Crown Boiler | 32 Series and | Operating instructions | Crown Boiler 32 Series and Operating instructions

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Series 32
Gas-Fired Natural Draft Steam or Water Boilers
INSTALLATION AND OPERATING INSTRUCTIONS
These instructions must be affixed on or adjacent to the boiler.
WARNING: Improper installation,
adjustment, alteration, service or
maintenance can cause property
damage, injury, or loss of life. For
assistance or additional information,
consult a qualified installer, service
agency or the gas supplier. Read
these instructions carefully before
installing.
Manufacturer of Hydronic Heating Products
P.O. Box 14818 3633 I. Street
Philadelphia, PA 19134
Tel: (215) 535-8900 • Fax: (215) 535-9736 • www.crownboiler.com
1
2
Table of Contents
I.
II.
III.
IV.
V.
VI.
VII.
VIII.
IX.
X.
XI.
XII.
XIII.
XIV.
Product Description
Specifications
Before Installing
Locating the Boiler
Knockdown Boiler Assembly Instructions
Air for Combustion & Ventilation
Venting
Steam Boiler Piping & Trim Installation
A. Heating System Piping
B. Indirect Water Heater Piping
Water Boiler Piping
A. Heating System Piping
B. Tankless Heater Piping
Gas Piping
Control System Wiring
A. Standard Steam / Water
B. CSD-1 Steam / Water
Start-Up & Checkout
Service & Maintenance
Parts & Cartons Contents
1
2
7
7
10
19
23
27
27
36
37
37
42
44
45
45
46
50
56
58
I Product Description
The Series 32 boilers are low pressure cast iron gas fired steam or hot water boilers designed for use in commercial heating
applications. These boilers are Category I draft diverter equipped appliances, which must be vented by natural draft using a
lined masonry or listed metal chimney system. An adequate supply of air for combustion, ventilation and dilution of flue gases
must be available in the boiler room. This boiler is intended for use with natural gas only.
The Series 32 may be used on low pressure steam heating systems or forced hot water heating systems and is intended for
installation in “closed” systems only. Hot water Series 32 boilers are available with up to two optional tankless heaters for
domestic hot water generation.
31
Figure 1: Base Model - General Configuration
II Specifications
42
35
134 5/8
140 1/8
145 1/2
151
156 3/8
161 7/8
167 1/4
172 3/4
32-2185W(S)N
32-2280W(S)N
32-2375W(S)N
32-2470W(S)N
32-2565W(S)N
32-2660W(S)N
32-2755W(S)N
32-2850W(S)N
12
12
12
10
10
12
12
12
12
10
12
12
12
10
12
12
12
10
12
10
12
12
12
10
10
12
'B'
Dia.
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
-
-
-
-
-
-
'D'
Dia.
12
12
12
10
12
12
12
12
10
12
12
12
12
12
12
12
12
12
12
12
12
12
12
10
-
'C'
Dia.
1. All Dimensions Are Approximate.
129 1/4
32-2090W(S)N
96 5/8
32-1520W(S)N
123 3/4
91 1/8
32-1425W(S)N
32-1995W(S)N
85 3/4
32-1330W(S)N
118 3/8
80 1/4
32-1235W(S)N
32-1900W(S)N
74 7/8
32-1140W(S)N
112 7/8
69 3/8
32-1045W(S)N
32-1805W(S)N
64
32-950W(S)N
102
58 1/2
32-855W(S)N
107 1/2
53 1/8
32-760W(S)N
32-1710W(S)N
47 5/8
32-665W(S)N
32-1615W(S)N
36 3/4
42 1/4
32-570W(S)N
'A'
32-475W(S)N
Boiler Model
Number
Jacket
Overall
Length
12
12
12
12
12
12
12
12
12
12
12
12
12
12
12
-
-
-
-
-
-
-
-
-
-
-
'E'
Dia.
12
12
12
12
12
12
12
12
12
12
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
'F'
Dia.
12
12
12
12
12
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
'G'
Dia.
27 3/16
24 7/16
21 3/4
19 1/16
16 5/16
27 3/16
24 7/16
21 3/4
21 3/4
16 5/16
27 1/4
24 7/16
21 3/4
19 1/16
21 3/4
27 1/4
24 7/16
21 3/4
21 3/4
19 1/16
27 3/16
24 7/16
21 3/4
19 1/16
16 5/16
-
'H'
27 3/16
27 3/16
27 3/16
27 3/16
27 3/16
27 3/16
27 3/16
27 3/16
24 7/16
27 3/16
27 3/16
27 3/16
27 3/16
27 3/16
21 3/4
-
-
-
-
-
-
-
-
-
-
-
'K'
27 3/16
27 3/16
27 3/16
27 3/16
27 3/16
27 3/16
27 3/16
27 3/16
27 3/16
27 3/16
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
'L'
27 3/16
27 3/16
27 3/16
27 3/16
27 3/16
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
'M'
18 3/8
'N'
18 3/8
18 3/8
18 3/8
18 3/8
18 3/8
18 3/8
18 3/8
18 3/8
18 3/8
18 3/8
18 3/8
18 3/8
18 3/8
18 3/8
15 11/16
18 3/8
18 3/8
18 3/8
15 11/16
15 11/16
18 3/8
18 3/8
15 11/16
15 11/16
12 15/16
Table 1A: Dimensional Data
27 3/16
27 3/16
24 7/16
24 7/16
21 3/4
27 3/16
27 3/16
24 7/16
21 3/4
21 3/4
27 1/4
27 1/4
24 7/16
24 7/16
21 3/4
27 3/16
27 3/16
27 3/16
21 3/4
21 3/4
-
-
-
-
-
-
'J'
Drafthood Size & Location
32 5/8
32 5/8
32 5/8
38 1/16
32 5/8
32 5/8
32 5/8
38 1/16
32 5/8
38 1/16
32 5/8
32 5/8
32 5/8
32 5/8
43 1/2
38 1/16
38 1/16
32 5/8
32 5/8
27 3/16
54 3/8
48 15/16
43 1/2
38 1/16
32 5/8
27 3/16
'P'
32 5/8
32 5/8
32 5/8
32 5/8
32 5/8
32 5/8
32 5/8
32 5/8
32 5/8
38 1/16
38 1/16
32 5/8
38 1/16
32 5/8
43 1/2
43 1/2
38 1/16
38 1/16
32 5/8
32 5/8
-
-
-
-
-
-
'R'
32 5/8
32 5/8
32 5/8
38 1/16
38 1/16
32 5/8
32 5/8
27 3/16
27 3/16
38 1/16
38 1/16
38 1/16
27 3/16
27 3/16
-
-
-
-
-
-
-
-
-
-
-
-
'S'
Top Supply
Location
32 5/8
32 5/8
27 3/16
38 1/16
38 1/16
38 1/16
32 5/8
27 3/16
27 3/16
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
'T'
32 5/8
27 3/16
27 3/16
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
'U'
-
-
-
1
2
-
-
-
-
2
-
-
-
1
-
-
-
1
-
1
-
-
-
1
2
-
10"
6
6
6
5
4
5
5
5
5
3
4
4
4
3
4
3
3
2
3
2
2
2
2
1
-
1
12"
Flue Outlet
No. & Size
NAT URAL GAS ONLY
NUMBER
BASIC BOILER
OF
MODEL
SECT IONS
I=B=R NET RAT ING
INPUT
HEAT ING
CAPACIT Y
(MBH)
(MBH)
(Sq. ft)
(MBH)
(MBH)
Steam
Water
WAT ER WAT ER
BHP
Combustion VOL. 1 VOL. 2
OUT PUT 3
Effy. %
(Gal)
(Gal)
32-475W(S)N
6
475
380
1188
285
330
80-1/2
28.58
39.80
11.4
32-570W(S)N
7
570
456
1425
342
397
80-1/2
32.65
45.47
13.6
32-665W(S)N
8
665
532
1663
399
463
80-1/2
36.72
51.14
15.9
32-760W(S)N
9
760
608
1900
456
529
80-1/2
40.79
56.81
18.2
32-855W(S)N
10
855
684
2138
513
595
80-1/2
44.86
62.48
20.4
32-950W(S)N
11
950
760
2376
570
661
80-1/2
48.93
68.15
22.7
32-1045W(S)N
12
1045
836
2613
627
727
80-1/2
53.00
73.82
25.0
32-1140W(S)N
13
1140
912
2851
684
793
80-1/2
57.07
79.49
27.2
32-1235W(S)N
14
1235
988
3088
741
859
80-1/2
61.14
85.16
29.5
32-1330W(S)N
15
1330
1064
3326
798
925
80-1/2
65.21
90.83
31.8
32-1425W(S)N
16
1425
1140
3563
855
991
80-1/2
69.28
96.50
34.1
32-1520W(S)N
17
1520
1216
3801
912
1057
80-1/2
73.35
102.17
36.3
32-1615W(S)N
18
1615
1292
4050
972
1123
80-1/2
77.42
107.84
38.6
32-1710W(S)N
19
1710
1368
4312
1035
1190
80-1/2
81.49
113.51
40.9
32-1805W(S)N
20
1805
1444
4575
1098
1256
80-1/2
85.56
119.18
43.1
32-1900W(S)N
21
1900
1520
4839
1161
1322
80-1/2
89.63
124.85
45.4
32-1995W(S)N
22
1995
1596
5102
1225
1388
80-1/2
93.70
130.52
47.7
32-2090W(S)N
23
2090
1672
5366
1288
1454
80-1/2
97.77
136.19
49.9
32-2185W(S)N
24
2185
1748
5628
1351
1520
80-1/2
101.84
141.86
52.2
32-2280W(S)N
25
2280
1824
5890
1414
1586
80-1/2
105.91
147.53
54.5
32-2375W(S)N
26
2375
1900
6143
1474
1652
80-1/2
109.98
153.20
56.8
32-2470W(S)N
27
2470
1976
6392
1534
1718
80-1/2
114.05
158.87
59.0
32-2565W(S)N
28
2565
2052
6638
1593
1784
80-1/2
118.12
164.54
61.3
32-2660W(S)N
29
2660
2128
6884
1652
1850
80-1/2
122.19
170.21
63.6
32-2755W(S)N
30
2755
2204
7130
1711
1917
80-1/2
126.26
175.88
65.8
32-2850W(S)N
31
2850
2280
7376
1770
1983
80-1/2
130.33
181.55
68.1
1. Water Volume T otal T o Normal Water Line (Steam Boiler).
2. Water Volume T otal (Water Boiler).
3. Ratings Based on 33,475 Btuh Per Boiler Horsepower
Table 1B: Specifications
64
57
Figure 2a: Series 32 Steam Boilers - Arrangement Of Steam Riser Connections, Draft Hoods And Base Assemblies
86
Figure 2b: Series 32 Water Boilers - Arrangement Of Water Supply Connections, Draft Hoods And Base Assemblies
III Before Installing
1) Safe, reliable operation of this boiler depends upon installation by a professional heating contractor in strict
accordance with this manual and the requirements of the authority having jurisdiction.
•
In the absence of an authority having jurisdiction, installation must be in accordance with this manual and the latest
edition of the National Fuel Gas Code, ANSI Z223.1.
•
2)
3)
4)
5)
6)
Where required by the authority having jurisdiction, this installation must conform to the latest edition of the
Standard for Controls and Safety Devices for Automatically Fired Boilers (ANSI/ASME CSD-1)
Make sure that a properly sized chimney is available and is in good condition. Consult the authority having
jurisdiction, Part VII of this manual, and the National Fuel Gas Code for additional information on venting
requirements.
Make sure that the boiler is correctly sized.
This boiler is designed and listed for use with natural gas only.
Boilers installed at altitudes above 2000 ft. require different main burner orifice than those at sea level. Make sure that
the boiler is configured for use at the correct altitude.
If this boiler was received as a knockdown boiler, follow the instructions in Section V to assemble the boiler.
WARNING
This Product Must be Installed By A Licensed Plumber Or Gas Fitter when Installed Within
The Commonwealth Of Massachusetts.
If This Boiler is Equipped With a Tankless Heater, Tankless Heater Piping Must be Installed
by a Licensed Plumber When Boiler is Installed Within the Commonwealth of Massachusetts.
IV Locating the Boiler
WARNING
All Series 32 boilers must be installed in rooms that are large in comparison with the size of
the equipment and must be installed with the clearances listed in Table 2. Such a room will
have a volume equal to at least 16 times the total volume of the boiler.
1) Minimum required boiler room volumes are shown in Table 2. To find the volume of the boiler room calculate:
Boiler Room Volume (ft3) = Length (ft) x Width (ft) x Height (ft)
If the height is greater than 8 ft for the room height, use 8 ft for the height in the above equation.
2) Observe the minimum clearances as shown in Table 3. These clearances apply to all combustible construction, as well as
noncombustible walls, ceilings and doors. Also see Figure 3.
3) This boiler must be installed on a non-combustible floor. A concrete pad is not sufficient to protect combustible
flooring.
4) The boiler must be installed on a hard level surface.
5) Do not install this boiler in a location where gasoline or other flammable vapors or liquids will be stored or used. Do
not install this boiler in an area where large amounts of airborne dust will be present, such as a workshop.
97
Boile r
Model
Ove r All
Length
Jacke t
Ove r All
Depth
Jacke t
32-475
32-570
32-665
32-760
32-855
32-950
32-1045
32-1140
32-1235
32-1330
32-1425
32-1520
32-1615
32-1710
32-1805
32-1900
32-1995
32-2090
32-2185
32-2280
32-2375
32-2470
32-2565
32-2660
32-2755
32-2850
36 3/4
42 1/4
47 5/8
53 1/8
58 1/2
64
69 3/8
74 7/8
80 1/4
85 3/4
91 1/8
96 5/8
102
107 1/2
112 7/8
118 3/8
123 3/4
129 1/4
134 5/8
140 1/8
145 1/2
151
156 3/8
161 7/8
167 1/4
172 3/4
32 1/4
32 1/4
32 1/4
32 1/4
32 1/4
32 1/4
32 1/4
32 1/4
32 1/4
32 1/4
32 1/4
32 1/4
32 1/4
32 1/4
32 1/4
32 1/4
32 1/4
32 1/4
32 1/4
32 1/4
32 1/4
32 1/4
32 1/4
32 1/4
32 1/4
32 1/4
Ove r All
Height
Floor To
Top Of
Jacke t
46 5/8
46 5/8
46 5/8
46 5/8
46 5/8
46 5/8
46 5/8
46 5/8
46 5/8
46 5/8
46 5/8
46 5/8
46 5/8
46 5/8
46 5/8
46 5/8
46 5/8
46 5/8
46 5/8
46 5/8
46 5/8
46 5/8
46 5/8
46 5/8
46 5/8
46 5/8
Boiler
Volum e
(Ft3)
M inim um
Room
Volum e
(Ft3)
32.0
36.7
41.4
46.2
50.9
55.6
60.4
65.1
69.8
74.6
79.3
84.0
88.8
93.5
98.2
103.0
107.7
112.4
117.1
121.9
126.6
131.3
136.1
140.8
145.5
150.3
511.7
587.4
663.1
738.8
814.5
890.2
965.9
1041.6
1117.3
1193.0
1268.7
1344.4
1420.1
1495.8
1571.5
1647.2
1722.9
1798.6
1874.3
1950.1
2025.8
2101.5
2177.2
2252.9
2328.6
2404.3
Table 2: Minimum Room Volumes Based On Sixteen Times Boiler Volume By Model Size
Figure 3: Clearances To Combustible Construction
10
8
Left Side
Right Side
Minimum Clearance - Jacket
Service Clearance To NonTo Combustible Or NonCombustible Construction
Combustible Construction
24"
18" (Controls)
24"
18" (Controls)
Clearances Required For Removal Of Tankless Heater
T-1
T-2
T-3
27"
32"
42"
27"
32"
42"
Front
24"
36" (Cleaning-Burner Removal)
--------
--------
--------
Rear
24"
36" (Cleaning)
--------
--------
--------
Top
24"
--------
--------
--------
---------------------
Table 3: Minimum Clearances to Combustibles
6) The boiler should be located as close to the chimney as possible.
7) Do not install this boiler directly on a surface that may get wet. Raise the boiler on a pad.
11
9
V Knockdown Boiler Assembly Instructions
A. Prior To Assembly
1) Thoroughly inspect the cast iron heat exchanger sections for any shipping damage, i.e. cracks in the castings, broken lugs
or punctures due to mishandling.
2) Do not use a damaged heat exchanger section. Replace it with an undamaged heat exchanger section.
3) Keep the base in the shipping carton until it is time to perform the assembly. This keeps foreign material from contaminating the burners or creating other hazards. Do not use the base assembly if there are any signs of visible damage.
4) Review all of the installation requirements in this installation manual.
5) Verify that all needed components are on hand. A complete list of all sections and cartons that should be on hand,
along with their contents, can be found in the Parts Section. A summary of the cartons and their contents is shown
below. All boilers except the 32-475 use multiple base modules and therefore require multiple Base Cartons and
Intermediate Cartons. All boilers larger than the 32-855 require multiple Section Joiner Cartons. Some parts, such as
jacket screws and jacket mounting brackets are packed in both the Base Carton and the Base Side Panel Carton.
P A CKA GE
B ASE CARTON
INTERM EDIA TE CA RTON
SECTION JOINER CA RTON
B ASE SIDE PA NEL CA RTON
JA CKET SIDE P A NEL CARTON
WA TER TRIM CA RTON
STEA M TRIM CA RTON
B OILER CARTON
TA NKLESS HEA TER CARTON
SUM M A RY OF CONTENTS
B A SE M ODULE
B RACKETS AND HA RDWA RE FOR A TTA CHING JA CKET AND FLUE COLLECTOR
FRONT, TOP, REAR JA CKET P A NELS
FLUE COLLECTOR
P USHNIP PLES
TIE ROD HARDWA RE
P USHNIP PLE LUB RICA NT
SECTION SEA LING COM P OUND
B A SE SIDE P ANELS
B RACKETS AND HA RDWA RE FOR A TTA CHING JA CKET AND FLUE COLLECTOR TO SIDES OF B OILER
LEFT A ND RIGHT SIDE JA CKET P A NELS
LIM IT CONTROLS
GA UGE
LOW WATER CUT-OFF (CSD-1 BOILERS ONLY)
TANKLESS COIL OP ENING COVER PLATES A ND HA RDWA RE
A SSORTED FITTINGS
LIM IT CONTROLS
GA UGE
LOW WATER CUT-OFFS
TANKLESS COIL OP ENING COVER PLATES A ND HA RDWA RE
A SSORTED FITTINGS
INSTA LLATION M ANUAL
USER'S M A NUA L
WA RRA NTY
P USHNIP PLE GA UGE
RA TING PLATE
SEA LA NT FOR SEA LING HEA T EXCHA NGER TO B ASE
P OP SA FETY OR RELIEF VALVE
FITTINGS FOR M OUNTING P OP SA FETY OR RELIEF VA LVE
TANKLESS HEA TER (IF USED)
B. Base Assembly
1) Each base module is tested and shipped assembled.
a.
All boilers are assembled using base modules with inputs of 285, 380 and 475 MBH
b.
The model 475 boiler requires only a single base module. All other boiler combinations require multiple
base module subassemblies. See Figure 2 for the proper order of assembly.
c.
Join Base Sub-assemblies together. Use (4) 3/8”-16 x 3/4” screws, nuts and washers to attach subassemblies. (See
Figure 4)
Assemble the base in the location where the boiler is to be installed. Refer to Sections III and IV in this
manual for additional information on placement.
Once the base modules are assembled, install the base end panels. These base end panels must be installed
prior to assembling the sections.
The base must be level in both directions and supported under all feet. Shim and grout under base if
necessary.
Verify that the front and sides of the base are square.
Place cardboard covering over the top of the burners to protect them during the assembly of the boiler
sections.
d.
e.
f.
g.
h.
12
10
13
11
Figure 4: Multiple Base Assembly
C. Section Assembly
1) Clean the boiler sections inside and out to remove dirt due to shipping and handling.
2) Clean all nipples and nipple ports with kerosene immediately prior to section assembly.
3) Set the left end section on the base so that the locating lugs on the bottom of the section go inside the front and
rear base panels. Left end sections are identified by “LEH” cast on the section. Right end sections are identified
by “REH” cast on the section.
4) Apply the Loctite 592 lubricant/sealant furnished to two nipples and the nipple ports in the left section.
5) Start each nipple by hand in the nipple port and bump carefully with a wooden block to set. As this is done, check
the nipple frequently with the nipple gauge to verify that the nipple is square in the port and not cocked (see
Figure 5). Continue to bump the nipple until the nipple gauge just touches the ground surface as measured in two
directions 90 degrees apart.
CAUTION
Seating the nipples in accordance with the above instructions will make drawing the sections
together easier and assure water tight joints.
6) Apply the “joint sealer” to all ground surfaces on the left end section.
7) Carefully join the first intermediate section with the left end section. Bump lightly to secure.
8) Install 5/8" nuts and washers on one end of each of three 9 ¾” tie rods. Install one of these tie rods in each of the
three bosses in the left and intermediate section. Lubricate the other end of each of these tie rods with heavy oil or
grease. Install 5/8" nuts and washers on the lubricated ends. Finger tighten.
9) Draw the two sections together slowly and evenly, tightening each tie rod a little at a time so that the sections are
evenly spaced. KEEP THE NIPPLES ALIGNED WITH THE NIPPLE PORTS – DO NOT DRAW UP THE
SECTIONS IF THE NIPPLES ARE COCKED. Continue drawing up the sections in this manner until the
ground surfaces on each section are touching.
10) Repeat Steps (4-9) to assemble the remaining sections. After approximately five sections have been drawn
together, use a pinch bar to insert the wood wedges supplied under the last intermediate section to raise it above
the base. This will make it easier to assemble subsequent sections, particularly the right end section. As each
section is drawn up, move the wedges under that section.
CAUTION
Some boilers use intermediate sections with supply tappings. When these sections are used, it is
critical that they are located in the correct position. When assembling the sections refer to
Figure 2 to verify that they are assembled in the correct order.
11) After all sections have been drawn up, verify that the bottom lugs on the left end section are still against the left
end base panel. Using a pinch bar, remove the wood wedges and carefully lower the right end of the assembled
block onto the base.
12) Install four block anchors using 3/8 x 2" cap screws, nuts and washers (Figure 6).
13) Loosen all tie rod nuts so that they are finger tight.
14
12
Figure 5:
Use Of Nipple Gauge
Figure 6:
Assembly Of Sections
13
15
14) Install the tankless coil/s and/or cover plates using the gaskets and 3/8 x 7/8 bolts and washers provided (see
Figure 7).
15) Test assembled block for leaks. Unless local codes have other requirements, use the following procedure:
a)
Run a hose from the water service to one of the lower tappings. Install a ball or gate valve in one of the
tappings on the top of the block and connect the other end of this valve to a drain. Install a gauge in any
other convenient tapping. Plug all remaining unused tappings (See Figure 8).
b) Fill the boiler until a steady stream of water is observed going down the drain.
c) Slowly close the valve until the pressure in the boiler reads between 10 and 50 psi. DO NOT EXCEED.
d) Carefully examine all parts of the boiler block assembly for leaks.
e) Drain the boiler and remove all plugs from tappings that will be used for connections and trim (see
Piping Sections in this manual).
16) Use the supplied Resbond sealant to seal the joint between the assembled block and the base.
17) Inspect the joints between the sections for any areas that are not flue gas tight. Seal any areas found with the
remaining Resbond sealant.
Figure 8: Testing Boiler Assembly For Leaks
Figure 7: Tankless Heater Installation
D. Draft Hood Installation
1) The model 32-475 requires only one draft hood. All other boilers require multiple draft hoods. WHEN MULTIPLE HOODS ARE USED THEY MUST BE ARRANGED SO THAT EACH HOOD IS OVER A CORRESPONDING SIZED BASE MODULE.
2) Use the 1" x ½” Cerablanket strips provided to seal the draft hoods to the block assembly. To do this, lay the strips
along the top of the block in the locations that will be under the edges of the draft hood (see Figure 9). Overlap
the Cerablanket strips at the corners.
3) Install the rear panel support brackets using #10 x ½ sheet metal screws (Figure 3).
4) On the left end section, insert a 5/8 x 4 threaded stud through the available hole in the top rear tie rod lug. Use a 5/
8 nut and washer on each side of the lug to attach this stud, making sure that the stud is approximately centered on
the lug (See Figure 10). In the same manner, install 5/8 x 4" studs on the right end section and on all intermediate
sections that span the joint between base modules.
5) Place the left-most draft hood on the boiler. Insert two 5/16 x 3 carriage bolts through the holes in the lip on the
front of the hood with the head of the bolts on the underside of this lip. Thread a 5/16 washer and brass wing nuts
on each of these bolts. Slip the bolt heads into the pockets on the top of the intermediate sections (Figure 11).
Tighten just sufficiently enough to hold the hood in place.
16
14
NOTE
Installation of the draft hoods will be easier if one person supports the rear of the hood while
another installs the carriage bolts, nuts and washers.
6) Hang a rear tie rod channel bracket on the 4" stud installed in the left end section (Figure 12a).
7) Facing the rear of the boiler, find the square mounting holes underneath the draft hood. Drop a 5/16 x 5" carriage
bolt through this hole and through the hole in the rear tie rod channel bracket. Loosely secure with a wing nut and
washer (Figure 12b). Install a second rear tie rod channel bracket on the other side of the draft hood.
8) Using a plumb bob, adjust the rear tie rod channel brackets so the jacket mounting holes in the rear tie rod channel
brackets line up with the holes in the jacket rear panel support brackets on the base modules.
9) Tighten the 5/16 wing nuts on the front and back of the draft hood.
CAUTION
Before tightening the draft hood hold-down nuts, make sure the gasketing is properly located
under the draft hood. Recheck the positioning of the gaskets after tightening the nuts and make
adjustments as necessary.
10) Repeat Steps 5-9 to install the remaining draft hoods.
Figure 9: Draft Hood Gasket Installation
Figure 10: Hardware Arrangement for Rear Tie
Rod Mounting Bracket Installation
17
15
Figure 11: Front Attachment Of Draft Hood
Figure 12a: Mounting Rear Tie Rod Channel
Bracket
Figure 12b: Rear Attachment Of Draft Hood
18
16
D. Jacket Assembly Instructions
NOTE
Before installing the jacket, make sure to plug any tappings which are not going to be used. Also make sure that no
tappings are plugged which will be needed later for piping the boiler. See Sections VIII and IX for piping and trim
installation.
1) On the left and right side base panels attach the jacket side panel zee bracket and the jacket top support
bracket end angle with #10 x 1/2” sheet metal screws as shown in Figure 13.
2) Jacket top support brackets are required at the joints between base modules and at each end of the base
assembly. Attach the jacket top support brackets to the base front panel(s) with #10 x 1/2” sheet metel
screws as shown in Figure 13. Also fasten the jacket top support brackets located on each end of the
assembly to the jacket top support bracket end angles using #10 x 1/2” sheet metal screws.
3) Remove the appropriate knockouts from the side jacket panels.
4) Hang the left hand jacket side panel assembly in the slot of the jacket top support bracket and over the rear
brackets of the boiler assembly. Fasten the jacket side panel to the jacket side panel zee bracket, the jacket
rear panel support bracket, the rear tie rod channel bracket and the jacket top support bracket using
#10 x 1/2” sheet metal screws.
5) Repeat the instructions in step 3 to install the right side panel.
6) Attach the jacket rear panel assembly(s) to the jacket rear panel support brackets and the tie rod channel
brackets using #10 x 1/2” sheet metal screws.
7) Before installing the jacket top panel(s) locate the position of any intermediate supply risers and remove the
appropriate knockouts.
8) Install the jacket top panel(s) by placing the left and right flanges of the jacket top panel(s) in the slots of the
jacket top support brackets and attach using #10 x 1/2” sheet metal screws.
9) Attach the door knobs to the removable jacket front panel(s) with 8-32 x 1/2” machine screws.
10) Hang the jacket front panel(s) over the front flange of the jacket top panel while making sure the bottom of
the door drops into the slots in the gas manifold bracket.
Figure 13: Jacket Mounting Bracket Arrangement
19
17
20
18
Figure 14: Exploded View Of Jacket Assembly
VI Air For Combustion and Ventilation
Sufficient fresh air must be supplied for combustion, ventilation and flue gas dilution. Provisions for combustion,
ventilation and flue gas dilution air for gas utilization equipment vented by natural draft must be made in accordance with
local building codes or, in absence of such codes, in accordance with the National Fuel Gas Code, NFPA 54/ANSI Z223.1.
Warning
An adequate supply of combustion and ventilation air must be provided
to assure proper combustion.
1) Start by determining whether the boiler is to be installed in a building of conventional construction or of unusually
tight construction. A good definition of a building of unusually tight construction is one which has all of the
following features:
•
Walls and ceilings exposed to outside atmosphere have a continuous water vapor retarder with a rating of
1 perm or less with openings gasketed and sealed.
•
•
Weather stripping has been added on openable windows and doors.
Caulking and sealants are applied to areas such as joints around window and door frames, between sole plates
and floors, between wall-ceiling joints, between wall panels, at penetrations for plumbing, electrical, and gas
lines, and at other openings.
2) Determine the volume of the boiler room space. Rooms communicating directly with the boiler room space, in
which the fuel burning appliances are installed, through openings not furnished with doors, are considered a part of
the boiler room space.
Volume (ft³) = Length (ft) x Width (ft) x Height (ft)
In calculating the volume of the boiler room, consider the volume of adjoining spaces only if no doors are
installed between them. If doors are installed between the boiler room and an adjoining space, do not consider
the volume of the adjoining space, even if the door is normally left open.
3) Determine total input of all fuel burning appliances in the boiler room space. Add inputs of all fuel burning appliances
in the boiler room space and round the result to the next highest 1000 Btu per hour.
4) Determine type of boiler room space to be used. Divide Volume by Total Input (in MBH) of all fuel burning appliances
in the boiler room space. If the result is greater than or equal to 50 ft³/MBH, then it is considered an unconfined space.
If the result is less than 50 ft³/MBH, then the boiler room space is considered a confined space.
A. For Buildings Not Of Unusually Tight Construction
1) Unconfined space - Fresh air infiltration through cracks and around windows and doors normally provides
adequate air for combustion and ventilation without additional louvers or openings into the boiler room.
2) Confined space - Provide two openings into the boiler room, one near the floor and one near the ceiling. The top
edge of the upper opening must be within 12” of the ceiling and the bottom edge of the lower opening must be
within 12” of the floor. See Figure 15.
• Each opening must have a free area of 1 square inch per 1000 BTU/hr input of all gas burning appliances in the
boiler room. The minimum opening dimension is 3 inches. Minimum opening free area is 100 square inches
per opening.
• If the total volume of both the boiler room and the room to which the openings connect is less than 50 cubic
feet per 1000 BTU/hr of total appliance input, install a pair of identical openings into a third room. Connect
additional rooms with openings until the total volume of all rooms is at least 50 cubic feet per 1000 BTU/hr
of input.
• The “free area” of an opening takes into account the blocking effect of mesh, grills, and louvers. Where screens
are used, they must be no finer than 1/4” (4 x 4) mesh.
21
19
Figure 15: Boiler Installed In Confined Space, All Air From Inside
• If providing openings into adjacent rooms is undesirable, combustion and ventilation air can be brought into
the boiler room from outdoors. See the instructions under “For Buildings of Unusually Tight Construction”.
B. For Buildings Of Unusually Tight Construction
1) Provide outdoor air through two permanent openings which communicate directly or by duct with the outdoors or
spaces (crawl or attic) freely exchanging air with the outdoors. The top edge of the upper opening must be within
12” of the ceiling and the bottom edge of the lower opening must be within 12” of the floor. The minimum
dimension of each air opening is 3 inches. Size each opening per the following instructions:
a. Direct communication with outdoors (Figure 18) require a minimum free area of 1 square inch per 4,000 Btu per
hour input based on all fuel burning appliances in the boiler room space but not less than 100 square inches. The
minimum opening size is 3 inches.
b. Vertical ducts or Openings (Figure 16 and Figure 17) require a minimum free area of 1 square inch per 4,000 Btu
per hour input of all fuel burning appliances in the boiler room space but not less than 100 square inches. The crosssectional area of the duct shall be the same as the required free area opening. The minimum opening size is 3 inches.
c. Horizontal ducts to the outdoors (Figure 19) require a minimum free area of 1 square inch per 2,000 Btu per hour
input of all fuel burning appliances in the boiler room space but not less than 100 square inches. The cross-sectional
area of the duct shall be the same as the required free area opening. The minimum opening size is 3 inches.
d. Louvers and Grilles of Ventilation Ducts - All outside openings should be screened or louvered. Louvers will
prevent the entrance of rain and snow. Louvers and grilles must be fixed in the open position. If motorized louvers
are used, they must be interlocked to prevent boiler operation in the event the louvers do not fully open.
Important
When determining the “free area” of an opening the blocking effects of mesh screens,
grills, louvers and the like should be taken into account. Where screens are used, they
must be no finer than 1/4” (4 x 4) mesh.
22
20
Figure 16: All Air From Outdoors, Ventilated Crawl Space & Attic
Figure 17: All Air From Outdoors, Via Ventilated Attic
Figure 18: All Air From Outdoors, Using Openings Into Boiler Room
23
21
Figure 19: All Air From Outdoors, Using Horizontal Ducts Into The Boiler Room
24
22
VII Venting
Vent installation must be in accordance with local building codes, or the authority having jurisdiction, or the
National Fuel Gas Code, NFPA 54/ANSI Z223.1.
Typical vent installations are shown in Figures 20 and 21. The vent system shown in Figure 20 uses a common vent
for all boiler modules. In Figure 21, each boiler module is equipped with its own vent. The vent system in Figure 21 is
ideal on large boilers with many individually controlled base modules as the vent system will not be effectively
oversized when only a single module is firing.
1) Acceptable Chimneys - The following chimneys may be used to vent Series 32 boilers:
•
Listed Type B or L gas vent - Install in accordance with the manufacturer’s instructions, the terms of its listing, and
applicable codes.
•
Masonry Chimney - The masonry chimney must be constructed in accordance with the Standard for Chimneys,
Fireplaces, Vents, and Solid Fuel Burning Appliances (NFPA 211) and lined with a clay liner or other listed lining
system. Do not vent a Series 32 boiler into an unlined chimney.
2) Acceptable Vent Connectors - The following may be used for vent connectors:
•
Listed type B or L Gas Vent
•
Single Wall Galvanized Pipe - Use 0.018” (26 gauge or heavier). The size and location of the chimney may not
permit the use of a single wall connector in some cases. See the National Fuel Gas Code. Do not use single wall
pipe for vent connectors in attics.
•
Other Vent Connectors Permitted by the National Fuel Gas Code.
3) Chimney and Vent Connector sizing – If the entire vent system (chimney and vent connector) are constructed from
Type “B” vent, size the vent system using the National Fuel Gas Code. Where possible, also use the National Fuel
Gas Code to size vents employing single wall connectors and/or masonry chimneys. The minimum chimney size of
the 32-475 is 12”, even if the National Fuel Gas Code permits a smaller size. For boilers with more than one module,
use the Multiple Appliance vent section of the code and treat each base module as though it were a separate boiler.
For boilers with more than one module, the vent connector is always the same size as the module’s flue collar.
Many Series 32 boiler vent systems with single wall connectors and/or masonry chimneys are too large to be sized
using the National Fuel Gas Code. In these cases Table 4 may be used to size the vent system. The vent sizes shown
in Table 4 are based on the following assumptions:
·
·
·
·
·
·
·
Chimney Height (Dimension “H”) at least 20 ft high
Total length of lateral (“Lm”) less than or equal to that shown in Table 4
No more than one 90 elbow is permitted in lateral common venting
Vent connectors and common vent lateral constructed of single wall pipe or “B” vent
Chimney is constructed of B vent or is a lined masonry chimney in good condition
No other appliances are connected into the vent system
Listed Chimney Cap is used
If any of these assumptions are not valid, and where the National Fuel Gas Code cannot be used, use other accepted
chimney design methods such as those shown in Chapter 30 of the ASHRAE HVAC Systems and Equipment Handbook.
4) Do not connect the boiler into a chimney flue serving an open fireplace or other solid fuel appliance.
5) Prior to boiler installation, inspect chimney for obstructions or other defects and correct as required. Clean chimney
as necessary.
25
23
6) Lateral venting should slope upwards towards the chimney not less than one inch in four feet. No portion of vent pipe
should run downward or have sags. Vent pipe must be securely supported.
7) The connector rise coming off the boiler should be as tall as possible, while still maintaining the proper
clearance from the horizontal vent connector to combustibles and the proper pitch called for in (6) above.
8) Lateral vent pipe should be installed above the bottom of the chimney to prevent blockage.
9) Lateral vent pipe must be inserted flush with inside face of the chimney liner and the space between vent pipe and
chimney sealed tight.
IMPORTANT: READ THE ENTIRE VENT SECTION
AND REFER TO FIGURE 20 BEFORE
ATTEMPTING TO USE THIS CHART
MODEL
32-475*
32-570
MIN. CHIMNEY
HEIGHT (H), ft
MAX. LATERAL
MIN. COMMON VENT
COMMON VENT (Lm), ft INSIDE DIA. (D), in
20
9 1/2
32-665
20
9 1/2
32-760
20
10
32-855
20
10 1/2
32-950
20
11
32-1045
20
11 1/2
32-1140
20
12
32-1235
20
12 1/2
32-1330
20
13
32-1425
20
13 1/2
32-1520
20
14
32-1615
20
14 1/2
32-1710
20
14 1/2
32-1805
20
15
32-1900
20
15 1/2
32-1995
20
16
32-2090
20
16 1/2
32-2185
20
17
32-2280
20
17 1/2
32-2375
20
18
32-2470
20
18 1/2
32-2565
20
19
32-2660
20
19 1/2
32-2755
20
19 1/2
32-2850
20
20
* USE NATIONAL FUEL GAS CODE TO SIZE 32-475 VENTING
12
12
12
12
14
14
14
14
16
16
16
16
18
18
18
18
18
20
20
20
20
20
22
22
22
Table 4: Sizing For Vent Systems Outside The Scope Of The National Fuel Gas Code Venting Tables
26
24
Figure 20: Typical Series 32 Venting (Common Module Venting)
Figure 21: Series 32 Venting (Each Module Individually Vented)
27
25
Removing An Existing Boiler From A Common Chimney
In some cases, when an existing boiler is removed from a common chimney, the common venting system may be too large
for the remaining appliances. At the time of removal of an existing boiler, the following steps shall be followed 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.
a) Seal any unused opening 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.
c) Insofar as practical, close all building doors and windows and all doors between the space in which all the appliances
remaining connected to the common venting system are located and other spaces of the building. Turn on clothes
dryers and any appliance not connected to the 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.
d) Place in operation the appliance being inspected. Follow the lighting instructions. Adjust thermostat so the
appliance will operate continuously.
e) Test for spillage at the draft hood relief opening after five (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
appliances to their previous condition of use.
g) Any improper operation of the common venting system should be corrected so the installation conforms with the
National Fuel Gas Code, ANSI Z223.1. 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 Part 11
of the National Fuel Gas Code, ANSI Z223.1.
28
26
VIII Steam Boiler Piping & Trim Installation
CAUTION
•
INSTALL BOILER SO THAT THE GAS IGNITION SYSTEM COMPONENTS ARE PROTECTED
FROM WATER (DRIPPING, SPRAYING, RAIN, ETC.) DURING APPLIANCE OPERATION
AND SERVICE (CIRCULATOR REPLACEMENT, ETC.).
•
OPERATION OF THIS BOILER IN A SYSTEM HAVING SIGNIFICANT AMOUNTS OF
DISSOLVED OXYGEN CAN CAUSE SEVERE HEAT EXCHANGER CORROSION DAMAGE.
A. Heating System Piping (Steam Boilers)
1) Figures 27 shows the recommended near boiler piping for most common types of gravity return steam systems. Use
Table 6 to determine the riser, header and equalizer piping sizes for the appropriate boiler model.
2) One of the primary purposes of the near boiler piping is to separate tiny water droplets from the steam exiting the
boiler so that “dry” steam is sent to the system. If the near boiler piping is not correct, wet steam will enter the
system and the following problems may occur:
• Short cycling on low water
• Boiler or system Flooding
• Hammering
• Failure to heat one or more radiators
3) Avoid the three common piping mistakes shown in Figure 25. This applies even if the existing boiler has one of
the piping mistakes shown in Figure 25 and appears to be working. If two or more steam mains must be connected
to the boiler, connect a separate take-off for each main into the header between the riser(s) and equalizer. Also
note the following points:
a. A size reduction must be made to connect the header to the equalizer. This reduction must be made in the
equalizer line. Do not make this size reduction in the horizontal header.
b. For installations with condensate or boiler feed pumps, follow the pump manufacturer’s piping instructions. Such
systems generally do not require Hartford loops. Figure 26 shows typical near-boiler piping when a boiler feed
pump is used.
c. Do not use a check valve in place of, or in addition to, a Hartford loop on a gravity return system.
d. Steam pipes shall have a clearance of at least 1/2” from all combustible construction.
e. Pipe the fill connection from a clean source of cold water. When the water supply is from a well, make sure that
a strainer is installed in the well system.
4) Boiler trim may be installed on either the left or right side of the boiler. Table 4B shows the uses of all steam boiler
tappings. The tapping letter designations referenced below are shown in Figure 22:
a. Pressure Gauge – Install in tapping “D”using the 1/2” nipple, tee and bushing provided. See Figure 23. DO
NOT TIGHTEN THE GAUGE BY ITS’ CASE.
b. Low Water Cut-off – Depending upon local codes, and how the boiler is ordered, one or more of the following
low water cut-offs may be used:
McDonnell & Miller #67 – Install in tappings “E”. If redundant low water cut-offs are used, the #67 must
be the back-up low water cut-off. The #67M (manual reset type) is standard on the CSD-1 control package
and should also be used when other codes require a back-up low water cut-off with manual reset.
29
27
Hydrolevel CG450 – This is a probe type LWCO and is installed in tapping “G”. On the CSD-1 control
package, and other boilers with redundant low water cut-offs, the CG450 is the operating low water cut-off
and should be used to control a feeder (if used).
The CG450 supplied with the Series 32 uses a special probe which does not have a mounting flange.
Install this probe in tapping “G”. DO NOT INSTALL WITH TEFLON TAPE. With the jacket already
installed, installation of the probe is most easily done using a 1-1/16" deep throated socket. After the probe
is installed, mount the case of the CG450 to the jacket using two #10 x ½ sheet metal screws through the
keyhole slots in the case (Figure 24). Connect the white probe wire to the wing nut on the probe. Note: A
direct ground connection between the case and the body of the probe is not required.
Other Low Water Cut-offs – Other float type low water cut-offs, such as the McDonnell & Miller #150
pump controller, are installed in an equalizing pipe connected between tappings “B” and “J”.
c. Gauge Glass – Install gauge glass in tappings “E” or in the #67 LWCO Tees (if used).
d. Pressure Limit Controls – All Series 32 steam boilers are supplied with a PA404A or L404A operating pressure
limit control. In addition, a manual reset L404C is supplied on boilers with the CSD-1 control package.
Install the PA404A using the straight pigtail siphon and bushing in the tee installed in Tapping “D”. See
Figure 23.
When an L404C is used, install it using the straight pigtail siphon in the 1/4” tapping on top of the #67 LWCO.
e. Safety Valve – Before installing the safety valve, examine the tag on the valve and confirm that it has a capacity
greater than or equal to the of the boiler’s gross output. Also confirm that its’ pressure setting is less than or
equal to that marked on the boiler sections (15 psi for steam). The location of the safety valve depends upon its’
size:
· Safety Valves of 1-1/2" and smaller are installed in one of the “C” tappings using the 1-1/2” nipple, tee and
bushing provided. See Figures 26 or 27. To do this, install a 1-1/2" nipple and 1-½” Tee in the “C” tapping
with the run of the Tee horizontal and the “bull” (side outlet) of the Tee pointing up. Install the Safety Valve in
the “bull” of the Tee and plug the remaining opening in the Tee. The use of a Tee to mount the relief valve
will permit Tapping “C” to also be used for skimming the boiler.
· Safety Valves greater than 1-1/2" must be installed in the steam riser with their spindle vertical (Figure 27c).
No valves are permitted between the boiler and the steam header.
Pipe the discharge of the safety valve to a location where hot water and steam will not create a hazard or cause
property damage if the valve opens. The discharge pipe must be the same size as the outlet connection on the
safety valve and must terminate in unthreaded pipe. The safety valve discharge piping must be in an area where it
is not likely to become plugged by debris or subjected to freezing.
DANGER
•
CONFIRM SAFETY VALVE HAS THE CORRECT PRESSURE SETTING AND CAPACITY
FOR THE BOILER.
•
•
PIPE SAFETY VALVE DISCHARGE TO A SAFE LOCATION.
•
•
•
•
DO NOT INSTALL A VALVE IN THE SAFETY VALVE DISCHARGE LINE.
PIPING BETWEEN SAFETY VALVE CONNECTION AND BOILER MUST BE AT LEAST
AS LARGE AS SAFETY VALVE INLET CONNECTION.
DO NOT MOVE SAFETY VALVE FROM FACTORY LOCATION.
DO NOT PLUG SAFETY VALVE DISCHARGE.
DO NOT INSTALL A POP SAFETY VALVE WITH A SETTING GREATER THAN 15 PSI.
30
28
Figure 22: Steam Boiler Tapping Locations
Tapping Uses Chart For Steam Boilers1
Component Description
Tapping
Location
A
B
Tapping
Size (in)
3
3
Standard
Equipment
N
N
CSD-1
Package
N
N
Safety Relief Valves
(With Inlet Opening Up To & Including 1-1/2" NPT Inlet)
C2
1-1/2
Y
Y
Safety Relief Valves
(With Inlets Larger Than 1-1/2" NPT Inlet)
Riser
(See Figure 27c)
-
Y
Y
Pressure Gauge
Water Gauge Glass Fittings
D
E
1/2
1/2
Y
Y
Y
Y
M & M #67 Low Water Cut-Off
M & M #67M Low Water Cut-Off with Manual Reset
E
E
1/2
1/2
Y
N
N
Y
Hydrolevel CG450 Probe Low Water Cut-Off
Steam Equalizer Installed On The End Not Equipped With Trim
(With Optional M & M #150 Float Low Water Cut-Off / Pump Controller)
G
Between
B&J
3/4
N
Y
3&1
N
N
Honeywell PA404A Or L404A Pressure Limit
D
1/4" Tapping on
Top of #67 LWCO
1/2
Y
Y
-
N
Y
Boiler Drain Valve
Bottom Blowoff Piping
B
B
3
3
Y
N
Y
N
Cover Plate
Indirect Water Heater Connection
F
H
1-1/2
Y
N
Y
N
Indirect Water Heater Aquastat
I
3/4
N
N
Supply Piping
Return Piping
Honeywell L404C Manual Reset Pressure Limit Control
1. Trim May Be Installed On Either End Section.
2. Use The Tapping Located On The End Not Equipped With Trim For The Safety Relief Valve & The Surface Blow off .
Table 5
31
29
f.
g.
Boiler Drain Valve - Install with a 3” x ¾” bushing into one of the two return tappings “B”. The drain valve
may also be installed in the return piping, but it must be installed in the leg of a tee so that it is directly opposite
and as close as possible to the return tapping. The leg of the tee must be at least 1½” pipe size.
A bottom blowoff using a valve must also be connected to one of the return tappings (B). The ¾” Drain Valve
may be used for a bottom blowoff for the boiler model 32-570 or smaller boilers. Bottom blowoff piping and
valves for the boiler models 32-665 through the 32-1520 must be at least 1”. Bottom blowoff piping and valves
for the boiler models 32-1615 through the 32-2850 must be at least 1¼”.
Install the “Lowest Permissible Water Level Plate” using the holes provided in the jacket panel near the
LWCO.
Figure 23: Pressuretrol / Gauge Installation
Figure 24: CG450 Installation
32
30
Figure 25: Common Near-Boiler Piping Mistakes
Steam
Steam
Return
Condensate
Equalizer
Boiler
Header
Riser Pipe
Header
Return Pipe
Pipe
Model
Size (in) Quantity Size (in) Size (in) Quantity Size (in) Quantity Size (in)
32-380
3
1
3
1 1/2
1
1 1/2
1
2
32-475
3
1
3
1 1/2
1
1 1/2
1
2
32-570
4
2
3
1 1/2
1
1 1/2
1
2
32-665
4
2
3
2
1
2
1
2 1/2
32-760
4
2
3
2
1
2
1
2 1/2
32-855
4
2
3
2
1
2
1
2 1/2
32-950
5
2
3
2
1
2
1
2 1/2
32-1045
5
3
3
2
1
2
1
2 1/2
32-1140
5
3
3
2 1/2
1
2
1
2 1/2
32-1235
5
3
3
2 1/2
1
2
1
2 1/2
32-1330
5
3
3
2 1/2
1
2
1
2 1/2
32-1425
5
3
3
2 1/2
1
2
1
2 1/2
32-1520
6
3
3
2 1/2
1
2
1
2 1/2
32-1615
6
4
3
2 1/2
1
2
1
2 1/2
32-1710
6
4
3
2 1/2
1
2
1
2 1/2
32-1805
6
4
3
2 1/2
1
2 1/2
1
3
32-1900
6
4
3
2 1/2
1
2 1/2
1
3
32-1995
6
4
3
3
1
2 1/2
1
3
32-2090
6
5
3
3
1
2 1/2
1
3
32-2185
8
5
3
3
1
2 1/2
1
3
32-2280
8
5
3
3
1
2 1/2
1
3
32-2375
8
5
3
3
1
2 1/2
1
3
32-2470
8
5
3
3
1
2 1/2
1
3
32-2565
8
5
3
3
1
3
1
4
32-2660
8
6
3
3
1
3
1
4
32-2755
8
6
3
3
1
3
1
4
32-2850
8
6
3
4
1
3
1
4
Note: 1. The pipe sizes listed above are nominal trade sizes f or Schedule 40 pipe.
Table 6: Steam Boiler Riser & Header Pipe Sizes
33
31
34
32
Figure 26: Typical Near-Boiler Piping When Using A Boiler Feed Pump
35
33
Figure 27a: Recommended Steam Boiler Piping: 1 or 2 Supply Connections, Gravity Return
36
34
Figure 27b: Recommended Steam Boiler Piping: 3 Supply Connections, Gravity Return
37
35
Figure 27c: Recommended Steam Boiler Piping: 4, 5 or 6 Supply Connections, Gravity Return
B. Indirect Water Heating Piping (Steam Boilers)
The steam version of the Series 32 boiler is equipped with tappings to permit the connection of a Crown Mega-Stor, or other
indirect water heater. In this type of system, hot boiler water is drawn from below the water line and passed through the heat
exchanger in the indirect water heater. This section describes boiler-side piping only. Refer to the indirect water heater
instruction manual for domestic water piping. The components in this system and their functions are as follows:
1) Circulator - Mount the circulator as shown in Figure 28. The circulator should be located as low and as close to the
boiler as practical. Do not install valves, or other devices having a significant pressure drop, between the boiler and
the circulator inlet. All piping between the boiler and the circulator inlet should be 1-1/2”, regardless of the size of the
piping required in the rest of the system.
2) “Y” Strainer - Install a “Y” strainer to prevent sediment from accumulating inside the indirect water heater.
3) Check Valve - Prevents gravity circulation through the indirect water heater when the boiler is responding to a call for
heat.
4) Boiler Limit Control - Use a SPST break-on-rise temperature limit control such as the Honeywell L4006A. Do not
set the limit above 180F as doing so may cause the boiler to steam when there is no call for heat.
5) Valves and Unions - Install shut-off valves, drain valves, and unions in locations that will facilitate maintenance of the
system. Do not install any valves between the boiler and circulator inlet.
IMPORTANT
•
Some indirect water heaters may not be suitable for use with a steam boiler. Consult the water heater
manufacturer’s guidelines before installing it in this type of system.
•
Boiler water temperatures and flow rates in this type of system may be considerably lower than those upon which the
water heater manufacturer’s ratings are based. This may result in substantially longer water heater recovery times.
Figure 28: Indirect Water Heater Boiler-Side Piping
38
36
IX Water Boiler Piping
CAUTION
•
INSTALL BOILER SO THAT THE GAS IGNITION SYSTEM COMPONENTS ARE PROTECTED FROM
WATER (DRIPPING, SPRAYING, RAIN, ETC.) DURING APPLIANCE OPERATION AND SERVICE
(CIRCULATOR REPLACEMENT, ETC.).
•
OPERATION OF THIS BOILER WITH CONTINUOUS RETURN TEMPERATURES BELOW 120°F CAN
CAUSE SEVERE HEAT EXCHANGER CORROSION DAMAGE.
•
OPERATION OF THIS BOILER IN A SYSTEM HAVING SIGNIFICANT AMOUNTS OF DISSOLVED
OXYGEN CAN CAUSE SEVERE HEAT EXCHANGER CORROSION DAMAGE.
•
DO NOT USE TOXIC ADDITIVES, SUCH AS AUTOMOTIVE ANTIFREEZE, IN A HYDRONIC SYSTEM.
A. Heating System Piping
1) Figure 30 shows the recommended water boiler system piping. Use Table 8 to determine the supply riser, supply
header, return header and boiler return piping connection sizes for the appropriate boiler model. On boilers
requiring one supply riser, use the supply connection opposite the return connection. Install the trim on the same
end as the supply connection. Additional information on hydronic system design may be found in the I=B=R
Advanced Installation and Piping Guide (Pub. #250) published by the Hydronics Institute in Berkeley Heights,
NJ or the ASHRAE Systems Handbook. Table 7 shows the use of all boiler tappings on water boilers. The
tapping letter designations referenced are shown in Figure 29. The water trim components are as follows:
a. Pressure Gauge – Install in tapping “D”. Tapping “D” must be reduced from ½” to ¼”. DO NOT TIGHTEN
THE GAUGE BY ITS CASE.
b. Low Water Cut-off – (Required in some situations) - A low water cutoff is required when the boiler is installed
above radiation. In addition, some codes, such as ASME CSD-1, require low water cutoffs. Codes may also
require that this low water cutoff have a manual reset function. When a probe low water cut-off is used, install it
in the supply piping above the boiler with no intervening valves between it and the boiler.
c. Limit Controls – All Series 32 water boilers are supplied with an L4006A operating temperature limit control.
In addition, a L4006E manual reset control is supplied on boilers with the CSD-1 control package. Install the
immersion well supplied with the L4006A in Tapping “C” with a bushing. Insert the bulb of the control in the
well until it rests against the bottom of the well. Bend the tubing if necessary to provide enough force to hold
the bulb against the bottom of the well. Avoid making a sharp bend in the tubing as this can cause the control to
malfunction. Tighten the screw on the bottom of the control so that it is securely clamped onto the well. When
an L4006E is used, install it in the supply riser on the same side of the boiler as the L4006A. Install it in a well
in the same manner as the L4006A.
d. Pressure Relief Valve (Required) - Before installing the relief valve, examine the tag on the valve and confirm
that it has a capacity greater than or equal to the boiler’s gross output. Also confirm that its pressure setting is
less than or equal to that marked on the boiler sections for water. Install Relief Valves in the “C” tapping on the
opposite end of the boiler from the other trim. Install the relief valve using the elbow and nipples provided so
that its’ spindle is vertically oriented (Figure 30).
Pipe the discharge of the relief valve to a location where hot water and steam will not create a hazard or cause
property damage if the valve opens. The discharge pipe must be the same size as the outlet connection on the
safety valve and must terminate in unthreaded pipe. The relief valve discharge piping must be in an area where it
is not likely to become plugged by debris or subjected to freezing.
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37
DANGER
•
CONFIRM RELIEF VALVE HAS THE CORRECT PRESSURE SETTING AND CAPACITY FOR THE
BOILER.
• PIPE THE PRESSURE RELIEF VALVE DISCHARGE TO A SAFE LOCATION.
• DO NOT INSTALL A VALVE IN THE RELIEF VALVE DISCHARGE LINE.
• DO NOT PLUG RELIEF VALVE DISCHARGE.
3) In addition to the boiler trim, the following system components are required:
a. Circulator - The best circulator location is usually on the supply piping just downstream of the expansion
tank as shown in Figure 30.
b. Expansion Tank - Consult the expansion tank manufacturer’s literature for proper sizing.
c. Fill Valve - Either a manual or automatic fill valve may be used. The fill connection should be located at the
expansion tank. On large systems with an automatic fill valve, it is recommended that a small water meter be
installed in the make-up water line to monitor the amount of water added to the system.
d. Air Elimination Device - At least one automatic air elimination device is required and should be located at the
expansion tank. Manual vents will usually be required in other parts of the system to facilitate the removal of air
during initial fill.
4) Certain systems will require additional considerations:
a. Low System Return Temperatures - The bypass piping shown in Figure 30 will minimize the amount of time that
the boiler operates with return temperatures below 120°F on these systems. A bypass is installed as shown to
divert some supply water directly into the return water. The bypass pipe should be the same size as the supply.
The two throttling valves shown are adjusted so that the return temperature rises above 120°F during the first few
minutes of operation. A three-way valve can be substituted for the two throttling valves shown.
b. Systems containing oxygen - Many hydronic systems contain enough dissolved oxygen to cause severe corrosion
damage to a cast iron boiler such as the Series 32. Some examples include:
• Radiant systems that employ tubing without an oxygen barrier.
• Systems with routine additions of fresh water.
• Systems which are open to the atmosphere.
If the boiler is to be used in such a system, it must be separated from the oxygenated water being heated with a
heat exchanger. Consult the heat exchanger manufacturer for proper heat exchanger sizing as well as flow and
temperature requirements. All components on the oxygenated side of the heat exchanger, such as the pump and
expansion tank, must be designed for use in oxygenated water.
c. Piping with a Chiller - If the boiler is used in conjunction with a chiller, pipe the boiler and chiller in parallel.
Use isolation valves to prevent chilled water from entering the boiler. See Figure 31.
d. Air Handlers - Where the boiler is connected to air handlers through which refrigerated air passes, use flow
control valves in the boiler piping or other automatic means to prevent gravity circulation during the cooling
cycle.
40
38
Figure 29: Water Boiler Tapping Locations
Tapping Uses Chart For Water Boilers1
Component Description
Tapping
Location
SupplyPiping
A
3
N
N
Return Piping
B
3
N
N
Pressure Relief Valves
C2
1-1/2
Y
Y
Combination Pressure / Temperature / Altitude Gauge
E
1/2
Y
Y
Hydrolevel #750 Probe Low Water Cut-Off
SupplyRiser
-
N
Y
Honeywell L4006APressure Limit Control
D
1/2
Y
Y
SupplyRiser
-
N
Y
Boiler Drain Valve
B
3
Y
Y
Cover Plate
F
-
Y
Y
Optional Tankless Heater
F
-
N
N
Honeywell L4006E Manual Reset Pressure Limit Control
(To Be Installed On The Same Side As L4006A)
1. Trim May Be Installed On Either End Section.
2. Use The Tapping Located On The End Not Equipped With Trim For The Pressure Relief Valve.
Table 7
41
39
Tapping Standard
CSD-1
Size (in) Equipment Package
42
40
Figure 30: Typical Water Boiler System Piping
Supply
Supply Water
Return
Return Water
Boiler
Header
Riser Connections Header
Connections
Model
Size (in) Quantity Size (in) Size (in) Quantity Size (in)
32-475
2
1
2
2
1
2
32-570
2
1
2
2
1
2
32-665
2 1/2
1
2 1/2
2 1/2
1
2 1/2
32-760
2 1/2
1
2 1/2
2 1/2
1
2 1/2
32-855
2 1/2
1
2 1/2
2 1/2
1
2 1/2
32-950
3
1
3
3
1
3
32-1045
3
1
3
3
1
3
32-1140
3
1
3
3
1
3
32-1235
3
1
3
3
1
3
32-1330
3
1
3
3
1
3
32-1425
3
1
3
3
1
3
32-1520
3
2
2 1/2
3
2
2 1/2
32-1615
3
2
2 1/2
3
2
2 1/2
32-1710
3
2
2 1/2
3
2
2 1/2
32-1805
3
2
2 1/2
3
2
2 1/2
32-1900
3
2
3
3
2
3
32-1995
4
2
3
4
2
3
32-2090
4
2
3
4
2
3
32-2185
4
2
3
4
2
3
32-2280
4
2
3
4
2
3
32-2375
4
2
3
4
2
3
32-2470
4
2
3
4
2
3
32-2565
4
2
3
4
2
3
32-2660
4
2
3
4
2
3
32-2755
4
2
3
4
2
3
32-2850
4
2
3
4
2
3
Note: 1.The pipe sizes listed above are nominal trade sizes for Schedule 40
Table 8: Water Boiler Supply & Return Pipe Sizes
Figure 31: Recommended Boiler Piping For
Combination Heating & Cooling Systems
41
43
B. TANKLESS HEATER PIPING
If the Series 32 water boiler is installed with an optional tankless heater, pipe the heater as shown in Figure 32. The
components in this system and their functions are as follows:
1) Mixing Valve (Required) - During the heating season, the water exiting the tankless heater may be 180 degrees or
more. The mixing valve blends hot water leaving the tankless heater with cold water so as to maintain the hot water
supplied to the fixtures at a fixed temperature. This saves energy, increases the amount of usable hot water available
to the homeowner, and reduces the risk of scalding.
Install a mixing valve with a setting range of approximately 110 to 130F. Follow the manufacturer’s instructions for
installing this valve. Usually a “heat trap” will be required between the coil and the “hot” connection on the mixing
valve.
WARNING
A mixing valve does not eliminate the risk of scalding.
•
Set the mixing valve and boiler low limit adjustments as low as possible.
•
Feel water before showering or bathing
•
If anti-scald or anti-chill protection is required, use devices specifically designed for such service. Install and
maintain these devices in accordance with the manufacturer’s instructions. Do not use the mixing valve as a
substitute for pressure balancing valves or other devices required by plumbing codes to protect against
scalding.
2) Flow Restrictor (Recommended) - If water is drawn from the tankless coil at a rate in excess of the rating in Table 9,
the temperature of the hot water may be too low to be of use. The use of a flow restrictor will prevent this problem by
limiting the rate at which water can pass through the tankless heater. If a restrictor is used, select one having a rating
in GPM approximately equal to the rating shown in Table 9. If possible, locate this restrictor at least 3 feet from the
tankless heater inlet so that it is not subjected to excessive temperatures when no water is flowing through the coil.
3) Pressure Relief Valve (Required) - Limits the pressure in the tankless heater and piping. Use an ASME constructed
valve designed for domestic water service, such as the Watts #3L. Note that this is a pressure relief valve, not a T&P
valve. Select a valve with a pressure setting less than or equal to the working pressure marked on the tankless coil.
Pipe the discharge to a safe location using piping the same size as the discharge connection on the valve.
4) Hose Bib Valves (Recommended) - These valves permit the coil to be periodically “backflushed” to remove sediment.
5) Globe or Ball Valve (Recommended) - Used to adjust the flow through the entire tankless heater system if needed.
6) Unions (Required) - Tankless heaters may require periodic gasket replacement or other maintenance which requires
removal of the heater from the boiler. Install unions anywhere in the tankless heater piping that will facilitate removal
of the heater.
7) Backflow Preventer (Required in Massachusetts) - If required by local codes, install a backflow preventer in the cold
water connection to the tankless coil just upstream of the piping shown in Figure 32. Install in accordance with local
codes and the backflow preventer’s installation instructions. Also install a potable water expansion tank on the outlet
side of the backflow preventer (between the backflow preventer and the piping shown in Figure 32).
44
42
8) Multiple Tankless Heaters - If two tankless heaters are installed in the boiler, it is recommended that each heater be
installed in parallel with its own mixing valve, relief valve, flow restrictor, etc.. This will permit either heater to be
removed from service for maintenance while still providing some domestic water to the building.
Figure 32: Tankless Heater Piping
Tankless Heater
Model Num ber
For Use In
Boilers
T-1
All Sizes
Continuous Draw
Heater Ratings
Pressure Drop
40° - 140° Rise
Through Heater
w ith 200°F Boiler
(psi)
Tem perature
Minim um
Num ber of
Sections
Required Per
Heater
Clearance
Requirement
For Heater
Removal
4.5 GPM
8.8
5
27"
T-2
All Sizes
5.0 GPM
18.0
6
32"
T-3
32-665 & Larger
6.0 GPM
1.2
8
42"
All Series 32 boilers are furnished w ith left and right heater end sections. It is possible to install a heater in both ends
provided the number of sections in the boiler in not less than the sum of the number of sections required for each
heater as indicated in the table. Example: T2 + T3 = 6 + 8 = 14 section or larger boiler.
Table 9: Tankless Heater Specifications
45
43
X Gas Piping
1) Gas piping to the boiler must be sized to deliver an adequate supply of gas for the boiler to fire at the nameplate
input with the inlet pressure at the gas valves between the minimum and maximum valves shown on the rating
plate. For more information on gas line sizing, consult the Utility or the National Fuel Gas Code.
2) Figure 33 shows the typical gas piping connection(s) to the Series 32 boiler. A sediment trap must be installed
upstream of all gas controls. Install a manual shut-off valve and ground joint union as shown.
3) The boiler and its gas connection must be leak tested before placing the boiler in operation. When doing this, the
boiler and its individual shut-off must be disconnected from the rest of the system during any pressure testing of
that system at pressures in excess of 1/2 psi. When pressure testing the gas system at pressures of 1/2 psi or
less, isolate the boiler from the gas supply system by closing its individual manual shut-off valve.
Figure 33: Gas Main Piping And Branch Connections To Boiler
46
44
XI Control System Wiring
WARNING
All wiring and grounding must be done in accordance with the authority having jurisdiction or, in the absence of such
requirements, with the National Electrical Code (ANSI/NFPA 70).
1) Provide the boiler with a dedicated branch circuit with a fused disconnect. The minimum rating of this circuit
must be 15A.
2) Wire the boiler following the appropriate wiring diagram in Figures 35 or 36. Use 14 gauge wire for all 120 volt
boiler wiring. Use wire with a temperature rating of 105°C for wiring routed along gas manifolds. Install the
junction box provided on one of the end panels. This junction box is to become the hub for all limit and low water
cut-off wiring. All 120 volt boiler wiring must be enclosed in conduit. Route wiring to base modules in flexible
conduit along the gas manifolds. See Figure 34 for typical wire routing.
3) Make sure that all single pole switches and safety controls are in the “hot” (ungrounded) side of the circuit.
4) The “operating control” shown in Figures 35 and 36 is not supplied. It is the control that turns on the boiler in
response to a call for heat. If a 24 volt thermostat is to be used as the operating control a 24 volt relay center,
such as the Honeywell R845, may be used to cycle the boiler in response to a call for heat. An R845A may also be
used to start a system circulator if necessary as long as it’s contact rating is not exceeded.
On water boilers with multiple base modules, the bases may be “staged” by using a set of operating control
contacts to break the 24 volt “hot” (ungrounded) lead connecting the base transformer to the ignition module. Do
not stage steam boilers with multiple bases.
WARNING
OPERATING CONTROL CONTACTS MUST BE “DRY” (ELECTRICALLY ISOLATED FROM ALL OTHER
CIRCUITS IN THE OPERATING CONTROL). IF OPERATING CONTROL CONTACTS ARE NOT DRY, THE
BOILER SAFETY DEVICES COULD BE DEFEATED RESULTING IN PROPERTY DAMAGE, INJURY OR
LOSS OF LIFE.
Sequence of Operation – Standard Boiler Wiring
1) All low water cut-offs, limit controls, and the operating contacts are wired in series so that the boiler will not
operate if any of these controls are open. Under normal circumstances, only the operating control contacts will be
open.
2) Upon a call for heat, the operating control will make and 120 volts will be applied to all base module transformers,
which are wired in parallel.
3) 24 volts will then appear across the “24V” and “24V (GND)” terminals on the ignition modules.
4) Upon application of voltage across the “24V” and “24V (GND)” terminals, the ignition module will start an ignition
spark at the pilot and apply 24 volts across the pilot valve.
5) Once the pilot is established, the pilot flame will act as a diode, converting the AC current at the electrode to a half
wave DC current at the pilot’s ground strap. This DC current flows through the boiler to the “GND (BURNER)”
connection on the ignition module.
47
45
6) Once the ignition module detects the presence of a pilot flame, voltage is applied across the main valve, opening
the valve and establishing main flame.
7) The way in which the ignition module handles failure to establish pilot or the loss of an already established pilot
depends upon the exact ignition module supplied with the boiler. For more information on module operation,
consult the ignition module instructions supplied with the boiler or the local Crown representative.
Sequence of Operation – CSD-1 Boiler Wiring
1) All low water cut-offs, limit controls, and the operating contacts are wired in series so that the boiler will not
operate if any of these controls are open. Under normal circumstances, only the operating control contacts will be
open.
2) Upon a call for heat, the operating control will make and 120 volts will be applied to all base module transformers,
which are wired in parallel.
3) 24 volts will then appear across the “24V” and “24V (GND)” terminals on the ignition modules and on the
“24VAC” and “COM” terminals on the 1145-2 Daughter Board.
4) The ignition module will start an ignition spark at the pilot and apply 24 volts across the pilot valve.
5) Once a pilot is established, the pilot flame will act as a diode, converting AC current at the pilot electrode to a half
wave DC current at the pilot’s ground strap. This DC current flows through the boiler to the “GND” terminal on
the ignition module.
6) Once the ignition module detects the presence of a pilot flame, voltage is applied across the main valve, opening
the valve and establishing main flame.
7) If the pilot flame is not established during the trial for ignition period, or if the pilot signal is lost after the main
flame is established, the module will de-energize the open pilot valve and main valve (if open) and wait 5 minutes.
It will then repeat steps 4-6. If the pilot is still not established, the Alarm contacts on the ignition module will
make. This will cause the 1145-2 Daughter Board to break power to the ignition module and illuminate the red
LED on the Daughter Board. The ignition module will remain de-energized until the reset button on the daughter
board is pressed.
Figure 34: Typical Wire Routing
48
46
Figure 35: Series 32 Standard Boiler Wiring
49
47
Figure 36: Series 32 - CSD-1 Boiler Wiring
50
48
Safety Control Operation
Temperature Limit Control (Water Boilers) – The temperature limit control interrupts burner operation when the supply
water temperature exceeds the set point. Maximum allowable water temperature in a water boiler is 250F. The L4006A
will reset itself when the water temperature drops below the set point less the differential (typically 15F). Manual reset
water limit controls, such as the Honeywell L4006E, must be manually reset. For this reason, they should be set well
above the operating limit control to avoid nuisance boiler shut-downs.
Pressure Limit Control (Steam Boilers) – The pressure limit control interrupts burner operation when the steam pressure
exceeds the set point. Maximum allowable steam pressure is 15psi, however the pressure limits should be set below this
to prevent the safety valve from opening unnecessarily. Manual reset pressure limit controls, such as the Honeywell
L404C, must be manually reset. For this reason, they should be set well above the operating pressure limit control to
avoid nuisance boiler shut-downs.
Low Water Cut-off (Steam and Water Boilers) – Low water cut-offs interrupt burner operation if the water level in the
boiler drops below a safe level. Steam boilers may be equipped with two low water cutoffs so that there is a back up low
water cut-off if the first one fails to shut down the boiler in a low water condition. In this case, the back up low water
cutoff must be installed below the “operating” low water cut-off and is usually a manual reset type.
51
49
XII Start-up and Checkout
NOTE
SAFE LIGHTING AND OTHER PERFORMANCE CRITERIA WERE MET WITH THE GAS MANIFOLD AND
CONTROL ASSEMBLY PROVIDED ON THE BOILER WHEN THE BOILER UNDERWENT THE TESTS
SPECIFIED IN Z21.13.
Use the following procedure for initial start-up of the boiler:
1) Make sure that the boiler is filled with water.
2) Check all new gas piping for leaks and purge piping sections that are filled with air. See the National Fuel Gas
Code for additional information on testing and purging gas lines.
3) Verify that vent system is complete and free of obstructions before attempting to fire boiler.
4) Inspect all wiring for loose or uninsulated connections.
5) Make sure the main burners are seated properly in the rear of burner tray and on orifices.
6) Adjust thermostat to the highest setting.
7) Start the boiler using the appropriate lighting instructions for the gas valve on the boiler on pages 54 and 55.
8) Upon initial start-up, the gas train will be filled with air. Even if the gas line has been completely purged of air, it
may take several tries for ignition before a flame is established. Once a flame has been established for the first time,
subsequent calls for burner operation should result in a flame on the first try.
9) Observe pilot burner flame. See Figure 37. The pilot flame should be a steady medium blue flame covering around
3/8” to ½” of the spark electrode/flame rod.
10) Inspect the main burner flames visible through the observation port in burner access panel. The flame should be
stable and mostly blue (See Figure 38). No yellow tipping should be present; however, intermittent flecks of yellow
and orange in the flame are normal.
11) Check entire gas train for leaks using soap and water or other approved leak detection method while boiler is
firing. Fix any leaks found immediately.
WARNING
•
•
NEVER USE A FLAME TO CHECK FOR GAS LEAKS.
MAKE SURE THAT THE AREA AROUND THE BOILER IS CLEAR AND FREE FROM
COMBUSTIBLE MATERIALS, GASOLINE, AND OTHER FLAMMABLE VAPORS AND
LIQUIDS.
12) Run the gas valve safety shutdown test with the main burners firing. Disconnect ignition cable from the ignition
module on the first base module. Both the pilot burner and main burners on the base module should stop firing.
Repeat this procedure for each base module.
52
50
WARNING
FAILURE TO FOLLOW THE FOLLOWING PROCEDURE EXACTLY COULD RESULT
IN OVER-FIRING OF THE BOILER AND A CARBON MONOXIDE HAZARD.
13) Check the manifold pressure and adjust if necessary. To do this, use the following procedure:
a.
Connect a manometer to the inlet pressure tap on the gas valve (see Figures 39 - 41).
b.
Check the inlet pressure with all gas appliances on and off. The inlet pressure at the inlet of each gas valve
must be within the following limits regardless of what combination of appliances is firing:
Inlet Press (inches w.c.)
Natural Gas
Min.
5.0
Max.
14.0
If the inlet pressure falls outside of these limits, find and correct the cause of the problem before proceeding
further.
c.
Connect a manometer to the manifold (outlet) pressure tap on the gas valve on the first base module. See
Figures 39 - 41.
d.
Read the manifold pressure. It should be set at 3.5 inches w.c..
e.
If a manifold pressure adjustment is needed, make the adjustment by turning the pressure regulator (see Figures
39 - 41) screw clockwise to raise the pressure and counter clockwise to reduce the pressure. If a manifold
pressure adjustment is made, recheck the line pressure at each base module to be certain that it is still within
acceptable limits. Replace the cover screw on the regulator.
f.
Repeat steps a - e for the remaining base modules.
14) Test thermostat operation while the boiler is running. Turn the thermostat to the lowest setting. Both pilot
burner and main burners should stop firing. Raise the thermostat back to the highest setting. The pilot burner and
main burners should relight.
15) (Water Boilers) - Verify high limit operation. Allow the boiler water temperature to increase to high limit setting.
The burners should shut down and the circulator continue running. Allow the boiler water temperature to drop
below high limit setting. The pilot burner and main burners should relight.
Figure 37: Pilot Burner Flame
Figure 38: Main Burner Flame
53
51
16) (Steam Boilers) - Verify low water cutoff operation while the boiler is running. Slowly open drain valve and drain
boiler until the water level drops below low water cutoff line. Water still should be visible in the gauge glass
when the low water cutoff shuts down the main burners. The pilot burner and main burners should stop firing.
Make sure pressure limit, thermostat or other controls have not shut off the boiler. Upon test completion refill
the boiler to the normal water level.
17) (Steam Boilers) - Check pressure limit control operation. When steam pressure is registered on pressure gauge,
lower pressure limit setting below gauge reading. The pilot burner and main burners should stop firing. Raise
pressure limit setting above gauge reading. The pilot burner and main burners should relight.
18) (Steam Boilers) - Replacement of a steam boiler tends to break loose accumulated scale from the system. During
the first week of operation, blow down any float type water cut-offs at least three times following the blow down
instructions provided by the low water cut-off manufacturer.
19) (Steam Boilers) - After the new boiler has been installed and put into continuous operation for several days, clean
the boiler of oil, grease, sludge, and other contaminants that may have been present in existing piping. This will
prevent unsteady water line and water carry over into supply main. The boiler boil-out should be done as follows:
a.
Turn off gas supply to boiler per the appropriate Lighting and Operating instructions on pages 54 and 55.
b.
Drain water from boiler until about one inch of water is visible in gauge glass.
c.
Run a hose or temporary piping from the boiler drain valve to a location where hot water can be safely
discharged. Drain approximately five gallons of water from the boiler and mix-in an appropriate amount of an
approved boil-out compound. Refill the boiler with prepared solution through funnel inserted into the surface
skimmer tapping. Run a temporary drain line made of hose or piping from the surface skimmer tapping to a
location where hot water can be safely discharged.
d.
Light off the boiler per the appropriate instructions on pages 54 and 55. Run boiler for several hours, boiling
the water, without generating steam pressure. Open the water feed valve sufficiently to allow a slight overflow
of water through the temporary drain line attached to the surface skimmer tapping. Continue boiling until
water coming out is clear.
e.
Turn off gas supply to boiler per the appropriate Lighting and Operating instructions on pages 54 and 55.
Drain hot water from boiler through boiler drain valve to a location where hot water can be safely discharged.
Refill the boiler to normal water line level. If water in the gauge glass does not look clear, repeat above boilout procedure again until water is clears.
f.
Close the surface skimmer tapping.
g.
Conduct pH and Alkalinity test of water in the system. The pH reading should be in 7 to 11 range.
NOTE
When substantial amount of make-up water is used due to lost condensate, or when make-up water is hard or corrosive,
water treatment is required. Contact qualified water treatment company for recommended water treatment compounds
and procedures.
20) (All Boilers) - Inspect the vent system for flue gas leaks. Repair any leaks found before leaving the boiler in
operation.
21) (All Boilers) - After the boiler has operated for approximately 30 minutes, check the boiler and heating
system piping for leaks. Repair any leaks found at once.
54
52
Figure 39: Gas Valve Detail - Honeywell VR8304
Figure 40: Gas Valve Detail - Robertshaw 7000DERHC
Figure 41: CSD-1 Gas Train
55
53
LIGHTING INSTRUCTIONS FOR BASE MODULES EQUIPPED WITH
HONEYWELL VR8304 SERIES GAS VALVES
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.
If you cannot reach your gas supplier, call
the fire department.
C. Use only your hand to push in or turn the gas
control knob. Never use tools. If the knob will
not push in or turn by hand, don’t try to repair it,
call a qualified service technician. Force or
attempted repair may result in a fire or explosion.
B. BEFORE LIGHTING 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.
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.
WHAT TO DO IF YOU SMELL GAS
Do not try to light any appliance.
Do not touch any electric switch; do not
use any phone in your building.
Immediately call your gas supplier from
a neighbor’s phone. Follow the gas
supplier’s instructions.
OPERATING INSTRUCTIONS
1. STOP! Read the safety information above on
this label.
5. Remove front access panel.
6. Rotate the gas control knob clockwise
2. Set the thermostat to lowest setting.
to OFF.
7. Wait five (5) minutes to clear out any gas. Then
smell for gas, including near the floor. If you then
smell gas, STOP! Follow “B” in the safety information above on this label. If you don’t smell gas
go to the next step.
3. Turn off all electric power to the appliance.
4. This appliance is equipped with an ignition
device which automatically lights the pilot.
Do not try to light the pilot by hand.
GAS CONTROL KNOB
(SHOWN IN “ON” POSITION)
8. Rotate the gas control knob counter clockwise
to “ON”.
9. Replace front access panel.
10. Turn on all electric power to the appliance.
GAS INLET
GAS OUTLET
11. Set thermostat 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.
GAS VALVE - TOP VIEW
TO TURN OFF GAS TO APPLIANCE
1. Set the thermostat to lowest setting.
3. Push in gas control knob slightly and turn
clockwise
to “OFF”. Do not Force.
2. Turn off all electric power to the appliance if
service is to be performed.
146-80-255 Rev. 0
(Electronic Ignition)
56
54
LIGHTING INSTRUCTIONS FOR BASE MODULES EQUIPPED WITH
ROBERTSHAW 7000DERHC SERIES GAS VALVES
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.
If you cannot reach your gas supplier, call
the fire department.
C. Use only your hand to push in or turn the gas
control knob. Never use tools. If the knob will
not push in or turn by hand, don’t try to repair it,
call a qualified service technician. Force or
attempted repair may result in a fire or explosion.
B. BEFORE LIGHTING 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.
WHAT TO DO IF YOU SMELL GAS
Do not try to light any appliance.
Do not touch any electric switch; do not
use any phone in your building.
Immediately call your gas supplier from
a neighbor’s phone. Follow the gas
supplier’s instructions.
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.
OPERATING INSTRUCTIONS
1. STOP! Read the safety information above on
this label.
5. Remove front access panel.
6. Rotate the gas control knob clockwise
2. Set the thermostat to lowest setting.
to OFF.
7. Wait five (5) minutes to clear out any gas. Then
smell for gas, including near the floor. If you then
smell gas, STOP! Follow “B” in the safety information above on this label. If you don’t smell gas
go to the next step.
3. Turn off all electric power to the appliance.
4. This appliance is equipped with an ignition
device which automatically lights the pilot.
Do not try to light the pilot by hand.
8. Rotate the gas control knob counter clockwise
to “ON”.
POSITION
INDICATOR
9. Replace front access panel.
10. Turn on all electric power to the appliance.
GAS
INLET
11. Set thermostat 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.
ON
OFF
GAS CONTROL KNOB
SHOWN IN "OFF" POSITION
TO TURN OFF GAS TO APPLIANCE
3. Push in gas control knob slightly and turn
clockwise
to “OFF”. Do not Force.
1. Set the thermostat to lowest setting.
2. Turn off all electric power to the appliance if
service is to be performed.
57
55
XIII Service and Maintenance
The following routine maintenance should be performed:
On a continuous basis:
1) Keep the area around the boiler free and clear from combustible materials, gasoline, and other flammable vapors
and liquids.
2) Keep the area around the boiler and boiler room ventilation openings clear of objects which might obstruct the
flow of combustion and ventilation air.
On at least a weekly basis:
For boilers equipped with a float type low water cut-off, blow down the low water cut-off by following the low water
cut-off manufacturer’s instructions. During this blow down, the low water cutoff should shut down the burners. If it does
not, the low water cut-off should be replaced immediately.
On an annual basis:
1) Turn off electrical power and gas supply to the boiler
2) Inspect the flue passages for signs of blockage. If there is any carbon in the combustion chamber or the flue
passages, clean the heat exchanger before proceeding further. See the cleaning procedure below.
3) Remove any debris found in the combustion chamber, being careful not to disturb combustion chamber insulation
4) Remove all burners, noting the location of the pilot main burner. If burners show signs of deterioration, they
should be replaced (some discoloration around the burner ports is normal). Clean the burners by first brushing
the ports with a soft bristle brush and then vacuuming out any debris through the venturi opening.
5) Inspect the pilot assembly. Clean any deposits found on the electrode and grounding strap. The ideal gap between
the electrode and the ground strap is 1/8”. Inspect the porcelain for cracks or other deterioration. Replace pilot
assembly if deterioration is found.
6) Inspect the combustion chamber insulation for deterioration.
7) Inspect the ignition cable insulation for cracks or other deterioration. If deterioration is found, replace cable.
CAUTION
LABEL ALL WIRES PRIOR TO DISCONNECTION WHEN SERVICING CONTROLS. WIRING ERRORS CAN
CAUSE IMPROPER AND DANGEROUS OPERATION. VERIFY PROPER OPERATION AFTER SERVICING
8) Reinstall burners, being careful to put the pilot main burner in its original location.
9) Inspect all boiler wiring for loose connections or deterioration.
10) Inspect the vent system:
•
•
•
•
Make sure that both the vent system is free of obstructions.
Make sure that all vent system supports are intact.
Inspect joints for signs of condensate or flue gas leakage.
Inspect venting components for corrosion or other deterioration. Replace any defective vent components.
11) Inspect the boiler system for leaks.
CAUTION
WATER LEAKS CAN CAUSE SEVERE CORROSION DAMAGE TO THE BOILER OR OTHER SYSTEM COMPONENTS. REPAIR ANY LEAKS FOUND IMMEDIATELY
58
56
12) Place the boiler back in operation using the procedure outlined in “Start-up”. Check the pilot line and any other
gas piping disturbed during the inspection process for leaks.
Heat Exchanger Cleaning Procedure
1)
2)
3)
4)
5)
6)
7)
8)
9)
10)
11)
12)
13)
14)
15)
Turn off electrical power and gas supply to the boiler
Disconnect the vent connectors from the boiler.
Remove the front, top and rear jacket panels.
Remove the burners.
Remove the nuts and washers holding the flue collector onto the heat exchanger.
Carefully remove the flue collector gasket strips and set them aside.
Remove the flue collector from the heat exchanger.
Clean the flue passageways using a stiff bristle brush. Be certain that all foreign material is removed from the
gaps between the pins.
Clean the bottom surfaces of the heat exchanger.
Put a light in the combustion chamber and look through the flue passages from the top to verify that they have
been thoroughly cleaned.
Replace the flue collector gasket strips.
Replace the nuts and washers that hold down the flue collector.
Reattach all the jacket components.
Reinstall burners, being careful to put the pilot main burner in its’ original location.
Reconnect the vent system.
WARNING
SOOT DEPOSITS IN THE FLUE PASSAGES ARE A SIGN THAT THE BOILER MAY BE OPERATING AT HIGH
CARBON MONOXIDE (CO) LEVELS. AFTER CLEANING THE BOILER OF SOOT DEPOSITS, CHECK THE CO
LEVEL IN THE FLUE GAS TO INSURE THAT THE BOILER IS OPERATING PROPERLY.
If it is necessary to check CO, use a combustion analyzer, or other instrument which is designed to measure CO in flue gas.
A CO “sniffer” designed for testing CO levels in ambient air cannot be used to check boiler combustion. Take a flue gas
sample by inserting a sample probe through the draft diverter opening and into the flue collector so that the sample is taken
in the area directly over the heat exchanger. Do not take a sample until the boiler has been firing for at least five minutes.
A normal CO reading for a Series 32 boiler is less than 50ppm (0.005%). A reading of more than 100ppm (0.01%) is
indicative of a combustion problem.
Some causes of excessive CO include:
•
•
•
•
•
Incorrectly sized main burner orifice for the altitude at which boiler is installed
Crooked or out-of-round orifice holes (never attempt to drill orifice for this boiler in the field)
Partially plugged flue passages
Improper manifold pressure
Foreign material in burner venturis or burner ports
•
Inadequate supply of combustion air
59
57
XIV PARTS
The following parts may be obtained from any Crown distributor. To find the closest Crown distributor, consult the area Crown
representative or the factory at:
Crown Boiler Co.
Customer Service
P.O. Box 14818
Philadelphia PA. 19134
(215) 535-8900
www.crownboiler.com
For boilers installed at elevations above 2000 ft, consult the local Crown representative or the factory for the correct main burner
orifice.
60
58
61
59
1
1
32-2850
1
32-1995
1
1
32-1900
32-2755
1
32-1805
32-2660
1
32-1710
1
1
32-1615
32-2565
1
32-1520
1
1
32-1425
32-2470
1
32-1330
1
1
32-1235
1
1
32-1140
32-2375
1
32-1045
32-2280
1
32-950
1
1
32-855
1
1
32-760
32-2090
1
32-665
32-2185
1
1
32-475
32-570
BOILER MODEL
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
29
28
27
26
25
24
23
22
21
20
19
18
17
16
15
14
13
12
11
10
9
8
7
6
5
4
25
24
23
23
22
21
20
19
18
18
17
16
15
14
14
13
12
11
10
9
9
8
7
6
5
4
4
4
4
3
3
3
3
3
3
2
2
2
2
2
1
1
1
1
1
1
310000 310001 310002 310002 310003
RIGHT END
(ALL BOILERS)
PART # (CSD-1)
INTERMEDIATE
(STEAM BOILERS)
310000 310001 310002 310002 310003
TAPPED INTERMEDIATE
(STEAM BOILERS)
PART # (STANDARD)
DESCRIPTION
LEFT END
(ALL BOILERS)
SECTIONS
INTERMEDIATE
(WATER BOILERS)
285
1
2
2
1
1
1
1
2
3110045
311004
1
2
1
1
2
3
1
2
1
4
1
3
2
1
2
1
3110055
311005
380
475
6
5
4
4
4
5
4
3
2
3
4
3
2
2
3
2
2
2
1
1
3110065
311006
BASE CARTON
380
475
A
B
C
D
SECTION JOINER CARTON
E
JACKET SIDE PANEL CARTON
BASE SIDE PANEL CARTON
1
2
2
1
1
1
1
2
1
2
1
1
2
3
1
2
1
4
1
3
2
1
2
1
6
5
4
4
4
5
4
3
2
3
4
3
2
2
3
2
2
2
1
1
QUANTITY
1
2
1
1
2
1
2
1
1
2
3
4
1
2
3
2
1
1
2
1
1
2
1
1
2
3
2
1
1
2
1
1
3
2
1
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
310404 310405 310406 311020 311021 311022 311023 311024 311010 310400
310404 310405 310406 311020 311021 311022 311023 311024 311010 310400
285
INTERMEDIATE CARTON
SERIES 32 MASTER PARTS LIST
311025
WATER TRIM CARTON
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
3110255
311030
STEAM TRIM CARTON
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
3110305
BOILER CARTON (STD WATER)
1 EA.
311074 311075
311074 311075
311074 311075
311074 311075
311074 311075
311074 311075
311074 311073
311074 311073
311074 311073
311072 311063
311056 311063
311056 311063
311056 311063
311056 311063
311056 311063
311056 311051
311056 311051
311056 311051
311050 311051
311050 311051
311050 311051
311044 311049
311044 311045
311044 311045
311040 311041
311040 311041
PART #
1 EA.
BOILER CARTON (STD STEAM)
TANKLESS COILS PARTS
MODEL
PART #
T-1
310020
T-2
310021
T-3
310022
BASE CARTON
DESCRIPTION
PART #
285 BASE ASSEMBLY (STD)
310114
380 BASE ASSEMBLY (STD)
310115
475 BASE ASSEMBLY (STD)
310116
285 BASE ASSEMBLY (CSD-1)
3101145
380 BASE ASSEMBLY (CSD-1)
3101155
475 BASE ASSEMBLY (CSD-1)
3101165
REAR TIE ROD CHANNEL BRACKET
310311
285
QUANTITY
380
475
1
1
1
1
1
1
1
1
1
5/8 X 4 STUD
900309
1
1
1
5/8 USS WASHER
900312
2
2
2
5/8 NUT
900311
2
2
2
JACKET REAR PANEL SUPPORT BRACKET
310310
1
1
1
JACKET TOP SUPPORT BRACKET
310320
1
1
1
#10 X 1/2 HEX HD SHEET METAL SCREW
90-212
12
12
12
GASKET ROPE
900145
5 ft
6 ft
7 ft
5/16-18 X 5 CARRIAGE BOLT
900315
2
2
2
5/16-18 X 3 CARRIAGE BOLT
900313
2
2
2
5/16-18 WING NUT
900104
2
2
2
5/16 USS FLAT WASHER
900102
4
4
4
JACKET KNOBS
90-210
2
2
2
8-32 X 1/4 SCREW
90-211
2
2
2
3/8-16 X 3/4 CAP SCREW
90-035
4
4
4
3/8 USS FLAT WASHER
90-036
4
4
4
3/8-16 HEX NUT
90-221
4
4
4
INTERMEDIATE CARTON
DESCRIPTION
PART #
285 FRONT PANEL
310314
380 FRONT PANEL
310315
475 FRONT PANEL
310316
285 TOP PANEL
310324
380 TOP PANEL
310325
475 TOP PANEL
310326
285 REAR PANEL *
310304
380 REAR PANEL *
310305
475 REAR PANEL *
310306
285 FLUE COLLECTOR
310124
380 FLUE COLLECTOR
310125
475 FLUE COLLECTOR
310126
* INCLUDES HEAT SHIELD
62
60
QUANTITY
285
380
475
1
1
1
1
1
1
1
1
1
1
1
1
SECTION JOINER CARTON
DESCRIPTION
QUANTITY
PART #
"A"
"B"
"C"
"D"
"E"
7" PUSHNIPPLE
310005
5
6
7
8
9
3" PUSHNIPPLE
310006
5
6
7
8
9
5/8 X 9 3/4 TIE ROD
900310
15
18
21
24
27
5/8 HEX NUT
900311
30
36
42
48
54
5/8 FLAT WASHER
900312
30
36
42
48
54
LOCTITE # 592, 50 ml TUBE
900350
2
3
3
LOCTITE # 592, 250 ml TUBE
900355
1
1
"SECTION SEAL", 1 QUART CAN
900360
2
2
2
2
2
WOOD WEDGE
970030
2
2
2
2
2
BASE SIDE CARTON
DESCRIPTION
PART #
QTY.
RH BASE SIDE PANEL ASSY.
310662
1
LH BASE SIDE PANEL ASSY.
310663
1
JACKET SIDE PANEL ZEE BRACKET
310302
2
JACKET TOP SUPPORT BRACKET
310320
1
JACKET TOP SUPPORT END ANGLE
310321
2
JACKET REAR PANEL SUPPORT BRACKET
310310
1
REAR TIE ROD CHANNEL BRACKET
310311
1
5/8 X 4 STUD
900309
1
5/8 USS WASHER
900312
2
5/8 NUT
900311
2
3/8-16 X 3/4 CAP SCREW
90-035
4
3/8 USS FLAT WASHER
90-036
4
3/8-16 HEX NUT
90-221
8
BLOCK ANCHOR
310010
4
3/8-16 X 2 CAP SCREW
900455
4
#10 X 1/2 HEX HD SHEET METAL SCREW
90-212
20
JACKET SIDE PANEL CARTON
DESCRIPTION
PART #
QTY.
RH JACKET SIDE PANEL ASSY.
310300
1
LH JACKET SIDE PANEL ASSY.
310301
1
63
61
BASE PARTS
KEY
PART #
DESCRIPTION
QTY PER BASE MODULE
285
380
475
1
BASE FRONT PANEL (285)
310604
1
1
BASE FRONT PANEL (380)
310605
1
BASE FRONT PANEL (475)
310606
2a
BASE FRONT LEG (RH)
310110
1
1
1
2b
BASE FRONT LEG (LH)
310111
1
1
1
3
INSULATION BASE FRONT (285)
312614
1
3
INSULATION BASE FRONT (380)
312615
3
INSULATION BASE FRONT (475)
312616
4
BASE REAR PANEL (285)
310664
4
BASE REAR PANEL (380)
310665
4
BASE REAR PANEL (475)
310666
5
RIGHT SIDE PANEL
310660
1 PER BOILER
6
LEFT SIDE PANEL
310661
1 PER BOILER
7
BASE SIDE INSULATION
312600
2 PER BOILER
8
INSULATION BASE REAR (285)
312604
8
INSULATION BASE REAR (380)
312605
8
INSULATION BASE REAR (475)
312606
9
#10 x 1-1/4 CUP HEAD PIN
900203
10
#10 SPEED NUT
900200
11
3/8-16 X 3/4 CARRIAGE BOLT
900440
4
4
4
12
3/8-16 HEX NUT
90-221
4
4
4
1
1
1
1
1
1
1
1
1
1
8 PER MODULE, 6 PER SIDE
PANEL
13
3/8-16 USS FLAT WASHER
90-036
4
4
4
15
BASE SIDE CHANNEL (RH)
310650
1
1
1
16
BASE SIDE CHANNEL (LH)
310651
1
1
1
17
BURNER ACCESS PANEL (285)
310624
1
17
BURNER ACCESS PANEL (380)
310625
17
BURNER ACCESS PANEL (475)
310626
18
#10 X 1/2 HEX HD SHEET METAL SCREW
90-212
2
2
2
19
1/4-20 X 3/4 GRADE 5 HEX WASH HD SCREW
900305
6
6
6
64
62
1
1
65
63
Figure 42: Exploded View - Base Parts
BASE PARTS (CONTD.)
KEY
DESCRIPTION
PART #
QUANTITY
285
380
475
20
MANIFOLD ASSY, COMPLETE (285)
310154
1
20
MANIFOLD ASSY, COMPLETE (380)
310155
20
MANIFOLD ASSY, COMPLETE (475)
310156
21
1/4-20 X 1/2 SELF TAPPING SCREW
900100
4
4
4
22
MAIN BURNER LESS PILOT BRKT
150321
7
10
13
1
1
23
MAIN BURNER WITH PILOT BRKT.
150320
1
1
1
24
PILOT ASSY, Q362A1037
3504060
1
1
1
24a
BCR-18 PILOT ORIFICE
3501550
1
1
1
24b
1/4" COMPRESSION FERRULE
3501150
2
2
2
25
10-32 X 3/16 MACHINE SCREW
146-95-301
2
2
2
1
1
1
*
GROUND WIRE
9601101
*
36" IGNITION CABLE
3501136
1
1
1
*
1/4" O.D. PILOT TUBING (ft)
900040
1.5
1.5
1.5
26
2.75mm MAIN BURNER ORIFICE (SEA LEVEL)
950380
8
11
14
27
ORIFICE HITCH PIN
950370
8
11
14
28
3/4" 45 DEGREE STREET EL
950044
1
29
1" 45 DEGREE STREET EL
950045
1
1
30
GAS VALVE, VR8304P4306
3507250
1 (**)
31
GAS VALVE, ROBERTSHAW 7000DERHC
3507310
(**)
1
1
*
PILOT VALVE (CSD-1 ONLY)
3503107
1
1
1
*
RV12L PILOT REGULATOR (CSD-1 ONLY)
3503115
1
1
1
32
JUNCTION BOX
96-055
1
1
1
33
JUNCTION BOX COVER
96-054
1
1
1
34
TRANSFORMER, AT140C1030
35-2000
1
1
1
35
8-32 X 1/2" SCREW
90-052
2
2
2
36
8-32 HEX NUT
90-053
2
2
2
37
IGNITION MODULE, S8610M 1011(STD ONLY)
3505015
1
1
1
*
TRANSFORMER HARNESS (STD ONLY)
9605110
2
2
2
*
IGNITION HARNESS (STD ONLY)
9601100
1
*
IGNITION HARNESS (STD ONLY)
9605100
1
1
IGNITION MODULE, UT 1003-612A (CSD-1 ONLY)
3503100
1
1
1
*
DAUGHTER BOARD, UT 1145-2 (CSD-1 ONLY)
3503105
1
1
1
*
DAUGHTER BOARD MOUNTING BRACKET
(CSD-1 ONLY)
310200
1
1
1
*
DAUGHTER BOARD COVER (CSD-1 ONLY)
310205
1
1
1
*
VALVE HARNESS (CSD-1 ONLY)
9605900
1
1
1
*
ALARM HARNESS (CSD-1 ONLY)
9605902
2
2
2
*
"R-STAT" JUMPER HARNESS (CSD-1 ONLY)
9605907
1
1
1
*
"IGNITION MODULE HARNESS" (CSD-1 ONLY)
9605905
1
1
1
*
"HOT" TRANSFORMER HARNESS (CSD-1 ONLY)
9605910
1
1
1
*
"COMMON" TRANSFORMER HARNESS
(CSD-1 ONLY)
9605912
1
1
1
*
"PILOT COMPRESSION" x NPT THREAD ADAPTER
(CSD-1 ONLY)
900460
1
1
1
38
* NOT PICTURED
** ROBERTSHAW 7000 DERHC USED ON CSD-1 285 BASES
NOTE: SOME STANDARD FITTINGS USED ON CSD-1 BASES NOT LISTED - PROCURE THESE LOCALLY
66
64
67
65
Figure 43: Exploded View - Gas Manifold / Burners / Pilot Assembly
WATER TRIM CARTON
DESCRIPTION
PART #
QTY
L4006A2015
35-3510
1
L4006E1109 MAN. RESET (CSD-1 ONLY)
35-3100
1
1/2 LONG WELL
35-1006
1
HYDROLEVEL 550 LWCO (CSD-1 ONLY)
450550
1
1-1/2 X 1/2 BLK BUSHING
950021
1
TRIDICATOR GAUGE
95-038
1
1/2 X 1/4 BLK BUSHING
95-053
1
BLANK COIL PLATE
270003
2
COIL GASKET
270001
2
3/8 USS FLAT WASHER
90-036
12
3/8-16 X 7/8 HEX HD CAP SCREW
900450
12
1-1/2" NPT BLK PLUG
95-143
2
1" NPT BLK PLUG
950100
2
3/4" NPT BLK PLUG
95-048
4
1/2" NPT BLK PLUG
95-052
7
3 X 3/4 BLK BUSHING
950035
1
BOILER DRAIN
95-041
1
PART #
QTY
LWCO, #67 CR-3 (STANDARD)
400680
1
LWCO, CG450 (CSD-1 ONLY)
45-460P
1
GLASS SET (20-104-10, 8" CTR TO CTR)
950080
1
STEAM TRIM CARTON
DESCRIPTION
PA404A1009
35-5020
1
L404C1147 (CSD-1 ONLY)
35-3020
1
STRAIGHT BRASS PIGTAIL
95-060
1*
1/2 X 4 BRASS NIPPLE
950004
1
1/2 BRASS TEE
951441
1
1/2 BRASS PLUG
95-091
1
PRESSURE GAUGE
95-070
1
1/2 X 1/4 BRASS BUSHING
95-146
2
1/2 X 3 BR NIPPLES
95-116
2
1/2" BR. UNION
95-150
2
1/2 X CL BRASS NIPPLES
95-147
2
BLANK COIL PLATE
270003
2
COIL GASKET
270001
2
3/8 USS FLAT WASHER
90-036
12
3/8-16 X 7/8 HEX HD CAP SCREW
900450
12
1-1/2" NPT BLK PLUG
95-143
3
1" NPT BLK PLUG
950100
2
3/4" NPT BLK PLUG
95-048
4
1/2" NPT BLK PLUG
95-052
5
3 X 3/4 BLK BUSHING
950035
1
BOILER DRAIN
95-041
1
* 2 REQD. ON CSD-1 BOILERS
68
66
69
67
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
32-1045W
32-1140W
32-1235W
32-1330W
32-1425W
32-1520W
32-1615W
32-1710W
32-1805W
32-1900W
32-1995W
32-2090W
32-2185W
32-2280W
32-2375W
32-2470W
32-2565W
32-2660W
32-2755W
32-2850W
1
1
32-950W
1
1
32-855W
1
1
32-760W
1
1
32-665W
1
1
32-570W
1
1
32-475W
1
1
BOILER MODEL
1
ETL RATING PLATE
98-111
1
INSTALLATION MANUAL
980888
1
USER'S MANUAL
980425
1
NIPPLE GAUGE
980920
1
RESBOND 907GF-6CP, 11 oz TUBE
900365
1
30 PSI RELIEF VALVE, CONBRACO 10-408-05
95-040
1
30 PSI RELIEF VALVE, CONBRACO 10-614-05
95-081
1
30 PSI RELIEF VALVE, CONBRACO 10-615-05
95-134
1
30 PSI RELIEF VALVE, CONBRACO 10-616-05
950500
1
1-1/2 X 3/4 BLK BUSHING
95-096
1
3/4 X 3 BLK NIPPLE
95-027
1
3/4 ELBOW
95-057
1
3/4 X CL BLK NIPPLE
95-105
1
1-1/2 X 1 BLK BUSHING
950185
1
1 X 4 BLK NIPPLE
950114
1
1 ELBOW
950190
1
1 X CL BLK NIPPLE
950110
1
1-1/2 X 1-1/4 BLK BUSHING
95-047
1
1-1/4 X 4 BLK NIPPLE
95-033
DESCRIPTION
1-1/4 ELBOW
95-058
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
3
3
3
3
3
3
3
3
3
2
2
2
2
2
2
2
2
2
2
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
WATER BOILER CARTON
1-1/4 X CL BLK NIPPLE
95-031
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
70
68
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
32-1425S
32-1520S
32-1615S
32-1710S
32-1805S
32-1900S
32-1995S
32-2090S
32-2185S
32-2280S
32-2375S
32-2470S
32-2565S
32-2660S
32-2755S
32-2850S
1
1
32-1330S
1
1
32-1235S
1
1
32-1140S
1
1
32-1045S
1
1
32-950S
1
1
32-855S
1
1
32-760S
1
1
32-665S
1
1
32-570S
1
1
32-475S
1
1
BOILER MODEL
1
ETL RATING PLATE
98-111
1
INSTALLATION MANUAL
980888
1
USER'S MANUAL
980425
1
NIPPLE GAUGE
980920
1
RESBOND 907GF-6CP, 11 oz TUBE
900365
1
15 PSI SAFETY VALVE, CONBRACO 13-211
950510
1
15 PSI SAFETY VALVE, CONBRACO 13-202
950515
1
15 PSI SAFETY VALVE, CONBRACO 13-213
950520
1
15 PSI SAFETY VALVE, CONBRACO 13-214
950525
1
15 PSI SAFETY VALVE, CONBRACO 12-205
950530
1
1-1/2 X 4 BLK NIPPLE
950124
1
1-1/2 BLK TEE
950180
1
1-1/2 BLK COUPLING
950175
1
1-1/2 BLK PLUG
950170
1
1-1/2 X 3/4 BLK BUSHING
95-096
DESCRIPTION
1-1/2 X 1 BLK BUSHING
950185
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
3
3
3
3
3
3
3
3
3
2
2
2
2
2
2
2
2
2
2
2
2
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
STEAM BOILER CARTON
1-1/2 X 1-1/4 BLK BUSHING
95-047
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
Manufacturer of Hydronic Heating Products
P.O. Box 14818 3633 I. Street
Philadelphia, PA 19134
Tel: (215) 535-8900 • Fax: (215) 535-9736 • www.crownboiler.com
71
PN 980888
Rev.2 10/08
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