15
COOLING PERFORMANCE DATA
ASZ140361A*
E
XPAN
D
ED PE
RFO
R
M
A
N
C
E
DAT
A
M
O
D
E
L
:
AS
Z
140361A*
/
CA*F
486
0*6A*+
T
X
V
/
M
BR1600*
*-1
O
u
tdoor
A
m
bi
e
n
t
Te
m
p
e
ra
tur
e
6
5
75
85
95
10
5
1
1
5
E
n
te
ri
ng
Indoo
r W
e
t B
u
lb
Te
m
p
e
r
a
tur
e
ID
B
A
ir
fl
o
w
59
6
3
67
71
59
63
67
71
5
9
63
67
71
59
63
6
7
7
1
59
63
67
7
1
59
63
6
7
71
M
B
h
33.
9
35.
1
3
8
.5
-
33
.1
34.
3
3
7.
6
-
32.
3
33.
5
36.
7
-
3
1
.5
3
2
.7
35.
8
-
30.
0
31.
1
3
4.
0
-
27.
8
2
8.
8
3
1
.5
-
S
/T
0
.7
2
0
.6
0
0
.4
2
-
0.
75
0.
63
0
.4
3
-
0
.7
7
0
.6
4
0
.4
4
-
0
.79
0
.66
0.
46
-
0
.8
2
0
.6
9
0
.4
8
-
0.
83
0
.6
9
0.
48
-
D
e
lta
T
1
9
1
7
1
3
-
19
17
13
-
1
9
1
7
1
3
-
19
17
1
3
-
1
9
1
7
1
3
-
18
16
1
2
-
1181
K
W
2.
34
2.
39
2.
46
-
2
.5
1
2
.5
6
2
.6
4
-
2.
66
2.
72
2.
80
-
2
.7
9
2
.8
5
2
.9
4
-
2.
90
2.
9
6
3
.06
-
3
.0
0
3
.0
6
3
.1
6
-
A
M
P
S
8.
6
8
.8
9.
1
-
9.
3
9
.5
9.
8
-
10.
1
10.
3
10.
6
-
1
0
.7
1
1
.0
11.
3
-
11.
4
11.
7
1
2.
0
-
12.
0
1
2.
3
1
2
.7
-
H
I P
R
218
235
248
-
2
4
5
2
6
4
2
7
8
-
279
3
0
0
317
-
3
1
7
34
2
361
-
357
3
8
4
4
0
6
-
3
95
42
5
448
-
L
O
P
R
105
112
122
-
1
1
1
1
1
8
1
2
9
-
115
1
2
3
134
-
1
2
1
12
9
141
-
127
1
3
5
1
4
8
-
1
32
14
0
153
-
M
B
h
32.
9
34.
1
3
7
.4
-
32
.2
33.
3
3
6.
5
-
31.
4
32.
5
35.
6
-
3
0
.6
3
1
.7
34.
8
-
29.
1
30.
2
3
3.
0
-
26.
9
2
7.
9
3
0
.6
-
S
/T
0
.6
9
0
.5
8
0
.4
0
-
0.
71
0.
60
0
.4
1
-
0
.7
3
0
.6
1
0
.4
2
-
0
.76
0
.63
0.
44
-
0
.7
9
0
.6
6
0
.4
5
-
0.
79
0
.6
6
0.
46
-
D
e
lta
T
2
0
1
7
1
3
-
20
17
13
-
2
0
1
7
1
3
-
20
18
1
3
-
2
0
1
7
1
3
-
19
16
1
2
-
7
0
1050
K
W
2.
33
2.
37
2.
44
-
2
.4
9
2
.5
4
2
.6
2
-
2.
64
2.
69
2.
78
-
2
.7
7
2
.8
3
2
.9
2
-
2.
88
2.
9
4
3
.03
-
2
.9
8
3
.0
4
3
.1
4
-
A
M
P
S
8.
6
8
.8
9.
0
-
9.
2
9
.4
9.
7
-
10.
0
10.
2
10.
5
-
1
0
.6
1
0
.9
11.
2
-
11.
3
11.
6
1
1.
9
-
11.
9
1
2.
2
1
2
.6
-
H
I P
R
216
233
246
-
2
4
3
2
6
1
2
7
6
-
276
2
9
7
314
-
3
1
4
33
8
357
-
354
3
8
0
4
0
2
-
3
91
42
0
444
-
L
O
P
R
104
111
121
-
1
1
0
1
1
7
1
2
8
-
114
1
2
2
133
-
1
2
0
12
8
140
-
126
1
3
4
1
4
6
-
1
30
13
9
151
-
M
B
h
30.
4
31.
5
3
4
.5
-
29
.7
30.
8
3
3.
7
-
29.
0
30.
0
32.
9
-
2
8
.3
2
9
.3
32.
1
-
26.
9
27.
8
3
0.
5
-
24.
9
2
5.
8
2
8
.2
-
S
/T
0
.6
7
0
.5
6
0
.3
8
-
0.
69
0.
58
0
.4
0
-
0
.7
1
0
.5
9
0
.4
1
-
0
.73
0
.61
0.
42
-
0
.7
6
0
.6
3
0
.4
4
-
0.
76
0
.6
4
0.
44
-
D
e
lta
T
2
0
1
8
1
3
-
20
18
13
-
2
0
1
8
1
3
-
21
18
1
4
-
2
0
1
8
1
3
-
19
16
1
2
-
9
1
9
K
W
2
.2
8
2
.3
2
2
.3
9
-
2.
44
2.
49
2
.5
6
-
2
.5
8
2
.6
3
2
.7
1
-
2
.71
2
.76
2.
85
-
2
.8
1
2
.8
7
2
.9
6
-
2.
90
2
.9
7
3.
06
-
A
M
P
S
8.
4
8
.5
8.
8
-
9.
0
9
.2
9.
5
-
9
.7
9
.9
10.
3
-
1
0
.4
1
0
.6
10.
9
-
11.
0
11.
2
1
1.
6
-
11.
6
1
1.
9
1
2
.3
-
H
I P
R
210
226
238
-
2
3
5
2
5
3
2
6
7
-
268
2
8
8
304
-
3
0
5
32
8
346
-
343
3
6
9
3
9
0
-
3
79
40
8
431
-
L
O
P
R
101
107
117
-
1
0
7
1
1
4
1
2
4
-
111
1
1
8
129
-
1
1
7
12
4
135
-
122
1
3
0
1
4
2
-
1
26
13
4
147
-
M
B
h
34.
5
35.
5
3
8
.4
41.
2
3
3
.7
34.
7
3
7.
5
40.
3
32.
9
33.
8
36.
6
39.
3
3
2.
1
33
.0
35.
7
3
8
.4
30.
5
31.
4
3
4.
0
36.
4
28.
2
2
9.
1
3
1
.5
33.
8
S/
T
0
.8
2
0
.7
4
0
.5
6
0
.3
6
0
.8
5
0
.7
6
0
.5
8
0
.3
7
0
.8
7
0
.7
8
0
.5
9
0
.3
8
0
.9
0
0.
8
1
0.
61
0.
39
0.
94
0.
8
4
0
.63
0.
41
0.
94
0
.8
4
0.
64
0.
41
D
e
lta
T
2
2
2
0
1
7
1
1
2
2
2
11
7
1
2
2
2
2
1
1
71
22
3
21
1
7
1
2
22
20
17
1
2
21
19
1
6
11
1181
K
W
2.
36
2.
41
2.
48
2.
55
2.
53
2.
58
2
.6
6
2.
74
2.
68
2.
74
2.
82
2.
9
1
2
.81
2.
8
7
2.
96
3.
06
2.
93
2.
9
9
3
.08
3.
18
3.
02
3
.0
9
3.
19
3.
29
A
M
P
S
8.
7
8
.9
9.
2
9
.5
9.
4
9
.6
9.
9
10.
3
10.
2
10.
4
10.
7
11.
1
1
0.
8
11
.1
11.
4
1
1
.8
11.
5
11.
8
1
2.
1
12.
6
12.
1
1
2.
4
1
2
.8
13.
3
H
I P
R
221
237
251
261
24
8
2
66
28
1
293
282
3
0
3
320
3
3
4
3
2
1
34
5
364
380
361
3
8
8
4
1
0
428
3
9
9
4
2
9
453
472
L
O
P
R
106
113
123
131
11
2
1
19
13
0
139
117
1
2
4
136
1
4
4
1
2
3
13
0
142
152
128
1
3
7
1
4
9
159
1
3
3
1
4
1
154
164
M
B
h
33.
5
34.
5
3
7
.3
40.
0
3
2
.7
33.
7
3
6.
4
39.
1
31.
9
32.
9
35.
6
38.
2
3
1.
1
32
.1
34.
7
3
7
.2
29.
6
30.
5
3
3.
0
35.
4
27.
4
2
8.
2
3
0
.5
32.
8
S/
T
0
.7
8
0
.7
0
0
.5
3
0
.3
4
0
.8
1
0
.7
3
0
.5
5
0
.3
5
0
.8
3
0
.7
5
0
.5
6
0
.3
6
0
.8
6
0.
7
7
0.
58
0.
37
0.
89
0.
8
0
0
.60
0.
39
0.
90
0
.8
1
0.
61
0.
39
D
e
lta
T
2
3
2
1
1
7
1
2
2
3
2
11
8
1
2
2
3
2
1
1
81
22
3
22
1
8
1
2
23
21
17
1
2
22
20
1
6
11
7
5
1050
K
W
2.
34
2.
39
2.
46
2.
54
2.
51
2.
56
2
.6
4
2.
72
2.
66
2.
72
2.
80
2.
8
9
2
.79
2.
8
5
2.
94
3.
03
2.
90
2.
9
7
3
.06
3.
16
3.
00
3
.0
6
3.
16
3.
26
A
M
P
S
8.
7
8
.8
9.
1
9
.4
9.
3
9
.5
9.
8
10.
2
10.
1
10.
3
10.
6
11.
0
1
0.
7
11
.0
11.
3
1
1
.7
11.
4
11.
7
1
2.
0
12.
5
12.
0
1
2.
3
1
2
.7
13.
2
H
I P
R
218
235
248
259
24
5
2
64
27
9
290
279
3
0
0
317
3
3
0
3
1
7
34
2
361
376
357
3
8
4
4
0
6
423
3
9
5
4
2
5
448
468
L
O
P
R
105
112
122
130
11
1
1
18
12
9
137
116
1
2
3
134
1
4
3
1
2
1
12
9
141
150
127
1
3
5
1
4
8
157
1
3
2
1
4
0
153
163
M
B
h
30.
9
31.
8
3
4
.4
37.
0
3
0
.2
31.
1
3
3.
6
36.
1
29.
5
30.
3
32.
8
35.
2
2
8.
7
29
.6
32.
0
3
4
.4
27.
3
28.
1
3
0.
4
32.
7
25.
3
2
6.
0
2
8
.2
30.
3
S/
T
0
.7
6
0
.6
8
0
.5
1
0
.3
3
0
.7
8
0
.7
0
0
.5
3
0
.3
4
0
.8
0
0
.7
2
0
.5
4
0
.3
5
0
.8
3
0.
7
4
0.
56
0.
36
0.
86
0.
7
7
0
.58
0.
37
0.
87
0
.7
8
0.
59
0.
38
D
e
lta
T
2
3
2
2
1
8
1
2
2
4
2
21
8
1
2
2
4
2
2
1
81
22
4
22
1
8
1
2
24
22
18
1
2
22
20
1
7
11
9
1
9
K
W
2
.2
9
2
.3
4
2
.4
1
2
.4
8
2
.4
6
2
.5
1
2
.5
8
2
.6
6
2
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0
2
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5
2
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3
2
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2
2
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3
2.
7
8
2.
87
2.
96
2.
84
2.
8
9
2
.98
3.
08
2.
93
2
.9
9
3.
08
3.
18
A
M
P
S
8.
4
8
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8.
9
9
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9.
1
9
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9.
6
9
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9
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10.
0
10.
4
10.
7
1
0.
5
10
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11.
0
1
1
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11.
1
11.
3
1
1.
7
12.
1
11.
7
1
2.
0
1
2
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12.
8
H
I P
R
212
228
241
251
23
8
2
56
27
0
282
270
2
9
1
307
3
2
0
3
0
8
33
1
350
365
346
3
7
3
3
9
4
411
3
8
3
4
1
2
435
454
L
O
P
R
102
109
119
126
10
8
1
15
12
5
133
112
1
1
9
130
1
3
9
1
1
8
12
5
137
146
123
1
3
1
1
4
3
153
1
2
8
1
3
6
148
158
S
h
a
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d
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re
a
is
A
C
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(
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ID
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r D
ry
B
u
lb
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m
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K
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=
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p
o
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r
A
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=
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