PB Heat DE User Manual

Series DE  
Gas Boilers  
Installation,  
Operation &  
Maintenance  
Manual  
USING THIS MANUAL  
USING THIS MANUAL  
A. INSTALLATION SEQUENCE  
DANGER  
Indicates a condition or hazard which will cause  
severe personal injury, death or major property  
damage.  
Follow the installation instructions provided in this  
manual in the order shown. The order of these  
instructions has been set in order to provide the installer  
with a logical sequence of steps that will minimize  
potential interferences and maximize safety during  
boiler installation.  
WARNING  
B. SPECIAL ATTENTION BOXES  
Indicates a condition or hazard which may cause  
severe personal injury, death or major property  
damage.  
Throughout this manual you will see special attention  
boxes intended to supplement the instructions and make  
special notice of potential hazards. These categories  
mean, in the judgment of PB Heat, LLC:  
CAUTION  
Indicates a condition or hazard which will or can  
cause minor personal injury or property damage.  
NOTICE  
Indicates special attention is needed, but not directly  
related to potential personal injury or property  
damage.  
1
PREINSTALLATION  
1. PREINSTALLATION  
Read carefully, study these instructions before beginning work.  
This boiler must be installed by a qualified contractor.  
The boiler warranty can be voided if the boiler is not installed, maintained and serviced correctly.  
NOTICE  
The equipment must be installed in accordance with those installation requirements of the authority having  
jurisdiction or, in the absence of such requirements, to the current edition of the National Fuel Gas Code, ANSI  
Z223.1/NFPA 54 and/or CAN/CSA B149.1, Natural Gas and Propane Installation Code.  
Where required by the authority having jurisdiction, the installation must conform to American Society of  
Mechanical Engineers Safety Code for Controls and Safety Devices for Automatically Fired Boilers,  
ANSI/ASME CSD-1.  
A. ACCESSIBILITY CLEARANCES  
C. AIR FOR COMBUSTION AND  
VENTILATION  
Install boiler not less than 24(610 mm) between the left  
side, top, and front of the boiler and adjacent wall or  
other appliance, when access is required for servicing.  
1. Adequate combustion air and ventilation air must be  
provided in accordance with section 5.3, Air for  
Combustion and Ventilation, of the National Fuel  
Gas Code, ANSI Z223.1/NFPA 54, or Sections 7.2,  
7.3 or 7.4 of CAN/CSA B149.1, Natural Gas and  
Propane Installation Code or applicable provisions of  
the local building code. Subsections 2 through 8 as  
follows are based on the National Fuel Gas Code  
requirements.  
B. CLEARANCE FROM COMBUSTIBLE  
CONSTRUCTION  
The design of this boiler is certified for closet installation  
with the following clearances:  
1. 6(152 mm) between sides, rear and front and  
combustible construction.  
2. Required Combustion Air Volume: The total required  
volume of indoor air is to be the sum of the required  
volumes for all appliances located within the space.  
Rooms communicating directly with the space in  
which the appliances are installed and through  
combustion air openings sized as indicated in  
Subsection 3 are considered part of the required  
volume. The required volume of indoor air is to be  
determined by one of two methods.  
2. 24(610 mm)between top of jacket and  
combustible construction.  
3. 2(51 mm) between vent pipe and combustible  
construction.  
DANGER  
Do not install this boiler on combustible flooring  
unless it is installed on a special combustible floor  
pan provided by PB Heat, LLC. Boiler installation on  
combustible flooring without the special pan is a fire  
hazard.  
a. Standard Method: The minimum required  
volume of indoor air (room volume) shall be 50  
cubic feet per 1000 BTU/Hr (4.8 m3/kW). This  
method is to be used if the air infiltration rate is  
unknown or if the rate of air infiltration is known  
to be greater than 0.6 air changes per hour. As  
an option, this method may be used if the air  
infiltration rate is known to be between 0.6 and  
0.4 air changes per hour. If the air infiltration rate  
is known to be below 0.4 then the Known Air  
Infiltration Rate Method must be used. If the  
building in which this appliance is to be installed  
is unusually tight, we recommend that the air  
infiltration rate be determined.  
To order combustible floor pan, use the 5-digit stock  
codes listed in Section 11 of this manual.  
DANGER  
Do not install this boiler on carpeting. Boiler  
installation on carpeting is a fire hazard. Install this  
boiler on non-combustible flooring or use a  
combustible floor pan to install this boiler on other  
non-carpeted flooring.  
b. Known Air Infiltration Rate Method: Where  
the air infiltration rate of a structure is known, the  
minimum required volume of indoor air for the  
Series DE Boiler and other fan assisted  
appliances shall be determined as follows:  
15 ft3  
ACH  
I fan  
1000Btu  
Required Volumefan  
=
/
hr  
2
PREINSTALLATION  
where:  
Ifan = Input of the fan assisted appliances in  
Btu/hr  
ACH = air change per hour (percent of the  
volume of the space exchanged per  
hour, expressed as a decimal)  
For appliances other than fan assisted, calculate  
the required volume of air using the following  
equation:  
21 ft3  
ACH  
I other  
1000Btu  
Required Volumeother  
=
/
hr  
Iother = Input of appliances other than fan  
assisted in Btu/hr  
Note: These calculations are not to be used for  
infiltration rates greater than 0.60 ACH.  
Figure 1.2: Air Openings – All Air from Indoors  
on Different Floors  
3. Indoor Air Opening Size and Location: Openings  
connecting indoor spaces shall be sized and located  
as follows:  
4. Outdoor Combustion Air: Outdoor combustion air is  
to be provided through one or two permanent  
openings. The minimum dimension of these air  
openings is 3 inches (76 mm).  
a. Combining spaces on the same floor:  
Provide two permanent openings communicating  
with additional spaces that have a minimum free  
area of 1 in2 per 1000 Btu/hr (22 cm2 per 1000 W)  
of the total input rating of all gas fired equipment  
but not less than 100 in2 (645 cm2). One  
a. Two Permanent Opening Method: Provide  
two permanent openings. One opening is to  
begin within 12 inches (305 mm) of the top of  
the space and the other is to begin within 12  
inches (305 mm) of the floor. The openings are  
to communicate directly or by ducts with the  
outdoors or with spaces that freely communicate  
with the outdoors. The size of the openings shall  
be determined as follows:  
opening is to begin within 12 inches (305 mm)  
from the top of the space and the other is to  
begin within 12 inches (305 mm) from the floor.  
The minimum dimension of either of these  
openings shall be 3 inches (76 mm). See Figure  
1.1 for an illustration of this arrangement.  
i. Where communicating directly or through  
vertical ducts with the outdoors each opening  
shall have a minimum free area of 1 in2 per  
4000 Btu/hr (22 cm2 per 4000 W) of total  
input rating for all equipment in the space.  
See Figure 1.3 for openings directly  
communicating with the outdoors or Figure  
1.4 for openings connected by ducts to the  
outdoors.  
Figure 1.1: Air Openings – All Air from Indoors  
on the Same Floor  
b. Combining spaces on different floors:  
Provide one or more permanent openings  
communicating with additional spaces that have  
a total minimum free area of 2 in2 per 1000  
Btu/hr (44 cm2 per 1000 W) of total input rating  
of all equipment. See Figure 1.2 for an  
illustration of this arrangement.  
Figure 1.3: Air Openings – All Air Directly from  
Outdoors  
3
PREINSTALLATION  
Figure 1.4: Air Openings – All Air from Outdoors  
through Vertical Ducts  
Figure 1.6: Air Openings – All Air from Outdoors  
through One Opening  
ii. Where communicating with the outdoors  
through horizontal ducts, each opening shall  
have a minimum free area of 1 in2 per 2000  
Btu/hr (22 cm2 per 2000 W) of total rated  
input for all appliances in the space. See  
Figure 1.5.  
5. Combination Indoor and Outdoor Combustion Air:  
If the required volume of indoor air exceeds the  
available indoor air volume, outdoor air openings or  
ducts may be used to supplement the available  
indoor air provided:  
a. The size and location of the indoor openings  
comply with Subsection 3.  
b. The outdoor openings are to be located in  
accordance with Subsection 4.  
c. The size of the outdoor openings are to be sized  
as follows:  
Vavail  
Vreq  
Areq = Afull  
x
1 –  
where:  
Areq = minimum area of outdoor openings.  
Afull = full size of outdoor openings calculated  
in accordance with Subsection 4.  
Vavail = available indoor air volume  
Vreq = required indoor air volume  
6. Engineered Installations: Engineered combustion air  
installations shall provide an adequate supply of  
combustion, ventilation, and dilution air and shall be  
approved by the authority having jurisdiction.  
Figure 1.5: Air Openings – All Air from Outdoors  
through Horizontal Ducts  
b. One Permanent Opening Method: Provide  
one permanent opening beginning within 12  
inches (305 mm) of the top of the space. The  
opening shall communicate directly with the  
outdoors, communicate through a vertical or  
horizontal duct, or communicate with a space  
that freely communicates with the outdoors. The  
openings shall have a minimum free area of 1 in2  
per 3000 Btu/hr of total rated input for all  
appliances in the space and not less than the  
sum of the cross-sectional areas of all vent  
connectors in the space. The gas fired equipment  
shall have clearances of at least 1 inch (25 mm)  
from the sides and back and 6 inches (150 mm)  
from the front of the appliance. See Figure 1.6  
for this arrangement.  
7. Mechanical Combustion Air Supply:  
a. In installations where all combustion air is  
provided by a mechanical air supply system, the  
combustion air shall be supplied from the  
outdoors at the minimum rate of 0.35 ft3/min per  
1000 Btu/hr (0.034 m3/min per 1000 W) of the  
total rated input of all appliances in the space.  
b. In installations where exhaust fans are installed,  
additional air shall be provided to replace the  
exhaust air.  
4
PREINSTALLATION  
c. Each of the appliances served shall be  
interlocked to the mechanical air supply to  
prevent main burner operation where the  
mechanical air supply system is not in operation.  
f. Horizontal upper combustion air ducts shall not  
slope downward toward the source of the  
combustion air.  
g. The remaining space surrounding a chimney  
liner, gas vent, special gas vent, or plastic piping  
installed within a masonry, metal, or factory built  
chimney shall not be used to supply combustion  
air.  
d. In buildings where the combustion air is provided  
by the mechanical ventilation system, the system  
shall provide the specified combustion air rate in  
addition to the required ventilation air.  
h. Combustion air intake openings located on the  
exterior of buildings shall have the lowest side of  
the combustion air intake opening at least 12  
inches (305 mm) above grade.  
8. Louvers & Grills:  
a. The required size of openings for combustion,  
ventilation, and dilution air shall be based on the  
net free area of each opening.  
WARNING  
i. Where the free area through a louver or grille  
is known, it shall be used in calculating the  
opening size required to provide the free area  
specified.  
Liquefied Petroleum (LP) is heavier than air and may  
collect or “pool” in a low area in the event of a leak  
from defective equipment. This gas may then ignite,  
resulting in a fire or explosion.  
ii. Where the free area through a louver or grille  
is not known, it shall be assumed that wooden  
louvers will have 25% free area and metal  
louvers and grilles will have 75% free area.  
D. INSTALLATION SURVEY  
For new and existing installations, a Water Installation  
Survey is available from PB Heat, LLC. The survey will  
provide information on how a hot water boiler works  
with your specific system and will provide an overview  
of hot water system operation in general.  
iii. Nonmotorized dampers shall be fixed in the  
open position.  
b. Motorized dampers shall be interlocked with the  
equipment so that they are proven in the full  
open position prior to ignition and during  
operation of the main burner.  
You can also use this survey to locate system problems  
which will have to be corrected. To obtain copies of the  
Water Installation Survey, contact your Peerless  
representative or download it from PeerlessBoilers.com.  
i. The interlock shall prevent the main burner  
from igniting if the damper fails to open  
during burner startup.  
E. PLANNING THE LAYOUT  
Prepare sketches and notes of the layout to minimize the  
possibility of interferences with new or existing  
equipment, piping, venting and wiring.  
ii. The interlock shall shut down the burner if  
the damper closes during burner operation.  
9. Combustion Air Ducts  
a. Ducts shall be constructed of galvanized steel or  
an equivalent corrosion- resistant material.  
b. Ducts shall terminate in an unobstructed space,  
allowing free movement of combustion air to the  
appliances.  
c. Ducts shall serve a single space.  
d. Ducts shall not serve both upper and lower  
combustion air openings where both such  
openings are used. The separation between ducts  
serving upper and lower combustion air  
openings shall be maintained to the source of  
combustion air.  
e. Ducts shall not be screened where terminating in  
an attic space.  
5
BOILER SET-UP  
2. BOILER SET-UP  
1. Provide a sound, level foundation. Locate boiler as  
near to the chimney or outside wall as possible and  
centralized with respect to the heating system.  
4. Separate the wood shipping pallet from the boiler  
base by removing two (2) hold-down bolts at each  
end of the boiler base.  
2. Locate boiler in front of installation position before  
removing crate.  
5. Move boiler into final position. If using combustible  
floor pan, install boiler on pan as outlined in the  
instructions included with the pan.  
3. If using combustible floor pan, position pan on  
foundation or flooring.  
6
WATER PIPING AND CONTROLS  
3. WATER PIPING AND CONTROLS  
3. Supply Piping:  
A. BOILER SUPPLY AND RETURN  
Pipe the supply to the 1-1/2 NPT supply tapping at  
the top of the boiler.  
1. Size the supply and return to suit the system. A  
typical piping arrangement is shown in Figure 3.1.  
Refer also to the I=B=R Guide to Residential  
Hydronic Heating Installation/Design and the PB  
Heat, LLC Water Survey for additional guidance  
during water piping installation.  
4. When system return water temperature will be below  
130°F (54°C), pipe the boiler with a bypass  
arrangement to blend the system return and hot  
supply to obtain at least 130°F (54°C) entering the  
boiler. For more information on bypass piping,  
consult the PB Heat, LLC Water Survey.  
2. Return Piping:  
a. Pipe the outlet connection of the circulator to a  
tee, provided with a drain valve, at the 1-1/4  
NPT return tapping near the bottom of the left  
section. Pipe the return to the inlet connection of  
the circulator.  
5. If desired, install the circulator in the alternate  
location shown in Figure 3.1. Consult the PB Heat,  
LLC Water Survey for more information on  
circulator location.  
Figure 3.1: Supply and Return Piping  
7
WATER PIPING AND CONTROLS  
6. Install this boiler so that the gas ignition system  
components are protected from water (dripping,  
spraying, etc.) during appliance operation and  
service (circulator replacement, condensate trap,  
control replacements, etc.).  
7. If this boiler and distribution system is used in  
conjunction with a refrigeration system, pipe the  
chilled medium in parallel with the boiler and install  
the proper valve to prevent the chilled medium from  
entering the boiler. A drawing illustrating this hook-  
up is provided in Figure 3.2.  
8. When the boiler is connected to heating coils located  
in air handling units where they may be exposed to  
refrigerated air circulation, install flow control valves  
or other automatic means to prevent gravity  
circulation of the boiler water during the cooling  
cycle.  
9. If this boiler is installed above radiation level,  
provide a low water cutoff device, either as a part of  
the boiler or at the time of boiler installation.  
Figure 3.3: Safety Relief Valve Hook-Up  
Installation with Air Elimination in  
System Piping  
B. SAFETY RELIEF VALVE  
1. Locate safety relief valve and fittings in bag  
assembly.  
2. If air elimination is not required at the safety relief  
valve tapping, install valve and piping as shown in  
Figure 3.3.  
3. For air elimination at the safety relief valve tapping,  
install valve and piping as shown in Figure 3.4.  
CAUTION  
Pipe the discharge of safety relief valve to prevent  
injury in the event of pressure relief. Pipe the  
discharge to a drain. Provide piping that is the same  
size as the safety relief valve outlet.  
Figure 3.4: Safety Relief Valve Hook-Up with  
Air Elimination  
Figure 3.2: Parallel Hook-up with Water Chiller  
8
WATER PIPING AND CONTROLS  
C. PIPING FOR ZONED SYSTEMS  
1. See Figures 3.5 and 3.6 for basic zoned system  
layouts.  
2. Run each zone pipe down then up to zone to  
prevent air accumulation in piping.  
3. If required, provide means to isolate and drain each  
zone separately.  
Figure 3.5: Zone Piping with Zone Valves  
Figure 3.6: Zone Piping with Circulators  
9
WATER PIPING AND CONTROLS  
D. EXPANSION TANK  
F. FREEZE PROTECTION  
For new or existing systems that must be freeze-  
protected:  
1. Consult the tank manufacturer’s instructions for  
specific information relating to tank installation. Size  
the expansion tank for the required system volume  
and capacity. See Table 10.2 in Section 10 for boiler  
water capacity.  
WARNING  
Use only inhibited propylene glycol solutions of up to  
50% by volume with water. Ethylene glycol is toxic  
and can attack gaskets and seals used in hydronic  
systems.  
2. Expansion tanks are available with built-in fill valves  
and check valves for reducing supply water pressure  
and maintaining minimum system pressure. Check  
the design features of the tank and provide valves as  
necessary.  
1. Glycol in hydronic applications is specially  
formulated for this purpose. It includes inhibitors  
which prevent the glycol from attacking metallic  
system components. Make certain that the system  
fluid is checked for the correct glycol concentration  
and inhibitor level.  
Refer back to Figure 3.1 for typical expansion tank piping.  
E. INDIRECT-FIRED WATER HEATER  
If the boiler is to be used in conjunction with an indirect-  
fired water heater, refer to Figure 3.7 for typical piping.  
Follow the instructions provided by the water heater  
manufacturer. Pipe the water heater as a separate zone.  
2. The antifreeze solution should be tested at least once  
a year and as recommended by the antifreeze  
manufacturer.  
3. Antifreeze solutions expand more than water. For  
example, a 50% by volume solution expands 4.8%  
in volume for a temperature increase from 32°F  
(0°C) to 180°F (82°C), while water expands 3% with  
the same temperature rise. Allowance must be made  
for this expansion in system design.  
4. For more information, consult the PB Heat LLC  
Water Installation Survey and the antifreeze  
manufacturer.  
Figure 3.7: Typical Piping with Indirect-Fired Water Heater  
10  
VENTING  
4. VENTING  
2. Horizontal portions of the venting system shall slope  
upward at least 1/4” per lineal foot (21 mm per  
meter) between boiler and chimney. The vent pipe  
shall be supported to prevent sagging; using metal  
strapping or equivalent means at no more than 4 ft.  
(1.2 meter) intervals.  
A. GENERAL  
1. Install vent system in accordance with the "Venting  
of Equipment" Chapter of the National Fuel Gas  
Code, ANSI Z223.1/NFPA 54, the "Venting Systems  
and Air Supply for Appliances" Section of the  
CAN/CSA B149.1, Natural Gas and Propane  
Installation Code. or applicable provisions of the  
local building codes.  
3. Locate fan adapter, silicone, hardware and fan  
adapter gasket in boiler miscellaneous parts box  
and attach to blower outlet flange. Refer to Fig. 4.1  
for details.  
2. Do not connect vent connectors serving appliances  
vented by natural draft into any portion of  
mechanical draft systems operating under positive  
pressure.  
4. Apply 1/4” (6 mm) bead of silicone around fan  
adapter and slip increaser over the fan adapter. Refer  
to Table 4.1 for increaser and chimney sizes.  
Increaser to be provided by installer.  
3. Refer to the following venting options to determine  
which method is applicable.ON –  
5. Single wall vent pipe should be furnished between  
increaser and chimney. If the vent connector shall be  
located in or pass through a cold area, the vent  
connector shall be type B material.  
WARNING  
All joints of positive pressure vent systems must be  
sealed completely to prevent leakage of flue products  
into the living space.  
C. DIRECT EXHAUST; HORIZONTAL  
VENTING  
B. CHIMNEY VENTING  
NOTICE  
If venting into a masonry chimney; chimney must be  
lined with a fire clay tile liner or corrosion resistant metal  
liner. Type B vent may also be used as a lining system or  
as a stand alone chimney vent.  
Flue gases will condense as they exit the vent  
termination. This condensate can freeze on exterior  
building surfaces which may cause discoloration of  
these surfaces.  
1. The vent system, when installed per the following  
instructions, will operate with a negative pressure (draft).  
1. This vent system will operate with a positive pressure  
in the vent pipe. Follow vent pipe manufacturers  
instructions for proper assembly of vent pipe and  
fittings.  
Table 4.1:  
Increaser & Chimney Size  
Boiler  
Model  
Vent Size  
Increaser Size  
Chimney  
Height  
Diameter  
DE-03 3" to 4" (7.6 to 10.2 cm) 4" (10.2 cm)  
15' (4.5 m)  
15' (4.5 m)  
15' (4.5 m)  
15' (4.5 m)  
DE-04  
DE-05  
DE-06  
3" to 5" (7.6 to 12.7 cm)  
3" to 5" (7.6 to 12.7 cm)  
3" to 5" (7.6 to 12.7 cm)  
5" (12.7 cm)  
5" (12.7 cm)  
5" (12.7 cm)  
Figure 4.1: Chimney Venting  
11  
VENTING  
2. Refer to Table 4.2 for minimum and maximum vent  
c. Type vent material approved is AL29-4C, 3 inch  
(76 mm) diameter stainless steel; manufactured  
length allowed.  
®
®
by Heat-Fab (Saf-T-Vent); Z-Flex (Z-Vent);  
3. Maintain a minimum 2” (51 mm) clearance between  
vent pipe and combustible construction.  
ProTech (FasNSeal ); Flex-L (StaR-34); Metal-  
Fab (Corr/Guard).  
4. When installing vent pipe through a combustible  
wall, pipe must pass through a metal wall thimble;  
maintain a 2” (51 mm) clearance between vent pipe  
and thimble. Follow thimble manufacturer’s  
instructions. Seal between thimble and exterior wall  
using exterior-rated caulk or silicone to prevent water  
damage and also to prevent recirculation of flue  
products into the structure.  
d. Attach the fan adapter to blower outlet flange  
using gasket and 1/4” (6 mm) -20 nuts and  
washers, (parts located in miscellaneous parts  
box).  
e. Refer to Figure 4.3 that lists special vent adapters  
for connection to boiler fan adapter. These  
special adapters are not supplied with boiler.  
f. Attach vent pipe adapter to boiler fan adapter by  
applying a 1/4” (6 mm) bead of high  
5. Determine vent terminal location.  
a. Vent terminal shall be located at least 3 feet (1  
meter) above any forced air inlet located within  
10 feet (3 meters).  
temperature silicone around diameter of fan  
adapter and slip vent pipe adapter over the fan  
adapter. Fill in any voids with silicone and  
smooth out with moistened finger or flat tool.  
b. Vent terminal shall be located at least 4 feet (1.2  
meters) below, 4 feet (1.2 meters) horizontally  
from, or 1 foot (0.3 meters) above any door,  
window, or gravity air inlet into any building.  
®
g. If using Z-Flex pipe, slide vent pipe over the first  
2-1/2” (64 mm) of the fan adapter and secure  
®
joint connection with the Z-Flex looking bands  
making sure that locking band has contact with  
fan adapter at boiler end and vent pipe.  
c. Vent terminal shall be located at least 1 foot (0.3  
meters) above ground level or normal snow lines.  
See subsection 7 below if terminal needs to be  
extended above ground level or snow line.  
h. Attach remaining pipe and fittings per  
manufacturer’s vent instructions. Use only the  
silicone recommended by the vent pipe  
manufacturer.  
d. Vent terminal shall not be located over public  
walkways where condensate could create a  
nuisance or hazard.  
i. The only approved vent termination is a 3”(76  
mm) 90° elbow. Refer to Figure 4.4. Vent pipe  
must be sealed to the thimble (or outside wall if-  
non-combustible construction) using silicone to  
prevent recirculation of flue products into the  
structure.  
e. When adjacent to a public walkway, vent  
terminal shall be at least 7 feet (2.1 meters)  
above grade.  
f. Vent terminal shall be located at least 4 feet (1.2  
meters) horizontally from electric meters, gas  
meters, regulators and relief equipment. In  
Table 4.2.: Equivalent Vent Length  
Canada, this dimension must be 6 feet (2 meters).  
*Equivalent Length of 3” diameter  
Stainless Steel Vent Pipe  
g. Vent terminal should not be located directly  
under roof overhangs to prevent icicles from  
forming.  
Boiler Model Minimum Vent Length Maximum Vent Length  
DE-03  
DE-04  
DE-05  
DE-06  
50 feet (15 m)  
50 feet (15 m)  
45 feet (13.7 m)  
45 feet (13.7 m)  
2-1/2 feet (762 m)  
2-1/2 feet (762 m)  
2-1/2 feet (762 m)  
2-1/2 feet (762 m)  
6. Vent Pipe Assembly:  
a. Horizontal portions of the vent pipe shall slope  
down not less than 1/4” per foot (21 mm per  
meter) from the boiler to the vent termination  
elbow. If this horizontal run is pitched toward  
boiler, provide a horizontal drain tee as per  
instructions in section D. Direct Exhaust;  
Vertical Venting.  
*Maximum Vent Length to be reduced by 5 feet (1.5  
meters) for each 90° elbow added that is  
manufactured by Z-Flex , Heat-Fab and Protech.  
®
®
*Maximum Vent Length to be reduced by 7-1/2 feet  
(2.3 meters) for each 90° elbow added that is  
manufactured by Flex-L.  
b. Secure vent pipe using metal strapping, clamps  
and/or other means. Do not screw into the vent  
pipe.  
The outside vent terminal (90° Elbow) is not  
included in Equivalent Vent Length.  
Horizontal portions of the vent pipe must be  
supported at intervals no greater than four  
feet to prevent sagging/separation.  
7. Refer to Figure 4.2 for vertical offset option. The  
maximum offset is 5 feet. With the exception of the  
last 90° elbow which serves as the vent terminal, the  
additional elbows and straight vent pipe must be  
considered when determining maximum vent length.  
Provide a horizontal drain tee as described in  
Secure vent pipe to the thimble/wall to  
prevent possible movement from incidental  
contact on the vent terminal.  
Section D. Direct Exhaust; Vertical Venting.  
12  
VENTING  
Figure 4.2: Direct Exhaust, Sidewall Venting with Vertical Off-Set  
Figure 4.3: Vent Pipe Adapters  
13  
VENTING  
Figure 4.4: Direct Exhaust; Sidewall Venting  
D. DIRECT EXHAUST; VERTICAL VENTING  
5. Horizontal portions of the vent pipe shall slope up  
not less than 1/4” per foot (21 mm per meter) from  
the boiler to the vertical vent.  
1. This vent system will operate with a positive pressure  
in the vent pipe. Follow vent pipe manufacturer’s  
instructions for proper assembly of vent pipe and  
fittings.  
6. Provide a horizontal drain tee in the horizontal vent  
run. Use silicone drain hose with a 3” (76 mm)  
diameter loop trap with a water seal. Pipe to drain  
per local codes.  
2. Refer to Table 4.2 for minimum and maximum vent  
length allowed.  
7. Refer to vent pipe manufacturer’s instructions under  
vertical venting section for recommendation for  
penetration through floors and roofs.  
3. Maintain a minimum 2” (51 mm) clearance between  
vent pipe and combustible construction.  
8. Vent must terminate 12” (305 mm) above expected  
snow lines.  
4. Follow instructions under section C. DIRECT  
EXHAUST; HORIZONTAL VENTING items 6b  
through 6h.  
9. See Figure 4.5 for details.  
14  
VENTING  
Figure 4.5: Direct Exhaust Vertical Venting  
d. Place in operation the appliance being inspected.  
E. BOILER REMOVAL FROM COMMON  
VENTING SYSTEM  
Follow the lighting instructions. Adjust thermostat so  
appliance will operate continuously.  
At the time of removal of an existing boiler, follow these  
steps with each appliance remaining connected to the  
common venting system placed in operation, while the  
other appliances remaining connected to the common  
venting system are not in operation:  
e. Test for spillage at the draft hood relief opening after  
5 minutes of main burner operation. Use the flame  
of a match or candle, or smoke from a cigarette,  
cigar, or pipe.  
f. After it has been determined that each appliance  
remaining connected to the common venting system  
properly vents when tested as outlined above, return  
doors, windows, exhaust fans, fireplace dampers and  
any other gas-burning appliance to their previous  
conditions of use.  
a. Seal any unused openings in the common venting  
system.  
b. Visually inspect the venting system for proper size  
and horizontal pitch and determine there is no  
blockage or restriction, leakage, corrosion and other  
deficiencies which could cause an unsafe condition.  
g. Any improper operation of the common venting  
system should be corrected so that the installation  
conforms with the National Fuel Gas Code, ANSI  
Z223.1/NFPA 54 and/or CAN/CSA B149.1, Natural  
Gas and Propane Installation Code. When resizing  
any portion of the common venting system, the  
common venting system should be resized to  
approach the minimum size as determined using the  
appropriate tables in the National Fuel Gas Code,  
ANSI Z223.1/NFPA 54 and/or CAN/CSA B149.1,  
Natural Gas and Propane Installation Code.  
c. Insofar as is practical, close all building doors and  
windows and all doors between the space in which  
the appliances remaining connected to the common  
venting system are located and other spaces of the  
building. Turn on any clothes dryers and any  
appliance not connected to common venting system.  
Turn on any exhaust fans, such as range hoods and  
bathroom exhausts, so they will operate at maximum  
speed. Do not operate a summer exhaust fan. Close  
fireplace dampers.  
15  
GAS PIPING  
5. GAS PIPING  
1. Size and install the gas supply piping properly in  
order to provide a supply of gas sufficient to meet  
the maximum demand without undue loss of  
pressure between the meter and the boiler.  
2. Determine the volume of gas to be provided to the  
boiler in cubic feet per hour. To obtain this value,  
divide the Btu per hour rating (on the boiler rating  
plate) by the heating value of the gas in Btu per  
cubic feet. Obtain the heating value of the gas from  
the gas supplier. As an alternative, use Table 5.1 or  
5.2 on the next page to obtain the volume of gas to  
be provided to the boiler.  
3. Use the value obtained above as the basis for piping  
sizing. Size the gas piping in accordance with Table  
5.3. Consult the National Fuel Gas Code ANSI  
Z223.1/NFPA 54 and or CAN/CSA B149.1, Natural  
Gas and Propane Installation Code for proper sizing  
options.  
Figure 5.1: Gas Connection to Boiler  
8. Disconnect the boiler and its individual shut-off valve  
from the gas supply piping system during any  
pressure testing of that system at test pressure in  
excess of 1/2 psig (3.5 kPa).  
4. Locate the drop pipe adjacent to, but not in front of  
the boiler.  
5. Install a sediment trap. See Figure 5.1. Locate a tee  
in the drop pipe at same elevation as the gas inlet  
connection to the boiler. Extend the drop pipe to a  
pipe cap.  
CAUTION  
Do not subject the gas valve to more than 1/2 psi  
(3.5 kPa) pressure. Doing so may damage the valve.  
6. Install a ground joint union ahead of the gas control  
assembly to permit servicing of the control. Some  
local codes require an additional service valve when  
using the combination gas controls. If your code  
requires such a valve, a suggested location is shown  
in Figure 5.1.  
Isolate the boiler from the gas supply piping system  
by closing its individual service valve during any  
pressure testing of the gas supply piping system at  
test pressure equal to or less than 1/2 psig (3.5 kPa).  
9. Minimum permissible supply pressure for purposes of  
input adjustment:  
WARNING  
Natural Gas  
LP Gas  
5.0W.C. (1.2 kPa)  
Use a pipe joint sealing compound that is resistant to  
the action of liquefied petroleum gas. A non-resistant  
compound may lose sealing ability in the presence of  
this gas, resulting in a gas leak and fire or explosion  
potential.  
11.0W.C. (2.7 kPa)  
Maximum permissible supply pressure to the boiler  
(Inches Water Column):  
Natural Gas  
LP Gas  
13.5W.C. (3.4 kPa)  
13.5W.C. (3.4 kPa)  
7. Check piping for leaks.  
Use an approved gas detector, a non-corrosive leak  
detection fluid or other leak detection method. If  
leaks are found, turn off all gas flow and repair as  
necessary.  
WARNING  
When checking for leaks, do not use matches,  
candles, open flames or other methods that provide a  
source of ignition. This can ignite a gas leak,  
resulting in fire or explosion.  
16  
GAS PIPING  
Table 5.1:  
Natural Gas  
Input  
(Cubic Ft/Hr)  
Input  
(Cubic Meter/Hr)  
Model  
DE-03  
DE-04  
DE-05  
DE-06  
70  
2.0  
3.0  
4.0  
4.7  
105  
140  
165  
Based on 1000 Btu/Cubic Ft.  
Table 5.2:  
LP Gas  
Input  
(Cubic Ft/Hr)  
Input  
(Cubic Meter/Hr)  
Model  
DE-03  
DE-04  
DE-05  
DE-06  
28  
42  
56  
66  
0.8  
1.2  
1.6  
1.9  
Based on 2500 Btu/Cubic Ft.  
Table 5.3:  
Pipe Capacity  
Capacity of pipe of different diameters and lengths in cubic feet per hour  
[cubic meter per hour] with a pressure drop of 0.3 inches of water [75 kPa]  
and a specific gravity of 0.60. No allowance for an ordinary number of  
fittings is required.  
Pipe  
Length in  
Feet  
³⁄₄″  
Pipe  
1″  
Pipe  
1¹⁄₄″  
Pipe  
1¹⁄₂″  
Pipe  
[Meters]  
10 [3.0]  
20 [6.1]  
30 [9.1]  
40 [12.2]  
50 [15.2]  
60 [18.3]  
278 [7.9]  
190 [5.4]  
152 [4.3]  
130 [3.7]  
115 [3.3]  
105 [3.0]  
520 [14.7] 1050 [29.7] 1600 [45.3]  
350 [9.9]  
285 [8.1]  
245 [6.9]  
215 [6.1]  
195 [5.5]  
730 [20.7] 1100[ 31.1]  
590 [16.7]  
500 [14.2]  
440 [12.5]  
400 [11.3]  
890 [25.2]  
760 [21.5]  
670 [19.0]  
610 [17.3]  
Maximum Capacity Correction Factors for  
Specific Gravity other than 0.60.  
Specific Gravity  
Correction Factor  
Specific Gravity  
Correction Factor  
Specific Gravity  
Correction Factor  
0.50 0.55 0.60 0.65 0.70 0.75  
1.10 1.04 1.00 0.96 0.93 0.90  
0.80 0.85 0.90 1.00 1.10 1.20  
0.87 0.84 0.82 0.78 0.74 0.71  
1.30 1.40 1.50 1.60 1.70 1.80  
0.68 0.66 0.63 0.61 0.59 0.58  
17  
ELECTRICAL  
6. ELECTRICAL  
Install all electrical wiring in accordance with the National Electrical Code and local requirements.  
NOTICE  
This unit when installed must be electrically grounded in accordance with the requirements of the authority  
having jurisdiction or, in the absence of such requirements, with the current edition of the National Electrical  
Code, ANSI/NFPA 70 and/or the Canadian Electrical Code, Part 1, CSA C22.1, Electrical Code.  
A. WIRING  
C. CONTROLS  
1. See Figure 6.1 for location of wiring and controls.  
1. For proper location of controls and accessories refer  
to Figure 6.1 and Section 11.  
Use Figure 6.2 to connect the boiler to a power  
supply and to connect components to the boiler.  
2. See the attached control sheets for specific details  
regarding the installation of the various controls.  
2. Connect the boiler by a separate, permanently live  
electrical supply line with a fused switch.  
3. This boiler is supplied with safety devices in addition  
to the limit. For a description of these devices and  
how they work to ensure the safe operation of the  
boiler, see Section 7B.  
3. Adjust the thermostat heat anticipator to 0.2 Amp.  
B. ZONED SYSTEM WIRING  
4. If the circulator is mounted in the supply piping,  
provide longer wiring harness as required.  
See Figure 6.4 for typical wiring with zone valves. See  
Figure 6.5 for typical wiring with zone circulators. When  
wiring a zoned heating system, follow all applicable  
codes, ordinances and regulations.  
NOTICE  
Do not power zone valves directly from the boiler  
transformer/relay. Doing so will greatly reduce the life  
of the transformer. Use a separate transformer sized  
to handle the total of all zone valve electrical loads.  
Figure 6.1: Wiring, Controls and Safety Devices  
18  
ELECTRICAL  
Figure 6.2: Wiring and Connection Diagram  
D. SEQUENCE OF OPERATION  
b. Pilot gas on, igniting pilot.  
1. Thermostat calls for heat, energizes Control Relay  
(CR).  
7. Pilot flame detected.  
a. Igniter off.  
2. Control Relay (CR) energizes circulator.  
b. Main gas on, igniting main burners.  
3. Limit senses boiler water temperature. Prevents  
boiler operation until water temperature falls  
Note: If pilot flame is not detected within 30 seconds,  
the igniter is turned off for 30 seconds, and then turned  
back on. If the pilot is not detected within 30 seconds,  
the igniter and pilot gas are turned off for 5 minutes.  
The sequence then resumes at Step 6a.  
°
°
approximately 15 F (8 C) below the cut-out  
temperature.  
4. Limit energizes Fan and Isolation Relay (IR).  
5. Negative pressure induced by fan switches Pressure  
Switch, continuing power through closed contacts  
(IR-1) and flame roll-out switch.  
8. Call for heat ends.  
a. Pilot and main gas off, extinguishing pilot and  
main burners.  
6. Gas valve energizes.  
a. Igniter on.  
b. Fan and circulator off.  
19  
ELECTRICAL  
Figure 6.3: Ignition System Operating Sequence  
20  
ELECTRICAL  
Figure 6.4: Zone Wiring with Zone Valves  
Figure 6.5: Zone Wiring with Circulators  
21  
START-UP PROCEDURES  
7. START-UP PROCEDURES  
9. Confirm that the gas supply pressure to the boiler is  
A. COMPLETING THE INSTALLATION  
above the minimum and below the maximum values  
for the gas being used. See the end of Section 5 for  
these values. If a supply pressure check is required,  
isolate the boiler and gas valve before performing  
the pressure check. If the supply pressure is too high  
or too low, contact the gas supplier.  
1. Confirm that all water, gas and electricity are  
turned off.  
2. Inspect the boiler combustion chamber for foreign  
objects and remove if present.  
10. Turn on electricity and gas to boiler.  
3. Check physical condition of burners and pilot. Make  
certain that there are no unusual bends or  
perforations in the burners or pilot. Replace  
components if necessary.  
11. Light the boiler by following the Lighting/Operating  
Instructions label mounted to the jacket panel. The  
initial ignition may require several tries as the piping  
is purged of air.  
4. Verify that water piping, venting, gas piping and  
electrical wiring and components are installed  
properly. Refer back to previous sections of these  
instructions as well as equipment manufacturer’s  
instructions as necessary.  
12. Use the sequence descriptions in Figures 6.2 and 6.3  
in Section 6 (Electrical) to follow light-off and  
shutdown sequences and to assist in diagnosing  
problems. If the boiler does not function properly,  
consult Section 8, Troubleshooting.  
5. Fill the boiler and system with water, making certain  
to vent all air from all points in the system. To check  
water level in the system, open and close each vent  
in the system. Water should exit from each vent  
when it is opened.  
13. The gas manifold and control assembly are made of  
gas-tight, completely factory assembled and installed  
components of the base assembly. See Figure 7.1  
and 7.2.  
6. The pressure reducing valve on the fill line will  
typically allow the system to be filled and pressurized  
to 12 psi. (83 kPa). Consult the valve and expansion  
tank manufacturer for more specific information.  
7. Check joints and fittings throughout the system for  
leaks. If leaks are found, drain the system and repair  
as required.  
8. Connect a manometer to the gas valve inlet pressure  
tap. See Figure 7.2.  
22  
START-UP PROCEDURES  
Figure 7.1: Gas Valve, Manifold and Burner Assembly – Intermittent Ignition  
Figure 7.2: Valve Tapping and Adjustment Screw Locations  
23  
START-UP PROCEDURES  
FOR YOUR SAFETY READ BEFORE LIGHTING  
WARNING: If you do not follow these instructions exactly, a fire or explosion may  
result causing property damage, personal injury, or loss of life.  
A. This appliance is equipped with an ignition device  
which automatically lights the pilot. Do not try to  
light the pilot by hand.  
Immediately call your gas supplier from a  
neighbor's phone. Follow the gas supplier's  
instructions.  
B. BEFORE OPERATING smell all around the appliance  
area for gas. Be sure to smell next to the floor  
because some gas is heavier than air and will settle  
on the floor.  
If you cannot reach your gas supplier,  
call the fire department.  
C. Use only your hand to slide the gas control switch  
Never use tools. If the witch will not slide by hand,  
don't try to repair it, call a qualified service technician.  
Force or attempted repair may result in a fire or  
explosion.  
WHAT TO DO IF YOU SMELL GAS  
Do not try to light any appliance  
D. Do not use this appliance if any part has been under  
water. Immediately call a qualified service technician  
to inspect the appliance and to replace any part of the  
control system and any gas control which has been  
under water.  
Do not touch any electric switch;  
do not use any phone in your building.  
OPERATING INSTRUCTIONS  
5. If the gas valve is not visible, remove control access  
panel.  
1. STOP! Read the safety information above on this  
label.  
6. If the gas control switch is not in the "OFF" postion,  
slide the switch to "OFF".  
2. Set the thermostat or operating control to lowest  
setting.  
3. Turn off all electric power to the appliance.  
7. Wait five (5) minutes to clear out any gas. Then smell  
for gas, including near the floor. If you smell gas,  
STOP! Follow "B" in the safety information above on  
this label. If you don't smell gas, go to the next step.  
4. This appliance is equipped with an ignition device  
which automatically lights the pilot. Do not try to light  
the pilot by hand.  
8. Slide the gas control switch to "ON".  
9. Replace control access panel, if applicable.  
10. Turn on all electrical power to the appliance.  
11. Set thermostat or operating control to desired setting.  
12. If the appliance will not operate, follow the  
instructions "To Turn Off Gas To Appliance"  
and call your service technician or gas supplier.  
TO TURN OFF GAS TO APPLIANCE  
1. Set the thermostat or operating control to lowest  
setting.  
4. Slide the gas control switch to "OFF".  
5. Replace control access panel, if applicable.  
2. Turn off all electric power to the appliance if service is  
to be performed.  
3. If the gas valve is not visible, remove the control access  
access panel.  
SV9501/SV9601 9318 REV 2 (MM/YY)  
Figure 7.3: Operating Instructions  
24  
START-UP PROCEDURES  
3. In no case should the final manifold pressure vary  
more than 0.3 inches water column (0.07 kPa)  
from the above specified pressures. Any necessary  
major changes in the flow should be made by  
changing the size of the burner orifice spuds.  
B. CONTROL DESCRIPTIONS  
See Figure 6.1 in Section 6 (Electrical) for locations of  
these devices.  
1. FLAME ROLL-OUT SAFETY SHUT-OFF SWITCH  
(FLAME ROLL-OUT SWITCH) – A thermally  
activated switch located between the first burner  
from the left and the manifold bracket. The flame  
roll-out safety shut-off switch will sense excessive  
temperature caused by continued flame roll-out and  
shut down main burner gas. This is a non-recycling  
switch that must be replaced once it has been  
activated and the cause of the roll-out eliminated.  
4. When adjustment is complete, turn off boiler, gas  
flow and electricity to boiler. Remove manometer  
connection from valve and plug tapping with plug  
provided. Turn utilities back on and resume  
checkout.  
D. CHECKING BURNER INPUT  
1. Refer to rating label mounted on the jacket top panel  
to obtain the rated BTU per hour input. In no case  
shall the input to the boiler exceed the value shown  
on the rating label.  
2. PRESSURE SWITCH – A pressure sensing device  
that is located in the jacket vestibule. This control  
senses a suction pressure when fan is energized on a  
call for heat. Switch contacts close allowing control  
circuit to energize ignition system.  
2. Check input by use of the following formula  
(PB Heat suggests reading meter for 2 Cu.Ft.  
[0.0566 cubic meter]):  
3. LIMIT (AQUASTAT) – A thermally activated,  
manually adjustable switch located on the left side of  
the boiler, towards the top and rear. The temperature  
sensing element is placed in the supply and will shut  
down main burner gas if the supply water exceeds  
the preset temperature limit. This is a recycling switch  
that will automatically reset when the supply water  
falls below the preset temperature.  
U.S. Customary Units:  
Input (BTU/Hr.)= 3600 x F x H  
T
Where:  
3600 – Seconds per hour  
F – Cubic Feet of Gas Registered on Meter  
H – Heat Value of Gas in BTU/Cubic Feet  
T – Time in Seconds the Meter is Read  
4. LOW WATER CUT-OFF (FOR GRAVITY SYSTEMS  
OR HOT WATER BOILERS INSTALLED ABOVE  
RADIATION LEVEL) – A level-sensing device (float  
or probe) located in supply piping near the boiler. If  
water level in the system drops below the control’s  
position, it will shut down main burner gas. The  
control will automatically reset once the water level  
rises above its position.  
SI Metric Units  
Input (kW)= 3600 x F x H  
T x 3.6  
Where:  
3600 – Seconds per hour  
3.6 – Megajoule (MJ) per kilowatt hour (kwhr)  
F – Cubic Meters of Gas Registered on Meter  
H – Heating Value of Gas in MJ/Cubic Meter  
T – Time in Seconds the Meter is Read  
C. ADJUSTMENT OF GAS PRESSURE  
REGULATOR  
1. Connect a manometer to 1/8 N.P.T. tapping on gas  
manifold, set manifold pressure as follows for various  
gases.  
3. As an alternative, use Table 7.1a and 7.1b. Use the  
heating value provided by gas supplier. Use a  
stopwatch to record the time it takes for 2 cubic feet  
(0.0566 cubic meter) of gas to pass through the  
meter. Read across and down to determine rate.  
a. Natural Gas . . . . . . . . . .3.5W.C. (0.9 kPa)  
b. LP Gas . . . . . . . . . . . . .10.0W.C. (2.5 kPa)  
2. To adjust gas pressure, turn adjusting screw of gas  
pressure regulator counterclockwise to decrease  
pressure, clockwise to increase pressure. Refer to  
Figure 7.2 for location of gas pressure regulator.  
Replace the cap screw when adjustment is complete.  
25  
START-UP PROCEDURES  
Table 7.1a: Meter Conversion Natural Gas  
(U.S. Customary Units)  
Table 7.1b: Meter Conversion Natural Gas  
(SI Metric System)  
Burner inputs in Btu/hr for various meter timings and  
heating values. (Tables based on 2 cubic feet of gas  
through the meter).  
Burner inputs in kW for various meter timings and  
heating values. (Tables based on 0.0566 cubic meters  
of gas through the meter).  
Heat Value of Gas  
Time that  
Heat Value of Gas  
Time that  
(MJ/cubic meter)  
meter is  
(Btu/cubic foot)  
meter is  
read (sec)  
read (sec)  
37.26  
38.19  
39.12  
1000  
1025  
1050  
25  
30  
84.36  
70.30  
60.25  
52.72  
46.86  
42.18  
38.34  
35.15  
32.44  
30.13  
28.12  
26.36  
24.81  
23.43  
22.20  
21.09  
20.08  
19.17  
18.34  
17.57  
16.87  
86.46  
72.05  
61.76  
54.04  
48.03  
43.23  
39.30  
36.03  
33.25  
30.88  
28.82  
27.02  
25.43  
24.02  
22.75  
21.62  
20.59  
19.65  
18.80  
18.01  
17.29  
88.57  
73.81  
63.26  
55.35  
49.20  
44.28  
40.26  
36.90  
34.06  
31.63  
29.52  
27.68  
26.05  
24.60  
23.31  
22.14  
21.09  
20.13  
19.25  
18.45  
17.71  
25  
30  
288000  
240000  
205714  
180000  
160000  
144000  
130909  
120000  
110769  
102857  
96000  
90000  
84706  
80000  
75789  
72000  
68571  
65455  
62609  
60000  
57600  
295200  
246000  
210857  
184500  
164000  
147600  
134182  
123000  
113538  
105429  
98400  
92250  
86824  
82000  
77684  
73800  
70286  
67091  
64174  
61500  
59040  
302400  
252000  
216000  
189000  
168000  
151200  
137455  
126000  
116308  
108000  
100800  
94500  
35  
35  
40  
40  
45  
45  
50  
50  
55  
55  
60  
60  
65  
65  
70  
70  
75  
75  
80  
80  
85  
85  
88941  
90  
90  
84000  
95  
95  
79579  
100  
105  
110  
115  
120  
125  
100  
105  
110  
115  
120  
125  
75600  
72000  
68727  
65739  
63000  
60480  
c. Igniter will continue to glow for 30 seconds, de-  
energize for 30 seconds, then re-energize and  
glow for another 30 seconds. It will then de-  
energize for 5 minutes before restarting the  
sequence.  
E. CHECK-OUT PROCEDURE  
1. After starting the boiler, be certain all controls are  
working properly. Check to be sure that the limit will  
shut off the boiler in the event of excessive water  
temperature. This can be done by lowering the limit  
setting until the main burners shut down. When  
proper limit function is confirmed, return the dial to  
its previous setting.  
d. Turn gas supply on.  
e. Reset the boiler and control by following  
Operating Instructions.  
2. To check operation of the ignition system safety  
shut-off features:  
f. Observe boiler operation through one complete  
cycle.  
a. Turn gas supply off.  
b. Set thermostat or controller above room  
temperature to call for heat. Watch for igniter  
glow at pilot burner.  
26  
START-UP PROCEDURES  
3. Low Water Cut-Off (if used) – Consult the  
manufacturer’s instructions for the low water cut-off  
operational check procedure.  
7. Check the general condition of the system including  
piping support, joints, etc. Check cleanliness of the  
radiators, baseboard units and/or convectors. Clean  
them to the extent possible. If radiators do not heat  
evenly, vent any remaining air from them.  
4. Check the system to make sure there are no leaks or  
overfilling problems which might cause excessive  
make-up water to be added. Make-up water causes  
liming in the boiler and brings in oxygen. Oxygen  
can cause severe damage to the boiler through  
oxygen corrosion pitting.  
8. Review operation and User’s Information Manual  
with end-user.  
9. Complete the Warranty Card and submit it to PB  
Heat, LLC.  
5. Check the expansion tank and automatic fill valve (if  
used) to confirm that they are operating correctly. If  
either of these components causes high pressure in  
the system, the boiler relief valve will weep or open,  
allowing fresh water to enter the system.  
10. Hang the Installation, Operation and Maintenance  
Manual and User’s Information Manual in an  
accessible position near the boiler.  
6. Do not allow the system controls to subject the boiler  
to excessively low water temperatures, which would  
cause condensation of flue gases and corrosion of  
the boiler. Operate the boiler at a temperature above  
130°F (55°C). Adjust the boiler limit as required to  
maintain boiler temperature above this level.  
27  
TROUBLESHOOTING  
8. TROUBLESHOOTING  
DANGER  
A. SHUT-DOWN CAUSED BY PILOT  
OUTAGE, PRESSURE SWITCH OR  
FLAME ROLL-OUT SAFETY  
SHUT-OFF SWITCH  
When servicing or replacing items that communicate  
with the boiler water, be certain that:  
There is no pressure on the boiler.  
The boiler is not hot.  
The power is off.  
In the event of a shut-down caused by a pilot outage,  
action of the pressure switch or flame roll-out safety  
shut-off switch effecting a shut-down of the main  
burners:  
When servicing the gas valve or pilot, be certain that:  
The gas is off.  
a. Refer to the Operating Instructions in Figure 7.3 to  
properly turn off the gas to the boiler.  
The electricity is off.  
b. Turn off all electric power to the boiler.  
c. Call a qualified heating service organization or local  
gas company and have the cause of the shut-down  
investigated and corrected.  
WARNING  
Do not use this appliance if any part has been under  
water. Improper or dangerous operation may result.  
Immediately call a qualified service technician to  
inspect the boiler and to replace any part of the  
control system and any gas control which has been  
under water.  
d. Refer to Operating Instructions to  
re-start boiler.  
B. TROUBLESHOOTING GUIDES  
Use Table 8.2 to assist in determining causes and  
providing corrective actions to boiler problems. Refer  
also to Figure 8.2 to troubleshoot the Intermittent  
Ignition System Control. These guides must be used  
only by qualified service technicians. These individuals  
must follow all applicable codes and regulations in repair  
of any boiler problems.  
CAUTION  
Label all wires prior to disconnection when servicing  
controls. Wiring errors can cause improper and  
dangerous operation. Verify proper operation after  
servicing.  
C. MEASURING SUCTION PRESSURE  
Refer to Table 8.1 for fan suction pressure required to  
energize control circuit. Measure fan suction pressure as  
shown in Figure 8.1. Note that as boiler operates,  
suction pressure will decrease. Measure after 15 minutes  
of boiler operation.  
CAUTION  
Should overheating occur or the gas supply fail to  
shut off, do not turn off or disconnect the electrical  
supply to the pump. This may aggravate the problem  
and increase the likelihood of boiler damage. Instead,  
shut off the gas supply at a location external to the  
appliance.  
Table 8.1:  
Fan Suction Pressure  
Suction Pressure  
Boiler Model  
(In. w.c)  
(kPa)  
DE-03  
1.78  
1.56  
1.56  
1.35  
0.44  
0.39  
0.39  
0.34  
DE-04  
DE-05  
DE-06  
28  
TROUBLESHOOTING  
SEE TABLE 7  
Figure 8.1: Procedure For Measuring Fan Suction Pressure  
29  
TROUBLESHOOTING  
Table 8.2:  
Boiler Troubleshooting Guide (Burners Functioning)  
Problem  
Possible Causes  
Corrective Actions  
Burners not functioning.  
1. See Figure 8.2  
1. See Figure 8.2  
Burners will not shut  
down.  
1. Defective gas valve.  
2. Short circuit.  
1. Use Figure 8.2 to troubleshoot intermittent  
ignition gas valve. Replace if necessary.  
2. Check and correct wiring.  
Flashback or burning  
at orifice spuds.  
1. Manifold gas pressure too low.  
2. Improperly sized/drilled orifice spuds.  
3. Leaking gas valve.  
1. Adjust to proper pressure.  
2. Install correct spuds.  
3. Replace valve.  
4. Burrs on orifice.  
4. Remove burrs.  
5. Low supply gas pressure.  
5. Contact gas supplier if natural gas. Adjust  
regulator if LP gas.  
Delayed ignition.  
1. Insufficient pilot flame.  
2. Pilot burner/orifice clogged.  
3. Overfiring.  
1. Increase pilot gas flow.  
2. Clean pilot burner and orifice.  
3. Reduce rate to input on rating label.  
4. Realign burners or pilot.  
4. Misaligned burners or pilot.  
Condensation at boiler  
vent connector/fan.  
1. Vent pipe not sloped towards vent terminal.  
1. Install condensate trap per vent manufacturer’s  
. instructions.  
2. Slope vent pipe towards vent terminal.  
Boiler not heating  
properly.  
1. Underfiring.  
1. Increase rate to input on rating label.  
2. Reset limit to higher setting.  
2. Limit set too low.  
3. Air in system.  
3. Vent air from all points in system.  
4. Check circulator, replace if necessary.  
4. Circulator malfunctioning.  
5. Circulation system clogged.  
5. Shut down and cool boiler, drain and flush  
system.  
6. Incorrect thermostat heat anticipator setting.  
6. Adjust heat anticipator to 0.2 Amp.  
Fumes or gas odors  
1. Leaks in gas piping or fittings.  
2. Leaks in gas service line or meter.  
3. Obstructed chimney.  
1. Locate and repair or replace.  
2. Shut down boiler and notify gas provider.  
3. Check, repair and/or clean chimney.  
4. Obstructed flueways or vent.  
5. Draft problem in boiler room.  
6. Overfiring.  
4. Clean flueways or vent and remove obstructions.  
5. Check air supply, ventilation and venting system.  
7. Reduce rate to input on rating label.  
30  
TROUBLESHOOTING  
Figure 8.2: Boiler Troubleshooting Guide (Burners Not Functioning)  
31  
MAINTENANCE  
9. MAINTENANCE  
WARNING  
Product Safety Information  
Refractory Ceramic Fiber Product  
This appliance contains materials made from refractory ceramic fibers (RCF). Airborne RCF,  
when inhaled, have been classified by the International Agency for Research on Cancer  
(IARC), as a possible carcinogen to humans. After the RCF materials have been exposed to  
temperatures above 1800°F (980°C), they can change into crystalline silica, which has been  
classified by the IARC as carcinogenic to humans. If particles become airborne during ser-  
vice or repair, inhalation of these particles may be hazardous to your health.  
Avoid Breathing Fiber Particulates and Dust  
Suppliers of RCF recommend the following precautions be taken when handling these  
materials:  
Precautionary Measures:  
Provide adequate ventilation.  
Wear a NIOSH/MSHA approved respirator.  
Wear long sleeved, loose fitting clothing and gloves to prevent skin contact.  
Wear eye goggles.  
Minimize airborne dust prior to handling and removal by water misting the material and  
avoiding unnecessary disturbance of materials.  
Wash work clothes separately from others. Rinse washer thoroughly after use.  
Discard RCF materials by sealing in an airtight plastic bag.  
First Aid Procedures:  
Inhalation: If breathing difficulty or irritation occurs, move to a location with fresh clean air.  
Seek immediate medical attention if symptoms persist.  
Skin Contact: Wash affected area gently with a mild soap and warm water. Seek immediate  
medical attention if irritation persists.  
Eye Contact: Flush eyes with water for 15 minutes while holding eyelids apart. Do not rub  
eyes. Seek immediate medical attention if irritation persists.  
Ingestion: Drink 1 to 2 glasses of water. Do not induce vomiting. Seek immediate medical  
attention.  
32  
MAINTENANCE  
4. Check for water leaks in boiler and system piping.  
A. GENERAL  
5. Smell around the appliance area for gas. If you smell  
gas, follow the procedure listed in the Operating  
Instructions in Section 7.  
1. Disconnect this boiler from the gas supply piping  
during any pressure testing of the gas system.  
2. Check pipes adjacent to cold walls or in unheated  
spaces. Insulate and tape them if necessary to be  
sure they can’t freeze up. Keeping the water moving  
at all times will reduce the likelihood of freezing. See  
Section 3 for antifreeze instructions.  
C. WEEKLY (WITH BOILER IN USE)  
1. Flush float-type low-water cut-off (if used) to remove  
sediment from the float bowl as stated in the  
manufacturer’s instructions.  
3. If there is considerable foreign matter in the boiler  
water, the boiler should be shut down and allowed to  
cool, then drained and thoroughly flushed out. Use  
the drain valve at the bottom of the return  
D. MONTHLY (WITH BOILER IN USE)  
1. Check boiler room floor drains for proper  
functioning.  
connection to drain the boiler. Pipe the drain cock to  
a suitable drain or containment device if antifreeze is  
used. Flush the system to remove remaining matter.  
If there is evidence that hard scale has formed on the  
internal surfaces, the boiler should be cleaned by  
chemical means as prescribed by a qualified water  
treatment specialist.  
2. Check function of the safety relief valve (monthly  
unless specified otherwise by manufacturer) by  
performing the following test:  
a. Check valve piping to determine that it is  
properly installed and supported.  
4. There must not be signs of continuous wetness at the  
chimney. If signs of continuous wetness are  
observed, a qualified service agency must be  
consulted to modify the vent configuration to prevent  
the formation of condensate.  
b. Check boiler operating temperature and pressure.  
c. Lift the try lever on the safety relief valve to the  
full open position and hold it for at least five  
seconds or until clean water is discharged.  
d. Release the try lever and allow the valve to close.  
If the valve leaks, operate the lever two or three  
times to clear the valve seat of foreign matter. It  
may take some time to determine if the valve has  
shut completely.  
B. DAILY (WITH BOILER IN USE)  
Daily boiler observation can be performed by the owner.  
If any potential problems are found, a qualified installer  
or service technician/agency must be notified.  
1. Remove any combustible materials, gasoline and  
other flammable liquids and substances that generate  
flammable vapors from the area where the boiler is  
contained. Make certain that the boiler area has  
ample air for combustion and ventilation and that  
there are no obstructions to the free flow of air to  
and from the boiler.  
e. If the valve continues to leak, it must be replaced  
before the boiler is returned to operation.  
f. Check that operating pressure and temperature  
have returned to normal.  
g. Check again to confirm that valve has closed  
completely and is not leaking.  
2. Observe general boiler conditions (unusual noises,  
vibrations, etc.)  
3. Test low-water cut-off (if used) as described by the  
manufacturer.  
3. Observe operating temperature and pressure on the  
combination gauge located on the left side of the  
boiler. Boiler pressure should never be higher than  
5 psi (35 kPa) below the rating shown on the safety  
relief valve (25 psig [172 kPa] maximum for a 30  
psig [207 kPa] rating, 45 psig [310 kPa] maximum  
for a 50 psig [345 kPa] rating). The valve rating  
can be found on the top of the safety relief valve  
(see Figure 3.1 for location of the safety relief valve).  
Boiler temperature should never be higher than  
250° F (121°C).  
4. Test limit as described in Section 7E, “Check-Out  
Procedure.”  
5. Test function of gas safety shut-off features as  
described by gas valve and ignition control  
manufacturer.  
33  
MAINTENANCE  
2. Inspect entire venting system for corrosion, support  
and joint integrity. Repair as necessary. Inspect vent  
termination for any obstruction that may hinder  
proper venting.  
E. ANNUALLY (BEFORE START OF HEATING  
SEASON)  
DANGER  
3. Check the pilot and main burner flame. See Figure  
8.3. The pilot should provide a steady flame  
enveloping 3/8to 1/2(1 cm to 1.2 cm) of the  
flame sensor. If required, adjust the pilot as stated in  
the gas valve manufacturer’s instructions. The main  
burner flame inner cone should be approximately 1-  
1/2(4 cm) high and should have a very sharp, blue  
color characteristic.  
When servicing or replacing components, be  
absolutely certain that the following conditions are  
met:  
Water, gas and electricity are off.  
The boiler is at room temperature.  
There is no pressure in the boiler.  
1. Check flueways and burners for cleanliness and  
clean if necessary. Use the following procedure if  
cleaning is required:  
a. Refer to the Operating Instructions in Figure 7.3  
to properly turn off the gas to the boiler.  
b. Turn off all electrical power to the boiler.  
c. Remove burners and brush gas outlet ports  
lightly using a soft bristle brush.  
d. Remove the vent pipe from fan adapter, top  
jacket panel, flue collector/fan assembly and flue  
baffles.  
e. Brush flueways with wire brush.  
f. To the extent possible, inspect inside of vent pipe  
for obstructions. Remove or replace as necessary.  
Figure 8.3: Intermittent Pilot and Main  
Burner Flame  
g. Re-install baffles. When replacing the flue  
collector/fan assembly, be certain that the blanket  
seal between the flue collector and top section  
makes a tight seal to prevent leakage of the  
products of combustion.  
h. Re-install the top jacket panel and vent pipe.  
i. Re-install burners.  
34  
BOILER DIMENSIONS & RATINGS  
10. BOILER DIMENSIONS & RATINGS  
Figure 10.1: Boiler Views  
Table 10.1: Series DE Boiler Ratings  
SERIES DE BOILER RATINGS  
Net I=B=R  
Ratings  
Water¹ ²  
Seasonal  
Efficiency³  
AFUE  
DOE Heating  
Capacity³  
Water  
Content  
Boiler  
Model  
Number  
Input  
,
MBH  
kW  
MBH  
kW  
MBH  
kW  
%
Gallon  
Liter  
DE-03  
DE-04  
DE-05  
DE-06  
70  
21  
31  
41  
48  
58  
87  
116  
136  
17  
25  
34  
40  
50  
76  
101  
118  
15  
22  
30  
35  
82.1  
82.0  
82.0  
82.0  
4.72  
6.00  
7.28  
8.56  
17.87  
22.71  
27.55  
32.40  
105  
140  
165  
1 Net I=B=R water ratings based on an allowance of 1.15.  
2 Consult factory before selecting a boiler for installations having unusual piping and pickup  
requirements, such as intermittent system operation, extensive piping systems, etc.  
3 Heating Capacity and Annual Fuel Utilization Efficiency (AFUE) ratings are based on U.S.  
Government test. Before purchasing this appliance, read important information about its estimated  
annual energy consumptions or energy efficiency rating that is available from your retailer.  
35  
REPAIR PARTS  
11. REPAIR PARTS  
REPAIR PARTS  
SERIES DE GAS BOILER  
Repair parts are available from your installer or by contacting PB Heat, LLC, New  
Berlinville, PA. Use the figures and tables on pages 36-38 to assist in ordering parts.  
Note: Remember to include boiler model number and serial number when ordering parts.  
Figure 11.1: Block/Base/Floor Pan/Jacket/Flue Collector  
36  
REPAIR PARTS  
Figure 11.2: Base/Burners/Manifold  
37  
REPAIR PARTS  
Table 11.1: Repair Parts  
Item  
Description  
No.  
Part Selection Information  
DE-03 DE-04 DE-05 DE-06  
1
2
3
4
5
6
Block Assembly  
90419  
7800  
90420  
7801  
90421  
7802  
90422  
7803  
Base Assembly  
Observation Cover Door  
Base Blanket Seal  
51771  
50867  
90700  
51539  
51537  
50978  
50894  
51771  
50867  
90701  
51539  
51537  
50979  
50894  
51771  
50867  
90702  
51539  
51537  
50980  
50894  
51771  
50867  
90703  
51539  
51537  
50981  
Specify length  
Combustible Floor Pan Assembly  
Steel Burner w/Pilot Clip  
Steel Burner  
1 Per Boiler  
Specify Quantity  
7
8
Gas Manifold  
Orifice Spud, #48  
Natural Gas 0-2000 ft (0-610 m) elevation (specify qty.) *  
Natural Gas 0-2000 ft (0-610 m) elevation (specify qty.) *  
LP Gas 0-2000 ft (0-610 m) elevation (specify qty.)*  
Orifice Spud, #49  
50895  
50899  
51587  
90198  
51584  
50866  
50204  
50203  
90199  
90247  
50212  
Orifice Spud, #56  
50899  
51587  
90195  
51584  
50866  
50204  
50203  
90199  
90244  
50212  
51682  
51691  
50899  
51587  
90196  
51584  
50866  
50204  
50203  
90199  
90245  
50212  
51682  
51691  
50899  
51587  
90197  
51584  
50866  
50204  
50203  
90199  
90246  
50212  
51682  
51691  
9
Flame Rollout Safety Shut Off Switch  
Flue Collector/Fan Mount  
Flue Baffle - 8”  
10  
11  
12  
13  
14  
15  
16  
17  
1 per flue (specify qty.)  
Specify length  
Flue Collector Blanket Seal  
Fan Gasket  
Fan Adapter Gasket  
Fan Adapter  
Jacket Assembly  
Fan  
Honeywell SV9501M2700 Gas Valve  
Honeywell SV9501M2064 Gas Valve  
Honeywell SV9601M4167 Gas Valve  
Honeywell SV9601M4225 Gas Valve  
Honeywell Q3480B1025 Pilot  
Honeywell Q3480B1058 Pilot  
Honeywell L4080B1253 Limit  
Zettler ZC90113-177 Relay Center  
Endura ES2035-0136 Pressure Switch  
Endura ES2035-0135 Pressure Switch  
Endura ES2035-0133 Pressure Switch  
Zettler Relay ZC90341  
Natural Gas  
LP Gas  
Natural Gas  
LP Gas  
51683  
51692  
51684  
50205  
50210  
50786  
Natural Gas  
LP Gas  
51684  
50205  
50210  
50786  
50093  
51684  
50205  
50210  
50786  
51684  
50205  
50210  
50786  
0-2000 Ft. (0-610 m) Elevation*  
0-2000 Ft. (0-610 m) Elevation*  
0-2000 Ft. (0-610 m) Elevation*  
50092  
50790  
50092  
50790  
50091  
50790  
50790  
Safety Relief Valve 30 PSI  
Conbraco 10-408-05  
50501  
99950  
51324  
50501  
99950  
51324  
50501  
99950  
51324  
50501  
99950  
51324  
Safety Relief Valve 50 PSI Watts #350  
Temperature Pressure Gauge  
* For elevations over 2000 feet above sea level, contact PB Heat, LLC.  
38  
NOTES  
39  
NOTES  
40  
Series DE  
Gas Boilers  
Installation,  
Operation &  
Maintenance  
Manual  
TO THE INSTALLER:  
This manual is the property of the owner and must  
be affixed near the boiler for future reference.  
TO THE OWNER:  
This boiler should be inspected annually by  
Qualified Service Agency.  
a
ASME  
HI Division  
of gama  
PB HEAT, LLC  
PO BOX 447 • NEW BERLINVILLE, PA 19545-0447  
©2007  
DE8022 R8 (5/07-3M)  
Printed in U.S.A.  

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