
Dishwashing Machines
All dishwashing machines meeting the National Sanitation Foundation requirements are designed to operate with water flow pressures between 15 and 25 pounds per square inch (103 kPa and 173 kPa). Flow pressures above 25 pounds per square inch (173 kPa), or below 15 pounds per square inch (103 kPa), will result in improperly sanitized dishes. Where pressures are high, a water pressure reducing or flow regulating control valve should be used in the 180°F (82°C) line to the dishwashing machine and should be adjusted to deliver water pressure between these limits.
The National Sanitation Foundation also recommends circulation of 180°F (82°C) water. The circulation should be just enough to provide 180°F (82°C) water at the point of take-off to the dishwashing machine.
Adjust flow by throttling a full port ball valve installed in the circulating line on the outlet side of the pump. Never throttle flow on the suction side of a pump. See Water Piping Diagrams in this manual.
Closed Water Systems
Water supply systems may, because of code requirements or such conditions as high line pressure, among others, have installed devices such as pressure reducing valves, check valves, and back flow preventers. Devices such as these cause the water system to be a closed system.
Thermal Expansion
As water is heated, it expands (thermal expansion). In a closed system the volume of water will grow when it is heated. As the volume of water grows there will be a corresponding increase in water pressure due to thermal expansion. Thermal expansion can cause premature tank failure (leakage). This type of failure is not covered under the limited warranty. Thermal expansion can also cause intermittent Temperature-Pressure Relief Valve operation: water discharged from the valve due to excessive pressure build up. This condition is not covered under the limited warranty. The Temperature-Pressure Relief Valve is not intended for the constant relief of thermal expansion.
A properly sized thermal expansion tank must be installed on all closed systems to control the harmful effects of thermal
expansion. Contact a local plumbing service agency to have a thermal expansion tank installed.
See Water Line Connections on page 20 and the Water Piping Diagrams beginning on page 35.
Temperature-Pressure Relief Valve
Explosion Hazard
Temperature-Pressure Relief Valve must comply with ANSI Z21.22CSA 4.4 and ASME code.
Properly sized temperaturepressure relief valve must be installed in opening provided.
Can result in overheating and excessive tank pressure.
Can cause serious injury or death.
This water heater is provided with a properly rated/sized and certified combination Temperature-Pressure Relief Valve (T&P valve) by the manufacturer. The valve is certified by a nationally recognized testing laboratory that maintains periodic inspection of production of listed equipment of materials as meeting the requirements for Relief Valves for Hot Water Supply Systems, ANSI Z21.22 • CSA 4.4, and the code requirements of ASME.
If replaced, the new T&P valve must meet the requirements of local codes, but not less than a combination TemperaturePressure Relief Valve rated/sized and certified as indicated in the above paragraph. The new valve must be marked with a maximum set pressure not to exceed the marked hydrostatic working pressure of the water heater (150 psi = 1,035 kPa) and a discharge capacity not less than the water heater Btu/ hr or kW input rate as shown on the water heater’s model rating label.
NOTE:InadditiontothefactoryinstalledTemperature-Pressure Relief Valve on the water heater, each remote storage tank that may be installed and piped to a water heating appliance must also have its own properly sized, rated and approved Temperature-Pressure Relief Valve installed. Call the toll free technical support phone number listed on the back cover of this manual for technical assistance in sizing a TemperaturePressure Relief Valve for remote storage tanks.
For safe operation of the water heater, the TemperaturePressure Relief Valve must not be removed from its designated opening nor plugged. The Temperature-Pressure Relief Valve must be installed directly into the fitting of the water heater designed for the relief valve. Install discharge piping so that any discharge will exit the pipe within 6 inches (15.2 cm) above an adequate floor drain, or external to the building. In cold climates it is recommended that it be terminated at an adequate drain inside the building. Be certain that no contact is made with any live electrical part. The discharge opening must not be blocked or reduced in size under any circumstances. Excessive length, over 30 feet (9.14 m), or use of more than four elbows can cause restriction and reduce the discharge capacity of the valve.
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No valve or other obstruction is to be placed between the Temperature-Pressure Relief Valve and the tank. Do not connect discharge piping directly to the drain unless a 6” (15.2 cm) air gap is provided. To prevent bodily injury, hazard to life, or property damage, the relief valve must be allowed to discharge water in adequate quantities should circumstances demand. If the discharge pipe is not connected to a drain or other suitable means, the water flow may cause property damage.
CAUTION
Water Damage Hazard
•Temperature-Pressure Relief Valve discharge pipe must terminate at adequate drain.
T&P Valve Discharge Pipe Requirements:
•Shall not be smaller in size than the outlet pipe size of the valve, or have any reducing couplings or other restrictions.
•Shall not be plugged or blocked.
•Shall not be exposed to freezing temperatures.
•Shall be of material listed for hot water distribution.
•Shall be installed so as to allow complete drainage of both the Temperature-Pressure Relief Valve and the discharge pipe.
•Must terminate a maximum of six inches above a floor drain or external to the building. In cold climates, it is recommended that the discharge pipe be terminated at an adequate drain inside the building.
•Shall not have any valve or other obstruction between the relief valve and the drain.
Burn hazard.
Hot water discharge.
Keep clear of TemperaturePressure Relief Valve discharge outlet.
The Temperature-Pressure Relief Valve must be manually operated at least twice a year. Caution should be taken to ensure that (1) no one is in front of or around the outlet of the TemperaturePressure Relief Valve discharge line, and (2) the water manually discharged will not cause any bodily injury or property damage because the water may be extremely hot. If after manually operating the valve, it fails to completely reset and continues to release water, immediately close the cold water inlet to the water heater, follow the draining instructions in this manual, and replace the Temperature-Pressure Relief Valve with a properly rated/sized new one.
NOTE: The purpose of a Temperature-Pressure Relief Valve is to prevent excessive temperatures and pressures in the storage tank. The T&P valve is not intended for the constant relief of thermal expansion. A properly sized thermal expansion tank must be installed on all closed systems to control thermal expansion, see Closed Water Systems and Thermal Expansion on page 13.
If you do not understand these instructions or have any questions
regarding the Temperature-Pressure Relief Valve call the toll free number listed on the back cover of this manual for technical assistance.
Contaminated Air
Breathing Hazard - Carbon Monoxide Gas
Install water heater in accordance with the Instruction Manual and NFPA 54 or CAN/CSA-B149.1.
To avoid injury, combustion and ventilation air must be taken from outdoors.
Do not place chemical vapor emitting products near water heater.
Breathing carbon monoxide can cause brain damage or death. Always read and understand instruction manual.
Corrosion of the flue ways and vent system may occur if air for combustion contains certain chemical vapors. Such corrosion may result in failure and risk of asphyxiation.
Combustion air that is contaminated can greatly diminish the life span of the water heater and water heater components such as hot surface igniters and burners. Propellants of aerosol sprays, beauty shop supplies, water softener chemicals and chemicals usedindrycleaningprocessesthatarepresentinthecombustion, ventilation or ambient air can cause such damage.
Do not store products of this sort near the water heater. Air which is brought in contact with the water heater should not contain any of these chemicals. If necessary, uncontaminated air should be obtained from remote or outdoor sources. The limited warranty is voided when failure of water heater is due to a corrosive atmosphere. (See limited warranty for complete terms and conditions).
Air Requirements
Breathing Hazard - Carbon Monoxide Gas
Install water heater in accordance with the Instruction Manual and NFPA 54 or CAN/CSA-B149.1.
To avoid injury, combustion and ventilation air must be taken from outdoors.
Do not place chemical vapor emitting products near water heater.
Breathing carbon monoxide can cause brain damage or death. Always read and understand instruction manual.
For safe operation an adequate supply of fresh uncontaminated air for combustion and ventilation must be provided.
An insufficient supply of air can cause recirculation of combustion products resulting in contamination that may be hazardous to life. Such a condition often will result in a yellow, luminous burner flame, causing sooting of the combustion chamber, burners and flue tubes and creates a risk of asphyxiation.
Do not install the water heater in a confined space unless an adequate supply of air for combustion and ventilation is brought in to that space using the methods described in the Confined Space section that follows.
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Never obstruct the flow of ventilation air. If you have any doubts or questions at all, call your gas supplier. Failure to provide the proper amount of combustion air can result in a fire or explosion and cause property damage, serious bodily injury or death.
Unconfined Space
An Unconfined Space is one whose volume IS NOT LESS THAN 50 cubic feet per 1,000 Btu/hr (4.8 cubic meters per kW) of the total input rating of all appliances installed in the space. Rooms communicating directly with the space, in which the appliances are installed, through openings not furnished with doors, are considered a part of the unconfined space.
Makeup air requirements for the operation of exhaust fans, kitchen ventilation systems, clothes dryers and fireplaces shall also be considered in determining the adequacy of a space to provide combustion, ventilation and dilution air.
Unusually Tight Construction
In unconfined spaces in buildings, infiltration may be adequate to provide air for combustion, ventilation and dilution of flue gases. However, in buildings of unusually tight construction (for example, weather stripping, heavily insulated, caulked, vapor barrier, etc.) additional air must be provided using the methods described in the Confined Space section that follows.
Confined Space
A Confined Space is one whose volume IS LESS THAN 50 cubic feet per 1,000 Btu/hr (4.8 cubic meters per kW) of the total input rating of all appliances installed in the space.
Openings must be installed to provide fresh air for combustion, ventilation and dilution in confined spaces. The required size for the openings is dependent on the method used to provide fresh air to the confined space AND the total Btu/hr input rating of all appliances installed in the space.
Exhaust Fans
Where exhaust fans are installed, additional air shall be provided to replace the exhausted air. When an exhaust fan is installed in the same space with a water heater, sufficient openings to provide fresh air must be provided that accommodate the requirements for all appliances in the room and the exhaust fan. Undersized openings will cause air to be drawn into the room through the water heater’s vent system causing poor combustion. Sooting, serious damage to the water heater and the risk of fire or explosion may result. It can also create a risk of asphyxiation.
Louvers and Grilles
The free areas of the fresh air openings in the instructions that follow do not take in to account the presence of louvers, grilles or screens in the openings.
The required size of openings for combustion, ventilation and dilution air shall be based on the “net free area” of each opening. Where the free area through a design of louver or grille or screen is known, it shall be used in calculating the size of opening required to provide the free area specified. Where the louver and grille design and free area are not known, it shall be assumed that wood louvers will have 25% free area and metal louvers and grilles will have 75% free area. Non motorized louvers and grilles shall be fixed in the open position.
VENTING INSTALLATION
Venting
THE INSTRUCTIONS IN THIS SECTION ON VENTING MUST BE FOLLOWED TO AVOID CHOKED COMBUSTION OR RECIRCULATION OF FLUE GASES. SUCH CONDITIONS CAUSE SOOTING OR RISKS OF FIRE AND ASPHYXIATION.
Heater must be protected from freezing downdrafts.
Remove all soot or other obstructions from the chimney that will retard a free draft.
Type B venting is required with these heaters. For typical venting application see TECHNICALDATAVENTING on pages 18 and 19.
This water heater must be vented in compliance with all local codes, the current revision of the National Fuel Gas Code (ANSI-Z223.1) and with the Category I Venting Tables.
If any part of the vent system are exposed to ambient temperatures below 40°F (4°C) it must be insulated to prevent condensation.
•Do not connect the heater to a common vent or chimney with solid fuel burning equipment. This practice is prohibited by many local building codes as is the practice of venting gas fired equipment to the duct work of ventilation systems.
figure 11. |
figure 12. |
•Where a separate vent connection is not available and thevent pipe from the heater must be connected to a common vent with an oil burning furnace, the vent pipe should enter the smaller common vent or chimney at a point above the large vent pipe.
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Multiple Heater Manifold
Figure 13 and tables on pages 18 and 19 should be used for horizontally manifolding two or more heaters.
FIGURE 13.
Fresh Air Openings for Confined Spaces
The following instructions shall be used to calculate the size, number and placement of openings providing fresh air for combustion, ventilation and dilution in confined spaces. The illustrations shown in this section of the manual are a reference for the openings that provide fresh air into confined spaces only. DO NOT refer to these illustrations for the purpose of vent installation. See Venting Installation on page 15 for complete venting installation instructions.
Outdoor Air Through Two Openings
Figure 14.
The confined space shall be provided with two permanent openings, one commencing within 12 inches (300 mm) of the top and one commencing within 12 inches (300 mm) of the bottom of the enclosure. The openings shall communicate directly with the outdoors. See Figure 14.
Each opening shall have a minimum free area of 1 square inch per 4,000 Btu/hr (550 mm2 per kW) of the aggregate input rating of all appliances installed in the enclosure. Each opening shall not be less than 100 square inches (645 cm2).
Outdoor Air Through One Opening
Figure 15.
Alternatively a single permanent opening, commencing within 12 inches (300 mm) of the top of the enclosure, shall be provided. See Figure 14. The water heater shall have clearances of at least 1 inch (25 mm) from the sides and back and 6 inches (150 mm) from the front. The opening shall directly communicate with the outdoors or shall communicate through a vertical or horizontal duct to the outdoors or spaces that freely communicate with the outdoors and shall have a minimum free areaofthefollowing:
1.1 square inch per 3000 Btu/hr (733 mm2 per kW) of the total input rating of all appliances located in the enclosure, and
2.Not less than the sum of the areas of all vent connectors in the space.
Outdoor Air Through Two Horizontal Ducts
Figure 16.
The confined space shall be provided with two permanent horizontal ducts, one commencing within 12 inches (300 mm) of the top and one commencing within 12 inches (300 mm) of the bottom of the enclosure. The horizontal ducts shall communicate directly with the outdoors. See Figure 16.
Each duct opening shall have a minimum free area of 1 square inch per 2,000 Btu/hr (1100 mm2 per kW) of the aggregate input rating of all appliances installed in the enclosure.
When ducts are used, they shall be of the same cross sectional area as the free area of the openings to which they connect. The minimum dimension of rectangular air ducts shall be not less than 3 inches (7.6 cm).
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