Submittal
PESVD-1.0
5-1-01
PESV
Single Duct Terminal Unit
Pneumatic Control, Pressure Dependent
W
H
L
M
Pneumatic
Actuator
D
D
Slip & Drive
Cleat
Connection
4 1/2"
Right hand unit shown. All dimensions are in inches.
Inlet Size
CFM Range
D
H
L
M
W
4
0-225
3 7/8
8
15 1/2
5 3/8
12
5
0-350
7
4 /8
8
15 /2
5 3/8
12
6
0-500
5 7/8
8
15 1/2
3 3/8
12
7
0-650
6 7/8
10
15 1/2
3 3/8
12
8
0-900
7 7/8
10
15 1/2
3 3/8
12
1/
2
1/
2
1
/2
1/
2
1
/2
3/
8
3/
8
3
/8
3/
8
3
/8
3
/8
14
9
0-1050
10
0-1400
12
0-2000
14
0-3000
16
0-4000
24 x 16
0-8000
23
8 7/8
9 7/8
11 7/8
13 7/8
15 7/8
7
/8 x 15 7/8
12
12
1
1/
2
1/
2
15
15
15
15
17 1/2
15
18
15
15
18
3
3
3
3
3
3
14
16
20
24
38
Accessories (Optional)
Check ✓
if provided.
SteriLoc Liner
1" Liner
UltraLoc Liner
Hanger Brackets
Fibre Free Liner
General Description
Heavy gauge steel housing.
Mechanically sealed and
gasketed, leak resistant
construction. Less than 2% of
nominal cfm at 1.5" sp wg.
Dual density internal insulation,
treated to resist air erosion.
Meets requirements of NFPA 90A
and UL 181.
Damper can be furnished either
normally open or normally
closed. The damper is field
convertible to either normally
open or normally closed. An
indicator mark on the end of the
shaft shows the damper location.
Rectangular discharge opening is
designed for slip and drive cleat
duct connection.
Choice of right hand or left hand
control location.
PESVD-2.0
5-1-01
Accessories (Optional)
Integral Sound Attenuator
39 1/2"
W
H
Inlet Size
H
W
4
8
12
5
8
12
6
8
12
7
10
12
8
10
12
9
12 1/2
14
1/
2
14
12
10
12
15
16
14
17 1/2
20
16
18
24
24 x 16
18
38
Note: Heating coils are not shown for the
Pressure Dependent PESV. It is usually
preferable to supply heating coils with air at
pressure independent flow rates, therefore
coils are an option only with Pressure
Independent PESV units.
Standard Control Applications (External Controls and Piping by Others)
Cooling
Heating
Direct Acting Thermostat
Normally Closed Damper
Reverse Acting Thermostat
Normally Open Damper
Direct Acting Thermostat
Normally Open Damper
RESET
5-10 PSI
RESET
10-5 PSI
RESET
10-5 PSI
RESET
5-10 PSI
T
T
T
T
ACTUATOR
ACTUATOR
ACTUATOR
**
**
COLD
AIR
COLD
AIR
Reverse Acting Thermostat
Normally Closed Damper
ACTUATOR
**
HOT
AIR
**
HOT
AIR
** No Air Consumption in Terminal Unit.
This submittal is meant to demonstrate general dimensions of this product. The drawings are not meant to detail every aspect of the product. Drawings are notot scale. Titus
reserves the right to make changes without written notice.
All rights reserved. No part of this work may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopying
cording,and
or by
re any information storage retrieval system without permission in writing from Tomkins Industries, Inc.
Single/Dual Duct Terminals
PERFORMANCE DATA
Sizes 4-5-6
Rows/
Circuits
One-Row
Single
Circuit
Two-Row
MultiCircuit
Sizes 7-8
Rows/
Circuits
One-Row
Single
Circuit
Two-Row
MultiCircuit
Sizes 9-10
Rows/
Circuits
One-Row
MultiCircuit
Two-Row
MultiCircuit
One-Row
MultiCircuit
Two-Row
MultiCircuit
50
4.2
4.4
4.4
4.5
0.01
5.3
5.5
5.6
5.6
0.01
100
5.9
6.3
6.5
6.5
0.01
8.6
9.4
9.6
9.7
0.02
150
7.0
7.5
7.8
7.8
0.02
11.0
12.5
12.8
13.0
0.04
200
7.7
8.3
8.7
8.8
0.03
12.9
15.0
15.5
15.8
0.07
Head
gpm
Loss
1.0
0.69
2.0
2.34
3.0
4.77
4.0
7.96
Airside ∆Ps
1.0
0.33
3.0
2.32
5.0
5.66
7.0
10.28
Airside ∆Ps
100
6.9
7.2
7.4
7.4
0.01
9.4
10.1
10.3
10.3
0.01
200
9.2
9.9
10.2
10.3
0.02
14.3
16.5
17.0
17.2
0.04
300
10.7
11.7
12.1
12.3
0.04
17.6
21.2
22.2
22.6
0.08
400
12.2
13.6
14.1
14.4
0.07
20.1
25.0
26.3
27.0
0.13
gpm
2.0
3.0
5.0
6.0
Airside
2.0
4.0
6.0
8.0
Airside
Head
Loss
0.68
1.40
3.41
4.72
∆Ps
0.65
2.19
4.43
7.35
∆Ps
200
11.7
12.1
12.5
12.6
0.01
17.4
18.5
18.8
19.0
0.02
300
13.8
14.4
15.0
15.1
0.02
22.4
24.3
25.0
25.4
0.04
400
15.3
16.0
16.7
16.9
0.04
26.3
29.0
30.1
30.7
0.07
500
17.0
18.0
18.9
19.1
0.05
29.5
33.0
34.5
35.3
0.10
gpm
2.0
3.0
5.0
6.0
Airside
2.0
4.0
6.0
8.0
Airside
Head
Loss
0.88
1.81
4.40
6.08
∆Ps
0.84
2.79
5.63
9.33
∆Ps
300
14.7
16.4
17.5
17.9
0.01
21.7
26.0
27.1
27.6
0.02
500
17.3
19.9
21.6
22.3
0.03
27.5
35.7
37.9
39.0
0.06
700
19.6
23.0
25.4
26.3
0.06
31.1
42.8
46.3
47.9
0.11
900
21.4
25.7
28.7
29.9
0.09
33.7
48.5
53.0
55.3
0.16
Airflow, cfm
250
300
8.6
9.4
9.4
10.3
9.8
10.9
9.9
11.0
0.05
0.07
14.4
15.6
17.1
19.0
17.9
19.9
18.2
20.4
0.10
0.13
Airflow, cfm
500
600
13.4
14.5
15.1
16.4
15.8
17.2
16.1
17.7
0.10
0.14
21.9
23.4
28.1
30.8
29.9
32.9
30.7
34.0
0.20
0.27
Airflow, cfm
600
700
18.5
19.8
19.7
21.2
20.8
22.4
21.1
22.8
0.07
0.10
32.1
34.4
36.5
39.6
38.3
41.7
39.3
42.9
0.14
0.18
Airflow, cfm
1100
1300
22.9
24.1
28.0
29.9
31.6
34.0
33.0
35.8
0.12
0.17
35.6
37.1
53.0
56.9
58.7
63.6
61.6
67.0
0.23
0.32
For performance notes, see the next page.
350
10.1
11.1
11.8
11.9
0.09
16.7
20.7
21.8
22.3
0.18
400
10.6
11.8
12.6
12.8
0.12
17.6
22.2
23.5
24.1
0.22
450
11.2
12.5
13.4
13.6
0.14
18.4
23.5
25.0
25.7
0.27
700
15.3
17.6
18.5
19.0
0.19
24.7
33.1
35.6
36.9
0.36
800
16.1
18.6
19.6
20.2
0.24
25.7
35.1
38.0
39.5
0.46
900
16.8
19.5
20.7
21.3
0.30
26.6
37.0
40.2
41.8
0.56
800
21.0
22.5
23.9
24.3
0.12
36.3
42.3
44.8
46.2
0.23
900
22.0
23.7
25.3
25.8
0.15
38.1
44.7
47.6
49.2
0.29
1000
23.0
24.8
26.6
27.1
0.18
39.6
46.9
50.1
51.9
0.35
1500
25.2
31.5
36.2
38.2
0.21
38.3
60.2
67.8
71.8
0.41
1700
26.0
32.9
38.1
40.3
0.27
39.3
63.1
71.6
76.1
0.51
1900
26.8
34.2
39.9
42.3
0.33
40.2
65.6
75.0
79.9
0.62
M
PERFORMANCE DATA
Size 12
Rows/
Circuits
Head
gpm
Loss
1.0
0.50
2.0
1.69
4.0
5.77
5.0
8.59
Airside ∆ Ps
1.0
0.24
3.0
1.66
5.0
4.06
7.0
7.39
Airside ∆Ps
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PESV, AESV, DESV / HOT WATER COIL CAPACITY, MBH / 1- AND 2-ROW
M15
Single/Dual Duct Terminals
M
PESV, AESV, DESV / HOT WATER COIL CAPACITY, MBH / 1- AND 2-ROW
Size 14
Rows/
Circuits
One-Row
MultiCircuit
Two-Row
MultiCircuit
Rows/
Circuits
Size 16
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PERFORMANCE DATA
One-Row
MultiCircuit
Two-Row
MultiCircuit
Size 24 x 16
Rows/
Circuits
One-Row
MultiCircuit
PERFORMANCE DATA
Two-Row
MultiCircuit
M16
gpm
2.0
3.0
5.0
6.0
Airside
2.0
4.0
6.0
8.0
Airside
Head
Loss
0.45
0.95
2.31
3.17
∆Ps
0.56
1.94
3.89
6.40
∆Ps
400
21.9
23.2
24.3
24.6
0.01
32.5
35.6
36.8
37.4
0.02
700
26.8
28.8
30.6
31.1
0.03
43.9
50.5
53.2
54.6
0.05
1000
30.7
33.4
36.0
36.7
0.05
51.4
61.3
65.5
67.8
0.10
gpm
3.0
5.0
7.0
9.0
Airside
3.0
5.0
7.0
9.0
Airside
Head
Loss
0.98
2.44
4.38
6.83
∆Ps
0.50
1.26
2.25
3.46
∆Ps
600
30.1
31.9
32.7
33.2
0.02
45.4
49.1
50.8
51.8
0.03
1000
36.2
38.9
40.3
41.1
0.04
59.2
66.1
69.6
71.7
0.07
1400
42.1
46.0
47.9
49.1
0.07
68.5
78.4
83.6
86.8
0.13
gpm
3.0
5.0
7.0
9.0
Airside
3.0
5.0
7.0
9.0
Airside
Head
Loss
1.15
2.90
5.20
8.08
∆Ps
0.56
1.41
2.51
3.86
∆Ps
600
38.0
40.3
41.3
41.9
0.01
52.2
55.9
57.6
58.6
0.01
1200
49.5
53.8
55.9
57.1
0.02
76.1
85.8
90.6
93.5
0.04
1800
57.4
63.4
66.5
68.3
0.05
90.4
105.6
113.5
118.4
0.09
• All coil performance in accordance with AHRI 410-2001.
• Heating capacities are in MBH.
• Data based on 180°F entering water
and 55°F entering air.
• For temperature differentials other than 125°,
multiply MBH by correction factors below.
• Head loss is in feet of water.
• Always supply water to lowest connection
pipe to prevent air entrapment.
• Air temperature rise = 927 x MBH/cfm.
1300
34.2
37.5
40.9
41.8
0.08
56.8
69.7
75.3
78.5
0.16
Airflow, cfm
1600
1900
36.9
39.2
40.9
43.8
45.0
48.5
46.1
49.8
0.12
0.17
60.9
64.2
76.4
82.0
83.4
90.3
87.4
95.1
0.23
0.31
Airflow, cfm
2200
2600
50.6
53.8
56.4
60.4
59.4
63.9
61.2
66.0
0.16
0.21
80.7
85.0
95.5
101.9
103.7 111.4
108.9 117.5
0.30
0.40
Airflow, cfm
2400
3000
3600
64.5
70.1
74.7
72.4
79.8
85.9
76.5
84.8
91.8
79.0
87.8
95.4
0.08
0.12
0.17
100.1 107.2 112.7
120.0 131.2 140.1
130.8 144.6 155.9
137.6 153.2 166.1
0.15
0.23
0.31
1800
46.8
51.7
54.1
55.6
0.11
75.3
87.9
94.6
98.9
0.21
2200
41.1
46.3
51.6
53.1
0.21
66.8
86.8
96.3
101.8
0.41
2500
42.8
48.4
54.3
56.0
0.27
69.1
90.9
101.5
107.8
0.51
2800
44.3
50.3
56.7
58.6
0.33
71.0
94.5
106.1
113.1
0.63
3000
56.5
63.9
67.9
70.3
0.27
88.5
107.2
118.0
125.0
0.51
3400
58.9
67.1
71.4
74.1
0.34
91.5
111.9
123.7
131.5
0.64
3800
61.0
69.8
74.6
77.5
0.41
94.1
115.9
128.8
137.3
0.78
4200
78.5
91.1
97.8
102.0
0.22
117.0
147.5
165.4
177.2
0.41
4800
81.8
95.7
103.2
107.9
0.27
120.6
153.7
173.5
186.7
0.52
5400
84.7
99.7
107.9
113.1
0.34
123.6
159.0
180.6
195.1
0.64
• Water temperature drop = 2.04 x MBH/gpm.
• Connection size is ½-in OD male solder for 1-row coil
sizes 04-08. All other coils have ⅞-in OD male solder.
• Coils are not intended for steam applications and are
labeled for a maximum water temperature of 200°F.
• Coils are tested for leakage at test pressure of 500 psi.
• Water volumes less than those shown may result
in laminar flow and reduced heating capacity.
If possible reduce the number of coil rows to
increase water velocity into turbulent range.
Correction Factors for Other Entering Conditions
∆T
50
60
70
80
90
100
110
125
140
150
Factor
0.40
0.48
0.56
0.64
0.72
0.80
0.88
1.00
1.12
1.20
Note: Airside DPs reflects the air pressure drop of the hot water coil.
Single/Dual Duct Terminals
PERFORMANCE DATA
Sizes 4-5-6
Sizes 7-8
Sizes 9-10
FourRow
MultiCircuit
Rows/
Circuits
ThreeRow
MultiCircuit
FourRow
MultiCircuit
Rows/
Circuits
ThreeRow
MultiCircuit
FourRow
MultiCircuit
Rows/
Circuits
ThreeRow
MultiCircuit
FourRow
MultiCircuit
Head
Loss
1.31
2.63
6.43
8.88
∆Ps
1.59
2.61
5.28
8.77
∆Ps
50
6.2
6.2
6.3
6.3
0.01
6.5
6.5
6.5
6.5
0.01
100
11.0
11.2
11.4
11.4
0.03
12.1
12.2
12.3
12.4
0.04
150
14.9
15.3
15.7
15.8
0.06
16.9
17.2
17.4
17.5
0.08
200
18.1
18.8
19.4
19.6
0.10
21.1
21.5
21.9
22.2
0.13
Head
gpm
Loss
2.0
0.79
4.0
2.63
6.0
5.31
8.0
8.80
Airside ∆Ps
4.0
2.04
6.0
4.12
8.0
6.79
10.0 10.04
Airside ∆Ps
100
11.5
11.8
11.9
11.9
0.02
12.6
12.7
12.7
12.7
0.02
200
19.2
20.3
20.8
21.0
0.06
22.6
23.0
23.2
23.4
0.08
300
24.8
27.0
27.9
28.3
0.12
30.6
31.5
32.0
32.3
0.16
400
29.2
32.5
33.7
34.4
0.20
37.2
38.7
39.5
40.0
0.26
gpm
3.0
5.0
7.0
9.0
Airside
4.0
5.0
8.0
10.0
Airside
Head
Loss
1.18
2.85
5.11
7.92
∆Ps
1.72
2.53
5.71
8.41
∆Ps
200
21.5
22.1
22.4
22.6
0.03
23.9
24.1
24.4
24.6
0.04
300
28.8
30.1
30.7
31.1
0.06
33.0
33.5
34.3
34.6
0.08
400
34.7
36.8
37.8
38.3
0.10
40.7
41.6
43.0
43.5
0.13
500
39.7
42.5
43.9
44.7
0.15
47.3
48.6
50.6
51.4
0.20
gpm
3.0
4.0
6.0
8.0
Airside
4.5
5.0
7.0
9.0
Airside
Head
Loss
1.50
2.46
4.94
8.14
∆Ps
2.67
3.20
5.71
8.81
∆Ps
300
29.7
31.9
32.6
33.0
0.03
35.2
35.4
36.1
36.3
0.05
500
40.6
45.6
47.5
48.5
0.09
52.0
52.6
54.5
55.1
0.11
700
48.3
56.2
59.3
61.0
0.16
65.3
66.2
69.7
70.9
0.21
900
53.9
64.6
69.0
71.4
0.24
76.0
77.4
82.5
84.3
0.32
gpm
2.0
3.0
5.0
6.0
Airside
3.0
4.0
6.0
8.0
Airside
Airflow, cfm
250
300
20.9
23.3
21.9
24.5
22.7
25.6
22.9
25.9
0.14
0.20
24.7
27.9
25.3
28.7
26.0
29.6
26.3
30.1
0.19
0.26
Airflow, cfm
500
600
32.7
35.6
37.0
41.0
38.8
43.2
39.7
44.4
0.29
0.40
42.7
47.5
44.9
50.3
46.0
51.8
46.8
52.8
0.39
0.53
Airflow, cfm
600
700
43.9
47.5
47.6
52.0
49.4
54.3
50.4
55.6
0.21
0.27
53.0
58.0
54.7
60.2
57.5
63.7
58.5
65.0
0.27
0.36
Airflow, cfm
1100
1300
58.4
61.9
71.6
77.4
77.2
84.3
80.4
88.2
0.35
0.47
84.9
92.4
86.7
94.7
93.5
103.2
96.0
106.3
0.46
0.61
For Performance Notes, see the next page.
350
25.4
26.9
28.3
28.7
0.26
30.7
31.8
33.0
33.6
0.34
400
27.3
29.1
30.7
31.2
0.33
33.3
34.6
36.0
36.8
0.43
450
28.9
31.0
32.9
33.5
0.40
35.6
37.2
38.8
39.8
0.53
700
38.1
44.4
47.0
48.5
0.53
51.7
55.0
56.9
58.1
0.70
800
40.2
47.4
50.5
52.2
0.67
55.3
59.3
61.6
63.0
0.89
900
42.0
50.1
53.6
55.6
0.83
58.6
63.2
65.8
67.5
1.10
800
50.8
56.0
58.7
60.3
0.34
62.5
65.1
69.4
70.9
0.46
900
53.6
59.6
62.7
64.5
0.42
66.5
69.5
74.5
76.4
0.56
1000
56.2
62.9
66.4
68.5
0.51
70.1
73.5
79.3
81.5
0.68
1500
64.8
82.5
90.5
95.0
0.60
98.8
101.5
111.7
115.5
0.79
1700
67.3
86.8
95.9
101.2
0.75
104.4
107.5
119.3
123.7
0.99
1900
69.4
90.7
100.8
106.7
0.91
109.4
112.8
126.1
131.2
1.20
M
PERFORMANCE DATA
Size 12
Rows/
Circuits
ThreeRow
MultiCircuit
www.titus-hvac.com | www.titus-energysolutions.com
PESV, AESV, DESV / HOT WATER COIL CAPACITY, MBH / 3- AND 4-ROW
M17
Single/Dual Duct Terminals
Size 14
Rows/
Circuits
ThreeRow
MultiCircuit
FourRow
MultiCircuit
Rows/
Circuits
ThreeRow
MultiCircuit
FourRow
MultiCircuit
Rows/
Circuits
ThreeRow
MultiCircuit
PERFORMANCE DATA
Size 24 x 16
M
PESV, AESV, DESV / HOT WATER COIL CAPACITY, MBH / 3- AND 4-ROW
Size 16
www.titus-hvac.com | www.titus-energysolutions.com
PERFORMANCE DATA
M18
FourRow
MultiCircuit
gpm
4.0
5.0
6.0
8.0
Airside
6.0
6.0
8.0
10.0
Airside
Head
Loss
1.95
2.87
3.93
6.44
∆Ps
2.77
2.77
4.55
6.67
∆Ps
400
42.5
43.2
43.7
44.4
0.03
47.6
47.6
48.2
48.6
0.04
700
62.2
64.2
65.6
67.3
0.08
73.2
73.2
75.2
76.4
0.10
1000
76.5
79.9
82.2
85.3
0.15
93.0
93.0
96.7
99.0
0.20
gpm
6.0
8.0
10.0
12.0
Airside
9.0
10.0
11.0
12.0
Airside
Head
Loss
1.54
2.54
3.73
5.10
∆Ps
2.79
3.34
3.94
4.57
∆Ps
600
60.4
61.9
62.9
63.5
0.04
68.9
69.3
69.7
69.9
0.06
1000
84.3
87.8
90.0
91.6
0.11
100.8
101.9
102.9
103.6
0.14
1400
101.8
107.4
111.1
113.7
0.20
125.6
127.5
129.2
130.5
0.26
gpm
6.0
8.0
10.0
12.0
Airside
9.0
10.0
11.0
12.0
Airside
Head
Loss
1.69
2.78
4.08
5.57
∆Ps
3.01
3.61
4.25
4.93
∆Ps
600
66.6
67.9
68.7
69.3
0.02
73.7
74.0
74.3
74.5
0.03
1200
107.8
112.5
115.4
117.4
0.07
127.6
129.0
130.2
131.1
0.09
1800
135.8
144.3
149.8
153.6
0.14
167.4
170.3
172.7
174.7
0.18
• All coil performance in accordance with AHRI 410-2001.
• Heating capacities are in MBH.
• Data based on 180°F entering water
and 55°F entering air.
• For temperature differentials other than 125°,
multiply MBH by correction factors below.
• Head loss is in feet of water.
• Always supply water to lowest connection
pipe to prevent air entrapment.
• Air temperature rise = 927 x MBH/cfm.
Airflow, cfm
1600
1900
96.3
103.5
102.2 110.5
106.4 115.6
112.2 122.7
0.34
0.46
121.8 132.6
121.8 132.6
129.1 141.7
133.9 147.7
0.45
0.61
Airflow, cfm
1800
2200
2600
115.5 126.4 135.5
123.0 135.9 146.7
128.1 142.2 154.3
131.7 146.8 159.8
0.31
0.44
0.59
145.5 161.9 175.8
148.3 165.6 180.2
150.7 168.6 184.0
152.7 171.3 187.2
0.40
0.58
0.78
Airflow, cfm
2400
3000
3600
156.2 171.9 184.4
168.4 187.5 203.0
176.4 197.9 215.7
182.1 205.4 225.0
0.23
0.33
0.46
198.0 222.2 242.0
202.4 228.2 249.4
206.1 233.2 255.7
209.3 237.6 261.2
0.30
0.44
0.61
1300
87.5
92.2
95.5
99.9
0.24
108.8
108.8
114.3
117.9
0.31
2200
109.5
117.6
123.5
131.8
0.60
141.8
141.8
152.6
159.7
0.79
2500
114.7
123.7
130.4
139.9
0.75
149.7
149.7
162.1
170.4
1.00
2800
119.1
129.0
136.5
147.0
0.92
156.7
156.7
170.5
180.0
1.22
3000
143.1
155.9
164.7
171.1
0.76
187.7
192.8
197.3
201.1
1.00
3400
149.7
164.0
173.8
181.1
0.94
198.0
203.9
208.9
213.3
1.25
3800
155.5
171.0
182.0
190.0
1.15
207.0
213.6
219.2
224.2
1.52
4200
194.6
216.0
230.8
241.7
0.61
258.4
267.2
274.7
281.2
0.80
4800
203.2
227.0
243.8
256.2
0.77
272.3
282.4
291.0
298.5
1.02
5400
210.4
236.6
255.1
269.0
0.95
284.3
295.5
305.1
313.6
1.25
• Water temperature drop = 2.04 x MBH/gpm.
• Connection size is ½-in OD male solder for 1-row coil
sizes 04-08. All other coils have ⅞-in OD male solder.
• Coils are not intended for steam applications and are
labeled for a maximum water temperature of 200°F.
• Coils are tested for leakage at test pressure of 500 psi.
• Water volumes less than those shown may result
in laminar flow and reduced heating capacity.
If possible reduce the number of coil rows to
increase water velocity into turbulent range.
Correction Factors for Other Entering Conditions
∆T
50
60
70
80
90
100
110
125
140
150
Factor
0.40
0.48
0.56
0.64
0.72
0.80
0.88
1.00
1.12
1.20
Note: Airside DPs reflects the air pressure drop of the hot water coil.
