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  Trane Company (The) UniTrane Fan-Coil UniTrane Fan-Coil - Page 21
| Performance Data
Hot
Water Reheat Coil Heating performance
is based on 70 F (21 C) entering air temperature, 180 F (82 C) entering hot water
temperature with a 20 F (-7 C) delta T.
All performance measured on high speed tap, 115 V, 0.2" (.5 cm)
ESP, with no filter. See page 14 for performance groupings.
Table PD-18 — High Static Motor,Group 1
|
Main Coil |
TMBH |
|
GPM |
WPD |
| FC |
Rows |
(TkW) |
Q/ITD |
(L/s) |
(Pa) |
|
2 |
3.2 (.9) |
0.03 |
0.3 (.02) |
0.01 (30) |
| 02 |
3 |
3.2 (.9) |
0.03 |
0.3 (.02) |
0.01 (30) |
|
4 |
3.0 (.9) |
0.03 |
0.3 (.02) |
0.01 (30) |
|
2 |
4.5 (1.3) |
0.04 |
0.5 (.03) |
0.02 (60) |
| 03 |
3 |
4.3 (1.3) |
0.04 |
0.4 (.03) |
0.02 (60) |
|
4 |
4.1 (1.2) |
0.04 |
0.4 (.03) |
0.02 (60) |
|
2 |
5.9 (1.7) |
0.05 |
0.6 (.04) |
0.04 (120) |
| 04 |
3 |
6.5 (1.9) |
0.06 |
0.7 (.04) |
0.05 (150) |
|
4 |
6.3 (1.8) |
0.06 |
0.6 (.04) |
0.04 (120) |
|
2 |
10.1 (3.0) |
0.09 |
1.0
(.06) |
0.12 (359) |
| 06 |
3 |
11.0
(3.2) |
0.10 |
1.1 (.07) |
0.14 (419) |
|
4 |
10.6 (3.1) |
0.10 |
1.1 (.07) |
0.13 (389) |
|
2 |
13.8(4.0) |
0.13 |
1.4 (.09) |
0.22 (658) |
| 08 |
3 |
13.6 (4.0) |
0.12 |
1.4 (.09) |
0.22 (658) |
|
4 |
13.2 (3.9) |
0.12 |
1.3 (.08) |
0.21(628) |
|
2 |
17.8(5.2) |
0.16 |
1.8 (.11) |
0.38 (1140) |
| 10 |
3 |
18.8 (5.5) |
0.17 |
1.9 (.12) |
0.42 (1260) |
|
4 |
18.1 (5.3) |
0.17 |
1.8 (.11) |
0.40(1200) |
|
2 |
20.8 (6.1) |
0.19 |
2.1 (.13) |
0.54 (1620) |
| 12 |
3 |
21.3 (6.2) |
0.19 |
2.1 (.13) |
0.57 (1700) |
|
4 |
20.8 (6.1) |
0.19 |
2.1 (.13) |
0.54 (1620) |
|
Main Coil |
TMBH |
|
GPM |
WPD |
| FC |
Rows |
(TkW) |
Q/ITD |
(L/s) |
(Pa) |
| |
2 |
3.1 (.9) |
0.03 |
0.3(.02) |
0.01(30) |
| 02 |
3 |
3.0 (.9) |
0.03 |
0.3(.02) |
0.01(30) |
| |
4 |
2.9 (.8) |
0.03 |
0.3(.02) |
0.01 (30) |
| |
2 |
4.3 (1.3) |
0.04 |
0.4(.03) |
0.02 (60) |
| 03 |
3 |
4.0 (1.2) |
0.04 |
0.4(.03) |
0.02 (60) |
| |
4 |
3.9 (1.1) |
0.04 |
0.4(.03) |
0.02 (60) |
| |
2 |
5.6 (1.6) |
0.05 |
0.6(.04) |
0.04 (120) |
| 04 |
3 |
6.1 (1.8) |
0.06 |
0.6(.04) |
0.04 (120) |
| |
4 |
6.0 (1.8) |
0.05 |
0.6(.04) |
0.04 (120) |
| |
2 |
9.6 (2.8) |
0.09 |
1.0(.06) |
0.11 (329) |
| 06 |
3 |
10.3 (3.0) |
0.09 |
1.0(.06) |
0.11 (329) |
| |
4 |
10.0 (2.9) |
0.09 |
1.0(.06) |
0.12 (359) |
| |
2 |
13.2 (3.9) |
0.12 |
1.3(.08) |
0.20 (598) |
| 08 |
3 |
13.0 (3.8) |
0.12 |
1.3(.08) |
0.20 (598) |
| |
4 |
12.7 (3.7) |
0.12 |
1.3(.08) |
0.19 (568) |
| |
2 |
17.0 (5.0) |
0.16 |
1.7(.11) |
0.35 (1050) |
| 10 |
3 |
17.7 (5.2) |
0.16 |
1.8(.11) |
0.38 (1140) |
| |
4 |
17.2 (5.0) |
0.16 |
1.7(.11) |
0.36 (108) |
| |
2 |
19.9 (5.8) |
0.18 |
2.0(.13) |
0.50 (1500) |
| 12 |
3 |
20.4 (6.0) |
0.19 |
2.0(.13) |
0.52 (1560) |
| |
4 |
19.9 (5.8) |
0.18 |
2.0(.13) |
0.50 (1500) |
- Medium and low speed capacities are approximately 80 percent and 60 percent respectively
of the high speed capacity.
- Q/ITD = MBH (kW)/(Entering water temperature -Entering air temperature) when delta
T
and GPM (L/s) remain constant. To determine heating capacities at a different entering
water temperature or entering air temperature, compute the new ITD and multiply it by the
Q/ITD shown.
High static motors need the appropriate length of duct to prevent poor acoustical applications.
Table PD-20 — High Static Motor,Group 3
|
Main Coil |
TMBH |
|
GPM |
WPD |
| FC |
Rows |
(TkW) |
Q/ITD |
(L/s) |
(Pa) |
| |
2 |
2.9 (.8) |
0.03 |
0.3 (.02) |
0.01 (30) |
| 02 |
3 |
2.8 (.8) |
0.03 |
0.3 (.02) |
0.01 (30) |
| |
4 |
2.7 (.8) |
0.03 |
0.3 (.02) |
0.01 (30) |
| |
2 |
4.1 (1.2) |
0.04 |
0.4 (.03) |
0.02 (60) |
| 03 |
3 |
3.9 (1.1) |
0.04 |
0.4 (.03) |
0.02 (60) |
| |
4 |
3.8 (1.1) |
0.03 |
0.4 (.03) |
0.02 (60) |
| |
2 |
5.5 (1.6) |
0.05 |
0.6 (.04) |
0.03 (90) |
| 04 |
3 |
5.9 (1.7) |
0.05 |
0.6 (.04) |
0.04 (120) |
| |
4 |
5.8 (1.7) |
0.05 |
0.6 (.04) |
0.04 (120) |
| |
2 |
9.2 (2.7) |
0.08 |
1.0 (.06) |
0.10 (299) |
| 06 |
3 |
9.9 (2.9) |
0.09 |
1.0 (.06) |
0.11 (329) |
| |
4 |
9.7 (2.8) |
0.09 |
1.0 (.06) |
0.11 (329) |
| |
2 |
12.7 (3.7) |
0.12 |
1.3 (.08) |
0.19 (568) |
| 08 |
3 |
12.5 (3.7) |
0.11 |
1.3 (.08) |
0.19 (568) |
| |
4 |
12.3 (3.6) |
0.11 |
1.2 (.08) |
0.18 (538) |
| |
2 |
16.4 (4.8) |
0.15 |
1.6 (.10) |
0.33 (987) |
| 10 |
3 |
17.0 (5.0) |
0.15 |
1.7 (.11) |
0.35 (1050) |
| |
4 |
16.6 (4.9) |
0.15 |
1.7 (.11) |
0.34 (1020) |
| |
2 |
19.2 (5.6) |
0.18 |
1.9 (.12) |
0.47 (1400) |
| 12 |
3 |
19.6 (5.7) |
0.18 |
2.0 (.13) |
0.49 (1460) |
| |
4 |
19.2 (5.6) |
0.17 |
1.9 (.12) |
0.47 (1400) |
1. Medium and low speed capacities are approximately 80
percent and 60 percent respectively of the high speed capacity.
2. Q/ITD=MBH(kW)/(Entering water temperature - Entering air
temperature) when delta T and
GPM (L/s) remain constant. To determine heating capacities at a different entering water
temperature or entering air temperature, compute the new ITD and multiply it by the Q/ITD shown.
3. High static motors need the appropriate length of duct
to prevent poor acoustical applications. Heating performance is based on 70 F (21 C)
entering air temperature, 180 F (82 C) entering hot water temperature with a 20 F (-7 C) delta T. All performance measured on high speed tap,
115 V, 0.2" (.5 cm) ESP, with no filter. |
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