Ceilcote Air Pollution Control

Ceilcote Air Pollution Control
AIr.CureMyriamIc, tnc
Bulletin 11-6
March 2006
No. 060306
-
Ceilcote Air Pollution Control
Backup Services
Ceilcote Air Pollution Control
sales representatives are
backed by engineers, labora
tory technicians and technical
service personnel to provide
application assistance and
after-installation service. This
includes repair, rebuilding and
field balancing.
to
CLM Cenirifugal Low
Medium Pressure
CMH Centrifugal Medium to High Pressure
Ct-I Centrifugal High Pressure
FL/FLR Tube Ax1a
I1mc3
AMCA
LICENSED
CERTIFIED
/
Gelicote Air Pollution Control certifies
that the CMHR fans shown herein are
licensed to bear the AMCA Seal. The
ratings shown are based upon tests
and procedures performed in
accordance with AMCA’s Publication
211 and comply with the requirements
of the AMcA Certified Ratings Program.
fIR
fflOVEfflEfll
ff0 COflTRO.
2
CEILCOTE
FRP Centrifugal Fans: CMH Series
Medium to High Pressure
FRP Centrifugal Fans
Ceilcotes CMH Series
fiberglass fans offer
the widest range of
performance of any
FRP fan on the market.
For over 15 years Ceilcote
fans have provided trouble-free
service in corrosive environments
ranging from mild to severe.
Constructed to
highest standards.
1
.i
Housings are made of premium
corrosion-resistant, fire-retardant
polyester resin systems. Impellers
are manufactured of premium
vinylester to assure structural
integrity under the intense
dynamic forces of rotation. All
fiberglass components are fabri
cated in accordance with ASTrvI
0582 and ASTM 4167 specifica
tions for fiberglass laminates and
fiberglass blowers. All metal parts
exposed to the process gases
Every unit pretested.
are fully encap
sulated in FRP to
assure maximum protection
against chemical attack. Fan and
motor bases are heavy-gauge
steel coated with Ceilcote 750
high build vinyl. Other Ceilcote
protective coatings are available
for severe service conditions.
Wide choice of sizes
and performance
characteristics.
The CMH Series is available in
sizes 4’ through54
3
Impellers are balanced
statically and dynamically prior
to assembly. Each fan is test run
before shipment. Fan perform
ance data has been obtained
from tests conducted in accord
ance with standards published
by AMCA.
Using this bulletin.
The following pages include all
the information you need to select
a CMH Series fan for most appli
cations. If you require technical
assistance, call your Ceilcote
representative or district office.
Phone numbers are on the back
of this bulletin,
Optional Features
for Design Flexibility
surfaces
Carbon geL All FRP
exposed to the gas stream are
graphite-impregnated to eliminate
static buildup. Grounding connec
tors are located externally.
Access doors. Stud-mounted
bofted access doors available on
all sizes.
Flanges. Available for inlet or
outlet. Drilled or undrilled
Drains. PVC coupling or flanged
FRP.
Stud mounting
access door.
Discharge transition.
Rectangular to round. Can be
made integral to fan or supplied
for flanging to fan.
Shaft seals. TefIon is standard.
Stuffing box type is available for
more severe requirements.
Guards. All guards are FRP
construction and can be supplied
as full canopy covering motor,
drive and shaft; belt drive only
and shaft only. AU types can be
made available OSHA rated.
Shafts. Carbon steel is standard,
Stainless or other alloys are
available as required.
Vibration Isolators. Rubber or
spring vibration lsolators are
available as needs dictate.
Miscellaneous. Bird screens,
back vanes, inlet boxes, vibration
monitors, disconnects, zero
speed switches and speed
controls are also available.
flexible connectors. Standard
connectors are neoprene sleeve
type with stainless steel
drawbands.
Weather canopy
on arrangement
10 fan.
Class Construction
Ceilcole Air Pollution Cofltrol fans are designed and fabricated to provide
safe and reliable performance throughout the full range lIsted in the
tables. In order to assure an adequate safety factor, we have established
a maximum tip speed of 17,500 FPM at 70°F. Above 1SG F tip speeds
must be derated to assure safe operation.
4
Standard for sizes 1500
through 2550.
Arrangement
Versatility
Sizes 1500 through 2550 are
offered in arrangement 10 as
standard, while Arrangement 9 is
standard in sizes 3000 through
6000. Other arrangements are
available if required. Fans are
available in clockwise or counter
clockwise rotation and all 8
standard discharge positions.
ARA. 10 SWSI For belt drive.
Wheel over- hung, two bearings,
with prime mover inside base.
-
Standard for sizes 3000
through 600G.
ARR. 9 swsi For belt drive.
Wheel over- hung, two bearings,
with prime mover outside base.
-
Optional arrangements available for special
requirements.
-
ARRV 1 SWSI For belt drive or
direct connection. Wheel over
hung. Two bearings on base.
-
1’!l
‘:
ARI. 8 SWSI For belt drive or
direct connection. rrangement 1
plus extended base for prime
mover.
-
ARR 4 SWSI For direct drive.
Wheel overhung on prime mover
shaft No bearings on fan. Prime
mover base mounted or directly
connected
-
Rotation and Discharge Options
Direction of rotation Is determined
from drive side of fan. On single
inlet fans, drive side is always
considered as the side opposite
fan inlet. Direction of discharge is
determined in accordance with
C,ochw*aa
Top HorIzontal
CcrJntCrclpckwEpO
Top HorIzontal
Cloakwlne
Top Angular Down
Cloak wise
Down Blast
COunteeclokwino
Top Angular Up
Countercloekwle
Up Blast
diagrams (below). Angle of
discharge is referred to the
horizontal axis of fan and desig
nated in degrees above or below
such standard reference axis. For
ClockwIse
Clockwtsa
Bottom Angular Down
Top Angular Up
Courunrclackwhe
Bottom Angulsr Up
Cowrterclc,ckwtsa
Top Angular Down
fan inverted for ceiling suspen
sion or side wall mounting,
direction of rotation and dis
charge is determined when the
fan is resting on floor.
Clockwte
Up Blast
Couotarclogkwlso
Down Blast
Clockwtua
Bottom AngulSr Up
Couoteriockwiso
Bottom Apgular Down
ClockwIse
Bottom f-todzonal
Cczuntnrolockwlto
Bottom t40r0o-rtol
5
Reprinted (rote AMCA Pbiiclion ttg.03, Face nod
Syin;nn, WUlt tIle onpress writteo permtosion horn tho Air
Movement sod Cordrpf A550riCtIon, Inc.. O West Urvversily
Ariingicn Hoighl, IL 6DOs.l983
Ortue,
How to Specify FRP Fans
The following construction
details can be used as a guide
when writing specifications which
demand the highest quality
equipment. These spec!ficatfons
are in compliance with accepted
design standards.
Fan performance to be certified
by the manufacturer that it meets
AMCA Standards Handbook 99,
Test Code for Air Moving Devices
210 and Certified Ratings
Program for Air Moving Devices
211.
Seller shall furnish sound power
level ratings in the format outlined
in the AMCA Method for Publish
ing Sound Ratings (Standard
301), said ratings to be the
results of tests made in accor
dance with the AMCA Test Code
for Sound Rating AMDs (Stan
dard 300).
Design criteria
Sizing. Axial and centrifugal fans
shall be sized so an increase in
speed of I 0°./ will not exceed the
maximum RPM of that class of
fan.
Curves. Performance curves
clearly showing the maximum
RPM line for each fan quoted
shall be furnished.
Rating. The size and the
capacity rating for each fan
quoted shall be furnished.
Laminate. Fan housings shall be
constructed of an FRP laminate
consisting of an appropriate fireretardant resin and the proper
fiberglass or synthetic reinforce
ment capable of resisting con
tinuous fume temperatures of
200°F. The fire-retardant qualities
which equal or exceed the
ASTME-84 Tunnel Test Rating of
less than 25. For optimum
structural integrity, the impeller
shall be constructed of vinylester
resin.
All interior surfaces exposed to
the corrosive air steam shall be
resin rich and contain not more
than 20% of the appropriate
surface veil, such as “C” grade
fiberglass veil for most service
conditions and Nexus surface veil
when fluorides are present.
All surfaces exposed to the
atmosphere shall be resin rich of
a paraffinated resin stabilized
against ultraviolet degradation
and include a reinforcement not
to exceed more than 20% of “C,’
grade fiberglass, to serve as
protection against w6athering,
fumes, spillage and ultraviolet
attack.
immediately beneath the
surfacing veil of the interior and
exterior surfaces of the laminate
shall be layers of chopped strand
mat. The chopped strand mat
shall be Type E glass of 1.5
ounces per square foot in weight.
When conductivity is required, the
interior of fan housing and the
impeller shalt have a carbon gel
coat that has a surface conductiv
ity range of 0-30,000 ohms.
resistance. A grounding lug shall
be provided to facilitate the
discharging of static electricity to
an external ground.
Metal parts. No metal parts shall
be exposed to the corrosive air
stream.
Shaft. The shaft shall be of such
design and size so as 10 operate
below its first critical spaed.
Bearings. Fan to be equipped
with heavy-duty bearings, rated
for a L-l0 life of 100,000 hours,
grease packed and sealed
against dust and moisture.
Belt drives. Fan to be equipped
with belt drives using heavy-duty
matched “deep V’ type V-belts
sized to handle 1.5 times the
rated brake horsepower of the
fan motor and incorporating
heavy-duty industrial type com
panion sheaves.
Balancing. Fan shall be statically
and dynamically balanced at its
rated operating speed, and a
certification of the test is to be
supplied at time ol delivery.
Quards. Fan shall be provided
with a combination belt guard and
weather cover of FRP construc
tion to protect the belt drive,
motor and personnel. If required,
the guard is to be designed to
meet OSHA requirements.
Tube axial and roof axial fans.
Fan shaft, bearings and belt drive
shall be isolated from the corro
sive air stream. The bearings and
shall shall beeasily removed
from the bearing tunnel without
cutting or otherwise damaging
the drive housing and tunnel,
Fan bearings shall have
polypropylene lubrication lines
extended to the exterior of the
casing and to terminate there in
Alemite type fittlngsequipped
with automatic pressure relief.
Standard finish for motor
mounting plate and frame is a
corrosion-resistant coating.
Special paint or coating specifi
cations can be furnished upon
request, as can fabrication of
motor mounting plale and frame
out of stainless steer.
Roof axial fans. Roof exhaust
shall be provided with automatic
damper of FRP construction,
resin to be the same as selected
for the fan. Dampers to open and
close without the aid of springs or
other mechanical devices.
Damper rods to be of FRP or
stainless steel construction.
A curb base shall be integral with
fan and of FRP construction
fabricated of same resin as the
fan,
CEILCOTE
FRP Centrifugal Fans: CMH Series
How to Select
a CMH Series Fan
Rating table information
Performance ratings shown in
the tables for CMH Series fans
are based on:
1. Standard air at the fan inlet,
with a density of 0.075 pounds
per cubic foot. This corre
sponds to 70°F and 29.92
inches barometric pressure
at sea level.
2. Including V-belt drive and all
bearing losses.
Effect of temperature
and altitude
For selection of fans handling
other than standard air, tempera
ture and altitude must be taken
into consideration. Since a fan is
a constant volume machine, it
will deliver the same volume
regardless of the air density.
The fan static pressure clevel
oped and horsepower required
will vary directly with the density.
The density of air is inversely
proportional to the absolute tem
perature (rise in temperature
gives a lower densIty) and directly
proportional to the absolute pres
sure (rise in pressure gives a
higher density). For example:
The ratio to standard conditions
for air at 3,000 ft. altitude (26.81”
Hg) and at 250°F would be 0.669.
The temperature-pressure
relationship is tabulated below.
For gases other than air, the gas
density, in relationship to stand
ard air density of 0,075 pounds
per cubic foot, must also be
taken into consideration.
.Y Table of Air Density Factors for Various Temperatures and Altitudes
0
1,000
Air Temp.
--
—ill—
175
225
29.92
28.86
fJ.954
0.946
0.912
0875
0 869
0838
,0.8361 :C806
0B03
--P0774
0775
0747
-0747
0720
1.000
“
Altitude in Feet Above Sea Level
2,000
3,000
4,000
Barometric Pressure in Inches of Mercury
27.82
26.82
25.84
0.930
0.896
0.864
0880
0:848
0.818
08’16
0809
0784
0808
.0 770
0 751
11745
:
0747
0720
0694
0721
.0694
0669
0721)
i4)669
45 i
.
-
‘MaxImum aIIowabe operatIng temperature for FRP construction.
Fan selection
The ‘cold static” method is the
most common system for fan
selection. This method is based
on the assumption that, at con
stant CFM and RPM, the static
pressure and BHP vary inversely
as the absolute temperature
and directly as the air density.
Example:
A Ian is required to handle 1 300 ACFM
at 12” SPat 200°F arid 3.000 ft.
altitude.
1. Density factor from Table 1 = 0.720.
2. Convert SP to standard 12”
+ 0.72 = 16.67”.
3. Using the fan performance curves
(which are available for your specific
requirement) we select a CMHP 8
fan, see figure and read a speed of
3,350 RPM and 6.75 BHP.
4. Correct BHP to actual conditions
575 x .72 4.14 BHP.
7
5,000
6,000
7,000
24.90
0.832
Q.757
0755
0723
0695
11668
D 645
23.98
0.801
0.758
.0721
1)696
0.669
0643
0620
23.09
0.772
0,73O
O70D?’
0671
11645fl
0620
0598
1)576
I
1
I...
1
4
osB-4
5. BHP at cold start; Density factor at
70°F at 3,000’ elevation is 0.896,
therefore the cold start BHP is
5.75 x 0.896 = 4.8 BHP.
Therefore we would select a CMHP 8
tan to deliver 1,300 ACFM at 12” SP
rotating at 3,350 RPM using 4.14 BHP.
At cold start the BHP would be 4.8,
therefore a 5 HP motor must be
supplied.
CMHR24
Tip Speed
10wg.
RPM BHP
37.86” dIe.
9.85 x RPM
11”w.g.
RPM BHP
inlet Lila.
in’et Area
12”w.g.
RPM BlIP
24” .0.
6.28
13”w,
RPM BlIP
Outlet SIze
Outlet Area
14”w.g.
RPM BlIP
22.0” x 19.5”
2.91 sq. ft.
(Forward Curved Radial-Tipped Impeller) Wheel DIa.
9”w.g.
RPM BHF
Volume
GEM
2850
2517
2635
OV
FPM
976
985
995
952
960
967
16.5
175
18.5
13.8
14.6
15.6
11.4
12.1
12.9
1061
1071
1080
10313
1041
1051
1013
1018
1026
22.0
23.2
245
18,7
198
20.9
15.7
16.6
17.6
13.1
13,9
14.8
1143
1153
1164
1113
1123
1134
1088
1096
1104
1071
1075
1081
24.6
25.8
271
20.9
220
23.2
17.7
18.7
19.8
14.9
16.8
16.7
11613
1172
1182
1140
1148
1155
1130
1184
23.1
244
25.8
19.7
20.8
21.9
17.7
18.7
1212
1220
1229
1190
1197
1205
1184
1186
26.4
267
28.1
21.8
22.9
24.1
19.6
20.7
1260
1267
1275
1240
1245
1252
1287
27.7
291
30.5
23,9
25.1
26.4
22.7
1304
1213
1.320
1.288
1292
1297
30.0
316
33.0
26.1
21.3
28.7
1848
1356
1864
1336
1338
1342
32.4
339
35.5
28.3
29.6
31.0
1291
1398
1405
1383
1886
34.9
365
38.1
31.9
38.4
13000
13500
14000
4867
5035
5203
5371
4364
4581
4699
1121
1187
1152
1167
1078
1092
1107
27.4
25 9
30 4
32.0
28.3
24,6
26.0
1169
1184
1199
1214
1127
1141
1155
30.3
318
83 6
35.1
25.8
27.3
28.7
1215
1229
1244
1258
1175
1188
1201
36.1
34 6
36 5
38.3
28.6
30.0
31.5
1259
1273
1287
1301
1223
1234
1246
86.0
378
396
41.6
31,2
32.7
34.3
27O
28.8
297
1303
1315
1329
1342
1269
1279
1291
1.239
1250
1260
89.0
408
426
44.6
34.0
35.6
37.2
29.5
.30.9
324
1345
1357
1370
1383
ISiS
1324
1334
1305
1294
1284
42.0
48 8
458
47.8
40.2
86.7
32,0
33.5
351
1387
1398
1410
1422
1358
1368
1377
1328
1337
1347
65.0
470
490
51.0
39,6
41.3
43.1
34.6
36.2
378
1399
1409
1419
1371
1379
1389
42.4
.44,2
46.1
37.2
38.9
406
1439
1449
1459
1413
1421
1429
45.3
47.2
49.2
39.8
41.6
434
38.2
29.9
1519
1524
1531
1515
1516
49.9
51.9
64.0
44.2
460
47.9
40.7
42.4
1599
1607
1617
1576
1584
1591
1558
1668
1568
1556
66.3
68.8
71.4
59.2
61.5
68.3
52.7
54.8
57.0
46.9
48 7
50.7
45.0
1661
1671
1681
1635
1643
1651
1612
1620
1628
1697
1630
1606
1597
69.6
72.2
74.8
62.3
64.7
67.1
55.6
57.7
59.9
49.5
51 5
53.6
47.6
1695
1704
1715
1671
.1678
1686
1648
1655
1663
1686
1698
16.42
73.0
76.6
78.3
65.4
67.8
70.4
58.5
60.7
63.0
52.3
54.2
56.4
1728
1738
1747
1705
1712
1720
1683
1689
1697
1675
1675
1678
76.8
79.0
81.8
68.5
71.0
73.6
61.5
63.7
661
65.0
57 1
59.3
22”w.g.
RPM BlIP
1761
1770
1779
1738
1747
1764
1718
1724
1731
1712
1714
RPM
1438
1438
1449
1461
79.7
82.5
85.4
71.7
74.2
76.9
64.4
66.8
69.2
600
62.2
BlIP
48.1
50 1
822
54.3
1794
1202
1811
1771
1779
1787
1753
1758
1764
1719
1750
74,9
7’7.6
80.2
67.5
69.9.
72.4
62 8
85.1
24”w.g.
RPM BlIP
1469
1478
1488
1499
88.1
86.0
88.9
51.2
68 3
65 5
57.7
21”w.g.
RPM BlIP
1472
1474
41.6
43 3
45.2
1539
1547
1554
66.2
58.4
60.7
1626
1637
1647
20”w.g.
RPM BlIP
34.3
35.8
374
1479
1435
1493
47.0
49.0
51.1
1562
1571
1581
63.0
65.4
67.9
19w.g.
RPM BlIP
1428
1429.
1433
39.0
40 7
42.4
1501
1508
1516
53.2
55.3
57.6
1591
1602
1611
18”w.g.
RPM BlIP
3021
3189
8357
1439
1446
1454
44.3
46.2
48.2
1525
1535
1546
69.8
62.1
64.5
17”w.g.
RPM BlIP
9000
9500
10000
3524
8692
8860
1461
1469
1478
50.2
52.2
54.4
1555
1566
1674
OV16”w.g.
FPM
RPM BlIP
10500
11000
11600
4028
4196
4364
1487
149-7
1508
66.6
58.8
61.1
Volume
CFM
12000
12500
13000
4531
4699
4867
1518
1527
1587
38.4
14500
15000
15500
16000
__
-__________
15”w.g.
RPM BlIP
7000
7500
8000
2863
3021
a189
1005
1015
1028
1091
1102
1114
8”w.g.
RPM BHP
8500
9000
9500
8357
3524
3692
19.6
20.8
220
7w.g.
RPM BlIP
10000
10500
11000
3860
1038
4028
1050
41961064
I
11600
12000
12500
-
1193
1202
1212
-
13500
14000
14500
5036
6208
5371
1
15000
15600
16000
Performance shown Is Installation Type B: Free Inlet, Ducted outlet. Power rating (BlIP) does not include transmission
loss No. 060306
Performance ratings do not Include the effects of appurtenances (accessories).
2148
2363
2578
2793
3008
3222
5437
3652
3867
4082
4297
4511
4726
4941
5156
5371
CFM
10000
11000
12000
18000
18000
17000
18000
19000
20000
21000
22000
23000
8
1182
1188
1195
1295
1211
1220
1230
1240
1280
1259
3437
8652
8861
4082
4297
18000
19000
20000
21000
4611
22000
4726
250004941
24000
25000
9
100.7
96.0
82.7
87.0
91.4
70.7
74,5
785
67.0
66,5
80.2
BlIP
“Wy.
1280
1289
1250
1269
1269
1226
1234
1241
1219
1212
1214
RPM
18
1008
64.9
516
983
978
992
925
937
949
895
9(13
914
869
876
885
858
862
RPM
45.5
46,4
39.9
99.5
42.3
30.0
82.2
34.5
24.0
26.9
27.9
19.0
20.5
22.2
313?
‘wy.
101.2
106.0
87.4
91.8
96.4
75.0
789
3111
71.2
67.6
64.1
“w.g.
BlIP
49.6
529
560
89.9
40.9
43.6
4•5
86.8
138.3
33.5
27.0
29.1
81.2
22.3
25.1
J311P
“w.g.
1808
1318
1288
1298
1279
1259
1253
1271
1246
1246
1250
RPM
19
1042
1013
1027
999
964
915
986
955
9135
945
911
918
926
904
905
RPM
10
111.5
106.4
102.5
92.1
96.7
79.8
88 4
876
68.0
71.6
75.4
BlIP
w.g.
64.8
1
I
11385
1346
1808
1316
1325
1286
1292
1301
180
1278
RPM
20
10134
1047
1060
1075
1022
80.8
54.0
575
811
1003
1012
978
982
892
951
968
986
948
RPM
11
111.7
116.9
106.6
96.9
101.7
879
9211
88.7
75.8
79.7
BlIP
w.y.
58.57
5205
6582
69.77
55.23
52.06
49.03
40.64
42.88
46,12
30.36
35.64
38.05
31.19
BlIP
“w.g.
47.06” dia.
12.31 x RPM
44.9
478
37.0
39.6
42.2
80,2
32.8
84.8
26.2
28.1
BE?
“wy.
Wheal [Ma.
Tip Speed
T
1562
1373
1353
1844
1388
1315
1321
1028
1810
1311
RPM
21
1069
1880
1293
1107
1099
1649
1058
1011
1019
1028
931
998
1003
990
RPM
12
706
74.7
69.2
668
58.4
59.7
58.2
44.3
42.1
50.1
36.6
39.0
42.6
34.3
RH?
w.g.
117.0
122.4
101.7
106.7
111.7
970
92.6
88.1
84.0
0.0
BlIP
“w.g.
Inlet Dia.
Inlet Ana
BE?
“w.g.
1889
1899
1984
1371
1379
1344
1549
1350
1341
RPM
22
1198
1125
1106
1113
1073
1084
1093
1047
1055
1063
1031
1034
1040
122.5
127.9
106.6
111.7
116.9
92.6
97 1
1017
88.3
BlIP
w.y.
67,3
716
756
79.7
64.2
57.4
60.7
48.0
51.0
54.1
40.0
426
45.2
—_____________
RPM
13
30’ U).
4.91
1415
1425
1486
1398
1391
1372
1877
1083
1370
RPM
28
1136
1146
1167
1169
1100
1116
1127
1082
1090
1097
1071
1075
1069
RPM
14
J
RPM
24
1199
1170
1175
1188
1189
1149
1159
1118
1124
1131
1107
1110
RPM
15
127.7
133.4
112.5
116.7
122.1
1066
97.2
1018
1450
1441
1417
1423
1482
1401
1404
1410
130,1
189.0
116.5
121.8
127.4
1114
106.5
101.8
92.2
BlIP
“w.cl.
90.1
77.3
814
837
65.9
66.5
78.4
55.6
58.9
82.8
49.5
52.6
BlIP
“Wy.
27.5” z 24.375”
4.65 sq. ft.
I
I
82.j_i40o
BlIP
“w.g.
72.6
768
806
84.9
65.1
68.8
81.6
65.2
54.9
51.8
43.4
48.0
48.8
“w.g.
BlIP
OuUet SIze
OuUat Area
Performance shown is Installation Type B: Free inlet. Ducted outlet. Power rating (BlIP) does not include transmIssion
lasses.
Performance ratings do not include the effects of appurtenances (accessories).
6166
5371
1179
3222
15000
16000
17000
17
RPM
OV
FPM
CFM
957
972
941
926
885
898
912
858
862
873
843
825
833
808
811
817
RPM
Volume
24690
28000
14000
18000
OV
FPM
Volume
(Forward Curved Radial-Tipped Impeller)
CMHR-30
16
106,4
111 3
1163
BE?
“wy.
186.5
144.6
121.6
126.9
132.6
No. 060306
1475
1466
1451
1458
1443
—____
1429
1422
1437
RPM
25
82.1
864
906
95.4
1210
1210
1280
78,0
70.2
74.0
59.6
62.9
66.4
53.8
56.3
‘“w.g.
BlIP
100
1190
1171
1180
1149
1156
1164
1148
1145
RPM
(Forward Curved Radial-Tipped mpeIler)
CMHR-36
Wheel DIa.
lip Speed =
56.rdb.
14.78 x RPM
InletEfla.
Inlet Area
RPM
16
82.4
70.3
79.3
BEP
‘w.g.
33’x29.25”
6.76 sq. ft.
13m
962
1)52
OutletSize
Outlet Area
w.g.
954
36”Lt).
7.07
14
RPM
957
88.6
88,0
92.4
674
884
688
680
35.1
33.2
8L6
725
717
721
69.6
37.5
48,1
60.5
41.5
38,7
2587
2687
2836
43.7
458
17000
18001)
19000
729
734
78.9
781
789
782
745
41,0
728
734
57.4
37.0
38.9
716
721
797
61)3
694
704
3433
742
60.3
63,2
805
2985
3134
3284
20000
21000
22000
3582
749
757
66.2
710
23000
3731
‘166
w.g.
751
757
24000
25000
3881
4080
4179
774
BliP
43.1
45.2
47.6
27000
28000
4328
4478
17
914
942
970
984
989
995
107.4
111.8
115.4
119.6
163.5
158,5
148.9
153.7
‘w.g.
BlIP
1192
1190
11.7
168.6
1175
1194
154.4
1197
1153
156.5
147.5
161,5
1180
171.7
177.1
181.6
15
R1’M
BliP
713.9
71.0
73.9
865
103.5
31090
28000
80000
4627
4776
981
RPM
786
774
83000
OV
PPM
84.7
88.0
31.4
49.8
52.3
54.8
Volume
(1PM
982
984
988
1391
BliP
18
RPM
68.2
922
928
926
813.0
83.2
88.5
970
974
979
w.g.
891
88.9
929
934
90.0
93.5
BlIP
55.8
68.2
891
68.6
71.5
938
97.2
12
858
369
894
897
947
RPM
861
60.8
83.4
66,2
901
74.5
77.5
80.7
952
w.g.
63.4
864
868
69.0
910
84.0
87.4
90,9
BliP
55.5
872
72.0
75.0
920
1001
11
44.3
825
826
80.9
88.8
878
925
958
984
100.9
104.7
108.6
112.8
25
RPM
46,5
68.7
881
78,2
81,4
94.5
98.1
876
RPM
BlIP
48.7
828
833
66.5
69.4
886
84.7
931
937
101.9
108.7
w.g
‘,w.g.
789
30.8
838
72.4
892
897
943
948
BlIP
1190
10
791
53.3
75.4
904
88.1
91.6
98.2
24
RPM
143.4
147.0
RPM
38.0
798
85.8
78.8
909
98,8
‘w..
BlIP
1166
1167
REP
59.9
41,9
44.0
797
58.4
842
846
81.8
914
28
RPM
135.9
140.3
‘w,g.
46.2
8116
802
61.1
68.6
857
865
85.1
920
w.g.
BlIP
1142
1142
9
48.4
50.8
810
66.6
8119
88.6
83.1
22
RPM
1143
RPM
703
83.2
815
821
69.5
73.8
874
880
885
892
“w..
REP
128.2
129.4
144,9
1169
1172
BlIP
754
756
760
55,7
58.3
52’7
78.7
82.0
85,4
21
RPM
115.0
1116
133.8
1146
149.6
“w.g
ov
764
788
773
61.0
853
838
w.g.
REP
1091
119.0
1117
1119
138.2
1149
673
778
784
790
63.7
68,5
109.0
1091
123.1
127.3
1122
142.8
8
FPM
82,2
83.9
796
801
69.4
72.6
75.6
844
850
857
863
112.8
1693
10911
131.6
1126
RPM
Volume
CFM
676
52.9
807
78.8
20
RPM
116.8
1209
1099
136.0
714
715
2090
2239
2388
55.3
57.9
813
520
827
834
BliP
‘w.g.
1055
128.0
1103
26.7
28.3
29.9
14000
15000
16000
60.6
19
1066
1068
1071
129.3
140.6
1179
1184
1188
166.5
138.4
159,4
164.4
169.8
51.1
83.4
68.3
69.3
72.8
RPM
99.4
103.0
1075
133.8
961
w.g.
BliP
1038
1038
110.5
114,5
1019
906
18
RPM
90.3
93.7
97.2
1040
1(343
1046
1084
181.6
1157
1162
1166
851
1010
1010
1011
100.7
104,4
103.2
118.6
122.7
127.1
1064
152.3
157.3
173.8
179.1
184,6
1155
1139
1143
No. 060306
1201
1206
1210
145.3
150.2
155.2
162.6
1112
1116
1121
143.1
148.0
95,9
99.7.
1014
1017
1021
1051
1055
1059
1089
136.1
140.8
75.6
94.8
98.4
102.0
128.5
112.1
115.2
5134
8284
5453
26000
r
9116
105.9
109.6
1035
1026
1030
118.0
1009
122,3
1069
1074
106.8
1000
1005
113.9
21000
22000
23000
3682
3731
3881
24000
25000
26000
4173
4528
1016
4030
27000
28000
29000
1020
124.8
129.2
133.7
1088
1093
1098
1107
4478
1030
4627
126.6
80000
1026
31000
4775
1045
82000
Performance shown is
Installation
Type
Free
B:
inlet,
Ducted
outlet.
Power
rating
(BI-IP) does not include transmission losses.
Performance ratings do not Include the effects of appurtenances (accessories)
.
CMHR-42
ov
RPM
S
BE?
“w..
I
44,8
“w.g.
BliP
648
10
RPM
52.2
BlIP
VJlieel Die.
Tip Speed
9
RPM
46.6
w.g.
512
37.9
69.4
41.0
816
577
578
580
42.7
616
582
69.2
62.4
64.6
66.9
65.88” die.
17.24 x RPM
Inlet Dia.
Inlet Area
42 1.0.
9.62
38.5’ x 34125’
w.g.
RPM
9.12 eq. 8.
16
Outlet SIze
Outlet Area
RH?
“w.g.
BHP
“w.11.
13
RPM
15
RB?
“W.5.
RPM
12
77.2
W..
RPM
79.7
REP
w.g.
BlIP
736
14
ii
RPM
60.1
82.2
64.4
736
RPM
677
618
679
68.4
70.7
108.2
78.1
817
707
708
877
709
681
86.1
99.0
76.6
101.9
711
63
792
791
791
686
86.4
89.1
91.8
733
789
764
764
765
78.0
82.2
84.8
715
805
802
‘799
794
796
117.6
111.1
114.4
104.9
108.0
822
525
828
818
820
129.2
132.8
122.3
125.7
118.9
115.6
109.3
112.4
94.6
97.9
100.6
87.5
90,2
767
769
772
718
96.0
I
742
744
747
103.6
106.6
109.8
831
136.6
1024
1021
1021
1022
222.1
207,5
212.2
217.7
“w.g.
RPM
198.4
202.0
207.8
227.1
25
212.6
1026
1028
No. 060306
232,2
217.5
I
775
718
781
97.4
W.3.
171.1
-
95.9
98.13
102,0
718
81.6
84.0
86.8
734
“w.g
834
836
119.9
24
RPM
193.8
121,1
124.8
128.2
783
786
790
w.g.
BlIP
lOOt)
808
810
813
105.2
1084
111.7
23
RPM
184.9
113.1
116.4
‘159
762
766
w.g.
lIFT?
979
979
1000
1001
1093
222.8
193.5
172.0
176,2
980
189.4
981
183.9
983198.5
1006
1007
1009
700.4
22
11PM
180.5
184.9
203.2
208.0
212.8
737
741
REP
189.3
990
988
987
11
RPM
159.4
268
858
958
193.9
195.6
REP
9311
168.4
167.6
959
961
963
2013
167.8
936
937
175,9
180,3
965
968
971
945
948
981
180.6
939
941
9.48
3.84.7
189.2
193.8
I
750
153
166
66.6
68.9
71.2
697
701
704
83.6
82.5
95.4
147.3
88.6
91.5
722
74,2
76.7
79.3
308
712
716
“w.g.
1311?
918
94.4
73.9
78.1
78.7
670
874
577
82.0
84.7
87.4
20
RPM
135.6
139.2
913
151.1
155.0
158,9
175.8
180.0
184.4
730
689
692
694
67.1
69.5
1L9
681
685
688
w..
125P
71.7
69.8
74,4
76.9
71kG
19
RPM
6110
663
686
6118
652
655
86.1
l6.l
58.1
—..,—
84.8
603
62.5
54.0
66,0
58,2
646
647
649
681
664
838
825
623
622
617
619
53.8
68.9
58.0
48.0
49,9
51.8
44.4
46.1
601
604
608
531
594
897
585
588
PPM
—
2412
2193
2606
2822
2632
2741
2851
2961
3070
48.8
50.2
62.1
(Forward Curved Radial-Tipped Impeller)
Vilume
CFM
20000
21000
22099
23000
24000
25000
274100
28000
28600
L_
29000
3180
3289
8399
“w.g.
RH?
890
890
916
914
142.9
146.6
160.5
918
920
922
925
928
9131
166.0
167.1
171.3
801
892
894
164,4
168.4
182.4
166.6
170.8
173.5
724
727
80.5
83.1
85.8
868
656
660
124.4
145.9
896
899
802
903
908
910
,
1
886
18
RPM
642
71.8
127.9
131.2
80.2
627
“w.g.
BliP
866
867
632
615
3509
3618
3728
631
116.8
120.0
650
3858
3947
17
11PM
123.4
646
4057
842
842
62.4
32000
33000
54000
OV
PPM
844
64.6
35060
36000
37000
3181)
3289
868
610
Volumc
(1PM
3896
126.8
623
29000
30000
845
67.0
69.4
31000
3818
3509
90000
81000
j
38000
32000
734.8
138.4
142.1
875
870
137.3
872
8113
130.3
3838
133.8
9947
157.7
161.9
166.2
149,7
163.7
884
888
889
88
8111
1490
153.1
157.2
141.2
145.0
4057
4167
4216
4386
882
8114
868
856
8119
3728
848
880
34000
35000
36000
37000
58000
59000
40009
Performance shown is Installation Type B: Free Inlet, Ducted outlet. Power rating
(BHP) does not include transmission tosses.
Performance ratings do not inclUde the effects of appurtenances (accessories).
r
CMHR-48
S
RPM
54.9
55.7
111.4
w.v.
BIll’
540
642
544
838
1137
539
9
RPM
118.8
08.7
70.6
61.3
83.1
64.9
‘w.g.
BR?
567
668
810
566
565
506
10
RPM
74.6
76.7
78.7
68,7
10.6
12.8
w..
Bill’
593
11.94
596
592
592
11
RPM
78.4
88.6
.g.
B’
619
12
1u’Sl
86.6
‘w.g.
n
Inlet Die.
Inlet Ar€a
OV
pPM
808
509
511
58.1
60.9
02.7
75.31 die.
13.71 a RPM
Volumi,
CPM
2434
2517
2601
1113
515
1117
Whe Die.
ip Speed =
T
29050
33060
31000
2685
9769
2853
(Forward Curved Radial-lipped Impetler)
32000
33080
114000
82.7
84.8
87.1
j,
48 ID.
12.57
w.g,
rnw
18
RPM
w.g.
Bill’
16
“w..
11PM
44’ x 39
11.92 eq. ft.
14
aPM
173.6
Outlet Sizu
Outlet Area
‘w.g
sap
688
18
10 1,7
104.2
j RPM
644
644
131.0
140.1.
.r.g.
No. 060306
586
148.6
169.1.
707
727
169.5
-__
__I
__
124.8
90.9
93.2
95.5
714
714
619
619
820
130.5
121.6
621
691
692
698
97.9
1011.4
115.7
118.4
121.2
192.9
668
6119
670
64.9
66.6
68.6
622
624
180.6
184.4
158.1
619
521
523
89.9
91.9
94.0
40000
41000
42000
3608
3692
3776
741
749
7111
2937
3021
3105
597
599
601
43006
44000
45000
3885
3044
4828
36000
35000
37009
80.9
88.1
86.3
671
572
574
576
105.4
108.0
110.7
106.7
199,3
112.0
72.6
74,7
76.11
628
628
610
645
646
647
546
548
560
96.4
98.9
101.5
148.1
146,3
149.5
603
605
608
173.4
177.1
180.9
718
116
717
67.6
90.0
92.4
729
131
7811
284.11
186.7
192,6
189.6
136.5
159.6
678
580
582
262.7
163.2
169.9
7116
737
789
w.g.
3PM
6113
694
6911
79.0
81.3
8
654
657
6138
708
710
713
173,6
177.3
181.1
26
124.0
128.9
129.8
552
554
557
113.11
216.3
159.1
152.0
1511.4
158.9
716
711
719
‘w..
Bill’
4800(1
47000
48000
192.1
190.1
200.2
204,11
613
70.5
12.6
74.7
632
604
636
132.0
135.1
138.3
588
590
692
162.4
166.0
169.6
24
RPM
674
525
528
581
104.1
100.8
708.5
660
662
664
141.6
544.1
148.0
694
697
699
Bill’
267.7
114.6
117.4
120,2
3189
3273
33117
698
810
612
122,1
12511
128.0
666
669
671
113L4
164.8
168.3
23
RPM
893
272.4
277.1
282.0
649
550
€52
33000
38000
40000
94.9
97.4
99,9
638
640
642
191,1
184.2
137.3
674
676
879
‘w.g.
lISP
25L8
255.9
896
893
884
286.9
291,9
201.0
502.1
152,7
158,0
169.4
564
686
680
112.2
118,0
117.9
645
647
1150
140.5
143.7
147.0
22
RPM
826
876
260.11
255.1
269.8
8911
806
897
899
718
719
121
811.9
83.1
1.10.6
615
617
620
120.7
123.7
126,6
652
655
657
‘w,j.
SEP
220.1
2115.5
229.9
244,2
1375
876
877
274.8
279.5
284.4
288.4
142.7
148,8
149.0
559
562
564
102.5
105.2
157,8
822
625
628
129.6
152.1
135.8
21
RPM
837
8116
855
887
242.7
253.2
257.8
878
879
850
852
697
1199
7111
76.8
79.0
81.2
501
594
897
110.5
113.6
116,1
630
652
635
‘w.g.
REP
208,1
230.1
124.2
228.4
232.7
857
858
859
282.4
257.2
272.0
276.8
182.7
1115.3
138.9
532
1188
588
92.9
85.4
97.9
699
601
604
118,9
1.21,9
124.8
20
RPM
818
818
837
888
838
237.0
241.4
24511
861
862
884
885
676
1178
6110
3441
3824
3605
667
5119
572
100.4
103.0
105.7
608
609
611
‘w.g.
REP
190.6
194.3
798.2
218.1
217.1
221.3
839
340
842
250.4
255.0
259.6
284.4
125.0
125.9
128.9
41000
42000
411000
82.5
858
88.1
574
1176
579
108.4
111.2
114.0
18
RPM
170.5
799
798
1911
819
819
820
225.5
229.7
234.1
843
845
847
849
162.8
166.2
540
643
645
90.5
83.0
95.6
1582
685
588
‘w.g.
Bill’
778
180.1
183.7
187.4
202.0
206.0
210.0
821
823
824
238.5
242.9
247.4
2112.0
7213
725
3692
3776
3860
1348
6111
554
93.0
100.7
193.4
18
RPM
162.9
166.3
778
779
779
799
800
802
214.1
218,2
222.4
8211
828
829
831
182.3
165.6
44000
45000
46000
3944
4028
6152
5117
680
684
w.g.
Bffi’
758
758
169.7
113.2
176.8
191.2
195.0
196.9
8(18
804
806
226.6
281.0
235.3
238.8
703
705
47005
48003
49000
4196
4280
4364
17
RPM
149.7
552.8
156.2
7118
7119
7611
780
781
788
202.8
206.8
210.8
808
810
812
14
142.0
1463
50000
51000
52000
OV
PPM
736
736
737
189.5
162.9
166.9
180.4
184.1
1878
784
785
788
2180
219.1
223.4
227.8
682
1184
Vo1um
11PM
3105
11189
32171
187
788
740
‘1.61
782
7114
191,6
195.5
199.4
790
792
784
796
752
264
750
768
—
37600
38000
39000
3357
3441
3524
741
189.8
743
173.4
745177.0
706
768
770
203.4
207.5
111.7
216.0
—
772
773
776
777
I
4112
4196
4280
4564
49000
600013
61000
52000
Performance shown is Installation Type B: Free Inlet, Ducted outlet. Power rating (BHP)
does not Include transmission lasses.
Performance ratings do not include the effects of appurtenances (accessories).
CMH R-54
1.2
RPM
128.2
112.7
118.4
BHP
5713
575
577
679
578
572
18
RPM
155.9
101.9
168.1
1748
154.2
139.4
144.13
150.8
124.3
129.2
211?
601
604
63)7
601)
51)4
3911
597
599
594
14
RPM
168.3
174,4
180.6
1874
148.5
153,9
168.6
162.8
140,2
“w.g
BHP
515
815
619
616
44 xM’
11.92 q. it.
“w.g.
BlIP
860
5111
128.1
159.2
156.4
582
586
587
590
Quilel Size
Ouil1 Ares
31
RPM
99.2
108.4
161.8
582
3184
3167
681)
148.9
145.31
155.4
1014
44” 10.
12.57
.g
61112
5137
531
528
112.9
117.0
121.8
126.9
562
564
5117
871
mill Ole.
hiet Aree
10
RPM
85.6
59,4
91.4
97.6
530
5513
8813
585
132.1
157.4
142.8
148.5
64.718” dIe,
19.71 e RPM
602
1162
564
101.7
100.1
110.7
115.6
641
644
647
551
YQlieel DIe,
TIp Speed
9
RPM
76.2
78.9
88.6
57.8
3103
3111
5111
516
130.4
128.4
180.6
11359
(Forward Curved Radial-Tipped Impeller)
rw.g.
8112
477
478
480
485
SiLO
95.5
99.9
104.5
519
538
525
580
574
678
581
584
108.9
2001
207,2
214.31
167.4
173.77
1130.1
166.5
621
626
680
607
610
614
—_618
698
697
600
6114
287.8
245.9
2641
207.0
275.1
222,4
280.0
189.7
187.5
194.0
200.9
639
648
547
628
6119
6312
626
612
618
619
622
253,8
262.1
2107
21302
283.8
245.7
922.7
194.2
201.17
208.1
215.8
657
(361
864
644
647
651
664
681
6118
637
640
270.0
278.6
2.874
287.6
2454
258.4
2111.6
207,7
OiS.O7
222,8
229.8
150.[
187.2
193.9
2007
156,9
1112.8
188.5
174.6
874
678
881
(231
6134
608
672
4149
61,1
664
053
6119
641
648
64313
688
686
637
1380.8
256,2
50411
252.6
3608
269.1
217.7
221.4
228.0
289.7
344.5
192.31
509.2
207.0
2140
174.31
180,7
157.13
REM
w.5.
154.3
160.2
166.2
172.4
589
691
695
599
222.1
229.8
2379
1(3
5134
658
661
564
178.8
1854
102.2
199.8
609
8031
513
2341’
.
141.2
146.87
152.6
168,6
668
57
576
580
206.5
214.2
222 1
15
133PM
Cr18
PPM
RPM
67.2
70.8
78,1)
77.5
486
488
491
494
108.8
119.8
118.8
1238
w..
451
4613
456
4118
81.5
85.1
69.1
98.2
497
1101
604
507
“w..
2987
2620
2852
2786
461
464
4317
471
97.5
101.8
156.5
110.0
544
104.6
1709
177.4
164.8
585
580
594
fiB?
06000
89000
40000
42000
2017
11050
11150
8315
474
477
481
484
‘wg.
44800
46800
48000
59000
13348
9581)
8719
8846
108.4
188.7
129.1
144.8
648
6312
657
501
1915
198,8
20(74
—
811
515
519
523
160,6
15415
1882
1613.7
585
571
fIll
Vsluesu
0298
52000
64000
66000
58000
620
6213
6231
6213
[
116.8
120,7
125.9
131,4
827
632
8117
543
176.4
183,8
1904
113
RPM
710
710
253.6
261.8
263.9
370.2
288.6
248.1
fiB?
728
7211
7130
782
727
21
RPM
254.2
2311.8
267.7
259,7
w.g.
3952
745
745
746
748
745
22
RPM
278.6
“w.g
BliP
213
RPM
w.g.
11912
24
RPM
“w.g.
11911’
25
‘w.g.
RPM
3140
282.7
711
712
714
718
118L7
2110.1
296,8
807.6
765
767
316
778
‘161
761
162
768
381.5
1341.4
551.1
981,1
295,8
3114.5
312.4
822,41
790
1133
796
798
780
182
7336
787
778
778
779
887.7
598.5
409,7
421,0
1347.2
257.0
567.0
877.3
316.9
816.7
0211.0
385.4
845,0
311,3
682,0
392.8
No. 1360306
404.5
8113.9
849.3
8172.9
750
751
785
7318
408.8
794
134
794
801.0
810,5
819.7
329.8
778
778
780
788
319.1
928.8
831,7
719
721
734
181
740
742
888.2
865.9
876.0
985.7
794
323.8
286.7
295,4
804,4
818,8
760
767)
7116
759
862.3
1132.11
385.1
8133.6
726
889.2
849.2
890.4
565.7
106
197
797)
802
271.9
280.4
288.8
2148.1
745
747
761
754
415.3
426,7
488.8
2132.9
842.5
152.8
804
807
809
812
129
752
785
7811
2916
300.8
810.0
919.4
907.5
816.8
326.8
826,1
697
701
704
‘708
7111
717
720
7115
276,2
294.11
283.8
302.8
482.6
444.8
681
684
688
—__6133
801
804
46.41
4774
4907
5039
415.0
426.4
450.2
402.3
1841
‘790
8131
218
1146.0
997.6
727
408.7
820,0
‘172
7713
81’12
880.3
591.0
112
714
757
751
1112.0
82L4
33813.1
8733.6
696
61133
742
746
225.4
1195?
694
240,2
696
2.49.8
097
255.5
7082613.7
-
80000
Vo1uue
111111
31136
187.1
1429
148.9
155,1
3147
582
567
“w31
1151?
,j
506
911
510
5211
161,4
167.8
17431
18
RPM
205.8
212.4
319.5
226.7
284.0
241.6
1349.4
488
493
497
602
4609
4641
4774
41307
527
6813
687
“w.g.
5012
674
674
675
676
678
681
5813
702
7136
7118
710
0918
4111
4243
4376
68000
70000
72500
74000
51189
5372
5804
17
RPM
165.1
1913.1
199.6
206,4
60000
6300))
64000
66000
76000
78590
OV
2PM
655
6116
665
567
213.2
220A
327,7
225,2
257.4
295.1
174.5
282.9
‘.e.
11060
8188
5816
8319
681
664
865
686
088
591
894
20
RPM
(7238.
8446
8580
8718
5846
(35733
248,1
2311,13
2514.11
1167.7
w.g,
46000
48000
50000
52000
692
392
54000
56110(5
55000
50000
869
571
674
678
70000
79000
74000
160011
4111
4245
4878
4509
-
j
62000
64000
00000
68500
78000
00
Perfomlance shown Is lnstIlatIon Type B Free Inset, Ducted outlet Power
rating (BHP) does not Include transmission losses.
Performance ratings do not include the effects of appurtenances (accessories)
.
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PRODUCTS AND SERVICES
OF CEILCOTE AIR POLLUTION CONTROL
R
Air PoVution Control Systems
S
•
Carbon Systems
IWS® Systems
N
Wet Scrubbers
N
•
FRP Fans
Tellerette® Tower Packing
•
Mist Eminators
S
Microelectronics APC Systems
S
Odor Abatement Systems
Strong product and system support is an iritegrat part of Celleote
Air Pollution Control’s resource capabilities. We are broadly
experienced in the design, engineering and installation of a wide
range of air pollution cantrol equipment and systems. We will
undertake contracts ranging from consulting engineering to
complete green field turnkey jobs.
Cejicote Air Pollution Control has a worldwide network of qualified
representatives ready to serve you. Answers to your air pollution
control needs are only a phone call away. To find the name of
your representative, contact the nearest CeiJcote Air Pollution
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Australia
Tel: 61-3-9706-0100
Fax: 61-3-9706-0102
Ceilcote (NZ) Ltd.
42 Egmont Road
Bell Block
New Plymouth, New Zealand
Tel: 64-57-550410
Fax: 64-67-552346
Ceilcote Air Pollution Control