44 f – Carrier 30HR User Manual
Page 6
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^2 P Leaving Chilled
Water Temperature
PERFORMANCE DATA
30HR,HS RATINGS
CAP.
(tons)
SIZE
SDT*
(F)
KW
-‘■"T ' "
j COOL
THR
(tons)j Gpm
,ER
DATA
LISE
PD
Gpm
7 5
Lwt(F)
E
-
Gpm
COND
itering W
8 0
Lwt(F)
ENSER WA
ater Temper
PD ; Gpm
TER
ature (F'
"^Ts
Lwt (?)
pd
"
Gpm
90^ -
Lwt (F)'
PD
75.0
137.4
112 4
106 9
180
0
6 3
_
_
_
_
_
_
_
_
80
0
130.3
108.0
1 10.7
192.0
7 2
_
_
_
_
_
_
_
85.C
1 23.6 104.0
1 14 5
204.0
8 .1
—
_
_
_
_
_
_
_
_
_
87.6 '
;
t
2
o
;
q
'
501.8: .М5У.6
210,4.
,
8 .6 .
126
0
97.2
2 .6
126.0
10 2 .2
2 6
126
0
107 2
2 6
142 9
109
6
3.2
90 0
inn
117 0
10 0 1
1 18.4
216.0
9.1
126.0
97.6
2 6
126
0
10 2 6
2 .6
132 9
106.4
2.9
172.0
106.5
4
6
95.0
1 10.7
96.4
]
90 4
228.0
10 .2
126
0
98.3
2 .6
148.1
99
8
3.5
197.8
99.8
6 .0 296.3
99.9
12 .8
98.7
l'Oó.Oi
935/
T2S.3
236.9
n.G
151.1
94 9
3
6
201.7
94 9
6 .2 300.9- :, 951.0 . , M3.2
_
_
_
99.5
:5.Q5.,0. 93.5:1.125.9
238.S
n.i.
160.1
93.9
4.C
218.1
93 9
7 2
335.2
94.1
16
2
_
_
10 0 .0
104.4
92.8
126.3
240.0
11 3
166.1
93 3
4 3
229 2
93 2
7.9
358 5
93.5
18 3
_
_
__
105.0
98 :
89.2
130.3
252.0
12.4
268.6
8 6 .6
10.7
-
-
-
~
85 C 1
133 ;
12 0 .0
119.1
204 0
8 .1
_
_
_
_
_
_
_
_
_
90 0 1
126.8
115
8
122.9
216.0
9.1
_
_
_
_
_
_
_
_
_
95.0
12 0 6
11 1.8
126.8
228.0
10 .2
_
__
_
_
_
_
_
_
_
_
.95,5:
!.
12 a.O:' i 11.415:27.5::
229.2.
.50:3..
145 0
96 1
2 9
145.0
10 1.1
2.9
145.0
106.1
2.9
154.0
109
8
3 3
10 0 0
1 in
114 7
108.0
130.7
240.0
М М 3
145.0
96.8
2.9
145 0
10 1 8
2 9
162 5
104 3
3 7
218.7
104 4
6 4
105.0
' ' 108.8 n04
2 134.6
252.0
12 4
145.0
97 4
2 9
177.3
98.3
4.3
245.1
98 2
7.9
389,8
98 4
18.8
107:71
105.7 ¡102.3 5 3c. 7
258.5
53.1
164.9
95 0
3
8
2 2 0 .0
95.0
6 4 33.1.0
,:9S.O. . 1:3.,8
—
_
_
iOS,2.
505.0 ,505.8
137.2
259.6
13.1
171 3
94 3
4 0
231.8
94.3
7 Ì ¡356 4
94.3
15.9
_
—
_
1 10 c
103 0
10 0 6
138
6
264.0
13
6
194 2
92 2
5.1
275 7
92.1
9
8
—
—
—
_
_
1 15.0
97 1
97 C
142 5
276 0
14.9
312 5
8 6 0
12.4
-
-
-
--
-
-
90.0
135
6
132.1
127.5
216.0
9 1
_
_
_
_
__
_
__
__
_
_
95.0
129
6
127
8
131.3
228
0
10 .2
—
—
_
_
—
—
_
_
_
10 0 .0
123.8
123
6
135 1
240.0
11.3
—
—
_
_
__
—
_
_
_
■f03;3
1 T20.0?120.'9. ,137.6 :24S„0.:
12 .0
158.0
95 9
2 7
158
0
100.9
2.7
158.0
105 9
2 7
164
8
11 0 .1
2 9
105 0
1 1 18 2 119 7
139.0
252 0
12 4
158 0
96 1
2 7
158 0
10 1.1
2 7
158.0
106.1
2.7
182
2
108.3
3.6
1 10 C
520
1 12 7
1 15
8 142.9
264 0
13
6
158 0
96 7
2 7
158 0
101.7
2 7
194 9
10 2 .6
4.1
274.2
102 5
7 7
1 15.0
' 107.2
11 2 .1
146.8
2.76.0
14 9
162 3
96 7
2.9
208.2
96.9
4
6
298,5. .. 96.8,.
..9.0, 503 1
97 0
24 1
116.6
105.5
no. 9
14S:T
279:.B
55 3
177.2
95.1
3 4
235 7
95 1
5
8 I35.5-.6
.55.0
12 .6
_
_
_
)57.0
505.0
5 50.6 148.4
280.6
15.4
181 5
94
6
3.5
243
8
94
6
6 .2 372 9
94
6
13 7
_
_
_
Ì
2 0 .C
10 1 8
108 4
150.8
288.0
16
2
2 2 2 8
91 2
5 2
325.1
91 1
10 6
_
-
_
_
_
_
125 0
96 3
104.8
154.8
300 0
17
6
355.5
85 4
12 6
-
-
-
-
-
-
-
10 2 .0
Ì34.5
154.6
145 9
245.0
6 5
_
_
_
_
_
_
_
106
0
130
1
151 4
149 0
254 0
7.0
_
_
_
_
—
_
__
_
1 10 .0
125.8
148 5
152
1
264 0
7 5
—
—
_
_
—
—
_
_
_
_
1 14.0
121 7
144.7
155 1
274.0
8 .0
_
_
_
_
_
—
_
_
_
_
1)5.7
11 2 0 .0 '¡43:3'
156.3
278.0
8 .2
160 C
98 0
2 9
160.0
103 0
2.9
160.0
108.0
2.9
194.0
109.0
4 1
1 18.0
140
М ‘¡7.5
М 4 2
158.1
283'C ‘
■‘8.5
160
0
99.0
2.9
160
0
104.0
2.9
174 0
107.0
3.4
225 0
107 0
5 4
12 2 .0
113 5 137 7
161
1
293.0
9.0
160.0
99.0
2 9
172 0
103 0
3 3
219.0
103.0
5.2
312.0
10 2 .0
9 7
126.0
' 109.4 134 .2
164.1
302.0
9.6
169 0
98.0
3.3
214.0
98.0
4.9
298 0
98.0
8.9
480 0
98 0
20 7
129.0
106.4
5 .3 5.6 566.4
3I0V0
10.0
197 0
95 0
4.3
264 0
95.0
7 21400.0
,..95.0.
:15*Q.
—
_
„
.13G..5,
5,05.0
130.3
167.5
353-0
;0.2
215 0
94 0
5.C
298.0
94 0
8.9
474 0
94.0
20 3
_
_
—
134 0
101.4
127 3
170 2
322.0
10.7
275 0
90.0
7 7
419 0
90 0
16 3
-
-
-
-
-
-
1 17.0
134 :
179 6 feo 0
28Î.C
8 4
_
_
_
_
_
_
_
_
_
_
121.0
130 1
176 4
171 1
290.0
8 9
_
—
—
_
_
_
_
_
_
125.0
126 C
172.8
174 1
300.0
9.4
-,
—
_
_
—
_
_
_
_
129.0
122 Q
169.0
177.C
3 10 .0
10.G
_
__
_
_
—
_
_
_
—
.;3U
; 120.0, .566.9 578,5.1 3.15.0.
T0.3
180 0
99 0
2 3
180.0
104 0
2 3
181.0
109.0
2.3
223.0
109.0
3.5
135 0
160
1 16 1 162.91181 3
324 0
10 8
180 0
99 0
2.3
180 0
104.0
2 3
215.0
105.0
3 3
286.0
105.0
5.8
139.0
1 12 2 158 71184.1
3 3 4 0
11 4
180 0
100 0
2 3
209 0
101 0
3 1
274,0
101.0
5.3
396 0
101.0
11.0
;45;0
106.3
1,52.3 188-3
34S.0
12.3
225 C
95 0
3.6
301 c
95.0
6.4
4 4 7 .0
...95.0
13.9
_
—
_
546,4
1Q5..0 150,8
189.3
351.,0:
12.5
244. C
94.0
4.2
335 0
94 0
7 9
517 C
94 0
18 7
—
—
—
1 50 0
101.4
147 1
191 8
360.0
13 1
308 0
90 0
6 7
458.0
90 0
14.6
-
—
—
_
_
—
154 0
97.51143 1
194.6
370.0
13 7
429 0
86 0
12
^
-
-
-
-
-
44 F
Leaving Chilled
Water Temperature
CAP. ¡SIZE
(tons)
5
36 0 :
38.0 i
40.C
42.0
42.6
44.0
46.0
SDT’
(F)
040
KW
128 9
12 1 .7 !
Î2C*Q.^
114.6:
107.Sr
105.0;
100 3
92.9
THR
(tons)
COOLER
FLOW DATA
lOF RISE
G pm
52.4
50.9
50.2
52.3
49.6; 52.61
48.01 53 6 I
45.7; 55.0 [
44.9; 55.41
43.4' 56 3 !
41.21 57.71
PD
86.4
91 2
92^3 ) 7.9
96.0 I 8.7
О00.3 1 9,6
М02.4 i 9.8
105 6 no.5
Gpm
7 0
7.8
72.0
72.0
73 7
81.6
107.0
110.4J11.5 Ì218.0
75
Lwt (F)|
po
’
CONDENSER WATER
Entering Water Temperature (F)
Gpm
92.5
92.9
92 9
91.3
87.6
81 4
2 C : 72.0
2 1 i 72.0
2 2 90 3
80 _
Lwt [F)
2.6
4 4
¡16 7
108.3
165.4 I
97.5
97 9
94 6
92 4
88 2
PD
2.0
2 1
3 2
4 5
10 0
Gpm
85
Lwt(F)
72 0
79 3
m.7i
171 4
PD
102.5
2 0
2 5
95.0
6.2
93.0
I 10.8
90
Gpm
77 6
105.3
217.0
Lwt(F)
106 3
102 3
96 1
PD
2.4
4.3
16.7