Performance
Data
CAB-PRC001-EN
22
Steam
Coils
Heating performance is based on 70 F (21 C) entering air temperature, 2 psig (14 kPa) and 5 psig (103 kPa) entering steam pressure.
All performance measured on high speed tap, zero ESP, with a throwaway filter.
Table PD-7. Free Discharge Motor, Group 1
2 psig
5 psig
Unit
CFM
TMBH
TMBH
115V
230V
277V
Size
Coil
(L/s)
(TkW)
Q/ITD
(TkW)
Q/ITD
Watt
Watt
Watt
2
Steam
234 (110)
10.1 (2.9)
0.07
10.7 (3.1)
0.07
60
95
65
3
Steam
311 (147)
13.2 (3.9)
0.09
13.9 (4.1)
0.09
70
80
83
4
Steam
383 (181)
17.3 (5.1)
0.12
18.3 (5.4)
0.12
95
96
104
6
Steam
601 (284)
26.3 (7.7)
0.18
27.9 (8.2)
0.18
110
154
165
8
Steam
783 (370)
34.7 (10.2)
0.23
36.7 (10.8)
0.23
135
150
159
10
Steam
974 (460)
44.0 (12.9)
0.30
46.6 (13.7)
0.30
205
250
269
12
Steam
1104 (521)
51.1 (15.0)
0.34
54.2 (15.9)
0.35
230
246
263
Table PD-8. Free Discharge Motor, Group 2
2 psig
5 psig
Unit
CFM
TMBH
TMBH
115V
230V
277V
Size
Coil
(L/s)
(TkW)
Q/ITD
(TkW)
Q/ITD
Watt
Watt
Watt
2
Steam
207 (98)
9.6 (2.8)
0.07
10.1 (3.0)
0.07
60
95
65
3
Steam
277 (130)
12.5 (3.7)
0.08
13.3 (3.9)
0.08
70
80
83
4
Steam
346 (163)
16.6 (4.9)
0.11
17.6 (5.1)
0.11
95
96
104
6
Steam
538 (254)
25.1 (7.4)
0.17
26.6 (7.8)
0.17
110
154
165
8
Steam
702 (331)
33.1 (9.7)
0.22
35.1 (10.3)
0.22
135
150
159
10
Steam
875 (413)
42.1 (12.3)
0.28
44.6 (13.1)
0.28
205
250
269
12
Steam
993 (469)
48.9 (14.3)
0.33
51.8 (15.2)
0.33
230
246
263
Table PD-9. Free Discharge Motor, Group 3
2 psig
5 psig
Unit
CFM
TMBH
TMBH
115V
230V
277V
size
Coil
(L/s)
(TkW)
Q/ITD
(TkW)
Q/ITD
Watt
Watt
Watt
2
Steam
195 (92)
9.3 (2.7)
0.06
9.9 (2.9)
0.06
60
95
65
3
Steam
259 (122)
12.2 (3.6)
0.08
12.9 (3.8)
0.08
70
80
83
4
Steam
328 (155)
16.2 (4.7)
0.11
17.1 (5.0)
0.11
95
96
104
6
Steam
507 (239)
24.5 (7.2)
0.16
26.0 (7.6)
0.17
110
154
165
8
Steam
662 (312)
32.3 (9.5)
0.22
34.3 (10.0)
0.22
135
150
159
10
Steam
827 (390)
41.1 (12.0)
0.28
43.6 (12.8)
0.28
205
250
269
12
Steam
938 (443)
47.7 (14.0)
0.32
50.6 (14.8)
0.32
230
246
263
Note:
Q/ITD = MBH (kW)/(Saturated Steam temperature - Entering air temperature) when DT and GPM remain constant. To determine heating capacities at a different saturated steam or
entering air temperature, compute the new ITD and multiply it by the Q/ITD shown.