WB Series
Installation
Operation
Maintenance
Manual
COLUMBIA
®
COLUMBIA BOILER CO. OF POTTSTOWN
POTTSTOWN, PENNSYLVANIA 19464
www.COLUMBIABOILER.COM
Homeowner / Installer Policy
We at Columbia Boiler Company would like to “Thank You” for choosing our top of the line
WB Wet Base Boiler. At Columbia Boiler we take pride in the serviceability and the quality construction of our products. We have built trusting relationships that date back through our company’s history to 1936. We believe that personal service is the best service and our customers
agree.
We would like to offer you a few helpful service points to insure your family years of trouble
free comfort. In order to maintain peak performance of your boiler, it is recommended that your
boiler be maintained annually. Servicing of your appliance must be performed by a qualified oil
heating technician. A properly trained oil technician will be prepared to set your boiler/burner
combination with the proper tools necessary to achieve your maximum comfort and efficiency.
As a family owned business, we are happy to have you as one of our many satisfied homeowners who have been chosen Columbia boilers for over 70 years. We look forward to a long and
continued relationship.
Rosemarie Bartchak
Sales and Marketing Manager
Columbia Boiler Residential Sales
i
Product Features
•
•
•
•
•
•
•
•
ASME Coded Boiler Registered with National Board
Fully Insulated Heat Exchanger with Powder-Coated Cabinet
Packaged with Standard Five Gallon per Minute Tankless Coil (Domestic Hot Water)
Equipped with Triple Aquastat, Circulator, and Temperature / Altitude Gauge
Outfitted with Additional Nozzles to Achieve a Variety of Heat Inputs
Provided with a Lifetime Limited Warranty
Choice of Burners with factory installed quick connect harness for easy installation.
Fully Insulated Powder Coated Cabinet.
Figure 1 Columbia WB Series
Contents
Homeowner / Installer Policy
Product Features
Model Specifications
Model Dimensions
Installation
Operation
Maintenance
Trouble Shooting
Parts List
Preliminary Settings
i
1
2
3
4
15
18
19
27-28
29
Model Specifications
Table 1 - Series I Boilers
Model 90/100/110*
Model 125/135/150*
___________________________________________________________________________________
Input
126,000
140,000
154,000
175,000
189,000
210,000
___________________________________________________________________________________
Heat Capacity
109,000
121,000
132,000
150,000
161,000
178,000
___________________________________________________________________________________
Gross Output
N/A
N/A
N/A
N/A
N/A
N/A
___________________________________________________________________________________
Net Out
95,000
105,000
115,000
130,000
140,000
155,000
___________________________________________________________________________________
Firing Rate
0.90
1.00
1.10
1.25
1.35
1.50
___________________________________________________________________________________
Tubes
10
10
10
16
16
16
___________________________________________________________________________________
Baffles
Fully Baffled
Fully Baffled
Fully Baffled
Fully Baffled
Fully Baffled
Fully Baffled
___________________________________________________________________________________
Water Content
30
30
30
28
28
28
___________________________________________________________________________________
Supply
1-1/4"
1-1/4"
1-1/4"
1-1/4"
1-1/4"
1-1/4"
___________________________________________________________________________________
Returns (2)
1-1/4"
1-1/4"
1-1/4"
1-1/4”
1-1/4"
1-1/4"
___________________________________________________________________________________
Coil Capacity
5 GPM
5 GPM
5 GPM
5 GPM
5 GPM
5 GPM
___________________________________________________________________________________
Steady State
86.5
86.2
85.5
85.6
85.4
84.9
___________________________________________________________________________________
AFUE - DOE Efficiency
85.1
84.8
84.2
85.0
84.7
84.0
___________________________________________________________________________________
Combustion Efficiency
N/A
N/A
N/A
N/A
N/A
N/A
___________________________________________________________________________________
Overall Efficiency
N/A
N/A
N/A
N/A
N/A
N/A
___________________________________________________________________________________
Weight
458
458
458
485
485
485
___________________________________________________________________________________
Burner Model
Beckett AFG
Beckett AFG
Beckett AFG
Beckett AFG
Beckett AFG
Beckett AFG
Beckett AFII
Carlin EZ-1
Riello F5
Riello BF5
Beckett AFII
Carlin EZ-1
Riello F5
Riello BF5
Beckett AFII
Carlin EZ-1
Riello F5
Riello BF5
Beckett AFII
Carlin EZ-1
Riello F5
Riello BF5
Beckett AFII
Carlin EZ-1
Riello F5
Beckett AFII
Carlin EZ-1
Riello F5
*Model 90/100/110 and 125 available in choice of chimney or direct vent. With AFII, EZ1 and BF5 burners only.
Table 2 - Series II Boilers
Model 165/175/200
Model 225/250/275
___________________________________________________________________________________
Input
231,000
245,000
280,000
315,000
350,000
385,000
___________________________________________________________________________________
Heat Capacity
200,000
212,000
242,000
N/A
N/A
N/A
___________________________________________________________________________________
Gross Output
N/A
N/A
N/A
264,000
291,000
319,000
___________________________________________________________________________________
Net Out
174,000
184,000
210,000
230,000
253,000
277,000
___________________________________________________________________________________
Firing Rate
1.65
1.75
2.00
2.25
2.50
2.75
___________________________________________________________________________________
Tubes
18
18
18
24
24
24
___________________________________________________________________________________
Baffles
Not Baffled
Not Baffled
Not Baffled
Top Pass Baffled Top Pass Baffled Top Pass Baffled
___________________________________________________________________________________
Water Content
48
48
48
46
46
46
___________________________________________________________________________________
Supply
2"
2"
2"
2"
2"
2"
___________________________________________________________________________________
Returns (2)
2"
2"
2"
2”
2"
2"
___________________________________________________________________________________
Coil Capacity
5 (7 GPM opt.) 5 (7 GPM opt.) 5 (7 GPM opt.) 5 (7 GPM opt.) 5 (7 GPM opt.) 5 (7 GPM opt.)
___________________________________________________________________________________
Steady State
86.7
86.5
85.4
N/A
N/A
N/A
___________________________________________________________________________________
AFUE - DOE Efficiency
86.0
85.6
84.6
N/A
N/A
N/A
___________________________________________________________________________________
Combustion Efficiency
N/A
N/A
N/A
85.5
85.2
84.9
___________________________________________________________________________________
Overall Efficiency
N/A
N/A
N/A
83.7
83.3
82.9
___________________________________________________________________________________
Weight
680
680
680
710
710
710
___________________________________________________________________________________
Burner Model
Beckett AFG“M” Beckett AFG“M” Beckett AFG“M” Beckett CF375 Beckett CF375 Beckett CF375
2
Model Dimensions
FIGURE 2 - SERIES I BOILERS
AQUASTAT RELAY
1-1/4" RETURN INLET/CIRCULATOR
PIPED EITHER SIDE
1-1/4" SUPPLY OUTLET
T/A GAUGE
6" FLUE OUTLET (chimney vent)
5" FLUE OUTLET (direct vent)
37
30 5/8
37 7/16
29 3/16
13 1/8
10 3/4
4 3/4
22 3/4
22 1/16
22 1/2
31 3/4
FIGURE 3 - SERIES II BOILERS
AQUASTAT RELAY
2" RETURN INLET/CIRCULATOR
PIPED EITHER SIDE
T/A GAUGE
2" SUPPLY OUTLET
8" FLUE OUTLET
45 1/8
39 1/4
35 5/16
14 1/8
12 1/2
4 3/4
33
22 1/16
24
42
3
45 1/2
Installation
I GENERAL
This Series hot water steel boilers are high quality oil fired heating units. The installation of the
unit shall be in accordance with state and local regulations. Refer to local Installation Codes for
Oil Burning Equipment, for recommended installation practice.
II FREIGHT CLAIMS
All units should be inspected for damage upon arrival. Concealed damage claims should be filed
immediately against the carrier by the consignor. The carrier is responsible for taking prompt
action on all claims.
III SIZING
Replacement boilers should not be sized from the firing rate of the old boiler; a DOE sponsored
study indicated 65% of the heating units in U.S. homes are substantially oversized.A complete
heat loss calculation of the structure is necessary to choose the proper size unit to install. The boiler should be sized to within 25% of the actual calculated heat loss of the structure. Over sizing
will result in short cycling and inefficient operation.
IV BOILER LOCATION
A) Boiler to be installed in a level position with clearances in accordance with NFPA 31 Table
10.6.1.
STANDARD CLEARANCES
Front 24"
Sides 6"
Top 18"
Rear 12"
Chimney Connector 18"
Floor: Sizes 90-150 may be installed on combustible flooring
B) Reduced clearance installations shall comply with NFPA 31 Table 10.6.2.
C) To move the unit, push against the flue box or skids. Pushing or pulling the jacket or burner
will result in damage.
D) Be sure to level the unit by inserting shims under the elevated base.
V. AIR FOR COMBUSTION AND VENTILATION - CHIMNEY VENT APPLICATIONS
The unit must be installed where provisions exist for combustion and ventilation air. Ordinarily,
provisions may be furnished by the following methods.
A) Utility Room or Closet
In buildings of tight construction, including most modern homes, you should provide an opening,
4
have a free area of not less than 1 square inch per 1000 Btu (140 square inch per US gph) of the
total input for all appliances in the enclosure. One opening located near the top of enclosure and
one near the bottom.
B) Basement
1. When a boiler is installed in a full basement, infiltration is normally adequate to provide air
for combustion.
2. In buildings of tight construction when the basement windows are weather stripped, one opening to a well ventilated attic or with the outdoors should be provided. (See part A for opening
requirements)
C) Special Conditions
When a boiler is located in an area where exhaust fans, kitchen ventilation systems, clothes dryers, or fireplaces may create conditions of unsatisfactory combustion or venting, special provisions should be made for additional air for combustion, as specified by local authority.
VI. AIR FOR COMBUSTION AND VENTILATION - DIRECT VENT APPLICATIONS
A) VENTING SYSTEM
CAUTION: EXTERNAL VENT SURFACES ARE HOT.
NOTE: USE ONLY THE ETL LISTED VENTING SYSTEM COMPONENTS SUPPLIED
WITH THE TV-175 DIRECT VENT KIT.
SURFACE DISCOLORATION OF THE BUILDING MAY OCCUR DUE TO IMPROPER
BOILER/BURNER ADJUSTMENT. COLUMBIA BOILER COMPANY WILL NOT
ACCEPT ANY LIABILITY FOR SUCH DISCOLORATION.
Follow the instructions provided with the TV175 Direct Vent Kit for locating and installing the
vent kit.
5
VII JACKET AND TRIM ASSEMBLY
A) Knock Down Boiler
1. Jacket Assembly - Unpack the jacket parts being careful not to damage the finish. Piping and
accessories are installed after the jacket is in place.
2. Trim Assembly
a. Install the safety relief valve in the 3/4" tapping in the top of the boiler. The relief valve must
be piped to a safe place of discharge.
b. Install the limit control in the 3/4" fitting provided in the boiler.
c. Install the altitude/temperature gauge in the 1/4" fitting provided in the coil plate.
B) Packaged Boiler
The boiler is supplied with a burner shipped in a separate box. To install the burner, follow the
burner manufacturer’s instructions included with the burner, then connect the wiring harness from
the burner to the control using the quick connect fittings that are factory installed on the control
and burner harness sections. See wiring diagram in this manual for details. Install the relief valve
as noted in Section 2a (Trim Assembly).
VIII BOILER PIPING
See Figure 6 for recommended piping schematic.
This style of boiler is equipped with a built in “Air Scoop
System.” This feature allows quiet air free operation of your
hot water system by assuring the removal of noisy air pockets. The supply line or Riser tapping in the top of the boiler
extends approximately 1" below the top or waterline of the
boiler, thus allowing only air free water to enter the supply to
the heating system. The air trapped in the top of the boiler is then
purged through a 3/4" vent tapping to be released with an (1)
automatic float vent (2) a manual vent or (3) piped into a conventional type expansion tank.
FIGURE 5
BUILT-IN AIR SCOOP
Relief valve discharges and drain valve piping must be piped to a safe place of discharge. All
plugs and water connections should be checked for leaks upon installation and annually.
IX TANKLESS WATER HEATING PIPING
The tankless heater may be connected as shown in Figure 6. A mixing valve (not supplied) must
be used to reduce the water temperature at kitchen or bathroom taps. High temperature water for
a dishwasher may be obtained by piping as shown.
The nuts that secure the tankless coil flange must be tightened before the boiler is filled with
water, after initial firing and every year during annual maintenance. Deterioration due to coil gasket leaks shall void warranty.
6
FIGURE 6 - PIPING DIAGRAM FOR SERIES I BOILERS
WATER SUPPLY
BALL VALVE
PRESSURE REDUCING
VALVE
STOP VALVE
TEMPERED
WATER
AIR VENT
HYDRONIC SYSTEM
SUPPLY
FLOW VALVE
(SHOWERS AND
FAUCETS)
HOT WATER
(DISHWASHER)
EXPANSION TANK
RETURN
DOMESTIC
COLD WATER
IN
ALTERNATE RETURN LOCATED
ON OPPOSITE SIDE OF BOILER
RELIEF VALVE
TEMPERING VALVE
DRAFT / SIGHT
PORT
CIRCULATOR
MAY ALSO MOUNT THE
CIRCULATOR ON SUPPLY
VALVE
DRAIN
FIGURE 7 - PIPING DIAGRAM FOR SERIES II BOILERS
(PIPING THE SAME EXCEPT THE ADDITION OF LOW WATER CUTOFF)
AIR VENT
EXPANSION TANK
HYDRONIC SYSTEM
SUPPLY
RELIEF VALVE
LOW WATER
CUTOFF
7
ELECTRICAL DIAGRAM FOR WB SERIES BOILERS
TO CONNECT BURNER TO AQUASTAT
(APPLIES TO BECKETT CHIMNEY VENT BURNERS)
ELECTRICAL DIAGRAM FOR WB SERIES BOILERS
TO CONNECT BURNER TO AQUASTAT
(APPLIES TO RIELLO CHIMNEY VENT BURNERS)
8
ELECTRICAL DIAGRAM FOR WB SERIES BOILERS
TO CONNECT BURNER TO AQUASTAT
(APPLIES TO CARLIN CHIMNEY VENT BURNERS)
ELECTRICAL DIAGRAM FOR WB-DV SERIES BOILERS
TO CONNECT BURNER TO AQUASTAT
(APPLIES TO BECKETT DIRECT VENT BURNERS)
9
ELECTRICAL DIAGRAM FOR WB-DV SERIES BOILERS
TO CONNECT BURNER TO AQUASTAT
(APPLIES TO REILLO DIRECT VENT BURNERS)
ELECTRICAL DIAGRAM FOR WB-DV SERIES BOILERS
TO CONNECT BURNER TO AQUASTAT
(APPLIES TO CARLIN DIRECT VENT BURNERS)
10
X BURNER AND CONTROLS
A) Burner Installations
Packaged boilers are supplied with a burner shipped in a separate box. Boilers that are shipped
knocked-down must be field assembled. Follow the procedures listed below to install and connect
the burner.
1. Remove the burner parts and instructions from the carton.
2. Referring to specifications at the back of the manual, check to see that the burner model and
size match the boiler model.
3. Make sure the correct nozzle is in place and is tightly sealed.
4. Check the electrode position and set the air intake as indicated in the burner manual.
5. The burner is installed with a mounting flange. The end of the burner air tube should be 1/4"
from the inside surface of the front wall of the combustion chamber.
6. The burner is provided with a connector that should be attached to the mating connector installed
on the aquastat at the factory. Wire the system in accordance with the appropriate suggested
schematic in the control manufacturer’s instruction manual. See the burner manufacturer’s instructions for wiring details for the burner.
7. For units installed in Maine, New Jersey and New York, a low-water cutoff is required on all
hot water boilers. See the burner manufacturer’s instructoins for wiring the low water cutoff(s).
B) Oil Primary Control - Chimney Vent (Non Post Purge Control)
The oil primary control with the solid state flame sensing circuit provides automatic, non-recycling control of oil burners. When used with the cadmium sulfide flame detector, the control will
automatically control the oil heating system.
The primary control will stop the oil burner within a predetermined number of seconds if the fuel
fails to ignite or if the flame goes out during operation. The oil burner will remain off until the
reset button on the relay has been pushed. THE RESET MUST NEVER BE PRESSED MORE
THAN ONCE DURING A SINGLE FLAME FAILURE.
C) Oil Primary Control - Direct Vent (Post Purge Control)
The oil primary control with the solid state flame sensing circuit provides interrupted ignition.
Used in conjunction with a cadmium sulfide flame detector, the control will automatically control the oil burner.
The primary control will stop the oil burner within a predetermined number of seconds if the fuel
fails to ignite or if the flame goes out during operation. The oil burner will remain off until the
reset button on the relay has been pushed. THE RESET MUST NEVER BE PRESSED MORE
THAN ONCE DURING A SINGLE FLAME FAILURE.
Post-purge is provided to ensure that the boiler fires at maximum efficiency and dependability
throughout the heating season.
Post-purge of the oil burner is controlled through the electronic circuitry supplied. Post-purge timing is variable. The factory set post-purge timing is at approximately one minute. It is recom-
11
mended that it be left at this setting. In no case should the post purge timing be reduced to less
than 1 minute.
Length of Vent Kit
0 - 10 Feet
10.1 - 15 Feet
15.1 - 20 Feet
Minimum Post Purge Time
1 Minute
1 Minute
2 Minutes
Times are approximate and should be considered minimum settings for the length of intake pipe
installed.
The length of post-purge may be increased on those units using the Beckett AFII or Riello BF-5
oil burners to any value up to its maximum setting if field conditions require a longer purge cycle.
The length of post-purge on the Carlin burner is not adjustable. The post purge timing on the
Carlin burner is 90 seconds.
D) Aquastat Relay
This control is installed in the 3/4" fitting next to the domestic coil. These immersion type controls are used with forced hydronic heating systems which include domestic water service. This
model provides high and low limits for maintaining minimum boiler water temperature and circulator controls. This control can also be used for multi-zone control by using a separate circulator and an R845 relay for each zone. See the control manufacturer’s instructions for proper wiring
of this unit. The primary control is factory wired to the aquastat relay. These controls, working as
a system, will prevent the circulator operation if the water temperature is below a predetermined
low level. Likewise, if the water level reaches a predetermined high limit, the burner will automatically shut off.
12
XI SEQUENCE OF OPERATION
Forced Circulation Hot Water System with Tankless Heater
When room temperature falls below thermostat setting, the thermostat calls for heat starting the circulating pump. The burner and pump continue to operate until room heating requirements are satisfied (thermostat setting is reached), or until boiler water temperature reaches high
limit control temperature setting. If the high limit control temperature setting is reached, the burner shuts off, the circulating pump continues to operate until the room heating requirements are satisfied. If the thermostat continues to call for heat after the boiler water temperature has dropped
below the temperature setting of the high limit control the oil burner will start again, while the
circulating pump will continue to run.
The boiler water temperature is normally maintained at 180°F around the tankless coil by
the operating control so that an abundance of hot water is available. If the boiler water temperature should fall below the operating control setting (180°F), the oil burner will be started again by
that control (and the circulating pump will be prevented from operating) until the operating control setting is satisfied.
A cadmium sulfide flame scanner (cad cell) is provided with the oil burner. The cad cell
will stop the oil burner within a predetermined number of seconds if the fuel fails to ignite or if
the flame extinguishes during operation. The oil burner will remain off until the red reset button
on the relay has been pushed. (Reset must never be pressed more than once during a single flame
failure.)
XII FUEL SYSTEM
A) Fuel Units
NOTE: Pump pressure 140 PSI for Beckett and Carlin, and 150 PSI for Riello.
1. Burners are commonly fitted with a single stage fuel unit. A single stage unit may be connected with a supply line only, when the fuel supply is level with or above the burner. When the
burner is above the oil level, a return line should be provided between the fuel unit and the tank.
A “by-pass” plug in the fuel unit is then required. The return line automatically purges air from
fuel units and returns it to the tank.
2. Two stage fuel unit. If the height difference between the burner and the fuel supply level
exceeds 10 ft., a two stage unit should be used, and a return line should be installed.
B) Tubing
Use continuous heavy walled copper tubing with flare fittings only. Locate fittings in accessible
locations. If possible, tubing should be installed under the floor. Running tubing against boiler
casings or across ceiling or floor joints should be avoided.
C) In-Line Oil Filter
The oil filter should be of a generous capacity. It should be located inside the building between
the tank shut off valve and the burner. A shut off valve and the oil filter should be located as close
to the burner as possible for ease of servicing.
13
D) Oil Shut Off Valve
Install manual oil shut off valves at the burner and near the tank on the supply line. Both valves
should be easily accessible.
XIII FLUE SYSTEM - CHIMNEY VENT APPLICATIONS
A) General
AN OIL FIRED UNIT SHALL BE CONNECTED TO A FLUE HAVING SUFFICIENT DRAFT
AT ALL TIMES TO ASSURE PROPER OPERATION.
B) Draft
The draft regulator should be installed in accordance with the manufacturers instructions. Set the
draft to negative .02 to .04 inches W.C. in the stack.
C) Roof Clearances
The flue gas exit of the venting system should be at least 3 feet above the highest point where it
passes through the roof and at least 2 feet higher than any portion of a building with 10 feet of the
venting system.
D) Chimney Connectors
The connector should be pitched upward at least 1/4 inch to the foot. Use only high quality lock
seam smoke pipe. Each joint should be securely fastened with sheet metal screws. Chimney connectors should be positioned to the shortest possible run of smoke pipe to the chimney.
E) Vent Cap
Install a U.L. listed vent cap where the possibility of down drafts exist.
F) Boiler Venting
This boiler must be vented into a properly sized chimney, or into an Underwriters Laboratories
Inc. listed venting device which is capable of maintaining the specified draft requirements.
Only a trained experienced serviceman should attempt the installation or service of any boiler and or venting device.
All venting installations must comply with the recommendations of the venting manufacturer
and with all state and local codes.
XIV WIRING
All internal electrical wiring is completed at the factory on packaged boilers. All external wiring
must conform with the National Electric Code and local codes. Refer to burner and control wiring
diagrams for all field wiring.
A) Field connections should be protected with a 15 amp fuse.
B) Install the room thermostat on an inside wall away from cold drafts, windows, or heat from
fireplaces, appliances, or sunlight. Connect the thermostat leads to the “TT” terminals on the circulator control.
14
C) A separate service box with disconnect switch is provided, wired but not fastened to the
jacket. Connect the service box to the jacket using the hole and screw provided.
XV WARRANTY
The limited warranty is not applicable unless these installation instructions are followed.
Operation
I START UP
DO NOT START UNLESS CLEAN OUT DOORS ARE IN PLACE.
A. Make sure service switch to boiler is off.
B. Make sure boiler has been filled with enough water until the entire system has been purged
and desired pressure is obtained.
C. Check to make sure the oil storage tank is filled with No. 2 heating oil.
D. Make sure all manual shut off valves in the fuel system are open.
E. Set operating controls at 180°F.
F. Set limit switch at 200°F.
G. Install a pressure gauge in the 1/8" gauge nozzle port, or bleed valve port of the fuel pump.
The pressure should be set per Installer/Serviceman Label.
H. Adjust the burner air band and air shutter in accordance with Installer/serviceman Label.
I. Push the safety reset button on the primary control and release. Adjust the thermostat to
call for heat. Turn the service switch to the on position. Bleed the fuel unit. If burner fails to start,
refer to the trouble shooting guide in this manual.
J. With the burner running, bleed the fuel unit again until all air is eliminated from lines.
Close and tighten the bleed port.
K. Check all lines and plugs for oil leaks and eliminate.
II START UP ADJUSTMENTS
A)
1.
2.
3.
4.
5.
Equipment Required
CO2 analyzer
Draft gauge.
Fuel pressure gauge.
Stack thermometer.
Smoke tester.
15
B) Burner Adjustments
Allow the burner to operate steadily for at least 15 minutes. Check the burner settings according
to the installer/serviceman labels for Series I and II boilers starting on page 30, and make the following adjustments:
1. Sampling Hole - punch 1/4" hole in the flue between the flue box and the draft regulator. All
test readings should be taken from this point.
2. In The Stack Draft - Take a draft reading from the flue pipe sampling hole. Adjust the barometric draft regulator to -.02" in the stack. In tall chimneys a second draft regulator may be
required in the flue pipe to regulate draft under high draft conditions.
3. Overfire Draft - Take a draft reading from the draft port located to the left of the burner.
Compare the readings with those according to the installer/serviceman labels for Series I and II
boilers starting on page 30. Reinstall the draft port plug after all readings have been taken.
4. Pump Pressure - Adjust the pump discharge pressure per value on serviceman label.
5. Combustion Air - Reduce the air supply to allow just sufficient air for clean combustion. This
is accomplished by loosening the lock screws on the air shutter, and closing the air shutter until a
trace of smoke is recorded. Take a CO2 sample. Open the air shutter lowering CO2 about 1-1/2%
to 2%. A zero smoke reading should result. If this adjustment cannot be obtained, refer to the trouble shooting section in this manual..
C) Instructing the Homeowner
The care and operation of the boiler should be explained to the homeowner, including care of the
burner, how to adjust the thermostat, necessity of air supply to the burner, and the simple checks
to make before calling the serviceman if the burner fails to operate automatically.
III BURNER SERVICING
A) Burner Components
If a replacement part is necessary, use only the part specified on the burner parts list in this manual. Specify the part number and description when ordering. (See included burner literature).
B) Nozzles
Use only the correct nozzle specified on the “Installer/Serviceman” decal located on front boiler
jacket. Be extremely careful not to touch the nozzle orifice to avoid scratches or dirt which may
cause leaks or effect the oil spray pattern.
C) Electrode Settings
The electrode setting is critical for proper ignition of the fuel. Check to be sure electrode settings
comply with the specifications.
D) Fan and Blower Housing
The fan and blower housing should be kept clean from lint and dirt. If the boiler is located near
an unvented dryer, special care must be taken so that lint does not block air passages in the burner and proper combustion air is provided.
16
IV HOMEOWNER INFORMATION
Your Serviceman/Service Company is:
Address:
Phone No.:
A) General
Never burn garbage or refuse in your heating unit. Never try to ignite oil by tossing burning
papers or other material into your boiler and never leave combustible material around it. Do not
allow the fuel tank to run out of oil. The fuel tank should be kept full during the summer or periods of non-use, to prevent condensation of moisture on the inside of the tank.
B) Combustion Air Supply
Your burner requires an ample amount of clean combustion air in order to completely and efficiently burn fuel. If an ample supply is not available erratic operation, noisy combustion, and fuel
odors in the air may result. Remember that venting fans or a vented dryer will greatly increase the
need for outside air.
C) Filter
Replace the cartridge filter in the line every year to avoid fuel unit and nozzle contamination.
D) Area Around Boiler
The area around the boiler should be kept clean and free of any combustible materials, particularly oily rags or papers. The boiler should be accessible for ease of service. If the burner is shut
down for an extended period of time, shut off the manual fuel supply valve. Follow starting procedures to restart.
V SERVICE INFORMATION
To avoid unnecessary expense and inconvenience, the boiler and burner should be inspected at
least once a year by a qualified serviceman. If difficulty occurs, the following should be observed
before calling the serviceman.
A)
B)
C)
D)
Check to be sure there is fuel in the tank.
Check to see if the thermostat setting is above room temperature.
Check to see if the service switch is in the on position.
Do not tamper with the unit or its controls.
17
Maintenance
I IMPORTANT
ESCAPING GASES ARE DANGEROUS. THE ENTIRE FLUE AND VENTING SYSTEM
SHOULD BE INSPECTED AT LEAST ONCE A YEAR BY A QUALIFIED SERVICEMAN.
II OIL FILTER
The oil filter cartridge should be replaced annually.
III CLEANING
The heat exchanger and combustion chamber should be examined annually for scale and soot
accumulation. The heat exchanger examination and cleaning is to be performed through the front
clean out panel located above the burner.
A) To clean the unit, Remove the 3/8" brass nuts, clean out cover, and front refractory board.
B) Remove baffles from front. Brush all of the tubes using a 2" soft flue brush.
C) Remove the flue pipe and check for any residue through the flue collector opening. A boiler
vacuum can be used to collect any soot and scale. It is not normally necessary to remove the flue
box for cleaning.
D) Remove the oil burner to inspect the burner head. Any soot or scale can be removed from the
chamber through the burner opening.
DO NOT REMOVE THE REAR COVER AND REAR REFRACTORY FOR NORMAL
MAINTENANCE. SOOT OR SCALE MUST BE REMOVED FROM THE FRONT BURNER OPENING ONLY.
IV OIL BURNER
A) Thoroughly brush clean the burner fan blades. Only with clean fan blades is proper combustion air delivery possible.
B) Clean nozzle assembly and all air handling parts.
C) Check spacing and condition of the ignition electrodes.
D) Nozzles should be inspected every year for plugged distributor slots or plugged orifices. If it
is necessary to replace the nozzle, use only the specified nozzle to be sure that the replacement
meets the spray pattern specifications of the burner.
V GASKETS
Tighten the nuts on the water coil annually to prevent any gasket leaks. Deterioration due to coil
gasket leaks shall void the warranty.
VI WIRING
Check the electrical wiring for damage or frayed insulation.
18
Troubleshooting Guide
TROUBLE: BURNER DOES NOT START
SOURCE
PROCEDURE
CAUSES
REMEDY
Thermostat
Check Thermostat
Thermostat set too low.
Turn thermostat up.
Thermostat on “off ”or “cool.”
Switch to heat.
Open thermostat wires.
Repair or replace wires.
Loose thermostat connectors.
Tighten connection.
Faulty thermostat.
Replace thermostat.
Thermostat not level.
Level thermostat.
Check burner motor overload
switch. (If equipped)
Burner motor tripped on
overload.
Push reset button.
Check primary control safety
switch.
Primary tripped on safety.
Reset safety switch.
Check boiler disconnect switch
and main disconnect switch.
Switch open.
Close switch.
Tripped breaker or blown fuse.
Reset breaker or replace fuse.
Jump the FF terminals on
primary control, if the burner
starts, fault is in detector circuit.
Open cad cell wires.
Repair or replace wire.
Dirty cell face.
Clean or replace face.
Faulty cad cell.
Replace cad cell.
Check resistance across cad cell.
If 400-600 ohms cell is bad.
Replace cad cell.
Check for line voltage between
the black and white leads. No
voltage indicates no power to the
control.
Limit control switch open
Check limit setting.
Circuit
Overloads
Power
Cad Cell
Primary
Control
Burner
Jump terminals - if burner
starts replace control.
Open circuit between limit
control and disconnect switch.
Repair circuit.
Low line voltage or power
failure
Call utility company.
Check for line voltage between
orange and white leads. No
voltage indicates a faulty control.
Defective control.
Replace control.
Check for voltage at the black
and white leads to the burner
motor. Voltage indicates power
to motor and a fault in the
burner.
Pump seized.
Turn off power to burner.
Rotate blower by hand, check
for excessive drag. Replace
fuel unit or blower wheel.
Blower wheel binding.
Burner motor defective.
When checking burner adjustments always use instruments.
19
Replace burner motor.
TROUBLE: BURNER STARTS BUT DOES NOT ESTABLISH FLAME
SOURCE
PROCEDURE
CAUSES
REMEDY
Oil Supply
Check tank for oil.
Empty tank.
Fill tank.
Check for water in oil tank using
a dip stick coated with litmus
paste.
Water in oil tank.
Strip tank of water exceeding
2" in depth.
Listen for pump whine.
Fuel supply valve closed.
Open valve.
Open pump bleed port and start
burner. Milky oil or no oil
indicates loss of prime.
Air leak in fuel system.
Repair leak, using only flared
fittings. Do not use Teflon
tape on oil fittings.
Listen for pump whine.
Oil filter plugged.
Replace filter cartridge.
Plugged pump strainer.
Clean Strainer.
Restriction in oil line.
Repair oil line.
Install pressure gauge in port of
fuel pump. Pressure should be
according to the installer/serviceman labels for Series I & II
boilers starting on page 29.
Pump worn - low pressure.
Motor overloads.
Replace pump.
Coupling worn or broken.
Replace coupling.
Pump discharge pressure set
too low.
Set pressure according to the
installer/serviceman labels for
Series I & II boilers.
Connect transformer leads to line
voltage. Listen for spark. Check
that transformer terminals are not
arcing with buss bars. Check that
transformer is properly grounded.
No spark or weak spark.
Replace transformer.
Line voltage below 102V.
Call utility company.
Remove and inspect drawer
assembly.
Carboned and shorted
electrodes.
Clean electrodes.
Eroded electrode tips.
Incorrect electrode settings.
Replace and reset
electrodes.
Cracked porcelain insulators.
Replace and reset electrodes.
Plugged orifice or distributor.
Poor spray pattern.
Replace nozzle with nozzle
according to the installer/
serviceman labels for Series I & II
boilers .
Inspect nozzle for correct size
and specifications.
Incorrect nozzle installed.
Install correct nozzle.
See “Burner Adjustment
Instructions” in this manual.
Air shutter open too far.
Decrease air shutter setting.
Air band open too far.
Decrease air band opening.
Oil Line
and Filter
Oil Pump
Ignition
Transformer
Ignition
Electrodes
Nozzle
Check for faulty nozzle.
Plugged nozzle strainer.
Combustion
Air
Adjustments
When checking burner adjustments always use instruments.
20
TROUBLE: BURNER FIRES, BUT THEN FAILS ON SAFETY
SOURCE
PROCEDURE
CAUSES
REMEDY
Cad Cell
Check cad cell with ohmmeter. If
more than 2000 ohms, cad cell is
defective or dirty.
Faulty or dirty cad cell
Clean or replace cad cell.
Primary
Control
After burner fires, open cad cell
circuit if flame looks OK. If
burner continues to operate, fault
is in primary control.
Faulty primary control
Replace primary control.
Heat
Exchanger
Restriction
Inspect heat exchanger.
Plugged heat exchanger.
Clean out heat exchanger.
Burner
Motor
Burner motor trips on overload.
Turn off power and rotate blower
by hand to check for excessive
drag.
Line voltage below 102V
Call utility company.
Faulty motor.
Replace motor.
Pump or blower overloading
motor.
Replace blower or pump.
TROUBLE: TOO MUCH HEAT
SOURCE
PROCEDURE
CAUSES
REMEDY
Circulator
Check to see if operating control
is working properly.
Circulator does not stop
running.
Repair operating control.
Thermostat
Check thermostat settings and
calibration.
Thermostat set too high.
Reset thermostat.
Thermostat defective
Replace thermostat.
Thermostat out of calibration.
Recalibrate. Check level.
Flow valve dirty and stuck.
Clean flow valve.
Flow valve defective.
Replace flow valve.
Flow Valve
Check to see if flow valve is
operating properly.
When checking burner adjustments always use instruments.
21
TROUBLE: BURNER FIRES, BUT THEN LOSES FLAME
SOURCE
PROCEDURE
CAUSES
REMEDY
Poor Fire
Inspect flame for stability.
Unbalanced fire.
Replace nozzle with specified
nozzle.
Excessive draft.
Reduce draft setting.
Insufficient draft.
Increase draft.
Insufficient combustion air sources.
Increase combustion air sources.
Air leak in fuel system.
Repair leak - use only flare
fittings.
Water in oil tank.
Strip tank of water exceeding
2" in depth.
Fuel supply valve closed.
Open valve.
Restriction in oil line.
Clear oil line restriction.
Plugged fuel filter.
Replace filter cartridge.
Plugged pump strainer.
Clean Strainer.
Cold oil.
Use #1 heating oil.
Oil Supply
If burner loses flame prior to the
primary control locking out, fault
is in fuel system.
Combustion
Air
Reduce combustion air supply.
Too much combustion air.
Close air band and air to raise
CO2. Check with instruments.
Pump
Install pressure gauge in gauge
port of fuel pump. Pressure
should be according to installer/
serviceman labels for Series I & II
boilers starting on page 29.
Pump discharge pressure
incorrectly set.
Set pressure according to
installer/serviceman labels for
Series I & II boilers.
Coupling worn or broken.
Replace coupling.
Pump worn - low pressure
motor overloads.
Replace pump.
Excessive
Draft
Take a draft reading. Draft should
be according to installer/serviceman labels for Series I & II boilers
starting on page 29 in stack.
Incorrect draft setting.
Reduce setting. Install second
draft regulator if necessary.
Poor Flue
Gas Sample
Insert CO2 probe into heat
exchanger tube. If reading is
greater by 1/2% or more, sample
was being diluted near flue box.
Leak in flue system.
Sample CO2 in heat exchanger.
Testing
Method
Using a chemical absorption type
device, let instrument set after a
test before venting. If CO2
reading increases 1/2% fluid is
weak.
Weak fluid.
Replace fluid in testing device.
Nozzle
Check for faulty nozzle.
Plugged orifice or distributor.
Replace nozzle with specified
nozzle.
Seal flue system leak.
Plugged nozzle strainer.
Poor spray pattern.
When checking burner adjustments always use instruments.
22
TROUBLE: BURNER FIRES, BUT PULSATES
SOURCE
PROCEDURE
CAUSES
REMEDY
Draft
Take a draft reading. Draft should
be according to installer/serviceman labels for Series I & II boiler
starting on page 29, in the stack.
Down drafts.
Install vent cap.
Insufficient draft.
Increase draft setting.
Excessive draft.
Reduce draft settings, install
second draft regulator if
necessary.
Draft
Regulator
Inspect draft regulator for correct
location on flue system.
Improper installation.
Move draft regulator to
correct location.
Combustion
Air
See Table 1.
Inspect installation for
combustion air provisions.
Improper installation.
Provide sufficient sources of air
for combustion.
Open air band wide and take
CO2 reading.
Improper adjustment.
Adjust CO2 level - start with air
band wide open. Use instrument.
Bleed pump; inspect for air leaks
or water contamination.
Air leak in fuel system.
Compression fittings.
Repair leak - use only flare
joints.
Water in oil tank.
Strip tank of water exceed 2"
in depth.
Pump discharge pressure
incorrectly set.
Set pressure according to
installer/serviceman labels for
Series I & II boiler.
Coupling worn or broken.
Replace coupling.
Pump worn - low pressure
motor overloads.
Replace pump.
Plugged orifice or distributor.
Replace nozzle with nozzle
specified on burner housing.
Oil Supply
Pump
Pressure
Nozzle
Install pressure gauge in gauge
port of fuel pump. Pressure
should be according to installer/
serviceman labels for Series I & II
boiler starting on page 29.
Check for faulty nozzle.
Plugged nozzle strainer.
Poor spray pattern.
Heat
Exchanger
Restrictions
Inspect heat exchanger.
Plugged heat exchanger.
When checking burner adjustments always use instruments.
23
Clean out heat exchanger.
TROUBLE: INSUFFICIENT HEAT
SOURCE
PROCEDURE
CAUSES
REMEDY
Circulator
Check if circulator is operational.
Coupling worn or broken.
Replace coupling.
Pump binding.
Replace pump.
Circulator motor burned out.
Replace circulator motor.
Wiring from operating control
defective.
Repair wiring.
Operating control defective.
Repair or replace operating
control.
Check if circulator is correct
size.
Circulator too small.
Replace with proper circulator.
Check if circulator is up to
speed; check if voltage to
circulator is sufficient.
Circulator defective.
Repair circulator.
Insufficient voltage.
Call utility company.
Check thermostat settings.
Settings too low.
Increase setting.
Check thermostat location.
Bad location due to heat build
up.
Move thermostat to a better
location.
Check thermostat calibration.
Out of calibration.
Recalibrate. Level thermostat.
Flow Valve
Check flow valve for sticking in
partially closed position.
Flow valve not opening fully.
Clean or replace flow valve.
Radiation
Check for air in radiators.
Radiators airbound.
Bleed radiators.
Check to see if radiators are
sized properly.
Radiators inadequate.
Install adequate radiation.
Boiler
Determine structure heat load.
Boiler too small.
Additional heating capacity.
Piping
Check to see if piping is sized
properly.
Piping inadequate.
Install adequate piping.
Heat
Exchanger
Check heat exchanger for soot or
scale accumulation.
Insufficient heat transfer.
Clean heat exchanger.
Burner
Check pump pressure with
pressure gauge.
Insufficient pump pressure.
Increase pressure according to
installer/serviceman labels for
Series I & II boilers.
Nozzle
Check nozzle for size and spray
angle.
Wrong nozzle installed.
Install specified nozzle.
Check for faulty nozzle.
Nozzle underfiring due to
defective nozzle.
Replace nozzle.
Thermostat
24
TROUBLE: HIGH NET STACK TEMPERATURES
SOURCE
PROCEDURE
CAUSES
REMEDY
Nozzle
Check pump pressure with pump
gauge.
Nozzle overfiring due to high
pump pressure.
Reduce pump pressure according
to installer/serviceman labels for
Series I & II boilers.
Heat
Exchanger
Check heat exchanger surfaces
for soot or scale fouling.
Heat exchanger fouled.
Clean heat exchanger.
Baffles
Check baffles installed.
Baffles not installed.
Install baffles.
TROUBLE: INSUFFICIENT DOMESTIC HOT WATER
SOURCE
PROCEDURE
CAUSES
REMEDY
Tankless
Coil
Analyze capacity vs. usage.
Insufficient coil capacity.
Install larger coil.
Operating
Control
Check operating control.
Setting too low.
Set operating control to 180°F.
Raise differential set point.
Heat
Exchanger
Inspect coils for fouled surfaces
and/or flow restrictions.
Flow restriction.
Remove restriction.
Fouled surfaces on heat exchanger.
Clean heat exchanger surfaces.
25
26
DESCRIPTION
WETBASE HEAT EXCHANGER
FLUE BOX
REAR REFRACTORY-MOLDED
REAR COVER
COIL PLATE
FRONT COVER
FRONT REFRACTORY BOARD
TURBULATOR
RIGHT SIDE JACKET
LEFT SIDE JACKET
FRONT UPPER JACKET
FRONT LOWER JACKET
TOP JACKET
REAR JACKET
COIL GASKET
3/8-16 CARRIAGE BOLT
3/8-16 CARRIAGE BOLT
3/8-16 BRASS HEX NUT
3/8 WASHER
3/8 SPACER
3/8 X 3/4 SPACER
3/8-16 XHVHEX NUT
CHAMBER LINER
Figure No. 10 - Exploded Parts View
ITEM
01
02
03
04
05
06
07
08
09
10
11
12
13
14
15
16
17
18
19
20
21
22
23
Parts List
For Models 90/100/110 & 125/135/150
Item No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
(Designate boiler and burner model numbers on all orders).
Description
Part No.
90/100/110 Heat Exchanger
241800
125/135/150 Heat Exchanger
819060
Flue Box
819024
Rear Refractory - Molded, Target Wall Only
819016
Rear Cover with Molded Refractory Assembly
819014
Coil Plate - Blank
229151
Coil - 5 GPM cartoned with Gasket
530677
Front Cover
819020
Front Refractory Board 3/4"
819022
Turbulator (10 for 90-110, 16 for 125-150)
819018
Right Side Jacket
819006
Left Side Jacket
819008
Front Upper Jacket
819004
Front Lower Jacket
819000
Top Jacket
819010
Rear Jacket
819012
Coil Gasket
481005
Chamber Liner
337410
27
Parts List
For Models 165/175/200 & 225/250/275
(Designate boiler and burner model numbers on all orders).
Item No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
Description
165/175/200 Heat Exchanger
225/250/275 Heat Exchanger
Flue Box
Rear Refractory - Molded, Target Wall Only
Rear Cover with Molded Refractory Assembly
Part No.
241800
241810
241366
337416
241360
Coil Plate - Blank
Coil - 5 GPM cartoned with Gasket
Front Cover
Front Refractory Board 1"
Turbulator (10 for 90-110, 16 for 125-150)
Right Side Jacket
Left Side Jacket
Front Upper Jacket
Front Lower Jacket
Top Jacket
Rear Jacket
Coil Gasket
3/8" - 16 x 4" Carriage Bolt (Qty. 4)
3/8" - 16 x 2" Carriage Bolt (Qty. 12)
229151
530245
241350
337415
241155
501225
501225
501225
501225
501225
501225
481005
311113
311110
28
Preliminary Settings
INSTALLER/SERVICEMAN
INSTALLER/SERVICEMAN
Model Number
Burner Type
Model Number
WB-90
WB-100
WB-110
________________________
Beckett
Beckett
Burner Type
Beckett
ZERO
Beckett
Beckett
AFII
AFII
AFII
________________________
Nozzle Type
.75 60B
.85 60B
.90 60B
________________________
Pump Pressure PSI ________________________
140
140
140
Head/Pin Position ________________________
3
3
3
Air Band
3
4
4.5
________________________
Air Shutter
N/A
N/A
N/A
________________________
Draft Over Fire
+.085"
+.085"
+.085"
________________________
Draft In Stack
-0.02"
-0.02"
-0.02"
________________________
CO2 Reading
10-11.5
10-11.5
10-11.5
________________________
AFG
AFG
AFG
________________________
Nozzle Type
.75 80°B
.85 80°B .90 80°B
________________________
Pump Pressure PSI ________________________
140
140
140
Head/Pin Position ________________________
F-3
F-3
F-3
Air Band
CLOSED
2
3
________________________
Air Shutter
10
10
10
________________________
Draft Over Fire
+.085"
+.085"
+.085"
________________________
Draft In Stack
-0.02"
-0.02"
-0.02"
________________________
CO2 Reading
10-11.5
10-11.5
10-11.5
________________________
ZERO
Beckett
Burner Model
Burner Model
Smoke Reading
WB-90
WB-100
WB-110
________________________
Smoke Reading
ZERO
ZERO
ZERO
ZERO
NOTICE
Above settings are approximate. Final adjustments to be made
with proper test equipment. Be sure all oil lines are air free and
the use of flare fittings is recommended. See installation/service manual for detailed information.
NOTICE
Above settings are approximate. Final adjustments to be made
with proper test equipment. Be sure all oil lines are air free and
the use of flare fittings is recommended. See installation/service manual for detailed information.
INSTALLER/SERVICEMAN
INSTALLER/SERVICEMAN
Model Number
Burner Type
WB-90
WB-100
WB-110
________________________
Carlin
Carlin
Model Number
Carlin
Burner Type
Burner Model
EZ-1
EZ-1
EZ-1
________________________
Nozzle Type
.75 60A
.85 60A
.90 60A
________________________
Pump Pressure PSI ________________________
140
140
140
Head/Pin Position ________________________
.85-1.00
.85-1.00 1.10-1.25
Air Band
100
100
125
________________________
Air Shutter
N/A
N/A
N/A
________________________
Draft Over Fire
+.085"
+.085"
+.085"
________________________
Draft In Stack
-0.02"
-0.02"
-0.02"
________________________
CO2 Reading
10-11.5
10-11.5
10-11.5
________________________
Burner Model
Smoke Reading
Smoke Reading
ZERO
ZERO
WB-90
WB-100
WB-110
________________________
Riello
Riello
Riello
F5
F5
F5
________________________
Nozzle Type
.75 60B
.85 60B
.90 60B
________________________
Pump Pressure PSI ________________________
150
150
150
Head/Pin Position ________________________
1.5
2.0
2.5
Air Band
N/A
N/A
N/A
________________________
Air Shutter
2.0
2.5
2.75
________________________
Draft Over Fire
+.04"
+.06"
+.08"
________________________
Draft In Stack
-0.02"
-0.02"
-0.02"
________________________
CO2 Reading
10-11.5
10-11.5
10-11.5
________________________
ZERO
NOTICE
Above settings are approximate. Final adjustments to be made
with proper test equipment. Be sure all oil lines are air free and
the use of flare fittings is recommended. See installation/service manual for detailed information.
ZERO
ZERO
ZERO
NOTICE
Above settings are approximate. Final adjustments to be made
with proper test equipment. Be sure all oil lines are air free and
the use of flare fittings is recommended. See installation/service manual for detailed information.
29
INSTALLER/SERVICEMAN
INSTALLER/SERVICEMAN
Model Number
Burner Type
Model Number
WB-90DV WB-100DV WB-110DV
________________________
Beckett
Beckett
Burner Type
Beckett
ZERO
Carlin*
Carlin*
EZ-1
EZ-1
EZ-1
________________________
Nozzle Type
.75 60A
.85 60A
.90 60A
________________________
Pump Pressure PSI ________________________
140
140
140
Head/Pin Position ________________________
.85-1.00
.85-1.00 1.10-1.25
Air Band
100
100
125
________________________
Air Shutter
N/A
N/A
N/A
________________________
Draft Over Fire
+.085"
+.085"
+.085"
________________________
Draft In Stack
-0.02"
-0.02"
-0.02"
________________________
CO2 Reading
10-11.5
10-11.5
10-11.5
________________________
AFII
AFII
AFII
________________________
Nozzle Type
.75 60B
.85 60B
.90 60B
________________________
Pump Pressure PSI ________________________
140
140
140
Head/Pin Position ________________________
3
3
3
Air Band
3
4
4.5
________________________
Air Shutter
N/A
N/A
N/A
________________________
Draft Over Fire
+.085"
+.085"
+.085"
________________________
Draft In Stack
-0.02"
-0.02"
-0.02"
________________________
CO2 Reading
10-11.5
10-11.5
10-11.5
________________________
ZERO
Carlin*
Burner Model
Burner Model
Smoke Reading
WB-90DV WB-100DV WB-110DV
________________________
Smoke Reading
ZERO
ZERO
ZERO
ZERO
NOTICE
Above settings are approximate. Final adjustments to be made
with proper test equipment. Be sure all oil lines are air free and
the use of flare fittings is recommended. See installation/service manual for detailed information.
*Requires Carlin Air Intake Adapter
NOTICE
Above settings are approximate. Final adjustments to be made
with proper test equipment. Be sure all oil lines are air free and
the use of flare fittings is recommended. See installation/service manual for detailed information.
INSTALLER/SERVICEMAN
INSTALLER/SERVICEMAN
Model Number
Burner Type
Model Number
WB-90DV WB-100DV WB-110DV
________________________
Riello
Riello
Burner Type
Riello
ZERO
Beckett
Beckett
AFG
AFG
AFG
________________________
Nozzle Type
1.00 80°B 1.10 80°B 1.25 80°B
________________________
Pump Pressure PSI ________________________
140
140
140
Head/Pin Position ________________________
F-6
F-6
F-6
Air Band
2
4.5
6
________________________
Air Shutter
10
10
10
________________________
Draft Over Fire
+.085"
+.085"
+.085"
________________________
Draft In Stack
-0.02"
-0.02"
-0.02"
________________________
CO2 Reading
10-11.5
10-11.5
10-11.5
________________________
BF5
BF5
BF5
________________________
Nozzle Type
.75 60B
.85 60B
.90 60B
________________________
Pump Pressure PSI ________________________
150
150
150
Head/Pin Position ________________________
1.5
2.0
2.5
Air Band
N/A
N/A
N/A
________________________
Air Shutter
3.5
4.0
4.5
________________________
Draft Over Fire
0 TO .10" 0 TO .10" 0 TO .10"
________________________
Draft In Stack
-0.02"
-0.02"
-0.02"
________________________
CO2 Reading
10-11.5
10-11.5
10-11.5
________________________
ZERO
Beckett
Burner Model
Burner Model
Smoke Reading
WB-125
WB-135
WB-150
________________________
Smoke Reading
ZERO
ZERO
ZERO
ZERO
NOTICE
Above settings are approximate. Final adjustments to be made
with proper test equipment. Be sure all oil lines are air free and
the use of flare fittings is recommended. See installation/service manual for detailed information.
NOTICE
Above settings are approximate. Final adjustments to be made
with proper test equipment. Be sure all oil lines are air free and
the use of flare fittings is recommended. See installation/service manual for detailed information.
30
INSTALLER/SERVICEMAN
Model Number
Burner Type
INSTALLER/SERVICEMAN
WB-125
WB-135
WB-150
________________________
Beckett
Beckett
Model Number
Beckett
Burner Type
Burner Model
AFII
AFII
AFII
________________________
Nozzle Type
1.00 60B 1.10 60B 1.25 60B
________________________
Pump Pressure PSI ________________________
140
140
140
Head/Pin Position ________________________
7
7
8
Air Band
3
4
8
________________________
Air Shutter
N/A
N/A
N/A
________________________
Draft Over Fire
+.085"
+.085"
+.085"
________________________
Draft In Stack
-0.02"
-0.02"
-0.02"
________________________
CO2 Reading
10-11.5
10-11.5
10-11.5
________________________
Burner Model
Smoke Reading
Smoke Reading
ZERO
ZERO
WB-125
WB-135
WB-150
________________________
Carlin
Carlin
Carlin
EZ-1
EZ-1
EZ-1
________________________
Nozzle Type
1.00 60A 1.10 60A 1.25 60A
________________________
Pump Pressure PSI ________________________
140
140
140
Head/Pin Position ________________________
1.1-1.25
1.35-1.5 1.35-1.5
Air Band
125
150
150
________________________
Air Shutter
N/A
N/A
N/A
________________________
Draft Over Fire
+.085"
+.085"
+.085"
________________________
Draft In Stack
-0.02"
-0.02"
-0.02"
________________________
CO2 Reading
10-11.5
10-11.5
10-11.5
________________________
ZERO
ZERO
ZERO
ZERO
NOTICE
Above settings are approximate. Final adjustments to be made
with proper test equipment. Be sure all oil lines are air free and
the use of flare fittings is recommended. See installation/service manual for detailed information.
NOTICE
Above settings are approximate. Final adjustments to be made
with proper test equipment. Be sure all oil lines are air free and
the use of flare fittings is recommended. See installation/service manual for detailed information.
INSTALLER/SERVICEMAN
INSTALLER/SERVICEMAN
Model Number
Burner Type
WB-125
WB-135
WB-150
________________________
Riello
Riello
Model Number
Riello
Burner Type
Burner Model
F5
F5
F5
________________________
Nozzle Type
1.00 60B 1.10 60B 1.25 60B
________________________
Pump Pressure PSI ________________________
150
150
150
Head/Pin Position ________________________
2.5
3.5
4.0
Air Band
N/A
N/A
N/A
________________________
Air Shutter
3.0
3.5
4.5
________________________
Draft Over Fire
+.03"
+.05"
+.07"
________________________
Draft In Stack
-0.02"
-0.02"
-0.02"
________________________
CO2 Reading
10-11.5
10-11.5
10-11.5
________________________
Burner Model
Smoke Reading
Smoke Reading
ZERO
ZERO
WB DV-125 WB DV-125 WB DV-125
________________________
Beckett
Carlin*
Riello
AFII
EZ-1
BF5
________________________
Nozzle Type
1.00 60°B 1.00 60°B 1.00 60°B
________________________
Pump Pressure PSI ________________________
140
140
140
Head/Pin Position ________________________
7.0
0.85-1.00
2.0
Air Band
100
100
125
________________________
Air Shutter
N/A
N/A
N/A
________________________
Draft Over Fire
+0.16"
+0.14"
+0.13"
________________________
Draft In Stack
+0.08"
+0.07"
+0.07"
________________________
CO2 Reading
10-11.5% 10-11.5% 10-11.5%
________________________
ZERO
ZERO
ZERO
ZERO
*Requires Carlin Air Intake Adapter
NOTICE
Above settings are approximate. Final adjustments to be made
with proper test equipment. Be sure all oil lines are air free and
the use of flare fittings is recommended. See installation/service manual for detailed information.
NOTICE
Above settings are approximate. Final adjustments to be made
with proper test equipment. Be sure all oil lines are air free and
the use of flare fittings is recommended. See installation/service manual for detailed information.
31
INSTALLER/SERVICEMAN
Model Number
Burner Type
INSTALLER/SERVICEMAN
WB-165
WB-175
WB-200
________________________
Beckett
Beckett
Model Number
Beckett
Burner Type
Burner Model
AFG
AFG
AFG
________________________
Nozzle Type
1.50 60B 1.65 60B 1.75 60B
________________________
Pump Pressure PSI ________________________
140
140
140
Head/Pin Position ________________________
M-2
M-3
M-3
Air Band
5
5
7
________________________
Air Shutter
OPEN
OPEN
OPEN
________________________
Draft Over Fire
+.06"
+.08"
+0.10"
________________________
Draft In Stack
-0.02"
-0.02"
-0.02"
________________________
CO2 Reading
10-11.5
10-11.5
10-11.5
________________________
Burner Model
Smoke Reading
Smoke Reading
ZERO
ZERO
WB-225
WB-250
WB-275
________________________
Beckett
Beckett
Beckett
CF-375
CF-375
CF-375
________________________
Nozzle Type
2.00 60B 2.25 60B 2.50 60B
________________________
Pump Pressure PSI ________________________
140
140
140
Head/Pin Position ________________________
3
3
4
Air Band
3
6
6
________________________
Air Shutter
OPEN
OPEN
OPEN
________________________
Draft Over Fire
+.06"
+.09"
+0.11"
________________________
Draft In Stack
-0.02"
-0.02"
-0.02"
________________________
CO2 Reading
10-11.5
10-11.5
10-11.5
________________________
ZERO
NOTE: Pressure over fire will vary according to CO2 setting.
NOTICE
Above settings are approximate. Final adjustments to be made
with proper test equipment. Be sure all oil lines are air free and
the use of flare fittings is recommended. See installation/service manual for detailed information.
ZERO
ZERO
ZERO
NOTE: Pressure over fire will vary according to CO2 setting.
NOTICE
Above settings are approximate. Final adjustments to be made
with proper test equipment. Be sure all oil lines are air free and
the use of flare fittings is recommended. See installation/service manual for detailed information.
32
BURNER SERVICE SET-UP RECORDS
Initial Set Up
1
2
3
4
5
1. Date
2. Model Number
3. Firing Rate
4. Pump Pressure*
5. CO2
6. “0” Smoke
7. Gross Stack °F
8. Draft Over Fire
9. Replaced Filter Yes/No
10. Replaced Nozzle Yes/No
11. Clean Pump Filter Yes/No
12. Inspect Coil Gasket
13. Check for Leaks @ plugs/fittings
14. Brush Clean Flue Tube Passages
15. Vacuum Chamber/Flue Tubes
16. Clean Blower Wheel
17. Check/Set Electrodes
*See pump pressure according to the installer/serviceman labels for Series I and II boilers starting on page 30.
33
CC-4127
11/07 - 250