cooling capacity: 22,400 - 53,000 btu/h high-efficiency ...• field-selectable boost mode increases...
TRANSCRIPT
SS-AVZC18 www.amana-hac.com 10/18Supersedes 3/17
ContentsNomenclature .......................................... 2Product Specifications ............................. 3Expanded Cooling Data ........................... 4Expanded Heating Data......................... 20Performance Data
Standard Mode ................................. 22Boost Mode ...................................... 24
Sound Power Levels ............................. 25AHRI Ratings .......................................... 26Dimensions ............................................ 27Wiring Diagram ...................................... 28
High-Efficiency, ComfortNet™-Compatible,
Split System Heat PumpUp to 19 SEER & 10.0 HSPF
AVZC18Cooling Capacity: 22,400 - 53,000 BTU/hHeating Capacity: 22,200 - 53,500 BTU/h
* Complete warranty details available from your local dealer or at www.amana-hac.com. To receive the Lifetime Unit Replacement Limited Warranty (good for as long as you own your home) and 10-Year Parts Limited Warranty, online registration must be completed within 60 days of installation. Additional requirements for annual maintenance are required for the Unit Replacement Limited Warranty. Online registration and some of the additional requirements are not required in California or Quebec.
Standard Features Cabinet Features• Variable-speed swing and scroll compressors• High-density foam compressor sound blanket• ComfortNet™ Communications
System compatible• Amana control algorithmic logic• In communicating mode, only two low-
voltage wires to outdoor unit required• Diagnostic indicator lights, seven-segment
LED display, and fault code storage• Amana Inside intelligence for diagnostics• Field-selectable boost mode increases
compressor speed during unusually high loads• Fully charged for 15’ of tubing length• Field-installed bi-flow filter drier• Coil and ambient temperature sensors• Suction pressure transducer• Sweat connection service valves
with easy access to gauge ports• AHRI Certified; ETL Listed
• Heavy-gauge galvanized-steel cabinet with grille-style sound control top design
• Custom two-tone gray powder-paint finish • 500-hour salt-spray tested• Wire fan discharge grille• Steel louver coil guard• Top and side maintenance access• Single-panel access to controls with space
provided for field-installed accessories• When properly anchored, meets the 2010
Florida Building Code unit integrity requirements for hurricane-type winds (Anchor bracket kits available.)
2 www.amana-hac.com SS-AVZC18 SS-AVZC18 www.amana-hac.com 3
Nomenclature
A V Z C 18 036 1 AA
1 2 3 4 5,6 7,8,9 10 11,12
Brand Engineering *
A Amana® Brand Major/ Minor Revisions* Not used for order or inventory control
Product Category
S Split System Electrical
V Inverter Split System 1 - 208/230 V, 1 Phase, 60 Hz
Unit Type Capacity
X Condenser R-410A 024 2 Tons 048 4 Tons
Z Heat Pump R-410A 036 3 Tons 060 5 Tons
Communication Feature Efficiency
C ComfortNet 4-wire communications ready 16 16 SEER 18 18 SEER 20 20 SEER
2 www.amana-hac.com SS-AVZC18 SS-AVZC18 www.amana-hac.com 3
Product Specifications
AVZC180241A*
AVZC180361A*
AVZC180481A*
AVZC180601A*
Capacities and Ratings
Max. Cooling (BTU/h) 22,400 33,600 45,000 53,000
Max. Heating (BTU/h) 22,200 32,800 44,500 53,500
Compressor
Type Swing Swing Swing Swing
RLA 12.7 19.8 27.6 31.10
Condenser Fan Motor
Horsepower 1/7 1/7 1/8 1/4
FLA 1.0 1.0 1.0 1.8
Refrigeration System
Refrigerant Line Size
Liquid Line Size (“O.D.) 3/8" 3/8" 3/8” 3/8"
Suction Line Size (“O.D.) 3/4" 7/8" 1 1/8" 1-1/8"
Refrigerant Connection Size
Liquid Valve Size (“O.D.) 3/8" 3/8" 3/8" 3/8"
Suction Valve Size (“O.D.) 3/4" 7/8" 7/8" 7/8"
Valve Connection Type Front-seated Front-seated Front-seated Front-seated
Refrigerant Charge 139 139 160 237
Superheat at Service Valve Auto-control Auto-control Auto-control Auto-control
Subcooling at Service Valve 11±1°F 14±1°F 9±1°F° 10±1°F
Electrical Data
Volts-Phase (60 Hz) 208/230- 1 208/230- 1 208/230- 1 208/230- 1
Minimum Circuit Ampacity ² 13.6 20.7 28.6 32.9
Max. Overcurrent Protection ³ 15 25 30 35
Min / Max Volts 197/253 197/253 197/253 197/253
Electrical Conduit Size 1/2" or 3/4" 1/2” or 3/4" 1/2” or 3/4" 1/2" or 3/4"
Equipment Weight (lbs) 172 172 220 270
Ship Weight (lbs) 201 201 247 297
¹ Tested and rated in accordance with AHRI Standard 210/240² Wire size should be determined in accordance with National Electrical Codes; extensive wire runs will require larger wire sizes³ Must use time-delay fuses or HACR-type circuit breakers of the same size as noted.
Notes• Always check the S&R plate for electrical data on the unit being installed.• Installer will need to supply ⅞” to 1⅛” adapters for suction line connections.• Unit is charged with refrigerant for 15’ of ⅜” liquid line. System charge must be adjusted per Installation Instructions Final Charge Procedure.
4 www.amana-hac.com SS-AVZC18 SS-AVZC18 www.amana-hac.com 5
Expanded Cooling Data — AVZC180241A*/AVPEC37C14A* High Stage
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
re
ID D
BAi
rID
WB
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
70
720
MBh
22.8
23.2
23.8
---
22.6
23.0
23.6
---
22.0
22.4
23.0
---
21.0
21.3
22.0
---
19.8
20.1
20.8
---
18.6
19.0
19.6
---
S/T
0.63
0.55
0.41
---
0.64
0.56
0.42
---
0.66
0.58
0.45
---
1.00
0.60
0.47
---
1.00
0.63
0.49
---
1.00
0.68
0.54
---
∆T18
.56
16.8
313
.58
---
18.5
216
.78
13.5
3--
-18
.76
17.0
213
.78
---
18.5
016
.76
13.5
2--
-18
.27
16.5
313
.28
---
19.3
517
.62
14.3
7--
-Pr
Suc
126.
412
7.9
131.
1--
-13
4.0
135.
613
8.8
---
140.
814
2.3
145.
5--
-14
6.4
148.
015
1.2
---
152.
015
3.6
156.
8--
-15
9.0
160.
516
3.7
---
Pr D
is24
9.5
250.
625
2.3
---
288.
828
9.9
291.
6--
-32
9.9
331.
033
2.8
---
374.
337
5.4
377.
1--
-42
2.1
423.
242
4.9
---
473.
147
4.2
475.
9--
-Am
ps4.
814.
804.
79--
-5.
455.
455.
43--
-6.
176.
176.
15--
-6.
956.
946.
93--
-7.
827.
817.
80--
-8.
848.
838.
82--
-Po
wer
1,23
61,
235
1,23
3--
-1,
385
1,38
41,
381
---
1,55
01,
549
1,54
6--
-1,
729
1,72
81,
726
---
1,92
91,
928
1,92
6--
-2,
164
2,16
32,
160
---
800
MBh
23.1
23.4
24.1
---
22.9
23.2
23.9
---
22.3
22.6
23.3
---
21.3
21.6
22.3
---
20.0
20.3
21.0
---
18.9
19.2
19.9
---
S/T
0.68
0.60
0.46
---
0.68
0.61
0.47
---
0.71
0.63
0.49
---
1.00
0.65
0.51
---
1.00
0.67
0.54
---
1.00
0.73
0.59
---
∆T17
.74
16.0
012
.76
---
17.6
915
.96
12.7
1--
-17
.94
16.2
012
.96
---
17.6
815
.94
12.6
9--
-17
.44
15.7
112
.46
---
18.5
316
.79
13.5
5--
-Pr
Suc
127.
912
9.4
132.
6--
-13
5.5
137.
114
0.3
---
142.
214
3.8
147.
0--
-14
7.9
149.
515
2.7
---
153.
515
5.1
158.
3--
-16
0.5
162.
016
5.2
---
Pr D
is25
1.2
252.
225
4.0
---
290.
529
1.5
293.
3--
-33
1.6
332.
733
4.5
---
376.
037
7.0
378.
8--
-42
3.8
424.
842
6.6
---
474.
847
5.8
477.
6--
-Am
ps4.
834.
834.
82--
-5.
485.
475.
46--
-6.
206.
196.
18--
-6.
986.
976.
96--
-7.
847.
847.
83--
-8.
878.
868.
85--
-Po
wer
1,24
21,
241
1,23
9--
-1,
391
1,39
01,
387
---
1,55
61,
555
1,55
2--
-1,
735
1,73
41,
732
---
1,93
51,
934
1,93
2--
-2,
170
2,16
92,
166
---
880
MBh
23.4
23.7
24.4
---
23.2
23.5
24.2
---
22.6
22.9
23.6
---
21.5
21.9
22.6
---
20.3
20.6
21.3
---
19.2
19.5
20.2
---
S/T
0.71
0.63
0.49
---
0.71
0.63
0.50
---
1.00
0.66
0.52
---
1.00
0.68
0.54
---
1.00
0.70
0.56
---
1.00
1.00
0.62
---
∆T17
.02
15.2
912
.04
---
16.9
815
.24
11.9
9--
-17
.22
15.4
812
.24
---
16.9
615
.22
11.9
8--
-16
.73
14.9
911
.74
---
17.8
116
.08
12.8
3--
-Pr
Suc
129.
513
1.0
134.
3--
-13
7.2
138.
714
1.9
---
143.
914
5.4
148.
6--
-14
9.5
151.
115
4.3
---
155.
115
6.7
159.
9--
-16
2.1
163.
616
6.9
---
Pr D
is25
2.8
253.
925
5.6
---
292.
129
3.2
294.
9--
-33
3.3
334.
333
6.1
---
377.
637
8.7
380.
4--
-42
5.4
426.
542
8.2
---
476.
447
7.5
479.
2--
-Am
ps4.
864.
854.
84--
-5.
505.
495.
48--
-6.
226.
216.
20--
-7.
006.
996.
98--
-7.
877.
867.
85--
-8.
898.
888.
87--
-Po
wer
1,24
81,
247
1,24
4--
-1,
396
1,39
51,
392
---
1,56
11,
560
1,55
8--
-1,
740
1,73
91,
737
---
1,94
11,
939
1,93
7--
-2,
175
2,17
42,
172
---
75
720
MBh
22.9
23.2
23.9
---
22.7
23.0
23.7
---
22.1
22.4
23.1
---
21.0
21.4
22.0
---
19.8
20.1
20.8
---
18.6
19.0
19.6
---
S/T
0.76
0.68
0.55
0.40
1.00
0.69
0.55
0.41
1.00
0.72
0.58
0.43
1.00
0.74
0.60
0.45
1.00
0.76
0.62
0.47
1.00
1.00
0.67
0.53
∆T22
.38
20.6
517
.40
14.0
422
.34
20.6
017
.35
13.9
922
.58
20.8
417
.60
14.2
422
.32
20.5
817
.34
13.9
722
.09
20.3
517
.10
13.7
423
.17
21.4
418
.19
14.8
3Pr
Suc
126.
412
8.0
131.
213
6.5
134.
113
5.6
138.
814
4.2
140.
814
2.3
145.
515
0.9
146.
514
8.0
151.
215
6.6
152.
015
3.6
156.
816
2.2
159.
016
0.6
163.
816
9.1
Pr D
is24
9.7
250.
825
2.5
256.
928
9.0
290.
129
1.8
296.
233
0.2
331.
233
3.0
337.
337
4.5
375.
637
7.3
381.
742
2.3
423.
442
5.1
429.
547
3.3
474.
447
6.1
480.
5Am
ps4.
804.
804.
794.
845.
455.
445.
435.
486.
176.
166.
156.
206.
946.
946.
936.
987.
817.
817.
807.
858.
848.
838.
828.
87Po
wer
1,23
51,
234
1,23
21,
243
1,38
41,
383
1,38
01,
391
1,54
91,
548
1,54
61,
557
1,72
81,
727
1,72
51,
736
1,92
81,
927
1,92
51,
936
2,16
32,
162
2,15
92,
171
800
MBh
23.1
23.4
24.1
---
22.9
23.2
23.9
---
22.3
22.6
23.3
---
21.3
21.6
22.3
---
20.0
20.3
21.0
---
18.9
19.2
19.9
---
S/T
0.81
0.73
0.59
0.45
1.00
0.74
0.60
0.45
1.00
0.76
0.62
0.48
1.00
0.78
0.64
0.50
1.00
1.00
0.67
0.52
1.00
1.00
0.72
0.57
∆T21
.56
19.8
216
.58
13.2
221
.51
19.7
816
.53
13.1
721
.76
20.0
216
.78
13.4
121
.50
19.7
616
.51
13.1
521
.26
19.5
316
.28
12.9
222
.35
20.6
117
.37
14.0
1Pr
Suc
127.
912
9.5
132.
713
8.0
135.
613
7.1
140.
314
5.7
142.
314
3.8
147.
015
2.4
148.
014
9.51
152.
715
8.1
153.
515
5.1
158.
316
3.7
160.
516
2.1
165.
317
0.6
Pr D
is25
1.4
252.
525
4.2
258.
529
0.7
291.
829
3.5
297.
833
1.8
332.
933
4.7
339.
037
6.2
377.
2637
9.0
383.
342
4.0
425.
142
6.8
431.
147
5.0
476.
147
7.8
482.
2Am
ps4.
834.
824.
814.
865.
475.
475.
465.
516.
196.
196.
186.
236.
976.
976.
957.
007.
847.
847.
827.
878.
868.
868.
858.
89Po
wer
1,24
21,
240
1,23
81,
249
1,39
01,
389
1,38
61,
397
1,55
51,
554
1,55
21,
563
1,73
41,
733
1,73
11,
742
1,93
41,
933
1,93
11,
942
2,16
92,
168
2,16
52,
177
880
MBh
23.4
23.7
24.4
---
23.2
23.5
24.2
---
22.6
22.9
23.6
---
21.6
21.9
22.6
---
20.3
20.6
21.3
---
19.2
19.5
20.2
---
S/T
0.84
0.76
0.62
0.48
1.00
0.77
0.63
0.48
1.00
0.79
0.65
0.51
1.00
0.81
0.67
0.53
1.00
1.00
0.70
0.55
1.00
1.00
0.75
0.60
∆T20
.85
19.1
115
.86
12.5
020
.80
19.0
615
.82
12.4
521
.04
19.3
016
.06
12.7
020
.78
19.0
415
.80
12.4
420
.55
18.8
115
.57
12.2
021
.64
19.9
016
.65
13.2
9Pr
Suc
129.
513
1.1
134.
313
9.6
137.
213
8.7
141.
914
7.3
143.
914
5.5
148.
715
4.0
149.
615
1.1
154.
315
9.7
155.
115
6.7
159.
916
5.3
162.
116
3.7
166.
917
2.3
Pr D
is25
3.0
254.
125
5.8
260.
229
2.3
293.
429
5.1
299.
533
3.5
334.
633
6.3
340.
737
7.8
378.
938
0.6
385.
042
5.6
426.
742
8.4
432.
847
6.6
477.
747
9.5
483.
8Am
ps4.
854.
854.
834.
885.
505.
495.
485.
536.
226.
216.
206.
256.
996.
996.
987.
037.
867.
867.
857.
908.
888.
888.
878.
92Po
wer
1,24
71,
246
1,24
31,
254
1,39
51,
394
1,39
11,
403
1,56
01,
559
1,55
71,
568
1,74
01,
738
1,73
61,
747
1,94
01,
938
1,93
61,
947
2,17
42,
173
2,17
12,
182
IDB*
: Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AC
CA (T
VA) c
ondi
tions
.kW
= T
otal
sys
tem
pow
er
Hig
h an
d lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d an
d su
ction
ser
vice
val
ves.
Amps
= o
utdo
or u
nit a
mps
4 www.amana-hac.com SS-AVZC18 SS-AVZC18 www.amana-hac.com 5
Expanded Cooling Data — AVZC180241A*/AVPEC37C14A* High Stage (cont.)
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
re
ID D
BAi
rID
WB
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
80
720
MBh
23.0
23.3
24.0
---
22.8
23.1
23.8
---
22.2
22.5
23.2
---
21.2
21.5
22.2
---
19.9
20.2
20.9
---
18.8
19.1
19.8
---
S/T
1.00
0.81
0.67
0.53
1.00
0.82
0.68
0.53
1.00
0.84
0.71
0.56
1.00
1.00
0.72
0.58
1.00
1.00
0.75
0.60
1.00
1.00
0.80
0.65
∆T26
.23
24.4
921
.25
17.8
926
.18
24.4
521
.20
17.8
426
.43
24.6
921
.45
18.0
826
.17
24.4
321
.18
17.8
225
.93
24.2
020
.95
17.5
927
.02
25.2
822
.04
18.6
8Pr
Suc
127.
012
8.5
131.
713
7.1
134.
613
6.2
139.
414
4.8
141.
314
2.9
146.
115
1.5
147.
014
8.6
151.
815
7.1
152.
615
4.1
157.
416
2.7
159.
616
1.1
164.
316
9.7
Pr D
is25
0.2
251.
225
3.0
257.
328
9.5
290.
529
2.3
296.
633
0.6
331.
733
3.5
337.
837
5.0
376.
037
7.8
382.
142
2.8
423.
842
5.6
429.
947
3.8
474.
847
6.6
480.
9Am
ps4.
814.
804.
794.
845.
455.
445.
435.
486.
176.
166.
156.
206.
956.
946.
936.
987.
827.
817.
807.
858.
848.
838.
828.
87Po
wer
1,23
61,
235
1,23
31,
244
1,38
51,
383
1,38
11,
392
1,55
01,
549
1,54
61,
558
1,72
91,
728
1,72
51,
737
1,92
91,
928
1,92
51,
937
2,16
42,
163
2,16
02,
172
800
MBh
23.2
23.5
24.2
---
23.0
23.3
24.0
---
22.4
22.7
23.4
---
21.4
21.7
22.4
---
20.1
20.5
21.1
---
19.0
19.3
20.0
---
S/T
1.00
0.86
0.72
0.57
1.00
0.86
0.73
0.58
1.00
0.89
0.75
0.61
1.00
1.00
0.77
0.63
1.00
1.00
0.79
0.65
1.00
1.00
0.85
0.70
∆T25
.41
23.6
720
.43
17.0
625
.36
23.6
220
.38
17.0
225
.61
23.8
720
.62
17.2
625
.34
23.6
120
.36
17.0
025
.11
23.3
720
.13
16.7
726
.20
24.4
621
.22
17.8
6Pr
Suc
128.
513
0.0
133.
213
8.6
136.
113
7.7
140.
914
6.3
142.
814
4.4
147.
615
3.0
148.
515
0.1
153.
2815
8.6
154.
115
5.6
158.
816
4.2
161.
116
2.6
165.
817
1.2
Pr D
is25
1.8
252.
925
4.7
259.
029
1.1
292.
229
4.0
298.
333
2.3
333.
433
5.1
339.
537
6.6
377.
737
9.47
383.
842
4.4
425.
542
7.3
431.
647
5.4
476.
547
8.3
482.
6Am
ps4.
834.
834.
824.
865.
485.
475.
465.
516.
206.
196.
186.
236.
976.
976.
967.
017.
847.
847.
837.
888.
868.
868.
858.
90Po
wer
1,24
21,
241
1,23
91,
250
1,39
11,
389
1,38
71,
398
1,55
61,
555
1,55
21,
564
1,73
51,
734
1,73
11,
743
1,93
51,
934
1,93
11,
943
2,17
02,
169
2,16
62,
178
880
MBh
23.5
23.8
24.5
---
23.3
23.6
24.3
---
22.7
23.0
23.7
---
21.7
22.0
22.7
---
20.4
20.8
21.4
---
19.3
19.6
20.3
---
S/T
1.00
0.89
0.75
0.60
1.00
0.89
0.76
0.61
1.00
1.00
0.78
0.64
1.00
1.00
0.80
0.66
1.00
1.00
0.82
0.68
1.00
1.00
1.00
0.73
∆T24
.69
22.9
519
.71
16.3
524
.64
22.9
119
.66
16.3
024
.89
23.1
519
.91
16.5
424
.63
22.8
919
.64
16.2
824
.39
22.6
619
.41
16.0
525
.48
23.7
420
.50
17.1
4Pr
Suc
130.
113
1.6
134.
814
0.2
137.
713
9.3
142.
514
7.9
144.
514
6.0
149.
215
4.6
150.
115
1.7
154.
916
0.3
155.
715
7.3
160.
516
5.8
162.
716
4.2
167.
417
2.8
Pr D
is25
3.5
254.
625
6.3
260.
629
2.8
293.
929
5.6
299.
933
3.9
335.
033
6.8
341.
137
8.3
379.
438
1.1
385.
442
6.1
427.
242
8.9
433.
247
7.1
478.
247
9.9
484.
3Am
ps4.
854.
854.
844.
895.
505.
495.
485.
536.
226.
216.
206.
257.
006.
996.
987.
037.
877.
867.
857.
908.
898.
888.
878.
92Po
wer
1,24
81,
246
1,24
41,
255
1,39
61,
395
1,39
21,
403
1,56
11,
560
1,55
81,
569
1,74
01,
739
1,73
71,
748
1,94
01,
939
1,93
71,
948
2,17
52,
174
2,17
12,
183
85
720
MBh
23.4
23.7
24.4
---
23.2
23.5
24.2
---
22.6
22.9
23.6
---
21.5
21.9
22.5
---
20.3
20.6
21.3
---
19.1
19.5
20.1
---
S/T
1.00
0.91
0.78
0.63
1.00
1.00
0.78
0.64
1.00
1.00
0.81
0.66
1.00
1.00
0.83
0.68
1.00
1.00
1.00
0.71
1.00
1.00
1.00
0.76
∆T29
.64
27.9
124
.66
21.3
029
.60
27.8
624
.61
21.2
529
.84
28.1
024
.86
21.5
029
.58
27.8
424
.60
21.2
329
.35
27.6
124
.36
21.0
030
.43
28.7
025
.45
22.0
9Pr
Suc
128.
813
0.4
133.
613
9.0
136.
513
8.1
141.
314
6.6
143.
214
4.8
148.
015
3.4
148.
915
0.5
153.
715
9.0
154.
515
6.0
159.
216
4.6
161.
516
3.0
166.
217
1.6
Pr D
is25
1.3
252.
425
4.2
258.
529
0.6
291.
729
3.5
297.
833
1.8
332.
933
4.6
339.
037
6.1
377.
237
9.0
383.
342
3.9
425.
042
6.8
431.
147
4.9
476.
047
7.8
482.
1Am
ps4.
824.
814.
804.
855.
465.
465.
455.
506.
186.
186.
176.
226.
966.
966.
946.
997.
837.
837.
817.
868.
858.
858.
838.
88Po
wer
1,23
91,
238
1,23
51,
247
1,38
71,
386
1,38
41,
395
1,55
31,
552
1,54
91,
560
1,73
21,
731
1,72
81,
740
1,93
21,
931
1,92
81,
940
2,16
72,
166
2,16
32,
174
800
MBh
23.6
23.9
24.6
---
23.4
23.7
24.4
---
22.8
23.1
23.8
---
21.8
22.1
22.8
---
20.5
20.9
21.5
---
19.4
19.7
20.4
---
S/T
1.00
0.96
0.82
0.68
1.00
1.00
0.83
0.68
1.00
1.00
0.85
0.71
1.00
1.00
0.87
0.73
1.00
1.00
1.00
0.75
1.00
1.00
1.00
0.80
∆T28
.82
27.0
823
.84
20.4
828
.77
27.0
423
.79
20.4
329
.02
27.2
824
.03
20.6
728
.76
27.0
223
.77
20.4
128
.52
26.7
923
.54
20.1
829
.61
27.8
724
.63
21.2
7Pr
Suc
130.
313
1.9
135.
114
0.5
138.
013
9.6
142.
814
8.1
144.
714
6.3
149.
515
4.9
150.
415
2.0
155.
216
0.5
156.
015
7.5
160.
716
6.1
162.
916
4.5
167.
717
3.1
Pr D
is25
3.0
254.
125
5.8
260.
229
2.3
293.
429
5.1
299.
533
3.5
334.
633
6.3
340.
637
7.8
378.
938
0.6
385.
042
5.6
426.
742
8.4
432.
847
6.6
477.
747
9.4
483.
8Am
ps4.
844.
844.
834.
885.
495.
485.
475.
526.
216.
206.
196.
246.
996.
986.
977.
027.
867.
857.
847.
898.
888.
878.
868.
91Po
wer
1,24
51,
244
1,24
11,
253
1,39
31,
392
1,39
01,
401
1,55
91,
558
1,55
51,
566
1,73
81,
737
1,73
41,
746
1,93
81,
937
1,93
41,
946
2,17
32,
172
2,16
92,
180
880
MBh
23.9
24.2
24.9
---
23.7
24.0
24.7
---
23.1
23.4
24.1
---
22.1
22.4
23.1
---
20.8
21.1
21.8
---
19.7
20.0
20.7
---
S/T
1.00
0.99
0.85
0.71
1.00
1.00
0.86
0.71
1.00
1.00
0.88
0.74
1.00
1.00
0.90
0.76
1.00
1.00
1.00
0.78
1.00
1.00
1.00
0.83
∆T28
.10
26.3
723
.12
19.7
628
.06
26.3
223
.07
19.7
128
.30
26.5
623
.32
19.9
628
.04
26.3
023
.06
19.6
927
.81
26.0
722
.82
19.4
628
.89
27.1
623
.91
20.5
5Pr
Suc
132.
013
3.5
136.
714
2.1
139.
614
1.2
144.
414
9.8
146.
314
7.9
151.
115
6.5
152.
015
3.6
156.
816
2.2
157.
615
9.1
162.
416
7.7
164.
616
6.1
169.
317
4.7
Pr D
is25
4.6
255.
725
7.5
261.
829
3.9
295.
029
6.8
301.
133
5.1
336.
233
7.9
342.
337
9.4
380.
538
2.3
386.
642
7.2
428.
343
0.1
434.
447
8.3
479.
348
1.1
485.
4Am
ps4.
874.
864.
854.
905.
515.
515.
505.
546.
236.
236.
216.
267.
017.
006.
997.
047.
887.
877.
867.
918.
908.
898.
888.
93Po
wer
1,25
01,
249
1,24
71,
258
1,39
91,
397
1,39
51,
406
1,56
41,
563
1,56
01,
572
1,74
31,
742
1,73
91,
751
1,94
31,
942
1,94
01,
951
2,17
82,
177
2,17
42,
186
IDB*
: Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AH
RI c
ondi
tions
.kW
= T
otal
sys
tem
pow
er
Hig
h an
d lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d an
d su
ction
ser
vice
val
ves.
Amps
= o
utdo
or u
nit a
mps
6 www.amana-hac.com SS-AVZC18 SS-AVZC18 www.amana-hac.com 7
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
re
ID D
BAi
rID
WB
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
70
560
MBh
16.4
16.7
17.2
---
16.3
16.5
17.0
---
15.9
16.1
16.6
---
15.1
15.4
15.8
---
14.2
14.5
14.9
---
13.4
13.6
14.1
---
S/T
0.65
0.57
0.43
---
0.66
0.58
0.43
---
1.00
0.60
0.46
---
1.00
0.62
0.48
---
1.00
0.65
0.50
---
1.00
1.00
0.56
---
∆T17
.89
16.2
113
.08
---
17.8
416
.16
13.0
3--
-18
.08
16.4
013
.27
---
17.8
216
.15
13.0
1--
-17
.60
15.9
212
.79
---
18.6
516
.97
13.8
4--
-Pr
Suc
130.
013
1.6
134.
9--
-13
7.8
139.
414
2.7
---
144.
714
6.3
149.
6--
-15
0.6
152.
215
5.5
---
156.
315
7.9
161.
2--
-16
3.5
165.
116
8.4
---
Pr D
is23
8.6
239.
624
1.3
---
276.
127
7.2
278.
8--
-31
5.5
316.
531
8.2
---
357.
935
8.9
360.
6--
-40
3.6
404.
640
6.3
---
452.
345
3.4
455.
0--
-Am
ps3.
023.
023.
01--
-3.
433.
433.
42--
-3.
883.
883.
87--
-4.
374.
374.
36--
-4.
924.
924.
91--
-5.
565.
565.
55--
-Po
wer
778
777
776
---
871
870
869
---
975
974
973
---
1,08
81,
087
1,08
5--
-1,
214
1,21
31,
211
---
1,36
11,
361
1,35
9--
-
620
MBh
16.6
16.8
17.3
---
16.5
16.7
17.2
---
16.0
16.3
16.7
---
15.3
15.5
16.0
---
14.4
14.6
15.1
---
13.6
13.8
14.3
---
S/T
0.69
0.62
0.47
---
0.70
0.62
0.48
---
1.00
0.65
0.51
---
1.00
0.67
0.53
---
1.00
0.69
0.55
---
1.00
1.00
0.60
---
∆T17
.12
15.4
412
.31
---
17.0
715
.40
12.2
7--
-17
.31
15.6
312
.50
---
17.0
615
.38
12.2
5--
-16
.83
15.1
612
.02
---
17.8
816
.21
13.0
7--
-Pr
Suc
131.
413
3.0
136.
3--
-13
9.3
140.
914
4.2
---
146.
214
7.8
151.
1--
-15
2.1
153.
715
7.0
---
157.
815
9.4
162.
7--
-16
5.0
166.
616
9.9
---
Pr D
is24
0.1
241.
124
2.8
---
277.
727
8.7
280.
4--
-31
7.0
318.
131
9.7
---
359.
436
0.4
362.
1--
-40
5.1
406.
140
7.8
---
453.
945
4.9
456.
6--
-Am
ps3.
043.
043.
03--
-3.
453.
443.
43--
-3.
903.
893.
89--
-4.
394.
384.
38--
-4.
934.
934.
92--
-5.
585.
575.
57--
-Po
wer
782
781
779
---
875
874
872
---
979
978
977
---
1,09
11,
091
1,08
9--
-1,
217
1,21
71,
215
---
1,36
51,
364
1,36
3--
-
680
MBh
16.8
17.0
17.5
---
16.7
16.9
17.4
---
16.2
16.5
16.9
---
15.5
15.7
16.2
---
14.6
14.8
15.3
---
13.8
14.0
14.5
---
S/T
0.72
0.64
0.50
---
0.73
0.65
0.51
---
1.00
0.68
0.54
---
1.00
0.70
0.56
---
1.00
0.72
0.58
---
1.00
1.00
0.63
---
∆T16
.45
14.7
711
.64
---
16.4
014
.73
11.6
0--
-16
.64
14.9
611
.83
---
16.3
914
.71
11.5
8--
-16
.16
14.4
911
.35
---
17.2
115
.54
12.4
0--
-Pr
Suc
133.
113
4.7
138.
0--
-14
0.9
142.
514
5.8
---
147.
814
9.4
152.
7--
-15
3.7
155.
315
8.6
---
159.
416
1.0
164.
3--
-16
6.6
168.
217
1.5
---
Pr D
is24
1.6
242.
724
4.3
---
279.
228
0.2
281.
9--
-31
8.6
319.
632
1.3
---
360.
936
2.0
363.
6--
-40
6.6
407.
740
9.3
---
455.
445
6.4
458.
1--
-Am
ps3.
053.
053.
04--
-3.
463.
463.
45--
-3.
913.
913.
90--
-4.
404.
404.
39--
-4.
954.
954.
94--
-5.
595.
595.
58--
-Po
wer
785
784
782
---
878
877
876
---
982
981
980
---
1,09
51,
094
1,09
2--
-1,
221
1,22
01,
218
---
1,36
81,
367
1,36
6--
-
75
560
MBh
16.4
16.7
17.2
---
16.3
16.5
17.0
---
15.9
16.1
16.6
---
15.1
15.4
15.9
---
14.2
14.5
15.0
---
13.4
13.6
14.1
---
S/T
0.78
0.70
0.56
0.41
1.00
0.71
0.57
0.42
1.00
0.74
0.60
0.45
1.00
0.76
0.62
0.47
1.00
1.00
0.64
0.49
1.00
1.00
0.69
0.54
∆T21
.57
19.9
016
.77
13.5
221
.53
19.8
516
.72
13.4
821
.76
20.0
916
.95
13.7
121
.51
19.8
316
.70
13.4
621
.29
19.6
116
.48
13.2
322
.34
20.6
617
.53
14.2
8Pr
Suc
130.
013
1.6
134.
914
0.4
137.
913
9.5
142.
814
8.3
144.
814
6.4
149.
715
5.2
150.
615
2.2
155.
516
1.0
156.
315
7.9
161.
216
6.8
163.
516
5.1
168.
417
3.9
Pr D
is23
8.8
239.
824
1.5
245.
627
6.3
277.
427
9.0
283.
231
5.7
316.
731
8.4
322.
535
8.1
359.
136
0.8
364.
940
3.8
404.
840
6.5
410.
645
2.5
453.
645
5.2
459.
4Am
ps3.
023.
023.
013.
043.
433.
423.
423.
453.
883.
883.
873.
904.
374.
374.
364.
394.
924.
914.
914.
945.
565.
555.
555.
58Po
wer
777
777
775
782
870
870
868
875
975
974
972
979
1,08
71,
086
1,08
51,
092
1,21
31,
212
1,21
11,
218
1,36
11,
360
1,35
81,
366
620
MBh
16.6
16.8
17.3
---
16.5
16.7
17.2
---
16.0
16.3
16.8
---
15.3
15.5
16.0
---
14.4
14.6
15.1
---
13.6
13.8
14.3
---
S/T
0.83
0.75
0.61
0.46
1.00
0.76
0.61
0.47
1.00
0.78
0.64
0.49
1.00
0.80
0.66
0.51
1.00
1.00
0.68
0.54
1.00
1.00
0.74
0.59
∆T20
.81
19.1
316
.00
12.7
620
.76
19.0
815
.95
12.7
121
.00
19.3
216
.19
12.9
520
.74
19.0
715
.94
12.6
920
.52
18.8
415
.71
12.4
721
.57
19.8
916
.76
13.5
2Pr
Suc
131.
513
3.1
136.
414
1.9
139.
414
1.0
144.
314
9.8
146.
314
7.9
151.
215
6.7
152.
115
3.70
157.
016
2.5
157.
815
9.4
162.
716
8.2
165.
016
6.6
169.
917
5.4
Pr D
is24
0.3
241.
324
3.0
247.
227
7.9
278.
928
0.6
284.
731
7.2
318.
332
0.0
324.
135
9.6
360.
6636
2.3
366.
540
5.3
406.
440
8.0
412.
245
4.1
455.
145
6.8
460.
9Am
ps3.
043.
033.
033.
063.
443.
443.
433.
463.
893.
893.
883.
924.
384.
384.
374.
414.
934.
934.
924.
955.
575.
575.
565.
59Po
wer
781
780
779
786
874
873
872
879
978
978
976
983
1,09
11,
090
1,08
91,
096
1,21
71,
216
1,21
41,
222
1,36
41,
364
1,36
21,
369
680
MBh
16.8
17.0
17.5
---
16.7
16.9
17.4
---
16.2
16.5
17.0
---
15.5
15.7
16.2
---
14.6
14.8
15.3
---
13.8
14.0
14.5
---
S/T
0.86
0.78
0.64
0.49
1.00
0.79
0.64
0.50
1.00
0.81
0.67
0.52
1.00
1.00
0.69
0.54
1.00
1.00
0.71
0.56
1.00
1.00
0.77
0.62
∆T20
.14
18.4
615
.33
12.0
820
.09
18.4
115
.28
12.0
420
.33
18.6
515
.52
12.2
720
.07
18.4
015
.27
12.0
219
.85
18.1
715
.04
11.8
020
.90
19.2
216
.09
12.8
5Pr
Suc
133.
113
4.7
138.
014
3.5
141.
014
2.6
145.
915
1.4
147.
914
9.5
152.
815
8.3
153.
715
5.3
158.
616
4.1
159.
416
1.0
164.
316
9.8
166.
616
8.2
171.
517
7.0
Pr D
is24
1.8
242.
924
4.5
248.
727
9.4
280.
428
2.1
286.
331
8.8
319.
832
1.5
325.
636
1.1
362.
236
3.9
368.
040
6.8
407.
940
9.5
413.
745
5.6
456.
645
8.3
462.
5Am
ps3.
053.
053.
043.
073.
463.
453.
453.
483.
913.
913.
903.
934.
404.
404.
394.
424.
954.
944.
944.
975.
595.
585.
585.
61Po
wer
784
783
782
789
877
877
875
882
981
981
979
986
1,09
41,
093
1,09
21,
099
1,22
01,
219
1,21
81,
225
1,36
81,
367
1,36
51,
372
IDB*
: Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AC
CA (T
VA) c
ondi
tions
.kW
= T
otal
sys
tem
pow
er
Hig
h an
d lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d an
d su
ction
ser
vice
val
ves.
Amps
= o
utdo
or u
nit a
mps
Expanded Cooling Data — AVZC180241A*/AVPEC37C14A* Low Stage
6 www.amana-hac.com SS-AVZC18 SS-AVZC18 www.amana-hac.com 7
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
re
ID D
BAi
rID
WB
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
80
560
MBh
16.5
16.8
17.2
---
16.4
16.6
17.1
---
16.0
16.2
16.7
---
15.2
15.4
15.9
---
14.3
14.5
15.0
---
13.5
13.7
14.2
---
S/T
1.00
0.83
0.69
0.54
1.00
0.84
0.70
0.55
1.00
1.00
0.73
0.58
1.00
1.00
0.75
0.60
1.00
1.00
0.77
0.62
1.00
1.00
1.00
0.67
∆T25
.29
23.6
120
.48
17.2
325
.24
23.5
620
.43
17.1
925
.48
23.8
020
.67
17.4
225
.22
23.5
520
.41
17.1
725
.00
23.3
220
.19
16.9
526
.05
24.3
721
.24
18.0
0Pr
Suc
130.
613
2.2
135.
514
1.0
138.
414
0.0
143.
314
8.9
145.
314
6.9
150.
215
5.8
151.
215
2.8
156.
116
1.6
156.
915
8.5
161.
816
7.3
164.
116
5.7
169.
017
4.5
Pr D
is23
9.2
240.
224
1.9
246.
127
6.8
277.
827
9.5
283.
631
6.1
317.
231
8.8
323.
035
8.5
359.
536
1.2
365.
440
4.2
405.
240
6.9
411.
145
3.0
454.
045
5.7
459.
8Am
ps3.
023.
023.
013.
043.
433.
433.
423.
453.
883.
883.
873.
904.
374.
374.
364.
394.
924.
914.
914.
945.
565.
565.
555.
58Po
wer
778
777
775
783
871
870
869
876
975
974
973
980
1,08
81,
087
1,08
51,
093
1,21
41,
213
1,21
11,
218
1,36
11,
360
1,35
91,
366
620
MBh
16.7
16.9
17.4
---
16.5
16.8
17.3
---
16.1
16.4
16.8
---
15.4
15.6
16.1
---
14.5
14.7
15.2
---
13.7
13.9
14.4
---
S/T
1.00
0.88
0.74
0.59
1.00
0.89
0.75
0.60
1.00
1.00
0.77
0.62
1.00
1.00
0.79
0.64
1.00
1.00
0.82
0.67
1.00
1.00
1.00
0.72
∆T24
.52
22.8
419
.71
16.4
724
.47
22.8
019
.67
16.4
224
.71
23.0
319
.90
16.6
624
.46
22.7
819
.65
16.4
024
.23
22.5
619
.42
16.1
825
.28
23.6
120
.47
17.2
3Pr
Suc
132.
013
3.6
136.
914
2.5
139.
914
1.5
144.
815
0.3
146.
814
8.4
151.
715
7.2
152.
715
4.3
157.
5716
3.1
158.
416
0.0
163.
316
8.8
165.
616
7.2
170.
517
6.0
Pr D
is24
0.8
241.
824
3.5
247.
627
8.3
279.
428
1.0
285.
231
7.7
318.
732
0.4
324.
536
0.1
361.
136
2.77
366.
940
5.8
406.
840
8.5
412.
645
4.5
455.
645
7.2
461.
4Am
ps3.
043.
043.
033.
063.
443.
443.
433.
473.
903.
893.
893.
924.
394.
384.
384.
414.
934.
934.
924.
955.
585.
575.
575.
60Po
wer
781
781
779
786
875
874
872
879
979
978
976
984
1,09
11,
091
1,08
91,
096
1,21
71,
216
1,21
51,
222
1,36
51,
364
1,36
31,
370
680
MBh
16.9
17.1
17.6
---
16.7
17.0
17.5
---
16.3
16.5
17.0
---
15.6
15.8
16.3
---
14.7
14.9
15.4
---
13.9
14.1
14.6
---
S/T
1.00
0.91
0.77
0.62
1.00
0.92
0.78
0.63
1.00
1.00
0.80
0.65
1.00
1.00
0.82
0.67
1.00
1.00
0.84
0.70
1.00
1.00
1.00
0.75
∆T23
.85
22.1
719
.04
15.8
023
.80
22.1
319
.00
15.7
524
.04
22.3
619
.23
15.9
923
.79
22.1
118
.98
15.7
323
.56
21.8
818
.75
15.5
124
.61
22.9
319
.80
16.5
6Pr
Suc
133.
713
5.3
138.
614
4.1
141.
514
3.1
146.
415
2.0
148.
415
0.0
153.
315
8.9
154.
315
5.9
159.
216
4.7
160.
016
1.6
164.
917
0.4
167.
216
8.8
172.
117
7.6
Pr D
is24
2.3
243.
324
5.0
249.
127
9.8
280.
928
2.5
286.
731
9.2
320.
232
1.9
326.
136
1.6
362.
636
4.3
368.
440
7.3
408.
341
0.0
414.
145
6.0
457.
145
8.7
462.
9Am
ps3.
053.
053.
043.
073.
463.
463.
453.
483.
913.
913.
903.
934.
404.
404.
394.
424.
954.
944.
944.
975.
595.
595.
585.
61Po
wer
785
784
782
789
878
877
876
883
982
981
980
987
1,09
51,
094
1,09
21,
099
1,22
01,
220
1,21
81,
225
1,36
81,
367
1,36
61,
373
85
560
MBh
16.8
17.0
17.5
---
16.7
16.9
17.4
---
16.2
16.5
16.9
---
15.5
15.7
16.2
---
14.6
14.8
15.3
---
13.8
14.0
14.5
---
S/T
1.00
0.94
0.80
0.65
1.00
1.00
0.81
0.66
1.00
1.00
0.83
0.68
1.00
1.00
0.85
0.70
1.00
1.00
1.00
0.73
1.00
1.00
1.00
0.78
∆T28
.58
26.9
023
.77
20.5
328
.53
26.8
623
.72
20.4
828
.77
27.0
923
.96
20.7
228
.51
26.8
423
.71
20.4
628
.29
26.6
123
.48
20.2
429
.34
27.6
624
.53
21.2
9Pr
Suc
132.
513
4.1
137.
414
2.9
140.
414
2.0
145.
315
0.8
147.
314
8.9
152.
215
7.7
153.
115
4.7
158.
016
3.5
158.
916
0.5
163.
716
9.3
166.
016
7.6
170.
917
6.4
Pr D
is24
0.3
241.
424
3.0
247.
227
7.9
278.
928
0.6
284.
731
7.2
318.
332
0.0
324.
135
9.6
360.
736
2.3
366.
540
5.3
406.
440
8.0
412.
245
4.1
455.
145
6.8
460.
9Am
ps3.
033.
033.
023.
053.
443.
433.
433.
463.
893.
893.
883.
914.
384.
384.
374.
404.
934.
924.
924.
955.
575.
565.
565.
59Po
wer
780
779
777
784
873
872
870
878
977
976
975
982
1,08
91,
089
1,08
71,
094
1,21
51,
215
1,21
31,
220
1,36
31,
362
1,36
11,
368
620
MBh
17.0
17.2
17.7
---
16.8
17.1
17.5
---
16.4
16.6
17.1
---
15.7
15.9
16.4
---
14.8
15.0
15.5
---
13.9
14.2
14.7
---
S/T
1.00
1.00
0.84
0.70
1.00
1.00
0.85
0.70
1.00
1.00
0.88
0.73
1.00
1.00
1.00
0.75
1.00
1.00
1.00
0.77
1.00
1.00
1.00
0.83
∆T27
.81
26.1
423
.00
19.7
627
.77
26.0
922
.96
19.7
128
.00
26.3
223
.19
19.9
527
.75
26.0
722
.94
19.7
027
.52
25.8
522
.72
19.4
728
.57
26.9
023
.77
20.5
2Pr
Suc
134.
013
5.6
138.
914
4.4
141.
914
3.5
146.
815
2.3
148.
815
0.4
153.
715
9.2
154.
615
6.2
159.
516
5.0
160.
316
1.9
165.
217
0.8
167.
516
9.1
172.
417
7.9
Pr D
is24
1.9
242.
924
4.6
248.
727
9.4
280.
528
2.2
286.
331
8.8
319.
832
1.5
325.
736
1.2
362.
236
3.9
368.
040
6.9
407.
940
9.6
413.
745
5.6
456.
745
8.3
462.
5Am
ps3.
053.
043.
043.
073.
453.
453.
443.
473.
903.
903.
893.
934.
394.
394.
384.
424.
944.
944.
934.
965.
585.
585.
575.
60Po
wer
783
782
781
788
876
876
874
881
981
980
978
985
1,09
31,
092
1,09
11,
098
1,21
91,
218
1,21
71,
224
1,36
71,
366
1,36
41,
371
680
MBh
17.2
17.4
17.9
---
17.0
17.3
17.7
---
16.6
16.8
17.3
---
15.9
16.1
16.6
---
15.0
15.2
15.7
---
14.1
14.4
14.9
---
S/T
1.00
1.00
0.87
0.73
1.00
1.00
0.88
0.73
1.00
1.00
0.91
0.76
1.00
1.00
1.00
0.78
1.00
1.00
1.00
0.80
1.00
1.00
1.00
0.85
∆T27
.14
25.4
622
.33
19.0
927
.10
25.4
222
.29
19.0
427
.33
25.6
522
.52
19.2
827
.08
25.4
022
.27
19.0
326
.85
25.1
822
.05
18.8
027
.90
26.2
323
.10
19.8
5Pr
Suc
135.
613
7.2
140.
514
6.0
143.
514
5.1
148.
415
3.9
150.
415
2.0
155.
316
0.8
156.
215
7.8
161.
116
6.6
161.
916
3.5
166.
817
2.4
169.
117
0.7
174.
017
9.5
Pr D
is24
3.4
244.
424
6.1
250.
228
1.0
282.
028
3.7
287.
832
0.3
321.
432
3.0
327.
236
2.7
363.
736
5.4
369.
640
8.4
409.
441
1.1
415.
345
7.2
458.
245
9.9
464.
0Am
ps3.
063.
063.
053.
083.
473.
463.
463.
493.
923.
923.
913.
944.
414.
414.
404.
434.
964.
954.
954.
985.
605.
595.
595.
62Po
wer
786
786
784
791
880
879
877
884
984
983
981
989
1,09
61,
096
1,09
41,
101
1,22
21,
221
1,22
01,
227
1,37
01,
369
1,36
81,
375
IDB*
: Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AH
RI c
ondi
tions
.kW
= T
otal
sys
tem
pow
er
Hig
h an
d lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d an
d su
ction
ser
vice
val
ves.
Amps
= o
utdo
or u
nit a
mps
Expanded Cooling Data — AVZC180241A*/AVPEC37C14A* Low Stage (cont.)
8 www.amana-hac.com SS-AVZC18 SS-AVZC18 www.amana-hac.com 9
Expanded Cooling Data — AVZC180361A*/AVPEC59D14A* High Stage
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
re
ID D
BAi
rID
WB
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
70
1240
MBh
34.3
34.7
35.8
---
34.0
34.4
35.5
---
33.1
33.5
34.6
---
31.5
32.0
33.0
---
29.6
30.1
31.1
---
27.9
28.4
29.4
---
S/T
0.67
0.58
0.44
---
0.67
0.59
0.44
---
0.70
0.62
0.47
---
1.00
0.64
0.49
---
1.00
0.66
0.52
---
1.00
0.72
0.57
---
∆T18
.39
16.6
713
.46
---
18.3
416
.62
13.4
1--
-18
.58
16.8
713
.66
---
18.3
316
.61
13.4
0--
-18
.10
16.3
813
.17
---
19.1
717
.45
14.2
4--
-Pr
Suc
124.
512
6.0
129.
2--
-13
2.0
133.
613
6.7
---
138.
714
0.2
143.
4--
-14
4.3
145.
814
8.9
---
149.
715
1.3
154.
4--
-15
6.6
158.
216
1.3
---
Pr D
is27
4.2
275.
427
7.4
---
317.
431
8.6
320.
6--
-36
2.7
363.
936
5.8
---
411.
541
2.6
414.
6--
-46
4.0
465.
246
7.1
---
520.
152
1.3
523.
2--
-Am
ps7.
907.
897.
87--
-9.
069.
059.
03--
-10
.34
10.3
310
.31
---
11.7
311
.72
11.7
0--
-13
.29
13.2
813
.26
---
15.1
115
.10
15.0
9--
-Po
wer
2,03
52,
033
2,02
8--
-2,
300
2,29
82,
293
---
2,59
62,
593
2,58
9--
-2,
916
2,91
42,
909
---
3,27
33,
271
3,26
7--
-3,
693
3,69
13,
687
---
1380
MBh
34.6
35.1
36.1
---
34.3
34.8
35.8
---
33.4
33.9
34.9
---
31.9
32.4
33.4
---
30.0
30.5
31.5
---
28.3
28.8
29.8
---
S/T
0.72
0.63
0.49
---
0.72
0.64
0.50
---
0.75
0.67
0.52
---
1.00
0.69
0.54
---
1.00
0.71
0.57
---
1.00
0.77
0.62
---
∆T17
.55
15.8
312
.62
---
17.5
015
.78
12.5
7--
-17
.74
16.0
212
.81
---
17.4
815
.76
12.5
6--
-17
.25
15.5
412
.33
---
18.3
316
.61
13.4
0--
-Pr
Suc
126.
012
7.5
130.
7--
-13
3.6
135.
113
8.3
---
140.
214
1.7
144.
9--
-14
5.8
147.
315
0.5
---
151.
315
2.8
156.
0--
-15
8.1
159.
716
2.8
---
Pr D
is27
6.1
277.
327
9.3
---
319.
432
0.5
322.
5--
-36
4.6
365.
836
7.7
---
413.
441
4.6
416.
5--
-46
5.9
467.
146
9.0
---
522.
052
3.2
525.
1--
-Am
ps7.
957.
947.
92--
-9.
109.
099.
07--
-10
.39
10.3
810
.36
---
11.7
811
.77
11.7
5--
-13
.34
13.3
313
.31
---
15.1
615
.15
15.1
3--
-Po
wer
2,04
62,
044
2,03
9--
-2,
311
2,30
92,
304
---
2,60
72,
605
2,60
0--
-2,
927
2,92
52,
920
---
3,28
53,
283
3,27
8--
-3,
704
3,70
23,
698
---
1520
MBh
35.1
35.6
36.6
---
34.8
35.2
36.3
---
33.9
34.4
35.4
---
32.3
32.8
33.8
---
30.5
30.9
32.0
---
28.7
29.2
30.3
---
S/T
0.75
0.67
0.52
---
0.76
0.67
0.53
---
0.78
0.70
0.55
---
1.00
0.72
0.58
---
1.00
0.75
0.60
---
1.00
0.80
0.65
---
∆T16
.82
15.1
011
.89
---
16.7
715
.05
11.8
4--
-17
.01
15.2
912
.08
---
16.7
515
.03
11.8
3--
-16
.52
14.8
111
.60
---
17.6
015
.88
12.6
7--
-Pr
Suc
127.
712
9.2
132.
3--
-13
5.2
136.
713
9.9
---
141.
814
3.4
146.
5--
-14
7.4
149.
015
2.1
---
152.
915
4.4
157.
6--
-15
9.8
161.
316
4.5
---
Pr D
is27
8.0
279.
228
1.1
---
321.
232
2.4
324.
3--
-36
6.5
367.
736
9.6
---
415.
241
6.4
418.
3--
-46
7.8
469.
047
0.9
---
523.
952
5.0
527.
0--
-Am
ps7.
997.
987.
96--
-9.
159.
149.
12--
-10
.43
10.4
210
.40
---
11.8
211
.81
11.8
0--
-13
.38
13.3
713
.35
---
15.2
015
.20
15.1
8--
-Po
wer
2,05
52,
053
2,04
9--
-2,
320
2,31
82,
314
---
2,61
62,
614
2,61
0--
-2,
936
2,93
42,
930
---
3,29
43,
292
3,28
8--
-3,
714
3,71
23,
707
---
75
1240
MBh
34.3
34.8
35.8
---
34.0
34.5
35.5
---
33.1
33.6
34.6
---
31.5
32.0
33.0
---
29.7
30.1
31.2
---
28.0
28.4
29.5
---
S/T
0.80
0.72
0.58
0.42
0.81
0.73
0.58
0.43
1.00
0.76
0.61
0.46
1.00
0.78
0.63
0.48
1.00
0.80
0.66
0.50
1.00
1.00
0.71
0.56
∆T22
.17
20.4
517
.24
13.9
222
.12
20.4
017
.19
13.8
722
.36
20.6
517
.44
14.1
122
.10
20.3
917
.18
13.8
521
.88
20.1
616
.95
13.6
222
.95
21.2
318
.02
14.7
0Pr
Suc
124.
512
6.0
129.
213
4.5
132.
113
3.6
136.
814
2.1
138.
714
0.2
143.
414
8.7
144.
314
5.8
149.
015
4.3
149.
815
1.3
154.
515
9.8
156.
615
8.2
161.
316
6.6
Pr D
is27
4.5
275.
727
7.6
282.
431
7.7
318.
932
0.8
325.
636
3.0
364.
136
6.1
370.
841
1.7
412.
941
4.8
419.
646
4.2
465.
446
7.4
472.
152
0.3
521.
552
3.4
528.
2Am
ps7.
907.
897.
877.
959.
059.
049.
029.
1110
.33
10.3
210
.31
10.3
911
.73
11.7
211
.70
11.7
913
.28
13.2
713
.25
13.3
415
.11
15.1
015
.08
15.1
7Po
wer
2,03
32,
031
2,02
62,
047
2,29
82,
296
2,29
12,
312
2,59
42,
592
2,58
72,
607
2,91
42,
912
2,90
72,
928
3,27
23,
270
3,26
53,
285
3,69
13,
689
3,68
53,
705
1380
MBh
34.7
35.1
36.2
---
34.3
34.8
35.9
---
33.5
33.9
35.0
---
31.9
32.4
33.4
---
30.0
30.5
31.5
---
28.3
28.8
29.8
---
S/T
0.86
0.77
0.63
0.47
1.00
0.78
0.63
0.48
1.00
0.81
0.66
0.51
1.00
0.83
0.68
0.53
1.00
0.85
0.71
0.55
1.00
1.00
0.76
0.61
∆T21
.33
19.6
116
.40
13.0
721
.28
19.5
616
.35
13.0
321
.52
19.8
016
.59
13.2
721
.26
19.5
416
.33
13.0
121
.03
19.3
116
.11
12.7
822
.11
20.3
917
.18
13.8
6Pr
Suc
126.
012
7.6
130.
713
6.0
133.
613
5.1
138.
314
3.6
140.
214
1.7
144.
915
0.2
145.
814
7.33
150.
515
5.8
151.
315
2.8
156.
016
1.3
158.
215
9.7
162.
916
8.1
Pr D
is27
6.4
277.
627
9.5
284.
331
9.6
320.
832
2.7
327.
536
4.9
366.
136
8.0
372.
741
3.6
414.
7941
6.7
421.
546
6.2
467.
346
9.3
474.
052
2.2
523.
452
5.4
530.
1Am
ps7.
947.
937.
918.
009.
109.
099.
079.
1610
.38
10.3
710
.35
10.4
411
.77
11.7
711
.75
11.8
313
.33
13.3
213
.30
13.3
915
.15
15.1
515
.13
15.2
1Po
wer
2,04
42,
042
2,03
72,
058
2,30
92,
307
2,30
22,
323
2,60
52,
603
2,59
82,
619
2,92
52,
923
2,91
92,
939
3,28
33,
281
3,27
63,
297
3,70
33,
701
3,69
63,
716
1520
MBh
35.1
35.6
36.6
---
34.8
35.3
36.3
---
33.9
34.4
35.4
---
32.4
32.8
33.9
---
30.5
31.0
32.0
---
28.8
29.2
30.3
---
S/T
0.89
0.81
0.66
0.51
1.00
0.81
0.67
0.51
1.00
0.84
0.69
0.54
1.00
0.86
0.71
0.56
1.00
0.88
0.74
0.58
1.00
1.00
0.79
0.64
∆T20
.60
18.8
815
.67
12.3
420
.55
18.8
315
.62
12.3
020
.79
19.0
715
.86
12.5
420
.53
18.8
115
.60
12.2
820
.30
18.5
815
.38
12.0
521
.38
19.6
616
.45
13.1
3Pr
Suc
127.
712
9.2
132.
413
7.7
135.
213
6.8
139.
914
5.2
141.
914
3.4
146.
615
1.8
147.
414
9.0
152.
115
7.4
152.
915
4.5
157.
616
2.9
159.
816
1.3
164.
516
9.8
Pr D
is27
8.2
279.
428
1.4
286.
132
1.5
322.
632
4.6
329.
336
6.7
367.
936
9.8
374.
641
5.5
416.
741
8.6
423.
446
8.0
469.
247
1.1
475.
952
4.1
525.
352
7.2
532.
0Am
ps7.
997.
987.
968.
049.
149.
139.
119.
2010
.42
10.4
210
.40
10.4
811
.82
11.8
111
.79
11.8
813
.37
13.3
613
.34
13.4
315
.20
15.1
915
.17
15.2
6Po
wer
2,05
42,
052
2,04
72,
067
2,31
92,
317
2,31
22,
332
2,61
52,
612
2,60
82,
628
2,93
52,
933
2,92
82,
948
3,29
33,
290
3,28
63,
306
3,71
23,
710
3,70
63,
726
IDB*
: Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AC
CA (T
VA) c
ondi
tions
.kW
= T
otal
sys
tem
pow
er
Hig
h an
d lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d an
d su
ction
ser
vice
val
ves.
Amps
= o
utdo
or u
nit a
mps
8 www.amana-hac.com SS-AVZC18 SS-AVZC18 www.amana-hac.com 9
Expanded Cooling Data — AVZC180361A*/AVPEC59D14A* High Stage (cont.)
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
re
ID D
BAi
rID
WB
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
80
1240
MBh
34.5
34.9
36.0
---
34.1
34.6
35.7
---
33.3
33.7
34.8
---
31.7
32.2
33.2
---
29.8
30.3
31.3
---
28.1
28.6
29.6
---
S/T
1.00
0.86
0.71
0.56
1.00
0.86
0.72
0.56
1.00
0.89
0.75
0.59
1.00
1.00
0.77
0.61
1.00
1.00
0.79
0.64
1.00
1.00
0.85
0.69
∆T25
.97
24.2
621
.05
17.7
225
.93
24.2
121
.00
17.6
726
.17
24.4
521
.24
17.9
225
.91
24.1
920
.98
17.6
625
.68
23.9
620
.75
17.4
326
.76
25.0
421
.83
18.5
0Pr
Suc
125.
112
6.6
129.
813
5.0
132.
613
4.2
137.
314
2.6
139.
214
0.8
143.
914
9.2
144.
814
6.4
149.
515
4.8
150.
315
1.9
155.
016
0.3
157.
215
8.7
161.
916
7.2
Pr D
is27
5.0
276.
227
8.1
282.
931
8.2
319.
432
1.3
326.
136
3.5
364.
636
6.6
371.
341
2.2
413.
441
5.3
420.
146
4.8
465.
946
7.9
472.
652
0.8
522.
052
4.0
528.
7Am
ps7.
907.
897.
877.
969.
059.
049.
029.
1110
.34
10.3
310
.31
10.4
011
.73
11.7
211
.70
11.7
913
.29
13.2
813
.26
13.3
515
.11
15.1
015
.08
15.1
7Po
wer
2,03
42,
032
2,02
82,
048
2,29
92,
297
2,29
32,
313
2,59
52,
593
2,58
92,
609
2,91
52,
913
2,90
92,
929
3,27
33,
271
3,26
73,
287
3,69
33,
691
3,68
63,
707
1380
MBh
34.8
35.3
36.3
---
34.5
35.0
36.0
---
33.6
34.1
35.1
---
32.1
32.6
33.6
---
30.2
30.7
31.7
---
28.5
29.0
30.0
---
S/T
1.00
0.91
0.76
0.61
1.00
0.92
0.77
0.62
1.00
0.94
0.80
0.64
1.00
1.00
0.82
0.66
1.00
1.00
0.84
0.69
1.00
1.00
0.90
0.74
∆T25
.13
23.4
120
.20
16.8
825
.09
23.3
720
.16
16.8
325
.33
23.6
120
.40
17.0
725
.07
23.3
520
.14
16.8
124
.84
23.1
219
.91
16.5
925
.92
24.2
020
.99
17.6
6Pr
Suc
126.
612
8.1
131.
313
6.6
134.
113
5.7
138.
814
4.1
140.
814
2.3
145.
415
0.7
146.
314
7.9
151.
0415
6.3
151.
815
3.4
156.
516
1.8
158.
716
0.2
163.
416
8.7
Pr D
is27
6.9
278.
128
0.0
284.
832
0.1
321.
332
3.2
328.
036
5.4
366.
636
8.5
373.
341
4.1
415.
341
7.22
422.
046
6.7
467.
846
9.8
474.
552
2.7
523.
952
5.9
530.
6Am
ps7.
957.
947.
928.
019.
109.
099.
079.
1610
.39
10.3
810
.36
10.4
511
.78
11.7
711
.75
11.8
413
.34
13.3
313
.31
13.4
015
.16
15.1
515
.13
15.2
2Po
wer
2,04
52,
043
2,03
92,
059
2,31
02,
308
2,30
42,
324
2,60
62,
604
2,60
02,
620
2,92
72,
924
2,92
02,
940
3,28
43,
282
3,27
83,
298
3,70
43,
702
3,69
73,
718
1520
MBh
35.3
35.8
36.8
---
35.0
35.4
36.5
---
34.1
34.6
35.6
---
32.5
33.0
34.0
---
30.7
31.1
32.2
---
28.9
29.4
30.4
---
S/T
1.00
0.94
0.79
0.64
1.00
0.95
0.80
0.65
1.00
0.97
0.83
0.67
1.00
1.00
0.85
0.70
1.00
1.00
0.87
0.72
1.00
1.00
0.93
0.77
∆T24
.40
22.6
819
.47
16.1
524
.36
22.6
419
.43
16.1
024
.60
22.8
819
.67
16.3
424
.34
22.6
219
.41
16.0
824
.11
22.3
919
.18
15.8
625
.18
23.4
720
.26
16.9
3Pr
Suc
128.
212
9.8
132.
913
8.2
135.
813
7.3
140.
514
5.8
142.
414
3.9
147.
115
2.4
148.
014
9.5
152.
715
8.0
153.
515
5.0
158.
216
3.5
160.
416
1.9
165.
117
0.3
Pr D
is27
8.8
279.
928
1.9
286.
632
2.0
323.
132
5.1
329.
836
7.2
368.
437
0.3
375.
141
6.0
417.
241
9.1
423.
946
8.5
469.
747
1.6
476.
452
4.6
525.
852
7.7
532.
5Am
ps7.
997.
987.
968.
059.
149.
139.
129.
2010
.43
10.4
210
.40
10.4
911
.82
11.8
111
.79
11.8
813
.38
13.3
713
.35
13.4
415
.20
15.1
915
.17
15.2
6Po
wer
2,05
52,
053
2,04
82,
069
2,32
02,
318
2,31
32,
334
2,61
62,
614
2,60
92,
630
2,93
62,
934
2,93
02,
950
3,29
43,
292
3,28
73,
308
3,71
43,
712
3,70
73,
727
85
1240
MBh
35.0
35.5
36.5
---
34.7
35.2
36.2
---
33.8
34.3
35.3
---
32.3
32.8
33.8
---
30.4
30.9
31.9
---
28.7
29.2
30.2
---
S/T
1.00
0.97
0.82
0.67
1.00
1.00
0.83
0.67
1.00
1.00
0.85
0.70
1.00
1.00
0.88
0.72
1.00
1.00
0.90
0.75
1.00
1.00
1.00
0.80
∆T29
.35
27.6
324
.42
21.1
029
.30
27.5
824
.37
21.0
529
.54
27.8
324
.62
21.2
929
.28
27.5
724
.36
21.0
329
.06
27.3
424
.13
20.8
030
.13
28.4
125
.20
21.8
8Pr
Suc
126.
912
8.5
131.
613
6.9
134.
513
6.0
139.
214
4.5
141.
114
2.6
145.
815
1.1
146.
714
8.2
151.
415
6.7
152.
215
3.7
156.
916
2.2
159.
116
0.6
163.
816
9.0
Pr D
is27
6.3
277.
527
9.4
284.
231
9.5
320.
732
2.6
327.
436
4.7
365.
936
7.9
372.
641
3.5
414.
741
6.6
421.
446
6.0
467.
246
9.2
473.
952
2.1
523.
352
5.2
530.
0Am
ps7.
927.
917.
897.
989.
089.
079.
059.
1410
.36
10.3
510
.33
10.4
211
.75
11.7
511
.73
11.8
113
.31
13.3
013
.28
13.3
715
.13
15.1
315
.11
15.1
9Po
wer
2,03
92,
037
2,03
32,
053
2,30
42,
302
2,29
82,
318
2,60
02,
598
2,59
42,
614
2,92
02,
918
2,91
42,
934
3,27
83,
276
3,27
23,
292
3,69
83,
696
3,69
13,
712
1380
MBh
35.4
35.9
36.9
---
35.1
35.6
36.6
---
34.2
34.7
35.7
---
32.7
33.2
34.2
---
30.8
31.3
32.3
---
29.1
29.6
30.6
---
S/T
1.00
1.00
0.87
0.72
1.00
1.00
0.88
0.72
1.00
1.00
0.91
0.75
1.00
1.00
0.93
0.77
1.00
1.00
1.00
0.80
1.00
1.00
1.00
0.85
∆T28
.51
26.7
923
.58
20.2
528
.46
26.7
423
.53
20.2
128
.70
26.9
823
.77
20.4
528
.44
26.7
223
.51
20.1
928
.21
26.4
923
.29
19.9
629
.29
27.5
724
.36
21.0
4Pr
Suc
128.
413
0.0
133.
113
8.4
136.
013
7.5
140.
714
6.0
142.
614
4.1
147.
315
2.6
148.
214
9.7
152.
915
8.2
153.
715
5.2
158.
416
3.7
160.
616
2.1
165.
317
0.6
Pr D
is27
8.2
279.
428
1.3
286.
132
1.4
322.
632
4.5
329.
336
6.7
367.
836
9.8
374.
541
5.4
416.
641
8.5
423.
346
7.9
469.
147
1.1
475.
852
4.0
525.
252
7.1
531.
9Am
ps7.
977.
967.
948.
039.
129.
129.
109.
1810
.41
10.4
010
.38
10.4
711
.80
11.7
911
.77
11.8
613
.36
13.3
513
.33
13.4
215
.18
15.1
715
.15
15.2
4Po
wer
2,05
02,
048
2,04
42,
064
2,31
62,
313
2,30
92,
329
2,61
12,
609
2,60
52,
625
2,93
22,
930
2,92
52,
945
3,28
93,
287
3,28
33,
303
3,70
93,
707
3,70
23,
723
1520
MBh
35.8
36.3
37.3
---
35.5
36.0
37.0
---
34.6
35.1
36.1
---
33.1
33.6
34.6
---
31.2
31.7
32.7
---
29.5
30.0
31.0
---
S/T
1.00
1.00
0.90
0.75
1.00
1.00
0.91
0.76
1.00
1.00
0.94
0.78
1.00
1.00
0.96
0.80
1.00
1.00
1.00
0.83
1.00
1.00
1.00
0.88
∆T27
.78
26.0
622
.85
19.5
227
.73
26.0
122
.80
19.4
827
.97
26.2
523
.04
19.7
227
.71
25.9
922
.78
19.4
627
.48
25.7
622
.56
19.2
328
.56
26.8
423
.63
20.3
1Pr
Suc
130.
113
1.6
134.
814
0.1
137.
613
9.2
142.
314
7.6
144.
314
5.8
149.
015
4.2
149.
915
1.4
154.
615
9.8
155.
315
6.9
160.
016
5.3
162.
216
3.8
166.
917
2.2
Pr D
is28
0.0
281.
228
3.2
287.
932
3.2
324.
432
6.4
331.
136
8.5
369.
737
1.6
376.
441
7.3
418.
442
0.4
425.
146
9.8
471.
047
2.9
477.
752
5.9
527.
152
9.0
533.
8Am
ps8.
018.
007.
988.
079.
179.
169.
149.
2310
.45
10.4
410
.42
10.5
111
.84
11.8
411
.82
11.9
013
.40
13.3
913
.37
13.4
615
.22
15.2
215
.20
15.2
8Po
wer
2,06
02,
058
2,05
42,
074
2,32
52,
323
2,31
92,
339
2,62
12,
619
2,61
42,
635
2,94
12,
939
2,93
52,
955
3,29
93,
297
3,29
23,
313
3,71
93,
717
3,71
23,
732
IDB*
: Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AH
RI c
ondi
tions
.kW
= T
otal
sys
tem
pow
er
Hig
h an
d lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d an
d su
ction
ser
vice
val
ves.
Amps
= o
utdo
or u
nit a
mps
10 www.amana-hac.com SS-AVZC18 SS-AVZC18 www.amana-hac.com 11
Expanded Cooling Data —AVZC180361A*/AVPEC59D14A* Low Stage
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
re
ID D
BAi
rID
WB
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
70
870
MBh
24.6
25.0
25.7
---
24.4
24.8
25.5
---
23.8
24.1
24.9
---
22.7
23.0
23.7
---
21.3
21.7
22.4
---
20.1
20.4
21.2
---
S/T
0.68
0.60
0.45
---
0.69
0.61
0.46
---
0.72
0.63
0.48
---
1.00
0.66
0.51
---
1.00
0.68
0.53
---
1.00
0.74
0.59
---
∆T17
.75
16.0
912
.99
---
17.7
016
.04
12.9
4--
-17
.93
16.2
713
.18
---
17.6
816
.02
12.9
3--
-17
.46
15.8
012
.71
---
18.5
016
.84
13.7
4--
-Pr
Suc
128.
012
9.5
132.
8--
-13
5.7
137.
314
0.6
---
142.
514
4.1
147.
4--
-14
8.3
149.
915
3.1
---
153.
915
5.5
158.
8--
-16
1.0
162.
616
5.8
---
Pr D
is26
2.2
263.
326
5.1
---
303.
530
4.6
306.
5--
-34
6.8
347.
934
9.7
---
393.
439
4.5
396.
3--
-44
3.6
444.
744
6.6
---
497.
249
8.3
500.
2--
-Am
ps4.
974.
974.
95--
-5.
705.
695.
68--
-6.
506.
506.
49--
-7.
387.
377.
36--
-8.
368.
358.
34--
-9.
519.
509.
49--
-Po
wer
1,28
01,
278
1,27
6--
-1,
446
1,44
51,
442
---
1,63
31,
631
1,62
8--
-1,
834
1,83
31,
830
---
2,05
92,
058
2,05
5--
-2,
323
2,32
22,
319
---
970
MBh
24.9
25.2
26.0
---
24.7
25.0
25.8
---
24.0
24.4
25.1
---
22.9
23.3
24.0
---
21.6
21.9
22.7
---
20.4
20.7
21.4
---
S/T
0.74
0.65
0.50
---
0.74
0.66
0.51
---
1.00
0.69
0.54
---
1.00
0.71
0.56
---
1.00
0.73
0.58
---
1.00
1.00
0.64
---
∆T16
.93
15.2
812
.18
---
16.8
915
.23
12.1
3--
-17
.12
15.4
612
.37
---
16.8
715
.21
12.1
2--
-16
.65
14.9
911
.89
---
17.6
916
.03
12.9
3--
-Pr
Suc
129.
513
1.1
134.
4--
-13
7.3
138.
914
2.1
---
144.
114
5.7
148.
9--
-14
9.8
151.
415
4.7
---
155.
515
7.1
160.
3--
-16
2.6
164.
116
7.4
---
Pr D
is26
4.0
265.
126
7.0
---
305.
330
6.4
308.
3--
-34
8.6
349.
735
1.6
---
395.
239
6.3
398.
2--
-44
5.4
446.
644
8.4
---
499.
050
0.2
502.
0--
-Am
ps5.
005.
004.
98--
-5.
735.
725.
71--
-6.
546.
536.
52--
-7.
417.
417.
39--
-8.
398.
388.
37--
-9.
549.
539.
52--
-Po
wer
1,28
71,
285
1,28
3--
-1,
453
1,45
21,
449
---
1,64
01,
638
1,63
5--
-1,
841
1,84
01,
837
---
2,06
62,
065
2,06
2--
-2,
330
2,32
92,
326
---
1070
MBh
25.2
25.6
26.3
---
25.0
25.3
26.1
---
24.4
24.7
25.4
---
23.2
23.6
24.3
---
21.9
22.2
23.0
---
20.7
21.0
21.7
---
S/T
0.77
0.68
0.53
---
0.78
0.69
0.54
---
1.00
0.72
0.57
---
1.00
0.74
0.59
---
1.00
0.77
0.62
---
1.00
1.00
0.67
---
∆T16
.23
14.5
711
.47
---
16.1
814
.53
11.4
3--
-16
.42
14.7
611
.66
---
16.1
714
.51
11.4
1--
-15
.95
14.2
911
.19
---
16.9
815
.33
12.2
3--
-Pr
Suc
131.
213
2.8
136.
1--
-13
9.0
140.
614
3.8
---
145.
814
7.4
150.
6--
-15
1.5
153.
115
6.4
---
157.
215
8.8
162.
0--
-16
4.3
165.
816
9.1
---
Pr D
is26
5.8
266.
926
8.7
---
307.
130
8.2
310.
1--
-35
0.4
351.
535
3.3
---
397.
039
8.1
399.
9--
-44
7.2
448.
345
0.2
---
500.
850
1.9
503.
8--
-Am
ps5.
035.
025.
01--
-5.
755.
755.
73--
-6.
566.
566.
54--
-7.
447.
437.
42--
-8.
428.
418.
40--
-9.
569.
569.
55--
-Po
wer
1,29
31,
292
1,28
9--
-1,
460
1,45
81,
455
---
1,64
61,
644
1,64
1--
-1,
847
1,84
61,
843
---
2,07
22,
071
2,06
8--
-2,
336
2,33
52,
332
---
75
870
MBh
24.6
25.0
25.7
---
24.4
24.8
25.5
---
23.8
24.1
24.9
---
22.7
23.0
23.8
---
21.3
21.7
22.4
---
20.1
20.4
21.2
---
S/T
0.83
0.74
0.59
0.43
1.00
0.75
0.60
0.44
1.00
0.78
0.63
0.47
1.00
0.80
0.65
0.49
1.00
1.00
0.67
0.51
1.00
1.00
0.73
0.57
∆T21
.39
19.7
316
.64
13.4
321
.35
19.6
916
.59
13.3
821
.58
19.9
216
.82
13.6
221
.33
19.6
716
.57
13.3
721
.11
19.4
516
.35
13.1
422
.15
20.4
917
.39
14.1
8Pr
Suc
128.
012
9.6
132.
813
8.3
135.
813
7.3
140.
614
6.0
142.
614
4.1
147.
415
2.8
148.
314
9.9
153.
115
8.6
154.
015
5.5
158.
816
4.2
161.
016
2.6
165.
917
1.3
Pr D
is26
2.4
263.
526
5.4
269.
930
3.7
304.
830
6.7
311.
334
7.0
348.
135
0.0
354.
539
3.6
394.
739
6.6
401.
144
3.8
445.
044
6.8
451.
449
7.4
498.
650
0.4
505.
0Am
ps4.
974.
964.
955.
005.
695.
695.
675.
736.
506.
496.
486.
547.
387.
377.
367.
418.
358.
358.
348.
399.
509.
509.
489.
54Po
wer
1,27
91,
277
1,27
51,
287
1,44
51,
444
1,44
11,
454
1,63
21,
630
1,62
71,
640
1,83
31,
832
1,82
91,
842
2,05
82,
057
2,05
42,
067
2,32
22,
321
2,31
82,
331
970
MBh
24.9
25.3
26.0
---
24.7
25.0
25.8
---
24.1
24.4
25.1
---
22.9
23.3
24.0
---
21.6
21.9
22.7
---
20.4
20.7
21.4
---
S/T
0.88
0.79
0.64
0.49
1.00
0.80
0.65
0.49
1.00
0.83
0.68
0.52
1.00
0.85
0.70
0.54
1.00
1.00
0.73
0.57
1.00
1.00
0.78
0.62
∆T20
.58
18.9
215
.83
12.6
220
.54
18.8
815
.78
12.5
720
.77
19.1
116
.01
12.8
020
.52
18.8
615
.76
12.5
520
.30
18.6
415
.54
12.3
321
.34
19.6
816
.58
13.3
7Pr
Suc
129.
613
1.1
134.
413
9.8
137.
313
8.9
142.
214
7.6
144.
114
5.7
149.
015
4.4
149.
915
1.46
154.
716
0.1
155.
515
7.1
160.
416
5.8
162.
616
4.2
167.
417
2.9
Pr D
is26
4.2
265.
426
7.2
271.
830
5.5
306.
730
8.5
313.
134
8.8
349.
935
1.8
356.
339
5.4
396.
5439
8.4
402.
944
5.6
446.
844
8.6
453.
249
9.3
500.
450
2.2
506.
8Am
ps5.
004.
994.
985.
035.
725.
725.
705.
766.
536.
526.
516.
577.
417.
407.
397.
448.
388.
388.
378.
429.
539.
539.
519.
57Po
wer
1,28
61,
284
1,28
21,
294
1,45
21,
451
1,44
81,
461
1,63
91,
637
1,63
41,
647
1,84
01,
839
1,83
61,
849
2,06
52,
064
2,06
12,
074
2,32
92,
328
2,32
52,
338
1070
MBh
25.2
25.6
26.3
---
25.0
25.4
26.1
---
24.4
24.7
25.4
---
23.3
23.6
24.3
---
21.9
22.3
23.0
---
20.7
21.0
21.8
---
S/T
0.91
0.83
0.68
0.52
1.00
0.83
0.68
0.53
1.00
0.86
0.71
0.55
1.00
0.88
0.73
0.58
1.00
1.00
0.76
0.60
1.00
1.00
0.81
0.66
∆T19
.88
18.2
215
.12
11.9
119
.83
18.1
715
.08
11.8
720
.07
18.4
115
.31
12.1
019
.82
18.1
615
.06
11.8
519
.59
17.9
314
.84
11.6
320
.63
18.9
715
.88
12.6
7Pr
Suc
131.
313
2.8
136.
114
1.5
139.
014
0.6
143.
914
9.3
145.
814
7.4
150.
715
6.1
151.
615
3.2
156.
416
1.8
157.
215
8.8
162.
016
7.5
164.
316
5.9
169.
117
4.6
Pr D
is26
6.0
267.
126
9.0
273.
530
7.3
308.
431
0.3
314.
935
0.6
351.
735
3.6
358.
139
7.2
398.
340
0.2
404.
744
7.4
448.
645
0.4
455.
050
1.0
502.
250
4.0
508.
6Am
ps5.
025.
025.
005.
065.
755.
745.
735.
796.
566.
556.
546.
597.
437.
437.
417.
478.
418.
418.
398.
459.
569.
559.
549.
60Po
wer
1,29
21,
290
1,28
81,
300
1,45
81,
457
1,45
41,
467
1,64
51,
643
1,64
01,
653
1,84
61,
845
1,84
21,
855
2,07
12,
070
2,06
72,
080
2,33
52,
334
2,33
12,
344
IDB*
: Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AC
CA (T
VA) c
ondi
tions
.kW
= T
otal
sys
tem
pow
er
Hig
h an
d lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d an
d su
ction
ser
vice
val
ves.
Amps
= o
utdo
or u
nit a
mps
10 www.amana-hac.com SS-AVZC18 SS-AVZC18 www.amana-hac.com 11
Expanded Cooling Data — AVZC180361A*/AVPEC59D14A* Low Stage (cont.)
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
re
ID D
BAi
rID
WB
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
80
870
MBh
24.8
25.1
25.9
---
24.6
24.9
25.6
---
23.9
24.3
25.0
---
22.8
23.2
23.9
---
21.5
21.8
22.5
---
20.2
20.6
21.3
---
S/T
1.00
0.88
0.73
0.57
1.00
0.89
0.74
0.58
1.00
0.92
0.77
0.61
1.00
1.00
0.79
0.63
1.00
1.00
0.81
0.65
1.00
1.00
0.87
0.71
∆T25
.06
23.4
120
.31
17.1
025
.02
23.3
620
.26
17.0
525
.25
23.5
920
.50
17.2
925
.00
23.3
420
.25
17.0
424
.78
23.1
220
.02
16.8
225
.82
24.1
621
.06
17.8
5Pr
Suc
128.
613
0.1
133.
413
8.8
136.
313
7.9
141.
214
6.6
143.
114
4.7
148.
015
3.4
148.
915
0.5
153.
715
9.1
154.
515
6.1
159.
416
4.8
161.
616
3.2
166.
417
1.9
Pr D
is26
2.9
264.
026
5.9
270.
430
4.2
305.
330
7.2
311.
734
7.5
348.
635
0.4
355.
039
4.1
395.
239
7.0
401.
644
4.3
445.
444
7.3
451.
849
7.9
499.
150
0.9
505.
5Am
ps4.
974.
964.
955.
015.
695.
695.
685.
736.
506.
506.
496.
547.
387.
377.
367.
428.
368.
358.
348.
409.
519.
509.
499.
54Po
wer
1,28
01,
278
1,27
51,
288
1,44
61,
445
1,44
21,
455
1,63
21,
631
1,62
81,
641
1,83
41,
832
1,83
01,
842
2,05
92,
057
2,05
52,
067
2,32
32,
321
2,31
92,
331
970
MBh
25.0
25.4
26.1
---
24.8
25.2
25.9
---
24.2
24.5
25.3
---
23.1
23.4
24.2
---
21.7
22.1
22.8
---
20.5
20.8
21.6
---
S/T
1.00
0.93
0.78
0.63
1.00
0.94
0.79
0.63
1.00
1.00
0.82
0.66
1.00
1.00
0.84
0.68
1.00
1.00
0.86
0.71
1.00
1.00
1.00
0.76
∆T24
.25
22.5
919
.50
16.2
924
.21
22.5
519
.45
16.2
424
.44
22.7
819
.69
16.4
824
.19
22.5
319
.44
16.2
323
.97
22.3
119
.21
16.0
025
.01
23.3
520
.25
17.0
4Pr
Suc
130.
113
1.7
135.
014
0.4
137.
913
9.5
142.
714
8.2
144.
714
6.3
149.
515
5.0
150.
415
2.0
155.
2716
0.7
156.
115
7.7
160.
916
6.4
163.
216
4.7
168.
017
3.4
Pr D
is26
4.7
265.
826
7.7
272.
230
6.0
307.
230
9.0
313.
634
9.3
350.
435
2.3
356.
839
5.9
397.
039
8.86
403.
444
6.1
447.
344
9.1
453.
749
9.7
500.
950
2.7
507.
3Am
ps5.
004.
994.
985.
045.
735.
725.
715.
766.
536.
536.
526.
577.
417.
407.
397.
458.
398.
388.
378.
439.
549.
539.
529.
57Po
wer
1,28
71,
285
1,28
21,
295
1,45
31,
452
1,44
91,
462
1,63
91,
638
1,63
51,
648
1,84
11,
839
1,83
71,
849
2,06
62,
064
2,06
22,
074
2,33
02,
328
2,32
62,
338
1070
MBh
25.4
25.7
26.4
---
25.1
25.5
26.2
---
24.5
24.8
25.6
---
23.4
23.7
24.5
---
22.0
22.4
23.1
---
20.8
21.2
21.9
---
S/T
1.00
0.97
0.82
0.66
1.00
0.97
0.82
0.66
1.00
1.00
0.85
0.69
1.00
1.00
0.87
0.71
1.00
1.00
0.90
0.74
1.00
1.00
1.00
0.80
∆T23
.55
21.8
918
.79
15.5
823
.50
21.8
518
.75
15.5
423
.74
22.0
818
.98
15.7
723
.49
21.8
318
.73
15.5
223
.27
21.6
118
.51
15.3
024
.30
22.6
519
.55
16.3
4Pr
Suc
131.
813
3.4
136.
614
2.1
139.
614
1.2
144.
414
9.9
146.
414
8.0
151.
215
6.7
152.
115
3.7
157.
016
2.4
157.
815
9.4
162.
616
8.0
164.
916
6.4
169.
717
5.1
Pr D
is26
6.5
267.
626
9.5
274.
030
7.8
308.
931
0.8
315.
335
1.1
352.
235
4.0
358.
639
7.7
398.
840
0.6
405.
244
7.9
449.
045
0.9
455.
450
1.5
502.
750
4.5
509.
1Am
ps5.
035.
025.
015.
065.
755.
755.
735.
796.
566.
556.
546.
607.
447.
437.
427.
478.
418.
418.
408.
459.
569.
569.
549.
60Po
wer
1,29
31,
291
1,28
81,
301
1,45
91,
458
1,45
51,
468
1,64
51,
644
1,64
11,
654
1,84
71,
846
1,84
31,
855
2,07
22,
071
2,06
82,
080
2,33
62,
335
2,33
22,
344
85
870
MBh
25.2
25.5
26.3
---
25.0
25.3
26.0
---
24.3
24.7
25.4
---
23.2
23.6
24.3
---
21.9
22.2
23.0
---
20.6
21.0
21.7
---
S/T
1.00
0.99
0.84
0.68
1.00
1.00
0.85
0.69
1.00
1.00
0.88
0.72
1.00
1.00
0.90
0.74
1.00
1.00
1.00
0.77
1.00
1.00
1.00
0.82
∆T28
.32
26.6
623
.57
20.3
628
.28
26.6
223
.52
20.3
128
.51
26.8
523
.75
20.5
428
.26
26.6
023
.50
20.2
928
.04
26.3
823
.28
20.0
729
.08
27.4
224
.32
21.1
1Pr
Suc
130.
513
2.1
135.
314
0.7
138.
213
9.8
143.
114
8.5
145.
014
6.6
149.
915
5.3
150.
815
2.4
155.
616
1.1
156.
415
8.0
161.
316
6.7
163.
516
5.1
168.
317
3.8
Pr D
is26
4.1
265.
326
7.1
271.
730
5.4
306.
630
8.4
313.
034
8.7
349.
835
1.7
356.
239
5.3
396.
439
8.3
402.
844
5.5
446.
744
8.5
453.
149
9.2
500.
350
2.1
506.
7Am
ps4.
984.
984.
975.
025.
715.
705.
695.
756.
526.
516.
506.
567.
397.
397.
387.
438.
378.
378.
358.
419.
529.
519.
509.
56Po
wer
1,28
31,
281
1,27
91,
291
1,44
91,
448
1,44
51,
458
1,63
61,
634
1,63
11,
644
1,83
71,
836
1,83
31,
846
2,06
22,
061
2,05
82,
071
2,32
62,
325
2,32
22,
335
970
MBh
25.5
25.8
26.5
---
25.2
25.6
26.3
---
24.6
24.9
25.7
---
23.5
23.8
24.6
---
22.1
22.5
23.2
---
20.9
21.3
22.0
---
S/T
1.00
1.00
0.90
0.74
1.00
1.00
0.90
0.74
1.00
1.00
0.93
0.77
1.00
1.00
0.95
0.79
1.00
1.00
1.00
0.82
1.00
1.00
1.00
0.87
∆T27
.51
25.8
522
.75
19.5
527
.46
25.8
122
.71
19.5
027
.70
26.0
422
.94
19.7
327
.45
25.7
922
.69
19.4
827
.23
25.5
722
.47
19.2
628
.26
26.6
123
.51
20.3
0Pr
Suc
132.
013
3.6
136.
914
2.3
139.
814
1.4
144.
615
0.1
146.
614
8.2
151.
415
6.9
152.
415
3.9
157.
216
2.6
158.
015
9.6
162.
816
8.3
165.
116
6.6
169.
917
5.3
Pr D
is26
5.9
267.
126
8.9
273.
530
7.2
308.
431
0.2
314.
835
0.5
351.
735
3.5
358.
139
7.1
398.
340
0.1
404.
744
7.4
448.
545
0.3
454.
950
1.0
502.
150
4.0
508.
5Am
ps5.
015.
015.
005.
055.
745.
735.
725.
786.
556.
546.
536.
597.
427.
427.
417.
468.
408.
408.
388.
449.
559.
549.
539.
59Po
wer
1,29
01,
288
1,28
61,
298
1,45
61,
455
1,45
21,
465
1,64
31,
641
1,63
81,
651
1,84
41,
843
1,84
01,
853
2,06
92,
068
2,06
52,
078
2,33
32,
332
2,32
92,
342
1070
MBh
25.8
26.1
26.9
---
25.6
25.9
26.6
---
24.9
25.3
26.0
---
23.8
24.2
24.9
---
22.5
22.8
23.5
---
21.2
21.6
22.3
---
S/T
1.00
1.00
0.93
0.77
1.00
1.00
0.93
0.78
1.00
1.00
0.96
0.80
1.00
1.00
1.00
0.83
1.00
1.00
1.00
0.85
1.00
1.00
1.00
0.91
∆T26
.81
25.1
522
.05
18.8
426
.76
25.1
022
.00
18.8
026
.99
25.3
422
.24
19.0
326
.74
25.0
821
.99
18.7
826
.52
24.8
621
.77
18.5
627
.56
25.9
022
.80
19.6
0Pr
Suc
133.
713
5.3
138.
614
4.0
141.
514
3.1
146.
315
1.8
148.
314
9.9
153.
115
8.6
154.
115
5.6
158.
916
4.3
159.
716
1.3
164.
517
0.0
166.
816
8.3
171.
617
7.0
Pr D
is26
7.7
268.
927
0.7
275.
330
9.0
310.
231
2.0
316.
635
2.3
353.
435
5.3
359.
839
8.9
400.
040
1.9
406.
444
9.1
450.
345
2.1
456.
750
2.8
503.
950
5.7
510.
3Am
ps5.
045.
035.
025.
085.
775.
765.
755.
806.
576.
576.
566.
617.
457.
447.
437.
498.
438.
428.
418.
479.
589.
579.
569.
61Po
wer
1,29
61,
294
1,29
21,
304
1,46
31,
461
1,45
81,
471
1,64
91,
647
1,64
41,
657
1,85
01,
849
1,84
61,
859
2,07
52,
074
2,07
12,
084
2,33
92,
338
2,33
52,
348
IDB*
: Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AH
RI c
ondi
tions
.kW
= T
otal
sys
tem
pow
er
Hig
h an
d lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d an
d su
ction
ser
vice
val
ves.
Amps
= o
utdo
or u
nit a
mps
12 www.amana-hac.com SS-AVZC18 SS-AVZC18 www.amana-hac.com 13
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
re
ID D
BAi
rID
WB
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
70
1240
MBh
45.9
46.5
47.9
---
45.5
46.1
47.5
---
44.3
44.9
46.3
---
42.2
42.9
44.2
---
39.7
40.4
41.7
---
37.4
38.1
39.4
---
S/T
0.61
0.53
0.40
---
0.61
0.54
0.41
---
0.64
0.56
0.43
---
0.66
0.58
0.45
---
0.68
0.60
0.47
---
1.00
0.66
0.52
---
∆T20
.25
18.3
614
.82
---
20.2
018
.31
14.7
7--
-20
.47
18.5
715
.04
---
20.1
818
.29
14.7
5--
-19
.93
18.0
314
.50
---
21.1
219
.22
15.6
8--
-Pr
Suc
118.
111
9.5
122.
5--
-12
5.2
126.
712
9.7
---
131.
513
3.0
136.
0--
-13
6.8
138.
314
1.3
---
142.
014
3.5
146.
5--
-14
8.5
150.
015
3.0
---
Pr D
is27
1.6
272.
727
4.6
---
314.
331
5.5
317.
4--
-35
9.2
360.
336
2.2
---
407.
440
8.6
410.
5--
-45
9.4
460.
646
2.5
---
515.
051
6.2
518.
1--
-Am
ps10
.51
10.5
010
.47
---
12.0
912
.08
12.0
5--
-13
.86
13.8
513
.82
---
15.7
815
.76
15.7
4--
-17
.91
17.9
017
.87
---
20.4
220
.41
20.3
8--
-Po
wer
2,68
22,
679
2,67
3--
-3,
046
3,04
33,
037
---
3,45
33,
450
3,44
4--
-3,
893
3,89
13,
884
---
4,38
54,
382
4,37
6--
-4,
962
4,96
04,
953
---
1380
MBh
46.4
47.0
48.4
---
46.0
46.6
48.0
---
44.8
45.4
46.8
---
42.7
43.4
44.7
---
40.2
40.9
42.2
---
37.9
38.6
39.9
---
S/T
0.65
0.58
0.45
---
0.66
0.58
0.45
---
0.68
0.61
0.48
---
0.70
0.63
0.50
---
1.00
0.65
0.52
---
1.00
0.70
0.57
---
∆T19
.34
17.4
513
.91
---
19.2
917
.40
13.8
6--
-19
.56
17.6
614
.12
---
19.2
717
.38
13.8
4--
-19
.02
17.1
213
.59
---
20.2
018
.31
14.7
7--
-Pr
Suc
119.
512
0.9
123.
9--
-12
6.6
128.
113
1.1
---
132.
913
4.4
137.
4--
-13
8.2
139.
714
2.7
---
143.
414
4.9
147.
9--
-15
0.0
151.
415
4.4
---
Pr D
is27
3.4
274.
627
6.5
---
316.
231
7.4
319.
3--
-36
1.0
362.
236
4.1
---
409.
341
0.4
412.
4--
-46
1.3
462.
546
4.4
---
516.
851
8.0
519.
9--
-Am
ps10
.57
10.5
610
.53
---
12.1
612
.15
12.1
2--
-13
.93
13.9
113
.89
---
15.8
415
.83
15.8
0--
-17
.98
17.9
717
.94
---
20.4
920
.48
20.4
5--
-Po
wer
2,69
72,
694
2,68
8--
-3,
061
3,05
83,
052
---
3,46
83,
465
3,45
9--
-3,
908
3,90
63,
899
---
4,40
04,
397
4,39
1--
-4,
977
4,97
54,
968
---
1520
MBh
47.0
47.6
49.0
---
46.5
47.2
48.6
---
45.4
46.0
47.4
---
43.3
43.9
45.3
---
40.8
41.4
42.8
---
38.5
39.1
40.5
---
S/T
0.68
0.61
0.47
---
0.69
0.61
0.48
---
0.71
0.64
0.51
---
0.73
0.66
0.52
---
1.00
0.68
0.55
---
1.00
0.73
0.60
---
∆T18
.55
16.6
613
.12
---
18.5
016
.60
13.0
7--
-18
.77
16.8
713
.33
---
18.4
816
.58
13.0
5--
-18
.23
16.3
312
.79
---
19.4
117
.52
13.9
8--
-Pr
Suc
121.
012
2.5
125.
5--
-12
8.2
129.
613
2.6
---
134.
513
5.9
138.
9--
-13
9.8
141.
214
4.2
---
145.
014
6.4
149.
4--
-15
1.5
152.
915
5.9
---
Pr D
is27
5.2
276.
427
8.3
---
318.
031
9.2
321.
1--
-36
2.8
364.
036
5.9
---
411.
141
2.3
414.
2--
-46
3.1
464.
346
6.2
---
518.
651
9.8
521.
7--
-Am
ps10
.63
10.6
210
.59
---
12.2
112
.20
12.1
8--
-13
.98
13.9
713
.94
---
15.9
015
.89
15.8
6--
-18
.04
18.0
218
.00
---
20.5
520
.53
20.5
1--
-Po
wer
2,71
02,
707
2,70
1--
-3,
074
3,07
23,
065
---
3,48
13,
478
3,47
2--
-3,
921
3,91
93,
912
---
4,41
34,
410
4,40
4--
-4,
990
4,98
84,
981
---
75
1240
MBh
45.9
46.6
47.9
---
45.5
46.2
47.5
---
44.3
45.0
46.3
---
42.3
42.9
44.3
---
39.7
40.4
41.8
---
37.4
38.1
39.5
---
S/T
0.73
0.66
0.53
0.39
0.74
0.67
0.53
0.39
0.77
0.69
0.56
0.42
1.00
0.71
0.58
0.44
1.00
0.73
0.60
0.46
1.00
0.78
0.65
0.51
∆T24
.42
22.5
218
.99
15.3
224
.37
22.4
718
.94
15.2
724
.63
22.7
419
.20
15.5
424
.35
22.4
518
.92
15.2
524
.09
22.2
018
.66
15.0
025
.28
23.3
919
.85
16.1
8Pr
Suc
118.
111
9.5
122.
512
7.6
125.
312
6.7
129.
713
4.7
131.
513
3.0
136.
014
1.0
136.
813
8.3
141.
314
6.3
142.
014
3.5
146.
515
1.5
148.
615
0.0
153.
015
8.0
Pr D
is27
1.8
273.
027
4.9
279.
631
4.6
315.
831
7.7
322.
435
9.4
360.
636
2.5
367.
240
7.7
408.
841
0.7
415.
545
9.7
460.
946
2.8
467.
551
5.2
516.
451
8.3
523.
0Am
ps10
.50
10.4
910
.46
10.5
812
.08
12.0
712
.04
12.1
613
.85
13.8
413
.81
13.9
315
.77
15.7
515
.73
15.8
517
.90
17.8
917
.86
17.9
920
.41
20.4
020
.37
20.4
9Po
wer
2,67
92,
677
2,67
02,
698
3,04
43,
041
3,03
53,
063
3,45
13,
448
3,44
23,
470
3,89
13,
888
3,88
23,
910
4,38
34,
380
4,37
44,
402
4,96
04,
957
4,95
14,
979
1380
MBh
46.4
47.1
48.4
---
46.0
46.6
48.0
---
44.8
45.5
46.8
---
42.7
43.4
44.8
---
40.2
40.9
42.2
---
37.9
38.6
40.0
---
S/T
0.78
0.71
0.57
0.43
0.79
0.71
0.58
0.44
0.81
0.74
0.60
0.46
1.00
0.76
0.62
0.48
1.00
0.78
0.64
0.50
1.00
0.83
0.69
0.55
∆T23
.51
21.6
118
.08
14.4
123
.46
21.5
618
.02
14.3
623
.72
21.8
318
.29
14.6
323
.44
21.5
418
.01
14.3
423
.18
21.2
917
.75
14.0
924
.37
22.4
818
.94
15.2
7Pr
Suc
119.
512
1.0
124.
012
9.0
126.
712
8.1
131.
113
6.1
132.
913
4.4
137.
414
2.4
138.
313
9.71
142.
714
7.7
143.
514
4.9
147.
915
2.9
150.
015
1.4
154.
415
9.4
Pr D
is27
3.7
274.
827
6.7
281.
531
6.4
317.
631
9.5
324.
236
1.3
362.
436
4.3
369.
140
9.5
410.
6941
2.6
417.
346
1.5
462.
746
4.6
469.
451
7.1
518.
252
0.2
524.
9Am
ps10
.56
10.5
510
.52
10.6
412
.15
12.1
412
.11
12.2
313
.92
13.9
013
.88
14.0
015
.83
15.8
215
.79
15.9
117
.97
17.9
617
.93
18.0
520
.48
20.4
720
.44
20.5
6Po
wer
2,69
52,
692
2,68
52,
713
3,05
93,
056
3,05
03,
078
3,46
63,
463
3,45
73,
485
3,90
63,
903
3,89
73,
925
4,39
84,
395
4,38
94,
417
4,97
54,
972
4,96
64,
994
1520
MBh
47.0
47.6
49.0
---
46.6
47.2
48.6
---
45.4
46.0
47.4
---
43.3
44.0
45.3
---
40.8
41.5
42.8
---
38.5
39.2
40.5
---
S/T
0.81
0.73
0.60
0.46
0.82
0.74
0.61
0.47
1.00
0.76
0.63
0.49
1.00
0.78
0.65
0.51
1.00
0.81
0.67
0.53
1.00
0.86
0.72
0.58
∆T22
.72
20.8
217
.28
13.6
222
.66
20.7
717
.23
13.5
722
.93
21.0
417
.50
13.8
322
.65
20.7
517
.21
13.5
522
.39
20.5
016
.96
13.2
923
.58
21.6
818
.15
14.4
8Pr
Suc
121.
012
2.5
125.
513
0.5
128.
212
9.7
132.
713
7.7
134.
513
5.9
138.
914
4.0
139.
814
1.2
144.
214
9.3
145.
014
6.5
149.
515
4.5
151.
515
3.0
156.
016
1.0
Pr D
is27
5.5
276.
627
8.5
283.
331
8.2
319.
432
1.3
326.
136
3.1
364.
236
6.1
370.
941
1.3
412.
541
4.4
419.
146
3.4
464.
546
6.4
471.
251
8.9
520.
152
2.0
526.
7Am
ps10
.62
10.6
110
.58
10.7
012
.20
12.1
912
.16
12.2
913
.97
13.9
613
.93
14.0
515
.89
15.8
715
.85
15.9
718
.03
18.0
117
.99
18.1
120
.54
20.5
220
.50
20.6
2Po
wer
2,70
82,
705
2,69
82,
726
3,07
23,
069
3,06
33,
091
3,47
93,
476
3,47
03,
498
3,91
93,
916
3,91
03,
938
4,41
14,
408
4,40
24,
430
4,98
84,
985
4,97
95,
007
IDB*
: Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AC
CA (T
VA) c
ondi
tions
.kW
= T
otal
sys
tem
pow
er
Hig
h an
d lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d an
d su
ction
ser
vice
val
ves.
Amps
= o
utdo
or u
nit a
mps
Expanded Cooling Data — AVZC180481A*/AVPEC61D14A* High Stage
12 www.amana-hac.com SS-AVZC18 SS-AVZC18 www.amana-hac.com 13
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
re
ID D
BAi
rID
WB
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
80
1240
MBh
46.2
46.8
48.2
---
45.7
46.4
47.8
---
44.5
45.2
46.6
---
42.5
43.1
44.5
---
40.0
40.6
42.0
---
37.7
38.3
39.7
---
S/T
0.86
0.78
0.65
0.51
1.00
0.79
0.66
0.52
1.00
0.81
0.68
0.54
1.00
0.83
0.70
0.56
1.00
0.85
0.72
0.58
1.00
1.00
0.77
0.63
∆T28
.61
26.7
223
.18
19.5
228
.56
26.6
723
.13
19.4
628
.83
26.9
323
.40
19.7
328
.54
26.6
523
.11
19.4
428
.29
26.3
922
.86
19.1
929
.48
27.5
824
.04
20.3
8Pr
Suc
118.
612
0.1
123.
112
8.1
125.
812
7.2
130.
213
5.2
132.
113
3.5
136.
514
1.5
137.
413
8.8
141.
814
6.8
142.
614
4.0
147.
015
2.0
149.
115
0.5
153.
515
8.6
Pr D
is27
2.3
273.
527
5.4
280.
131
5.1
316.
331
8.2
322.
935
9.9
361.
136
3.0
367.
740
8.2
409.
341
1.2
416.
046
0.2
461.
446
3.3
468.
051
5.7
516.
951
8.8
523.
5Am
ps10
.51
10.4
910
.47
10.5
912
.09
12.0
812
.05
12.1
713
.86
13.8
513
.82
13.9
415
.77
15.7
615
.73
15.8
617
.91
17.9
017
.87
17.9
920
.42
20.4
120
.38
20.5
0Po
wer
2,68
12,
679
2,67
22,
700
3,04
63,
043
3,03
73,
065
3,45
33,
450
3,44
43,
471
3,89
33,
890
3,88
43,
912
4,38
54,
382
4,37
64,
404
4,96
24,
959
4,95
34,
981
1380
MBh
46.6
47.3
48.7
---
46.2
46.9
48.3
---
45.0
45.7
47.1
---
43.0
43.6
45.0
---
40.5
41.1
42.5
---
38.2
38.8
40.2
---
S/T
0.90
0.83
0.70
0.56
1.00
0.83
0.70
0.56
1.00
0.86
0.73
0.59
1.00
0.88
0.75
0.60
1.00
1.00
0.77
0.63
1.00
1.00
0.82
0.68
∆T27
.70
25.8
122
.27
18.6
127
.65
25.7
622
.22
18.5
527
.92
26.0
222
.49
18.8
227
.63
25.7
422
.20
18.5
327
.38
25.4
821
.95
18.2
828
.56
26.6
723
.13
19.4
7Pr
Suc
120.
012
1.5
124.
512
9.5
127.
212
8.6
131.
613
6.7
133.
513
4.9
137.
914
2.9
138.
814
0.2
143.
2314
8.2
144.
014
5.4
148.
415
3.4
150.
515
2.0
155.
016
0.0
Pr D
is27
4.2
275.
327
7.2
282.
031
6.9
318.
132
0.0
324.
736
1.8
362.
936
4.8
369.
641
0.0
411.
241
3.09
417.
846
2.0
463.
246
5.1
469.
951
7.6
518.
752
0.7
525.
4Am
ps10
.57
10.5
610
.53
10.6
512
.16
12.1
412
.12
12.2
413
.92
13.9
113
.89
14.0
115
.84
15.8
315
.80
15.9
217
.98
17.9
717
.94
18.0
620
.49
20.4
720
.45
20.5
7Po
wer
2,69
62,
694
2,68
72,
715
3,06
13,
058
3,05
23,
080
3,46
83,
465
3,45
93,
487
3,90
83,
905
3,89
93,
927
4,40
04,
397
4,39
14,
419
4,97
74,
974
4,96
84,
996
1520
MBh
47.2
47.9
49.2
---
46.8
47.5
48.8
---
45.6
46.3
47.6
---
43.6
44.2
45.6
---
41.0
41.7
43.1
---
38.8
39.4
40.8
---
S/T
0.93
0.86
0.72
0.58
1.00
0.86
0.73
0.59
1.00
0.89
0.75
0.61
1.00
0.91
0.77
0.63
1.00
1.00
0.80
0.66
1.00
1.00
0.85
0.71
∆T26
.91
25.0
221
.48
17.8
126
.86
24.9
621
.43
17.7
627
.13
25.2
321
.69
18.0
326
.84
24.9
421
.41
17.7
426
.59
24.6
921
.15
17.4
927
.77
25.8
822
.34
18.6
8Pr
Suc
121.
612
3.0
126.
013
1.0
128.
713
0.2
133.
213
8.2
135.
013
6.5
139.
514
4.5
140.
314
1.8
144.
814
9.8
145.
514
7.0
150.
015
5.0
152.
015
3.5
156.
516
1.5
Pr D
is27
6.0
277.
127
9.0
283.
831
8.7
319.
932
1.8
326.
636
3.6
364.
736
6.6
371.
441
1.8
413.
041
4.9
419.
646
3.9
465.
046
6.9
471.
751
9.4
520.
652
2.5
527.
2Am
ps10
.63
10.6
210
.59
10.7
112
.21
12.2
012
.17
12.2
913
.98
13.9
713
.94
14.0
615
.90
15.8
815
.86
15.9
818
.03
18.0
217
.99
18.1
220
.54
20.5
320
.50
20.6
3Po
wer
2,70
92,
707
2,70
02,
728
3,07
43,
071
3,06
53,
093
3,48
13,
478
3,47
23,
500
3,92
13,
918
3,91
23,
940
4,41
34,
410
4,40
44,
432
4,99
04,
987
4,98
15,
009
85
1240
MBh
46.9
47.6
48.9
---
46.5
47.2
48.5
---
45.3
46.0
47.3
---
43.3
43.9
45.3
---
40.7
41.4
42.8
---
38.5
39.1
40.5
---
S/T
1.00
0.88
0.75
0.61
1.00
0.89
0.76
0.62
1.00
0.91
0.78
0.64
1.00
1.00
0.80
0.66
1.00
1.00
0.82
0.68
1.00
1.00
0.87
0.73
∆T32
.33
30.4
426
.90
23.2
432
.28
30.3
926
.85
23.1
832
.55
30.6
527
.12
23.4
532
.26
30.3
726
.83
23.1
632
.01
30.1
126
.58
22.9
133
.20
31.3
027
.76
24.1
0Pr
Suc
120.
412
1.8
124.
812
9.8
127.
512
9.0
132.
013
7.0
133.
813
5.3
138.
314
3.3
139.
114
0.6
143.
614
8.6
144.
314
5.8
148.
815
3.8
150.
815
2.3
155.
316
0.3
Pr D
is27
3.6
274.
727
6.7
281.
431
6.4
317.
531
9.4
324.
236
1.2
362.
336
4.3
369.
040
9.4
410.
641
2.5
417.
246
1.5
462.
646
4.5
469.
351
7.0
518.
252
0.1
524.
8Am
ps10
.54
10.5
210
.50
10.6
212
.12
12.1
112
.08
12.2
013
.89
13.8
813
.85
13.9
715
.80
15.7
915
.76
15.8
917
.94
17.9
317
.90
18.0
220
.45
20.4
420
.41
20.5
3Po
wer
2,68
82,
686
2,67
92,
707
3,05
33,
050
3,04
43,
072
3,46
03,
457
3,45
13,
478
3,90
03,
897
3,89
13,
919
4,39
24,
389
4,38
34,
411
4,96
94,
966
4,96
04,
988
1380
MBh
47.4
48.1
49.4
---
47.0
47.7
49.0
---
45.8
46.5
47.8
---
43.8
44.4
45.8
---
41.2
41.9
43.3
---
38.9
39.6
41.0
---
S/T
1.00
0.93
0.79
0.65
1.00
0.93
0.80
0.66
1.00
1.00
0.83
0.69
1.00
1.00
0.84
0.70
1.00
1.00
0.87
0.73
1.00
1.00
0.92
0.78
∆T31
.42
29.5
325
.99
22.3
331
.37
29.4
825
.94
22.2
731
.64
29.7
426
.20
22.5
431
.35
29.4
625
.92
22.2
531
.10
29.2
025
.67
22.0
032
.28
30.3
926
.85
23.1
9Pr
Suc
121.
812
3.3
126.
213
1.3
129.
013
0.4
133.
413
8.4
135.
213
6.7
139.
714
4.7
140.
514
2.0
145.
015
0.0
145.
714
7.2
150.
215
5.2
152.
315
3.7
156.
716
1.7
Pr D
is27
5.4
276.
627
8.5
283.
231
8.2
319.
432
1.3
326.
036
3.0
364.
236
6.1
370.
841
1.3
412.
541
4.4
419.
146
3.3
464.
546
6.4
471.
151
8.8
520.
052
1.9
526.
7Am
ps10
.60
10.5
910
.56
10.6
812
.19
12.1
712
.15
12.2
713
.96
13.9
413
.92
14.0
415
.87
15.8
615
.83
15.9
518
.01
18.0
017
.97
18.0
920
.52
20.5
020
.48
20.6
0Po
wer
2,70
32,
701
2,69
42,
722
3,06
83,
065
3,05
93,
087
3,47
53,
472
3,46
63,
493
3,91
53,
912
3,90
63,
934
4,40
74,
404
4,39
84,
426
4,98
44,
981
4,97
55,
003
1520
MBh
48.0
48.6
50.0
---
47.6
48.2
49.6
---
46.4
47.0
48.4
---
44.3
45.0
46.3
---
41.8
42.5
43.8
---
39.5
40.2
41.5
---
S/T
1.00
0.96
0.82
0.68
1.00
0.96
0.83
0.69
1.00
1.00
0.85
0.71
1.00
1.00
0.87
0.73
1.00
1.00
0.90
0.75
1.00
1.00
0.95
0.81
∆T30
.63
28.7
425
.20
21.5
330
.58
28.6
825
.15
21.4
830
.85
28.9
525
.41
21.7
530
.56
28.6
625
.13
21.4
630
.31
28.4
124
.87
21.2
131
.49
29.6
026
.06
22.3
9Pr
Suc
123.
312
4.8
127.
813
2.8
130.
513
2.0
135.
014
0.0
136.
813
8.2
141.
214
6.2
142.
114
3.5
146.
515
1.5
147.
314
8.7
151.
715
6.8
153.
815
5.3
158.
316
3.3
Pr D
is27
7.2
278.
428
0.3
285.
032
0.0
321.
232
3.1
327.
836
4.8
366.
036
7.9
372.
641
3.1
414.
341
6.2
420.
946
5.1
466.
346
8.2
472.
952
0.7
521.
852
3.7
528.
5Am
ps10
.66
10.6
510
.62
10.7
412
.24
12.2
312
.20
12.3
214
.01
14.0
013
.97
14.0
915
.93
15.9
115
.89
16.0
118
.06
18.0
518
.03
18.1
520
.57
20.5
620
.53
20.6
6Po
wer
2,71
62,
714
2,70
72,
735
3,08
13,
078
3,07
23,
100
3,48
83,
485
3,47
93,
507
3,92
83,
925
3,91
93,
947
4,42
04,
417
4,41
14,
439
4,99
74,
994
4,98
85,
016
IDB*
: Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AH
RI c
ondi
tions
.kW
= T
otal
sys
tem
pow
er
Hig
h an
d lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d an
d su
ction
ser
vice
val
ves.
Amps
= o
utdo
or u
nit a
mps
Expanded Cooling Data — AVZC180481A*/AVPEC61D14A* High Stage (cont.)
14 www.amana-hac.com SS-AVZC18 SS-AVZC18 www.amana-hac.com 15
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
re
ID D
BAi
rID
WB
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
70
970
MBh
33.0
33.5
34.4
---
32.7
33.2
34.1
---
31.8
32.3
33.3
---
30.4
30.8
31.8
---
28.6
29.0
30.0
---
26.9
27.4
28.3
---
S/T
0.62
0.55
0.41
---
0.63
0.55
0.42
---
0.66
0.58
0.44
---
0.68
0.60
0.46
---
1.00
0.62
0.48
---
1.00
0.67
0.54
---
∆T19
.55
17.7
214
.31
---
19.5
017
.67
14.2
6--
-19
.76
17.9
314
.51
---
19.4
817
.65
14.2
4--
-19
.24
17.4
113
.99
---
20.3
818
.55
15.1
4--
-Pr
Suc
121.
412
2.9
125.
9--
-12
8.7
130.
213
3.3
---
135.
213
6.7
139.
8--
-14
0.6
142.
114
5.2
---
146.
014
7.5
150.
6--
-15
2.7
154.
215
7.3
---
Pr D
is25
9.6
260.
726
2.5
---
300.
530
1.6
303.
4--
-34
3.3
344.
534
6.3
---
389.
539
0.6
392.
4--
-43
9.2
440.
444
2.2
---
492.
349
3.4
495.
3--
-Am
ps6.
616.
606.
58--
-7.
617.
607.
58--
-8.
728.
718.
69--
-9.
929.
919.
90--
-11
.27
11.2
611
.24
---
12.8
512
.84
12.8
2--
-Po
wer
1,68
71,
685
1,68
1--
-1,
916
1,91
41,
910
---
2,17
22,
170
2,16
6--
-2,
449
2,44
72,
443
---
2,75
82,
757
2,75
3--
-3,
121
3,12
03,
116
---
1080
MBh
33.3
33.8
34.8
---
33.1
33.5
34.5
---
32.2
32.7
33.6
---
30.7
31.2
32.2
---
28.9
29.4
30.4
---
27.3
27.7
28.7
---
S/T
0.67
0.59
0.46
---
0.68
0.60
0.46
---
0.70
0.63
0.49
---
0.72
0.65
0.51
---
1.00
0.67
0.53
---
1.00
0.72
0.58
---
∆T18
.67
16.8
413
.42
---
18.6
216
.79
13.3
7--
-18
.87
17.0
413
.63
---
18.6
016
.77
13.3
5--
-18
.35
16.5
213
.11
---
19.5
017
.67
14.2
6--
-Pr
Suc
122.
812
4.3
127.
4--
-13
0.2
131.
713
4.8
---
136.
613
8.1
141.
2--
-14
2.1
143.
614
6.7
---
147.
414
8.9
152.
0--
-15
4.1
155.
615
8.7
---
Pr D
is26
1.4
262.
526
4.3
---
302.
330
3.4
305.
2--
-34
5.1
346.
334
8.1
---
391.
339
2.4
394.
2--
-44
1.0
442.
144
4.0
---
494.
149
5.2
497.
0--
-Am
ps6.
656.
646.
63--
-7.
657.
647.
62--
-8.
768.
758.
74--
-9.
969.
969.
94--
-11
.31
11.3
011
.28
---
12.8
912
.88
12.8
6--
-Po
wer
1,69
61,
695
1,69
1--
-1,
926
1,92
41,
920
---
2,18
12,
180
2,17
6--
-2,
458
2,45
72,
453
---
2,76
82,
766
2,76
2--
-3,
131
3,12
93,
125
---
1190
MBh
33.8
34.2
35.2
---
33.5
33.9
34.9
---
32.6
33.1
34.1
---
31.1
31.6
32.6
---
29.3
29.8
30.8
---
27.7
28.1
29.1
---
S/T
0.70
0.62
0.49
---
0.71
0.63
0.49
---
0.73
0.66
0.52
---
1.00
0.68
0.54
---
1.00
0.70
0.56
---
1.00
0.75
0.61
---
∆T17
.90
16.0
712
.66
---
17.8
516
.02
12.6
1--
-18
.11
16.2
812
.86
---
17.8
316
.00
12.5
9--
-17
.59
15.7
612
.34
---
18.7
316
.90
13.4
9--
-Pr
Suc
124.
412
5.9
129.
0--
-13
1.8
133.
313
6.4
---
138.
213
9.7
142.
8--
-14
3.7
145.
214
8.3
---
149.
015
0.5
153.
6--
-15
5.7
157.
216
0.3
---
Pr D
is26
3.1
264.
226
6.1
---
304.
030
5.1
307.
0--
-34
6.9
348.
034
9.8
---
393.
039
4.1
396.
0--
-44
2.7
443.
944
5.7
---
495.
849
7.0
498.
8--
-Am
ps6.
696.
686.
66--
-7.
687.
687.
66--
-8.
808.
798.
77--
-10
.00
9.99
9.97
---
11.3
511
.34
11.3
2--
-12
.92
12.9
212
.90
---
Pow
er1,
705
1,70
31,
699
---
1,93
41,
932
1,92
8--
-2,
190
2,18
82,
184
---
2,46
72,
465
2,46
1--
-2,
776
2,77
42,
770
---
3,13
93,
137
3,13
3--
-
75
970
MBh
33.0
33.5
34.5
---
32.7
33.2
34.2
---
31.9
32.3
33.3
---
30.4
30.8
31.8
---
28.6
29.0
30.0
---
26.9
27.4
28.4
---
S/T
0.75
0.68
0.54
0.40
0.76
0.68
0.55
0.40
1.00
0.71
0.57
0.43
1.00
0.73
0.59
0.45
1.00
0.75
0.61
0.47
1.00
0.80
0.67
0.52
∆T23
.57
21.7
418
.33
14.7
923
.52
21.6
918
.28
14.7
423
.78
21.9
518
.53
15.0
023
.50
21.6
718
.26
14.7
223
.26
21.4
318
.01
14.4
824
.40
22.5
719
.16
15.6
2Pr
Suc
121.
412
2.9
126.
013
1.1
128.
813
0.3
133.
313
8.5
135.
213
6.7
139.
814
4.9
140.
714
2.2
145.
215
0.4
146.
014
7.5
150.
615
5.7
152.
715
4.2
157.
316
2.5
Pr D
is25
9.8
261.
026
2.8
267.
330
0.7
301.
930
3.7
308.
234
3.6
344.
734
6.5
351.
038
9.7
390.
839
2.7
397.
243
9.5
440.
644
2.4
446.
949
2.5
493.
749
5.5
500.
0Am
ps6.
606.
606.
586.
657.
607.
597.
577.
658.
718.
708.
698.
769.
929.
919.
899.
9711
.26
11.2
511
.24
11.3
112
.84
12.8
312
.81
12.8
9Po
wer
1,68
51,
684
1,68
01,
697
1,91
51,
913
1,90
91,
926
2,17
02,
169
2,16
52,
182
2,44
72,
446
2,44
22,
459
2,75
72,
755
2,75
12,
769
3,12
03,
118
3,11
43,
132
1080
MBh
33.4
33.8
34.8
---
33.1
33.5
34.5
---
32.2
32.7
33.7
---
30.7
31.2
32.2
---
28.9
29.4
30.4
---
27.3
27.7
28.7
---
S/T
0.80
0.72
0.59
0.44
0.81
0.73
0.59
0.45
1.00
0.76
0.62
0.48
1.00
0.78
0.64
0.49
1.00
0.80
0.66
0.52
1.00
1.00
0.71
0.57
∆T22
.69
20.8
617
.44
13.9
122
.64
20.8
117
.39
13.8
622
.89
21.0
617
.65
14.1
122
.62
20.7
917
.37
13.8
422
.37
20.5
417
.13
13.5
923
.52
21.6
918
.28
14.7
4Pr
Suc
122.
912
4.4
127.
413
2.6
130.
213
1.7
134.
814
0.0
136.
713
8.2
141.
214
6.4
142.
114
3.62
146.
715
1.9
147.
514
9.0
152.
115
7.2
154.
215
5.7
158.
816
3.9
Pr D
is26
1.6
262.
726
4.6
269.
130
2.5
303.
630
5.5
310.
034
5.4
346.
534
8.3
352.
839
1.5
392.
6239
4.4
399.
044
1.2
442.
444
4.2
448.
749
4.3
495.
449
7.3
501.
8Am
ps6.
646.
646.
626.
707.
647.
637.
627.
698.
758.
758.
738.
809.
969.
959.
9310
.01
11.3
011
.29
11.2
811
.35
12.8
812
.87
12.8
612
.93
Pow
er1,
695
1,69
31,
689
1,70
71,
924
1,92
21,
918
1,93
62,
180
2,17
82,
174
2,19
22,
457
2,45
52,
451
2,46
92,
766
2,76
52,
761
2,77
83,
129
3,12
83,
124
3,14
1
1190
MBh
33.8
34.2
35.2
---
33.5
34.0
34.9
---
32.6
33.1
34.1
---
31.2
31.6
32.6
---
29.3
29.8
30.8
---
27.7
28.2
29.1
---
S/T
0.83
0.75
0.62
0.47
0.84
0.76
0.62
0.48
1.00
0.79
0.65
0.50
1.00
0.81
0.67
0.52
1.00
0.83
0.69
0.55
1.00
1.00
0.74
0.60
∆T21
.92
20.0
916
.68
13.1
421
.87
20.0
416
.63
13.0
922
.13
20.3
016
.88
13.3
521
.85
20.0
216
.61
13.0
721
.61
19.7
816
.36
12.8
322
.75
20.9
217
.51
13.9
7Pr
Suc
124.
412
5.9
129.
013
4.2
131.
813
3.3
136.
414
1.5
138.
313
9.8
142.
814
8.0
143.
714
5.2
148.
315
3.4
149.
115
0.6
153.
615
8.8
155.
815
7.3
160.
316
5.5
Pr D
is26
3.4
264.
526
6.3
270.
830
4.3
305.
430
7.2
311.
734
7.1
348.
235
0.0
354.
639
3.2
394.
439
6.2
400.
744
3.0
444.
144
5.9
450.
449
6.1
497.
249
9.0
503.
5Am
ps6.
686.
676.
666.
737.
687.
677.
657.
738.
798.
788.
768.
849.
999.
999.
9710
.04
11.3
411
.33
11.3
111
.39
12.9
212
.91
12.8
912
.97
Pow
er1,
703
1,70
11,
697
1,71
51,
932
1,93
11,
927
1,94
42,
188
2,18
62,
183
2,20
02,
465
2,46
32,
459
2,47
72,
775
2,77
32,
769
2,78
63,
138
3,13
63,
132
3,14
9ID
B*: E
nter
ing
Indo
or D
ry B
ulb
Tem
pera
ture
Shad
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rea
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cts
ACCA
(TVA
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ditio
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Tot
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Hig
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d lo
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ress
ures
are
mea
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the
liqui
d an
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ction
ser
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Expanded Cooling Data — AVZC180481A*/AVPEC61D14A* Low Stage
14 www.amana-hac.com SS-AVZC18 SS-AVZC18 www.amana-hac.com 15
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
re
ID D
BAi
rID
WB
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
80
970
MBh
33.2
33.6
34.6
---
32.9
33.4
34.3
---
32.0
32.5
33.5
---
30.5
31.0
32.0
---
28.7
29.2
30.2
---
27.1
27.6
28.5
---
S/T
0.88
0.80
0.67
0.52
1.00
0.81
0.67
0.53
1.00
0.84
0.70
0.55
1.00
0.85
0.72
0.57
1.00
1.00
0.74
0.60
1.00
1.00
0.79
0.65
∆T27
.62
25.7
922
.37
18.8
427
.57
25.7
422
.32
18.7
927
.82
25.9
922
.58
19.0
427
.55
25.7
222
.30
18.7
727
.30
25.4
722
.06
18.5
228
.45
26.6
223
.21
19.6
7Pr
Suc
121.
912
3.4
126.
513
1.7
129.
313
0.8
133.
913
9.0
135.
713
7.2
140.
314
5.5
141.
214
2.7
145.
815
0.9
146.
614
8.0
151.
115
6.3
153.
315
4.7
157.
816
3.0
Pr D
is26
0.3
261.
426
3.3
267.
830
1.2
302.
330
4.2
308.
734
4.1
345.
234
7.0
351.
539
0.2
391.
339
3.1
397.
743
9.9
441.
144
2.9
447.
449
3.0
494.
149
6.0
500.
5Am
ps6.
616.
606.
586.
667.
607.
607.
587.
668.
728.
718.
698.
779.
929.
919.
909.
9711
.27
11.2
611
.24
11.3
212
.84
12.8
412
.82
12.9
0Po
wer
1,68
71,
685
1,68
11,
698
1,91
61,
914
1,91
01,
928
2,17
22,
170
2,16
62,
184
2,44
92,
447
2,44
32,
460
2,75
82,
756
2,75
22,
770
3,12
13,
119
3,11
53,
133
1080
MBh
33.5
34.0
35.0
---
33.2
33.7
34.7
---
32.4
32.9
33.8
---
30.9
31.4
32.4
---
29.1
29.6
30.5
---
27.4
27.9
28.9
---
S/T
1.00
0.85
0.71
0.57
1.00
0.86
0.72
0.58
1.00
0.88
0.75
0.60
1.00
0.90
0.77
0.62
1.00
1.00
0.79
0.64
1.00
1.00
0.84
0.70
∆T26
.73
24.9
021
.49
17.9
526
.68
24.8
521
.44
17.9
026
.94
25.1
121
.70
18.1
626
.66
24.8
421
.42
17.8
926
.42
24.5
921
.18
17.6
427
.57
25.7
422
.32
18.7
9Pr
Suc
123.
412
4.9
128.
013
3.1
130.
813
2.3
135.
314
0.5
137.
213
8.7
141.
814
6.9
142.
714
4.2
147.
2415
2.4
148.
014
9.5
152.
615
7.7
154.
715
6.2
159.
316
4.4
Pr D
is26
2.1
263.
226
5.0
269.
630
3.0
304.
130
5.9
310.
534
5.8
347.
034
8.8
353.
339
2.0
393.
139
4.92
399.
444
1.7
442.
844
4.7
449.
249
4.8
495.
949
7.7
502.
3Am
ps6.
656.
646.
626.
707.
657.
647.
627.
708.
768.
758.
738.
819.
969.
959.
9410
.01
11.3
111
.30
11.2
811
.36
12.8
912
.88
12.8
612
.94
Pow
er1,
696
1,69
41,
690
1,70
81,
925
1,92
41,
920
1,93
72,
181
2,17
92,
175
2,19
32,
458
2,45
62,
452
2,47
02,
768
2,76
62,
762
2,77
93,
131
3,12
93,
125
3,14
2
1190
MBh
34.0
34.4
35.4
---
33.7
34.1
35.1
---
32.8
33.3
34.2
---
31.3
31.8
32.8
---
29.5
30.0
31.0
---
27.9
28.3
29.3
---
S/T
1.00
0.88
0.74
0.60
1.00
0.89
0.75
0.61
1.00
0.91
0.78
0.63
1.00
1.00
0.80
0.65
1.00
1.00
0.82
0.67
1.00
1.00
0.87
0.73
∆T25
.97
24.1
420
.72
17.1
925
.92
24.0
920
.67
17.1
426
.17
24.3
420
.93
17.3
925
.90
24.0
720
.65
17.1
225
.65
23.8
220
.41
16.8
726
.80
24.9
721
.56
18.0
2Pr
Suc
125.
012
6.5
129.
613
4.7
132.
313
3.8
136.
914
2.1
138.
814
0.3
143.
414
8.5
144.
214
5.7
148.
815
4.0
149.
615
1.1
154.
215
9.3
156.
315
7.8
160.
916
6.0
Pr D
is26
3.8
265.
026
6.8
271.
330
4.7
305.
930
7.7
312.
234
7.6
348.
735
0.5
355.
039
3.7
394.
839
6.7
401.
244
3.5
444.
644
6.4
450.
949
6.5
497.
749
9.5
504.
0Am
ps6.
696.
686.
666.
747.
687.
677.
667.
738.
798.
798.
778.
8510
.00
9.99
9.97
10.0
511
.34
11.3
411
.32
11.4
012
.92
12.9
112
.90
12.9
7Po
wer
1,70
41,
702
1,69
91,
716
1,93
41,
932
1,92
81,
945
2,18
92,
188
2,18
42,
201
2,46
62,
465
2,46
12,
478
2,77
62,
774
2,77
02,
788
3,13
93,
137
3,13
33,
151
85
970
MBh
33.7
34.2
35.2
---
33.4
33.9
34.9
---
32.6
33.0
34.0
---
31.1
31.6
32.6
---
29.3
29.8
30.7
---
27.6
28.1
29.1
---
S/T
1.00
0.91
0.77
0.63
1.00
0.91
0.78
0.63
1.00
1.00
0.80
0.66
1.00
1.00
0.82
0.68
1.00
1.00
0.84
0.70
1.00
1.00
1.00
0.75
∆T31
.21
29.3
825
.96
22.4
331
.16
29.3
325
.91
22.3
831
.41
29.5
826
.17
22.6
331
.14
29.3
125
.89
22.3
630
.89
29.0
625
.65
22.1
132
.04
30.2
126
.79
23.2
6Pr
Suc
123.
712
5.2
128.
313
3.5
131.
113
2.6
135.
714
0.8
137.
613
9.1
142.
114
7.3
143.
014
4.5
147.
615
2.7
148.
414
9.9
152.
915
8.1
155.
115
6.6
159.
616
4.8
Pr D
is26
1.5
262.
726
4.5
269.
030
2.4
303.
530
5.4
309.
934
5.3
346.
434
8.2
352.
739
1.4
392.
539
4.4
398.
944
1.2
442.
344
4.1
448.
649
4.2
495.
449
7.2
501.
7Am
ps6.
636.
626.
606.
687.
627.
627.
607.
688.
748.
738.
718.
799.
949.
939.
929.
9911
.29
11.2
811
.26
11.3
412
.86
12.8
612
.84
12.9
2Po
wer
1,69
11,
689
1,68
51,
703
1,92
01,
918
1,91
41,
932
2,17
62,
174
2,17
02,
188
2,45
32,
451
2,44
72,
465
2,76
22,
761
2,75
72,
774
3,12
53,
124
3,12
03,
137
1080
MBh
34.1
34.6
35.5
---
33.8
34.3
35.2
---
32.9
33.4
34.4
---
31.5
31.9
32.9
---
29.7
30.1
31.1
---
28.0
28.5
29.5
---
S/T
1.00
0.95
0.82
0.67
1.00
0.96
0.82
0.68
1.00
1.00
0.85
0.70
1.00
1.00
0.87
0.72
1.00
1.00
0.89
0.75
1.00
1.00
1.00
0.80
∆T30
.32
28.4
925
.08
21.5
430
.27
28.4
425
.03
21.4
930
.53
28.7
025
.29
21.7
530
.25
28.4
325
.01
21.4
830
.01
28.1
824
.77
21.2
331
.15
29.3
325
.91
22.3
8Pr
Suc
125.
212
6.7
129.
813
4.9
132.
613
4.1
137.
114
2.3
139.
014
0.5
143.
614
8.8
144.
514
6.0
149.
115
4.2
149.
815
1.3
154.
415
9.6
156.
515
8.0
161.
116
6.3
Pr D
is26
3.3
264.
426
6.3
270.
830
4.2
305.
330
7.2
311.
734
7.1
348.
235
0.0
354.
539
3.2
394.
339
6.1
400.
744
2.9
444.
144
5.9
450.
449
6.0
497.
149
9.0
503.
5Am
ps6.
676.
666.
646.
727.
677.
667.
647.
728.
788.
778.
758.
839.
989.
979.
9610
.03
11.3
311
.32
11.3
011
.38
12.9
112
.90
12.8
812
.96
Pow
er1,
700
1,69
91,
695
1,71
21,
930
1,92
81,
924
1,94
22,
186
2,18
42,
180
2,19
72,
463
2,46
12,
457
2,47
42,
772
2,77
02,
766
2,78
43,
135
3,13
33,
129
3,14
7
1190
MBh
34.5
35.0
36.0
---
34.2
34.7
35.7
---
33.4
33.8
34.8
---
31.9
32.3
33.3
---
30.1
30.5
31.5
---
28.4
28.9
29.9
---
S/T
1.00
0.98
0.85
0.70
1.00
1.00
0.85
0.71
1.00
1.00
0.88
0.73
1.00
1.00
0.90
0.75
1.00
1.00
0.92
0.78
1.00
1.00
1.00
0.83
∆T29
.56
27.7
324
.31
20.7
829
.51
27.6
824
.26
20.7
329
.76
27.9
324
.52
20.9
829
.49
27.6
624
.24
20.7
129
.24
27.4
124
.00
20.4
630
.39
28.5
625
.15
21.6
1Pr
Suc
126.
812
8.3
131.
413
6.5
134.
213
5.7
138.
714
3.9
140.
614
2.1
145.
215
0.3
146.
114
7.6
150.
615
5.8
151.
415
2.9
156.
016
1.1
158.
115
9.6
162.
716
7.8
Pr D
is26
5.0
266.
226
8.0
272.
530
5.9
307.
130
8.9
313.
434
8.8
349.
935
1.7
356.
339
4.9
396.
139
7.9
402.
444
4.7
445.
844
7.6
452.
149
7.8
498.
950
0.7
505.
2Am
ps6.
706.
706.
686.
767.
707.
697.
687.
758.
818.
818.
798.
8610
.02
10.0
19.
9910
.07
11.3
611
.36
11.3
411
.41
12.9
412
.93
12.9
212
.99
Pow
er1,
709
1,70
71,
703
1,72
01,
938
1,93
61,
932
1,95
02,
194
2,19
22,
188
2,20
62,
471
2,46
92,
465
2,48
32,
780
2,77
82,
774
2,79
23,
143
3,14
13,
137
3,15
5ID
B*: E
nter
ing
Indo
or D
ry B
ulb
Tem
pera
ture
Shad
ed a
rea
refle
cts
AHRI
con
ditio
ns.
kW =
Tot
al s
yste
m p
ower
Hig
h an
d lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d an
d su
ction
ser
vice
val
ves.
Amps
= o
utdo
or u
nit a
mps
Expanded Cooling Data — AVZC180481A*/AVPEC61D14A* Low Stage (cont.)
16 www.amana-hac.com SS-AVZC18 SS-AVZC18 www.amana-hac.com 17
Expanded Cooling Data — AVZC180601A*/AVPEC61D14A* High Stage
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
re
ID D
BAi
rID
WB
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
70
1470
MBh
54.0
54.8
56.4
---
53.6
54.3
55.9
---
52.1
52.9
54.5
---
49.7
50.5
52.1
---
46.8
47.5
49.1
---
44.1
44.8
46.4
---
S/T
0.60
0.53
0.40
---
0.61
0.54
0.40
---
0.63
0.56
0.43
---
0.65
0.58
0.45
---
0.68
0.60
0.47
---
1.00
0.65
0.52
---
ΔT20
.03
18.1
614
.66
---
19.9
818
.10
14.6
1--
-20
.24
18.3
714
.87
---
19.9
618
.09
14.5
9--
-19
.71
17.8
414
.34
---
20.8
819
.01
15.5
1--
-Pr
Suc
114.
311
5.7
118.
6--
-12
1.2
122.
612
5.5
---
127.
312
8.7
131.
6--
-13
2.4
133.
813
6.7
---
137.
513
8.9
141.
8--
-14
3.8
145.
214
8.1
---
Pr D
is25
5.4
256.
525
8.3
---
295.
729
6.8
298.
6--
-33
7.8
339.
034
0.7
---
383.
238
4.4
386.
1--
-43
2.2
433.
343
5.1
---
484.
448
5.5
487.
3--
-Am
ps12
.45
12.4
412
.41
---
14.2
514
.23
14.2
0--
-16
.25
16.2
316
.20
---
18.4
118
.40
18.3
7--
-20
.83
20.8
220
.79
---
23.6
723
.65
23.6
2--
-Po
wer
3,25
43,
251
3,24
4--
-3,
666
3,66
33,
656
---
4,12
74,
123
4,11
6--
-4,
625
4,62
14,
614
---
5,18
15,
178
5,17
1--
-5,
834
5,83
05,
823
---
1640
MBh
54.6
55.4
57.0
---
54.1
54.9
56.5
---
52.7
53.5
55.1
---
50.3
51.1
52.7
---
47.4
48.1
49.7
---
44.7
45.4
47.0
---
S/T
0.65
0.58
0.44
---
0.66
0.58
0.45
---
0.68
0.61
0.47
---
0.70
0.63
0.49
---
0.72
0.65
0.52
---
1.00
0.70
0.57
---
ΔT19
.11
17.2
313
.74
---
19.0
617
.18
13.6
9--
-19
.32
17.4
513
.95
---
19.0
417
.16
13.6
7--
-18
.79
16.9
113
.42
---
19.9
618
.09
14.5
9--
-Pr
Suc
115.
711
7.1
120.
0--
-12
2.6
124.
012
6.9
---
128.
713
0.1
133.
0--
-13
3.8
135.
213
8.1
---
138.
914
0.3
143.
2--
-14
5.2
146.
614
9.5
---
Pr D
is25
7.2
258.
326
0.1
---
297.
529
8.6
300.
4--
-33
9.6
340.
734
2.5
---
385.
038
6.1
387.
9--
-43
4.0
435.
143
6.9
---
486.
248
7.3
489.
1--
-Am
ps12
.53
12.5
112
.48
---
14.3
214
.31
14.2
8--
-16
.32
16.3
116
.28
---
18.4
918
.47
18.4
4--
-20
.91
20.8
920
.86
---
23.7
423
.73
23.7
0--
-Po
wer
3,27
23,
268
3,26
1--
-3,
684
3,68
13,
674
---
4,14
44,
141
4,13
4--
-4,
642
4,63
94,
632
---
5,19
85,
195
5,18
8--
-5,
851
5,84
85,
841
---
1790
MBh
55.2
56.0
57.6
---
54.8
55.5
57.1
---
53.3
54.1
55.7
---
50.9
51.7
53.3
---
48.0
48.7
50.3
---
45.3
46.0
47.6
---
S/T
0.68
0.60
0.47
---
0.68
0.61
0.48
---
0.71
0.63
0.50
---
0.73
0.65
0.52
---
0.75
0.67
0.54
---
1.00
0.72
0.59
---
ΔT18
.40
16.5
313
.03
---
18.3
516
.47
12.9
8--
-18
.61
16.7
413
.24
---
18.3
316
.46
12.9
6--
-18
.08
16.2
112
.71
---
19.2
517
.38
13.8
8--
-Pr
Suc
117.
011
8.4
121.
3--
-12
3.9
125.
412
8.3
---
130.
013
1.4
134.
3--
-13
5.2
136.
613
9.5
---
140.
214
1.6
144.
5--
-14
6.5
147.
915
0.8
---
Pr D
is25
8.8
259.
926
1.7
---
299.
030
0.1
301.
9--
-34
1.2
342.
334
4.1
---
386.
638
7.7
389.
5--
-43
5.5
436.
643
8.4
---
487.
848
8.9
490.
7--
-Am
ps12
.59
12.5
712
.54
---
14.3
814
.37
14.3
3--
-16
.38
16.3
716
.34
---
18.5
518
.53
18.5
0--
-20
.96
20.9
520
.92
---
23.8
023
.79
23.7
6--
-Po
wer
3,28
53,
282
3,27
5--
-3,
697
3,69
43,
687
---
4,15
74,
154
4,14
7--
-4,
655
4,65
24,
645
---
5,21
25,
209
5,20
1--
-5,
864
5,86
15,
854
---
75
1470
MBh
54.1
54.8
56.4
---
53.6
54.3
56.0
---
52.2
52.9
54.5
---
49.8
50.5
52.1
---
46.8
47.6
49.2
---
44.1
44.9
46.5
---
S/T
0.73
0.66
0.52
0.38
0.74
0.66
0.53
0.39
0.76
0.69
0.55
0.41
0.78
0.71
0.57
0.43
1.00
0.73
0.59
0.45
1.00
0.78
0.64
0.51
ΔT24
.14
22.2
718
.78
15.1
624
.09
22.2
218
.73
15.1
024
.35
22.4
818
.99
15.3
724
.07
22.2
018
.71
15.0
923
.82
21.9
518
.46
14.8
424
.99
23.1
219
.63
16.0
1Pr
Suc
114.
311
5.7
118.
612
3.5
121.
212
2.6
125.
513
0.4
127.
312
8.7
131.
613
6.5
132.
413
3.9
136.
814
1.6
137.
513
8.9
141.
814
6.7
143.
814
5.2
148.
115
3.0
Pr D
is25
5.7
256.
825
8.6
263.
029
5.9
297.
029
8.8
303.
333
8.1
339.
234
1.0
345.
438
3.5
384.
638
6.4
390.
843
2.4
433.
543
5.3
439.
848
4.7
485.
848
7.6
492.
0Am
ps12
.44
12.4
312
.40
12.5
314
.23
14.2
214
.19
14.3
316
.23
16.2
216
.19
16.3
318
.40
18.3
918
.35
18.4
920
.82
20.8
020
.77
20.9
123
.66
23.6
423
.61
23.7
5Po
wer
3,25
23,
248
3,24
13,
273
3,66
43,
661
3,65
33,
685
4,12
44,
121
4,11
44,
145
4,62
24,
619
4,61
24,
643
5,17
85,
175
5,16
85,
200
5,83
15,
828
5,82
15,
852
1640
MBh
54.7
55.4
57.0
---
54.2
54.9
56.6
---
52.8
53.5
55.1
---
50.3
51.1
52.7
---
47.4
48.1
49.8
---
44.7
45.4
47.1
---
S/T
0.78
0.70
0.57
0.43
0.78
0.71
0.58
0.44
0.81
0.73
0.60
0.46
1.00
0.75
0.62
0.48
1.00
0.77
0.64
0.50
1.00
0.82
0.69
0.55
ΔT23
.22
21.3
517
.86
14.2
423
.17
21.3
017
.80
14.1
823
.43
21.5
618
.07
14.4
523
.15
21.2
817
.79
14.1
622
.90
21.0
317
.54
13.9
124
.07
22.2
018
.71
15.0
9Pr
Suc
115.
711
7.1
120.
012
4.9
122.
612
4.0
126.
913
1.8
128.
713
0.1
133.
013
7.9
133.
813
5.25
138.
214
3.0
138.
914
0.3
143.
214
8.1
145.
214
6.6
149.
515
4.4
Pr D
is25
7.4
258.
626
0.3
264.
829
7.7
298.
830
0.6
305.
033
9.9
341.
034
2.8
347.
238
5.3
386.
3738
8.2
392.
643
4.2
435.
343
7.1
441.
648
6.5
487.
648
9.3
493.
8Am
ps12
.52
12.5
012
.47
12.6
114
.31
14.3
014
.26
14.4
016
.31
16.3
016
.27
16.4
018
.48
18.4
618
.43
18.5
720
.89
20.8
820
.85
20.9
923
.73
23.7
223
.69
23.8
2Po
wer
3,26
93,
266
3,25
93,
290
3,68
13,
678
3,67
13,
702
4,14
14,
138
4,13
14,
163
4,63
94,
636
4,62
94,
661
5,19
65,
192
5,18
55,
217
5,84
85,
845
5,83
85,
870
1790
MBh
55.3
56.0
57.6
---
54.8
55.5
57.2
---
53.4
54.1
55.7
---
51.0
51.7
53.3
---
48.0
48.8
50.4
---
45.3
46.1
47.7
---
S/T
0.80
0.73
0.60
0.46
0.81
0.74
0.60
0.46
0.83
0.76
0.63
0.49
1.00
0.78
0.65
0.51
1.00
0.80
0.67
0.53
1.00
0.85
0.72
0.58
ΔT22
.51
20.6
417
.15
13.5
322
.46
20.5
917
.09
13.4
722
.72
20.8
517
.36
13.7
422
.44
20.5
717
.08
13.4
622
.19
20.3
216
.83
13.2
123
.36
21.4
918
.00
14.3
8Pr
Suc
117.
011
8.4
121.
312
6.2
124.
012
5.4
128.
313
3.1
130.
013
1.5
134.
413
9.2
135.
213
6.6
139.
514
4.3
140.
214
1.6
144.
514
9.4
146.
514
7.9
150.
815
5.7
Pr D
is25
9.0
260.
126
1.9
266.
329
9.2
300.
330
2.1
306.
634
1.4
342.
534
4.3
348.
738
6.8
387.
938
9.7
394.
143
5.7
436.
943
8.6
443.
148
8.0
489.
149
0.9
495.
3Am
ps12
.58
12.5
612
.53
12.6
714
.37
14.3
514
.32
14.4
616
.37
16.3
516
.32
16.4
618
.53
18.5
218
.49
18.6
320
.95
20.9
420
.91
21.0
423
.79
23.7
823
.75
23.8
8Po
wer
3,28
23,
279
3,27
23,
304
3,69
53,
691
3,68
43,
716
4,15
54,
151
4,14
44,
176
4,65
34,
649
4,64
24,
674
5,20
95,
206
5,19
95,
230
5,86
25,
859
5,85
25,
883
IDB*
: Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AC
CA (T
VA) c
ondi
tions
.kW
= T
otal
sys
tem
pow
er
Hig
h an
d lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d an
d su
ction
ser
vice
val
ves.
Amps
= o
utdo
or u
nit a
mps
16 www.amana-hac.com SS-AVZC18 SS-AVZC18 www.amana-hac.com 17
Expanded Cooling Data — AVZC180601A*/AVPEC61D14A* High Stage (cont.)
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
re
ID D
BAi
rID
WB
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
80
1470
MBh
54.3
55.1
56.7
---
53.9
54.6
56.2
---
52.5
53.2
54.8
---
50.0
50.8
52.4
---
47.1
47.8
49.4
---
44.4
45.1
46.7
---
S/T
0.85
0.78
0.65
0.51
0.86
0.78
0.65
0.51
1.00
0.81
0.68
0.54
1.00
0.83
0.70
0.56
1.00
0.85
0.72
0.58
1.00
1.00
0.77
0.63
ΔT28
.29
26.4
122
.92
19.3
028
.23
26.3
622
.87
19.2
528
.50
26.6
323
.13
19.5
128
.21
26.3
422
.85
19.2
327
.96
26.0
922
.60
18.9
829
.14
27.2
623
.77
20.1
5Pr
Suc
114.
811
6.2
119.
112
4.0
121.
712
3.1
126.
013
0.9
127.
812
9.2
132.
113
7.0
132.
913
4.4
137.
314
2.1
138.
013
9.4
142.
314
7.2
144.
314
5.7
148.
615
3.5
Pr D
is25
6.1
257.
225
9.0
263.
529
6.4
297.
529
9.3
303.
733
8.5
339.
634
1.4
345.
938
3.9
385.
038
6.8
391.
343
2.9
434.
043
5.8
440.
248
5.1
486.
248
8.0
492.
5Am
ps12
.45
12.4
412
.41
12.5
414
.24
14.2
314
.20
14.3
416
.24
16.2
316
.20
16.3
418
.41
18.3
918
.36
18.5
020
.83
20.8
120
.78
20.9
223
.67
23.6
523
.62
23.7
6Po
wer
3,25
43,
250
3,24
33,
275
3,66
63,
663
3,65
63,
687
4,12
64,
123
4,11
64,
147
4,62
44,
621
4,61
44,
645
5,18
05,
177
5,17
05,
202
5,83
35,
830
5,82
35,
854
1640
MBh
54.9
55.7
57.3
---
54.5
55.2
56.8
---
53.0
53.8
55.4
---
50.6
51.4
53.0
---
47.7
48.4
50.0
---
45.0
45.7
47.3
---
S/T
0.90
0.83
0.69
0.55
1.00
0.83
0.70
0.56
1.00
0.86
0.72
0.58
1.00
0.87
0.74
0.60
1.00
0.90
0.76
0.62
1.00
1.00
0.81
0.67
ΔT27
.36
25.4
922
.00
18.3
827
.31
25.4
421
.95
18.3
327
.58
25.7
022
.21
18.5
927
.29
25.4
221
.93
18.3
127
.04
25.1
721
.68
18.0
628
.22
26.3
422
.85
19.2
3Pr
Suc
116.
211
7.6
120.
512
5.4
123.
112
4.5
127.
413
2.3
129.
213
0.6
133.
513
8.4
134.
313
5.8
138.
6614
3.5
139.
414
0.8
143.
714
8.6
145.
714
7.1
150.
015
4.9
Pr D
is25
7.9
259.
026
0.8
265.
329
8.2
299.
330
1.1
305.
534
0.3
341.
434
3.2
347.
738
5.7
386.
838
8.63
393.
143
4.7
435.
843
7.6
442.
048
6.9
488.
048
9.8
494.
3Am
ps12
.53
12.5
112
.48
12.6
214
.32
14.3
014
.27
14.4
116
.32
16.3
116
.27
16.4
118
.48
18.4
718
.44
18.5
820
.90
20.8
920
.86
21.0
023
.74
23.7
323
.70
23.8
3Po
wer
3,27
13,
268
3,26
13,
292
3,68
33,
680
3,67
33,
705
4,14
44,
140
4,13
34,
165
4,64
14,
638
4,63
14,
663
5,19
85,
195
5,18
85,
219
5,85
15,
847
5,84
05,
872
1790
MBh
55.5
56.3
57.9
---
55.1
55.8
57.4
---
53.7
54.4
56.0
---
51.2
52.0
53.6
---
48.3
49.0
50.6
---
45.6
46.3
47.9
---
S/T
0.93
0.85
0.72
0.58
1.00
0.86
0.73
0.59
1.00
0.88
0.75
0.61
1.00
0.90
0.77
0.63
1.00
0.92
0.79
0.65
1.00
1.00
0.84
0.70
ΔT26
.65
24.7
821
.29
17.6
726
.60
24.7
321
.24
17.6
226
.87
25.0
021
.50
17.8
826
.58
24.7
121
.22
17.6
026
.33
24.4
620
.97
17.3
527
.51
25.6
322
.14
18.5
2Pr
Suc
117.
511
8.9
121.
812
6.7
124.
512
5.9
128.
813
3.6
130.
513
2.0
134.
913
9.7
135.
713
7.1
140.
014
4.8
140.
714
2.1
145.
014
9.9
147.
014
8.4
151.
315
6.2
Pr D
is25
9.5
260.
626
2.4
266.
829
9.7
300.
830
2.6
307.
034
1.9
343.
034
4.8
349.
238
7.3
388.
439
0.2
394.
643
6.2
437.
343
9.1
443.
648
8.5
489.
649
1.4
495.
8Am
ps12
.58
12.5
712
.54
12.6
814
.38
14.3
614
.33
14.4
716
.38
16.3
616
.33
16.4
718
.54
18.5
318
.50
18.6
420
.96
20.9
520
.92
21.0
523
.80
23.7
923
.76
23.8
9Po
wer
3,28
53,
281
3,27
43,
306
3,69
73,
693
3,68
63,
718
4,15
74,
154
4,14
74,
178
4,65
54,
652
4,64
54,
676
5,21
15,
208
5,20
15,
232
5,86
45,
861
5,85
45,
885
85
1470
MBh
55.3
56.0
57.6
---
54.8
55.5
57.1
---
53.4
54.1
55.7
---
50.9
51.7
53.3
---
48.0
48.7
50.4
---
45.3
46.0
47.6
---
S/T
1.00
0.88
0.75
0.61
1.00
0.88
0.75
0.61
1.00
0.91
0.78
0.64
1.00
1.00
0.79
0.65
1.00
1.00
0.82
0.68
1.00
1.00
0.87
0.73
ΔT31
.96
30.0
926
.59
22.9
731
.91
30.0
426
.54
22.9
232
.17
30.3
026
.81
23.1
931
.89
30.0
226
.52
22.9
031
.64
29.7
726
.27
22.6
532
.81
30.9
427
.44
23.8
2Pr
Suc
116.
511
7.9
120.
812
5.7
123.
412
4.9
127.
813
2.6
129.
513
0.9
133.
813
8.7
134.
713
6.1
139.
014
3.8
139.
714
1.1
144.
014
8.9
146.
014
7.4
150.
315
5.2
Pr D
is25
7.3
258.
426
0.2
264.
729
7.6
298.
730
0.5
304.
933
9.7
340.
834
2.6
347.
138
5.1
386.
238
8.0
392.
543
4.1
435.
243
7.0
441.
448
6.3
487.
448
9.2
493.
7Am
ps12
.49
12.4
712
.44
12.5
814
.28
14.2
614
.23
14.3
716
.28
16.2
616
.23
16.3
718
.44
18.4
318
.40
18.5
420
.86
20.8
520
.82
20.9
523
.70
23.6
923
.66
23.7
9Po
wer
3,26
23,
258
3,25
13,
283
3,67
43,
671
3,66
43,
695
4,13
44,
131
4,12
44,
155
4,63
24,
629
4,62
24,
653
5,18
85,
185
5,17
85,
210
5,84
15,
838
5,83
15,
862
1640
MBh
55.8
56.6
58.2
---
55.4
56.1
57.7
---
54.0
54.7
56.3
---
51.5
52.3
53.9
---
48.6
49.3
50.9
---
45.9
46.6
48.2
---
S/T
1.00
0.92
0.79
0.65
1.00
0.93
0.80
0.66
1.00
0.95
0.82
0.68
1.00
1.00
0.84
0.70
1.00
1.00
0.86
0.72
1.00
1.00
0.91
0.77
ΔT31
.04
29.1
725
.67
22.0
530
.99
29.1
225
.62
22.0
031
.25
29.3
825
.88
22.2
630
.97
29.1
025
.60
21.9
830
.72
28.8
525
.35
21.7
331
.89
30.0
226
.52
22.9
0Pr
Suc
117.
911
9.3
122.
212
7.1
124.
812
6.3
129.
213
4.0
130.
913
2.3
135.
214
0.1
136.
113
7.5
140.
414
5.2
141.
114
2.5
145.
415
0.3
147.
414
8.8
151.
715
6.6
Pr D
is25
9.1
260.
226
2.0
266.
529
9.4
300.
530
2.3
306.
734
1.5
342.
634
4.4
348.
938
6.9
388.
038
9.8
394.
343
5.9
437.
043
8.8
443.
248
8.1
489.
249
1.0
495.
5Am
ps12
.56
12.5
512
.52
12.6
514
.35
14.3
414
.31
14.4
516
.35
16.3
416
.31
16.4
518
.52
18.5
018
.47
18.6
120
.94
20.9
220
.89
21.0
323
.78
23.7
623
.73
23.8
7Po
wer
3,27
93,
276
3,26
93,
300
3,69
13,
688
3,68
13,
712
4,15
14,
148
4,14
14,
173
4,64
94,
646
4,63
94,
671
5,20
65,
203
5,19
55,
227
5,85
85,
855
5,84
85,
880
1790
MBh
56.5
57.2
58.8
---
56.0
56.7
58.3
---
54.6
55.3
56.9
---
52.1
52.9
54.5
---
49.2
49.9
51.6
---
46.5
47.2
48.9
---
S/T
1.00
0.95
0.82
0.68
1.00
0.96
0.82
0.68
1.00
0.98
0.85
0.71
1.00
1.00
0.87
0.73
1.00
1.00
0.89
0.75
1.00
1.00
0.94
0.80
ΔT30
.33
28.4
624
.96
21.3
430
.28
28.4
124
.91
21.2
930
.54
28.6
725
.18
21.5
530
.26
28.3
924
.89
21.2
730
.01
28.1
424
.64
21.0
231
.18
29.3
125
.81
22.1
9Pr
Suc
119.
212
0.7
123.
612
8.4
126.
212
7.6
130.
513
5.3
132.
313
3.7
136.
614
1.4
137.
413
8.8
141.
714
6.6
142.
414
3.8
146.
715
1.6
148.
715
0.2
153.
115
7.9
Pr D
is26
0.7
261.
826
3.6
268.
030
0.9
302.
030
3.8
308.
234
3.1
344.
234
6.0
350.
438
8.5
389.
639
1.4
395.
843
7.4
438.
544
0.3
444.
848
9.7
490.
849
2.6
497.
0Am
ps12
.62
12.6
012
.57
12.7
114
.41
14.4
014
.37
14.5
016
.41
16.4
016
.37
16.5
018
.58
18.5
618
.53
18.6
721
.00
20.9
820
.95
21.0
923
.83
23.8
223
.79
23.9
3Po
wer
3,29
23,
289
3,28
23,
314
3,70
53,
701
3,69
43,
726
4,16
54,
162
4,15
44,
186
4,66
34,
660
4,65
24,
684
5,21
95,
216
5,20
95,
240
5,87
25,
869
5,86
25,
893
IDB*
: Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AH
RI c
ondi
tions
.kW
= T
otal
sys
tem
pow
er
Hig
h an
d lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d an
d su
ction
ser
vice
val
ves.
Amps
= o
utdo
or u
nit a
mps
18 www.amana-hac.com SS-AVZC18 SS-AVZC18 www.amana-hac.com 19
Expanded Cooling Data — AVZC180601A*/AVPEC61D14A* Low Stage
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
re
ID D
BAi
rID
WB
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
70
1130
MBh
38.9
39.4
40.6
---
38.5
39.1
40.2
---
37.5
38.0
39.2
---
35.8
36.3
37.5
---
33.6
34.2
35.3
---
31.7
32.2
33.4
---
S/T
0.62
0.54
0.41
---
0.63
0.55
0.41
---
0.65
0.58
0.44
---
0.67
0.60
0.46
---
0.69
0.62
0.48
---
1.00
0.67
0.53
---
ΔT19
.32
17.5
214
.14
---
19.2
717
.47
14.0
9--
-19
.53
17.7
214
.35
---
19.2
517
.45
14.0
8--
-19
.01
17.2
113
.83
---
20.1
418
.34
14.9
7--
-Pr
Suc
117.
511
8.9
121.
9--
-12
4.6
126.
112
9.0
---
130.
913
2.3
135.
3--
-13
6.1
137.
614
0.6
---
141.
314
2.8
145.
7--
-14
7.8
149.
215
2.2
---
Pr D
is24
4.2
245.
324
7.0
---
282.
728
3.7
285.
5--
-32
3.0
324.
032
5.8
---
366.
436
7.5
369.
2--
-41
3.2
414.
241
6.0
---
463.
146
4.2
465.
9--
-Am
ps7.
837.
827.
81--
-8.
968.
958.
93--
-10
.22
10.2
110
.19
---
11.5
811
.57
11.5
5--
-13
.10
13.0
913
.07
---
14.8
914
.88
14.8
6--
-Po
wer
2,04
72,
045
2,04
0--
-2,
306
2,30
42,
300
---
2,59
62,
594
2,58
9--
-2,
909
2,90
72,
902
---
3,25
93,
257
3,25
2--
-3,
669
3,66
73,
663
---
1260
MBh
39.3
39.8
41.0
---
38.9
39.5
40.6
---
37.9
38.5
39.6
---
36.2
36.7
37.9
---
34.0
34.6
35.8
---
32.1
32.7
33.8
---
S/T
0.67
0.59
0.46
---
0.67
0.60
0.46
---
0.70
0.62
0.49
---
0.72
0.64
0.51
---
0.74
0.67
0.53
---
1.00
0.72
0.58
---
ΔT18
.44
16.6
313
.26
---
18.3
916
.58
13.2
1--
-18
.64
16.8
413
.46
---
18.3
716
.56
13.1
9--
-18
.13
16.3
212
.95
---
19.2
617
.45
14.0
8--
-Pr
Suc
118.
912
0.4
123.
3--
-12
6.0
127.
513
0.5
---
132.
313
3.7
136.
7--
-13
7.6
139.
014
2.0
---
142.
714
4.2
147.
2--
-14
9.2
150.
715
3.7
---
Pr D
is24
5.9
247.
024
8.7
---
284.
428
5.4
287.
2--
-32
4.7
325.
732
7.5
---
368.
136
9.2
370.
9--
-41
4.9
415.
941
7.7
---
464.
846
5.9
467.
6--
-Am
ps7.
887.
877.
85--
-9.
019.
008.
98--
-10
.27
10.2
610
.24
---
11.6
311
.62
11.6
0--
-13
.15
13.1
413
.12
---
14.9
314
.93
14.9
1--
-Po
wer
2,05
82,
056
2,05
1--
-2,
317
2,31
52,
311
---
2,60
72,
605
2,60
0--
-2,
920
2,91
82,
913
---
3,27
03,
268
3,26
3--
-3,
680
3,67
83,
674
---
1390
MBh
39.8
40.3
41.5
---
39.4
40.0
41.1
---
38.4
39.0
40.1
---
36.7
37.2
38.4
---
34.5
35.1
36.3
---
32.6
33.1
34.3
---
S/T
0.70
0.62
0.49
---
0.70
0.63
0.49
---
0.73
0.65
0.52
---
0.75
0.67
0.54
---
1.00
0.69
0.56
---
1.00
0.75
0.61
---
ΔT17
.67
15.8
612
.49
---
17.6
215
.82
12.4
4--
-17
.87
16.0
712
.70
---
17.6
015
.80
12.4
2--
-17
.36
15.5
612
.18
---
18.4
916
.69
13.3
1--
-Pr
Suc
120.
512
1.9
124.
9--
-12
7.6
129.
013
2.0
---
133.
813
5.3
138.
3--
-13
9.1
140.
614
3.6
---
144.
314
5.8
148.
7--
-15
0.8
152.
215
5.2
---
Pr D
is24
7.6
248.
625
0.3
---
286.
028
7.1
288.
8--
-32
6.3
327.
432
9.1
---
369.
837
0.8
372.
5--
-41
6.5
417.
641
9.3
---
466.
546
7.5
469.
3--
-Am
ps7.
927.
917.
89--
-9.
059.
049.
02--
-10
.31
10.3
010
.28
---
11.6
711
.66
11.6
4--
-13
.19
13.1
813
.16
---
14.9
814
.97
14.9
5--
-Po
wer
2,06
72,
065
2,06
1--
-2,
327
2,32
52,
320
---
2,61
62,
614
2,61
0--
-2,
929
2,92
72,
923
---
3,27
93,
277
3,27
3--
-3,
690
3,68
83,
683
---
75
1130
MBh
38.9
39.4
40.6
---
38.5
39.1
40.2
---
37.5
38.1
39.2
---
35.8
36.3
37.5
---
33.6
34.2
35.4
---
31.7
32.2
33.4
---
S/T
0.75
0.67
0.54
0.39
0.76
0.68
0.54
0.40
0.78
0.71
0.57
0.43
1.00
0.72
0.59
0.45
1.00
0.75
0.61
0.47
1.00
0.80
0.66
0.52
ΔT23
.29
21.4
918
.11
14.6
223
.24
21.4
418
.07
14.5
723
.50
21.6
918
.32
14.8
323
.22
21.4
218
.05
14.5
522
.98
21.1
817
.81
14.3
124
.11
22.3
118
.94
15.4
4Pr
Suc
117.
511
9.0
121.
912
6.9
124.
612
6.1
129.
113
4.1
130.
913
2.3
135.
314
0.3
136.
213
7.6
140.
614
5.6
141.
314
2.8
145.
815
0.8
147.
814
9.3
152.
315
7.3
Pr D
is24
4.4
245.
524
7.2
251.
428
2.9
284.
028
5.7
289.
932
3.2
324.
332
6.0
330.
236
6.6
367.
736
9.4
373.
641
3.4
414.
541
6.2
420.
446
3.3
464.
446
6.1
470.
4Am
ps7.
837.
827.
807.
888.
958.
948.
939.
0110
.21
10.2
010
.18
10.2
711
.57
11.5
611
.55
11.6
313
.10
13.0
913
.07
13.1
514
.88
14.8
714
.85
14.9
4Po
wer
2,04
52,
043
2,03
92,
059
2,30
52,
303
2,29
82,
318
2,59
42,
592
2,58
82,
607
2,90
72,
905
2,90
12,
921
3,25
73,
255
3,25
13,
271
3,66
83,
666
3,66
13,
681
1260
MBh
39.3
39.8
41.0
---
39.0
39.5
40.7
---
37.9
38.5
39.6
---
36.2
36.7
37.9
---
34.1
34.6
35.8
---
32.1
32.7
33.8
---
S/T
0.80
0.72
0.59
0.44
0.80
0.73
0.59
0.45
0.83
0.75
0.62
0.47
1.00
0.77
0.64
0.49
1.00
0.79
0.66
0.52
1.00
0.85
0.71
0.57
ΔT22
.41
20.6
017
.23
13.7
422
.36
20.5
517
.18
13.6
922
.61
20.8
117
.43
13.9
422
.34
20.5
317
.16
13.6
722
.10
20.2
916
.92
13.4
323
.23
21.4
218
.05
14.5
6Pr
Suc
118.
912
0.4
123.
412
8.4
126.
112
7.5
130.
513
5.5
132.
313
3.8
136.
714
1.7
137.
613
9.04
142.
014
7.0
142.
814
4.2
147.
215
2.2
149.
315
0.7
153.
715
8.7
Pr D
is24
6.1
247.
224
8.9
253.
128
4.6
285.
728
7.4
291.
632
4.9
326.
032
7.7
331.
936
8.3
369.
3737
1.1
375.
341
5.1
416.
241
7.9
422.
146
5.0
466.
146
7.8
472.
1Am
ps7.
877.
867.
857.
939.
008.
998.
979.
0610
.26
10.2
510
.23
10.3
211
.62
11.6
111
.59
11.6
813
.14
13.1
313
.11
13.2
014
.93
14.9
214
.90
14.9
9Po
wer
2,05
62,
054
2,05
02,
070
2,31
52,
313
2,30
92,
329
2,60
52,
603
2,59
82,
618
2,91
82,
916
2,91
22,
931
3,26
83,
266
3,26
23,
281
3,67
93,
677
3,67
23,
692
1390
MBh
39.8
40.3
41.5
---
39.5
40.0
41.2
---
38.4
39.0
40.1
---
36.7
37.2
38.4
---
34.6
35.1
36.3
---
32.6
33.2
34.3
---
S/T
0.83
0.75
0.62
0.47
0.83
0.76
0.62
0.48
1.00
0.78
0.65
0.50
1.00
0.80
0.67
0.52
1.00
0.82
0.69
0.54
1.00
0.88
0.74
0.60
ΔT21
.64
19.8
416
.46
12.9
721
.59
19.7
916
.41
12.9
221
.85
20.0
416
.67
13.1
721
.57
19.7
716
.40
12.9
021
.33
19.5
316
.15
12.6
622
.46
20.6
617
.28
13.7
9Pr
Suc
120.
512
1.9
124.
912
9.9
127.
612
9.1
132.
113
7.0
133.
913
5.3
138.
314
3.3
139.
114
0.6
143.
614
8.6
144.
314
5.8
148.
815
3.8
150.
815
2.3
155.
316
0.2
Pr D
is24
7.8
248.
825
0.5
254.
828
6.3
287.
328
9.0
293.
332
6.6
327.
632
9.3
333.
637
0.0
371.
037
2.7
377.
041
6.8
417.
841
9.5
423.
846
6.7
467.
846
9.5
473.
7Am
ps7.
917.
917.
897.
979.
049.
039.
019.
1010
.30
10.2
910
.27
10.3
611
.66
11.6
511
.63
11.7
213
.18
13.1
713
.16
13.2
414
.97
14.9
614
.94
15.0
3Po
wer
2,06
62,
064
2,05
92,
079
2,32
52,
323
2,31
82,
338
2,61
42,
612
2,60
82,
628
2,92
82,
926
2,92
12,
941
3,27
83,
275
3,27
13,
291
3,68
83,
686
3,68
23,
701
IDB*
: Ent
erin
g In
door
Dry
Bul
b Te
mpe
ratu
reSh
aded
are
a re
flect
s AC
CA (T
VA) c
ondi
tions
.kW
= T
otal
sys
tem
pow
er
Hig
h an
d lo
w p
ress
ures
are
mea
sure
d at
the
liqui
d an
d su
ction
ser
vice
val
ves.
Amps
= o
utdo
or u
nit a
mps
18 www.amana-hac.com SS-AVZC18 SS-AVZC18 www.amana-hac.com 19
Expanded Cooling Data — AVZC180601A*/AVPEC61D14A* Low Stage (cont.)
Out
door
Am
bien
t Te
mpe
ratu
re65
7585
9510
511
5En
teri
ng In
door
Wet
Bul
b Te
mpe
ratu
re
ID D
BAi
rID
WB
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
5963
6771
80
1130
MBh
39.1
39.6
40.8
---
38.7
39.3
40.4
---
37.7
38.3
39.4
---
36.0
36.5
37.7
---
33.8
34.4
35.6
---
31.9
32.4
33.6
---
S/T
0.88
0.80
0.66
0.52
1.00
0.81
0.67
0.53
1.00
0.83
0.70
0.55
1.00
0.85
0.71
0.57
1.00
0.87
0.74
0.59
1.00
1.00
0.79
0.65
ΔT27
.29
25.4
822
.11
18.6
227
.24
25.4
422
.06
18.5
727
.50
25.6
922
.32
18.8
227
.22
25.4
222
.04
18.5
526
.98
25.1
821
.80
18.3
128
.11
26.3
122
.93
19.4
4Pr
Suc
118.
011
9.5
122.
512
7.4
125.
212
6.6
129.
613
4.6
131.
413
2.8
135.
814
0.8
136.
713
8.1
141.
114
6.1
141.
914
3.3
146.
315
1.3
148.
314
9.8
152.
815
7.8
Pr D
is24
4.9
245.
924
7.6
251.
928
3.3
284.
428
6.1
290.
432
3.7
324.
732
6.4
330.
736
7.1
368.
136
9.8
374.
141
3.9
414.
941
6.6
420.
946
3.8
464.
946
6.6
470.
8Am
ps7.
837.
827.
807.
898.
968.
958.
939.
0210
.22
10.2
110
.19
10.2
811
.58
11.5
711
.55
11.6
413
.10
13.0
913
.07
13.1
614
.89
14.8
814
.86
14.9
4Po
wer
2,04
72,
045
2,04
02,
060
2,30
62,
304
2,29
92,
319
2,59
52,
593
2,58
92,
609
2,90
92,
907
2,90
22,
922
3,25
93,
257
3,25
23,
272
3,66
93,
667
3,66
33,
683
1260
MBh
39.5
40.0
41.2
---
39.2
39.7
40.9
---
38.1
38.7
39.8
---
36.4
36.9
38.1
---
34.3
34.8
36.0
---
32.3
32.9
34.0
---
S/T
0.92
0.85
0.71
0.57
1.00
0.85
0.72
0.57
1.00
0.88
0.74
0.60
1.00
0.90
0.76
0.62
1.00
0.92
0.78
0.64
1.00
1.00
0.84
0.69
ΔT26
.41
24.6
021
.23
17.7
326
.36
24.5
521
.18
17.6
926
.61
24.8
121
.43
17.9
426
.34
24.5
321
.16
17.6
726
.10
24.2
920
.92
17.4
327
.23
25.4
222
.05
18.5
6Pr
Suc
119.
512
0.9
123.
912
8.9
126.
612
8.0
131.
013
6.0
132.
813
4.3
137.
314
2.3
138.
113
9.6
142.
5414
7.5
143.
314
4.7
147.
715
2.7
149.
815
1.2
154.
215
9.2
Pr D
is24
6.6
247.
624
9.3
253.
628
5.0
286.
128
7.8
292.
132
5.4
326.
432
8.1
332.
436
8.8
369.
837
1.53
375.
841
5.6
416.
641
8.3
422.
646
5.5
466.
646
8.3
472.
5Am
ps7.
887.
877.
857.
949.
019.
008.
989.
0610
.27
10.2
610
.24
10.3
211
.63
11.6
211
.60
11.6
813
.15
13.1
413
.12
13.2
114
.93
14.9
214
.91
14.9
9Po
wer
2,05
82,
056
2,05
12,
071
2,31
72,
315
2,31
02,
330
2,60
62,
604
2,60
02,
620
2,91
92,
917
2,91
32,
933
3,26
93,
267
3,26
33,
283
3,68
03,
678
3,67
43,
693
1390
MBh
40.0
40.5
41.7
---
39.7
40.2
41.4
---
38.6
39.2
40.3
---
36.9
37.4
38.6
---
34.8
35.3
36.5
---
32.8
33.4
34.5
---
S/T
0.95
0.88
0.74
0.60
1.00
0.88
0.75
0.60
1.00
0.91
0.77
0.63
1.00
0.93
0.79
0.65
1.00
1.00
0.81
0.67
1.00
1.00
0.87
0.72
ΔT25
.64
23.8
320
.46
16.9
725
.59
23.7
820
.41
16.9
225
.84
24.0
420
.67
17.1
725
.57
23.7
720
.39
16.9
025
.33
23.5
220
.15
16.6
626
.46
24.6
521
.28
17.7
9Pr
Suc
121.
012
2.5
125.
413
0.4
128.
112
9.6
132.
613
7.6
134.
413
5.8
138.
814
3.8
139.
714
1.1
144.
114
9.1
144.
814
6.3
149.
315
4.3
151.
315
2.8
155.
816
0.8
Pr D
is24
8.2
249.
325
1.0
255.
228
6.7
287.
828
9.5
293.
732
7.0
328.
132
9.8
334.
037
0.4
371.
537
3.2
377.
441
7.2
418.
342
0.0
424.
246
7.2
468.
246
9.9
474.
2Am
ps7.
927.
917.
897.
989.
059.
049.
029.
1110
.31
10.3
010
.28
10.3
611
.67
11.6
611
.64
11.7
313
.19
13.1
813
.16
13.2
514
.97
14.9
714
.95
15.0
3Po
wer
2,06
72,
065
2,06
02,
080
2,32
62,
324
2,32
02,
340
2,61
62,
614
2,60
92,
629
2,92
92,
927
2,92
22,
942
3,27
93,
277
3,27
23,
292
3,68
93,
687
3,68
33,
703
85
1130
MBh
39.7
40.3
41.4
---
39.4
39.9
41.1
---
38.4
38.9
40.1
---
36.6
37.2
38.3
---
34.5
35.0
36.2
---
32.6
33.1
34.3
---
S/T
1.00
0.90
0.77
0.62
1.00
0.91
0.77
0.63
1.00
0.93
0.80
0.65
1.00
1.00
0.82
0.67
1.00
1.00
0.84
0.70
1.00
1.00
0.89
0.75
ΔT30
.84
29.0
325
.66
22.1
630
.79
28.9
825
.61
22.1
231
.04
29.2
325
.86
22.3
730
.77
28.9
625
.59
22.1
030
.53
28.7
225
.35
21.8
631
.66
29.8
526
.48
22.9
9Pr
Suc
119.
812
1.2
124.
212
9.2
126.
912
8.4
131.
313
6.3
133.
213
4.6
137.
614
2.6
138.
413
9.9
142.
914
7.9
143.
614
5.1
148.
015
3.0
150.
115
1.6
154.
515
9.5
Pr D
is24
6.0
247.
124
8.8
253.
028
4.5
285.
528
7.3
291.
532
4.8
325.
932
7.6
331.
836
8.2
369.
337
1.0
375.
241
5.0
416.
141
7.8
422.
046
4.9
466.
046
7.7
472.
0Am
ps7.
857.
847.
837.
918.
988.
978.
959.
0410
.24
10.2
310
.21
10.3
011
.60
11.5
911
.57
11.6
613
.12
13.1
113
.09
13.1
814
.91
14.9
014
.88
14.9
7Po
wer
2,05
22,
050
2,04
52,
065
2,31
12,
309
2,30
42,
324
2,60
02,
598
2,59
42,
614
2,91
42,
912
2,90
72,
927
3,26
43,
261
3,25
73,
277
3,67
43,
672
3,66
83,
687
1260
MBh
40.2
40.7
41.9
---
39.8
40.4
41.5
---
38.8
39.3
40.5
---
37.1
37.6
38.8
---
34.9
35.5
36.6
---
33.0
33.5
34.7
---
S/T
1.00
0.95
0.81
0.67
1.00
0.96
0.82
0.68
1.00
1.00
0.84
0.70
1.00
1.00
0.86
0.72
1.00
1.00
0.89
0.74
1.00
1.00
0.94
0.79
ΔT29
.95
28.1
524
.77
21.2
829
.90
28.1
024
.72
21.2
330
.16
28.3
524
.98
21.4
929
.88
28.0
824
.71
21.2
129
.64
27.8
424
.47
20.9
730
.77
28.9
725
.60
22.1
0Pr
Suc
121.
212
2.7
125.
613
0.6
128.
312
9.8
132.
813
7.8
134.
613
6.0
139.
014
4.0
139.
914
1.3
144.
314
9.3
145.
014
6.5
149.
515
4.5
151.
515
3.0
156.
016
1.0
Pr D
is24
7.7
248.
825
0.5
254.
728
6.2
287.
228
9.0
293.
232
6.5
327.
632
9.3
333.
536
9.9
371.
037
2.7
376.
941
6.7
417.
841
9.5
423.
746
6.6
467.
746
9.4
473.
7Am
ps7.
907.
897.
877.
969.
039.
029.
009.
0910
.29
10.2
810
.26
10.3
411
.65
11.6
411
.62
11.7
113
.17
13.1
613
.14
13.2
314
.96
14.9
514
.93
15.0
1Po
wer
2,06
32,
060
2,05
62,
076
2,32
22,
320
2,31
52,
335
2,61
12,
609
2,60
52,
625
2,92
42,
922
2,91
82,
938
3,27
43,
272
3,26
83,
288
3,68
53,
683
3,67
93,
698
1390
MBh
40.7
41.2
42.4
---
40.3
40.9
42.0
---
39.3
39.8
41.0
---
37.6
38.1
39.3
---
35.4
36.0
37.1
---
33.5
34.0
35.2
---
S/T
1.00
0.98
0.84
0.70
1.00
0.99
0.85
0.71
1.00
1.00
0.87
0.73
1.00
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20 www.amana-hac.com SS-AVZC18 SS-AVZC18 www.amana-hac.com 21
Expanded Heating Data — High Stage
AVZC180241 + AVPEC37C (High Stage)
Outdoor Ambient Temperature
65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5
MBh 28.20 26.53 24.87 23.25 22.20 21.44 19.56 17.75 16.28 15.20 14.42 14.00 13.45 12.09 10.72 9.35 7.99
T/R 31.39 29.81 28.23 26.65 25.70 24.85 22.64 20.55 18.84 17.59 16.69 16.20 15.57 13.99 12.41 10.82 9.24
KW 1.75 1.72 1.69 1.67 1.65 1.64 1.61 1.59 1.56 1.53 1.51 1.49 1.48 1.45 1.43 1.40 1.38
Amps 6.3 6.2 6.1 6.0 5.9 5.9 5.7 5.6 5.5 5.4 5.3 5.2 5.2 5.1 4.9 4.8 4.7
COP 4.73 4.52 4.30 4.09 3.94 3.83 3.55 3.28 3.06 2.90 2.80 2.75 2.66 2.43 2.20 1.96 1.70
Hi PR 355 343 332 320 313 309 297 286 274 263 251 244 239 228 216 205 193
LO PR 135 127 118 110 105 101 93 85 76 68 59 54 51 43 34 26 17
AVZC180361 + AVPEC59D (High Stage)
Outdoor Ambient Temperature
65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5
MBh 40.85 38.60 36.39 34.22 32.80 31.76 29.38 26.77 24.97 23.54 22.54 22.00 21.28 19.48 17.68 15.88 14.08
T/R 28.87 27.54 26.22 24.90 24.10 23.42 21.59 19.81 18.35 17.30 16.56 16.17 15.64 14.31 12.99 11.67 10.35
KW 2.69 2.65 2.60 2.56 2.53 2.51 2.47 2.42 2.38 2.33 2.29 2.26 2.24 2.20 2.16 2.11 2.07
Amps 9.7 9.5 9.3 9.1 9.0 8.9 8.7 8.5 8.3 8.1 8.0 7.8 7.8 7.6 7.4 7.2 7.0
COP 4.45 4.28 4.10 3.92 3.80 3.71 3.49 3.24 3.08 2.96 2.89 2.85 2.78 2.60 2.40 2.20 2.00
Hi PR 342 331 320 309 302 298 286 275 264 253 242 235 231 220 209 197 186
LO PR 123 115 107 100 95 92 84 77 69 62 54 49 46 39 31 23 16
AVZC180481 + AVPEC61D (High Stage)
Outdoor Ambient Temperature
65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5
MBh 54.70 51.86 49.06 46.31 44.50 43.16 40.27 36.75 34.68 32.89 31.66 31.00 30.10 27.85 25.60 23.35 21.10
T/R 35.30 33.79 32.28 30.77 29.86 29.11 27.02 24.97 23.27 22.07 21.24 20.80 20.20 18.69 17.18 15.67 14.16
KW 3.79 3.71 3.62 3.54 3.49 3.45 3.37 3.28 3.20 3.11 3.03 2.98 2.94 2.86 2.78 2.69 2.61
Amps 14.3 13.9 13.6 13.2 13.0 12.8 12.5 12.1 11.7 11.4 11.0 10.8 10.6 10.2 9.9 9.5 9.1
COP 4.23 4.10 3.97 3.84 3.74 3.66 3.50 3.28 3.18 3.09 3.06 3.05 3.00 2.85 2.70 2.54 2.37
Hi PR 375 363 351 339 331 326 314 302 290 278 265 258 253 241 229 217 204
LO PR 122 115 107 99 95 92 84 77 69 61 54 49 46 39 31 23 16
AVZC180601 + AVPEC61D (High Stage)
Outdoor Ambient Temperature
65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5
MBh 67.50 63.59 59.74 55.95 53.50 51.71 47.41 43.15 39.76 37.25 35.46 34.50 33.23 30.07 26.90 23.73 20.57
T/R 36.64 34.86 33.07 31.28 30.21 29.26 26.77 24.39 22.45 21.03 20.02 19.48 18.76 16.97 15.19 13.40 11.61
KW 4.48 4.36 4.23 4.11 4.04 3.99 3.87 3.75 3.63 3.51 3.39 3.32 3.27 3.15 3.02 2.90 2.78
Amps 16.9 16.3 15.8 15.3 15.0 14.8 14.2 13.7 13.2 12.7 12.1 11.8 11.6 11.1 10.5 10.0 9.5
COP 4.42 4.28 4.13 3.99 3.88 3.80 3.59 3.37 3.21 3.11 3.07 3.05 2.98 2.80 2.61 2.40 2.17
Hi PR 403 390 377 363 356 350 337 324 311 298 285 277 272 259 246 232 219
LO PR 138 129 121 112 107 103 95 86 78 69 61 55 52 43 35 26 18
Calculations are based on nominal CFM and 70 °F indoor dry bulb. Amps = Outdoor unit amps (comp.+fan)Conditions at 47°F outdoor ambient temperature kW = Total system power
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Expanded Heating Data — Low Stage
AVZC180241 + AVPEC37C (Low Stage)
Outdoor Ambient Temperature
65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5
MBh 21.07 19.65 18.26 16.89 16.02 15.35 13.69 12.17 10.93 10.00 9.31 8.94 8.47 7.29 6.11 4.93 3.75
T/R 33.50 31.55 29.60 27.65 26.48 25.38 22.63 20.12 18.07 16.54 15.39 14.78 14.00 12.05 10.10 8.15 6.20
KW 1.07 1.04 1.01 0.97 0.95 0.94 0.91 0.88 0.85 0.81 0.78 0.76 0.75 0.72 0.69 0.65 0.62
Amps 3.8 3.6 3.5 3.3 3.3 3.2 3.1 2.9 2.8 2.6 2.5 2.4 2.4 2.2 2.1 2.0 1.8
COP 5.78 5.55 5.32 5.09 4.92 4.78 4.41 4.06 3.79 3.61 3.49 3.44 3.31 2.98 2.61 2.21 1.77
Hi PR 344 333 322 310 304 299 288 277 266 254 243 237 232 221 210 198 187
LO PR 133 124 116 108 103 100 91 83 75 67 58 53 50 42 34 25 17
AVZC180361 + AVPEC59D (Low Stage)
Outdoor Ambient Temperature
65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5
MBh 30.61 28.66 26.75 24.87 23.66 22.78 20.53 18.44 16.73 15.47 14.54 14.05 13.40 11.80 10.20 8.60 6.99
T/R 30.90 29.22 27.53 25.85 24.84 23.92 21.55 19.36 17.57 16.24 15.27 14.75 14.07 12.39 10.71 9.02 7.34
KW 1.65 1.59 1.54 1.49 1.46 1.44 1.39 1.34 1.29 1.24 1.19 1.16 1.14 1.08 1.03 0.98 0.93
Amps 5.8 5.5 5.3 5.1 5.0 4.9 4.6 4.4 4.2 4.0 3.8 3.6 3.5 3.3 3.1 2.9 2.6
COP 5.45 5.27 5.08 4.89 4.75 4.63 4.33 4.04 3.81 3.67 3.59 3.56 3.46 3.19 2.89 2.57 2.20
Hi PR 331 321 310 299 293 288 278 267 256 245 234 228 224 213 202 191 181
LO PR 120 113 105 98 93 90 83 75 68 60 53 48 45 38 31 23 16
AVZC180481 + AVPEC61D (Low Stage)
Outdoor Ambient Temperature
65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5
MBh 41.07 38.56 36.09 33.67 32.10 30.97 28.12 25.42 23.22 21.60 20.42 19.79 18.97 16.92 14.87 12.82 10.76
T/R 37.85 35.89 33.92 31.95 30.77 29.71 26.95 24.37 22.26 20.70 19.58 18.97 18.18 16.22 14.25 12.28 10.32
KW 2.31 2.23 2.15 2.06 2.01 1.98 1.90 1.82 1.74 1.65 1.57 1.52 1.49 1.41 1.32 1.24 1.16
Amps 8.5 8.2 7.8 7.4 7.2 7.1 6.7 6.4 6.0 5.7 5.3 5.1 4.9 4.6 4.2 3.9 3.5
COP 5.21 5.07 4.93 4.78 4.67 4.58 4.34 4.10 3.92 3.83 3.81 3.81 3.74 3.53 3.29 3.02 2.72
Hi PR 364 352 340 328 321 316 304 293 281 269 257 250 245 233 222 210 198
LO PR 120 113 105 98 93 90 83 75 68 60 53 48 45 38 30 23 15
AVZC180601 + AVPEC61D (Low Stage)
Outdoor Ambient Temperature
65 60 55 50 47 45 40 35 30 25 20 17 15 10 5 0 -5
MBh 50.48 47.15 43.87 40.65 38.60 37.05 33.16 29.59 26.68 24.51 22.89 22.03 20.92 18.16 15.40 12.64 9.88
T/R 39.15 36.92 34.70 32.47 31.13 29.89 26.75 23.87 21.52 19.77 18.46 17.77 16.87 14.65 12.42 10.19 7.96
KW 2.72 2.61 2.51 2.40 2.33 2.29 2.19 2.08 1.97 1.86 1.76 1.69 1.65 1.54 1.44 1.33 1.22
Amps 10.0 9.5 9.1 8.6 8.3 8.1 7.7 7.2 6.7 6.3 5.8 5.5 5.4 4.9 4.4 4.0 3.5
COP 5.44 5.29 5.13 4.97 4.85 4.74 4.45 4.17 3.97 3.85 3.82 3.81 3.72 3.45 3.14 2.79 2.37
Hi PR 390 378 365 352 345 340 327 314 301 289 276 268 263 251 238 225 213
LO PR 135 127 118 110 105 102 93 85 76 68 60 55 51 43 34 26 17
Calculations are based on nominal CFM and 70 °F indoor dry bulb. Amps = Outdoor unit amps (comp.+fan)Conditions at 47°F outdoor ambient temperature kW = Total system power
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Performance Data for Standard Operating Mode
AVZC180241A* / AVPEC37C14A* Design Subcooling @ AHRI 95°F Conditions 10-12°F
at 100% Demand
AVZC180241A* / AVPEC37C14A*Design Subcooling @ AHRI 95°F Conditions 10-12°F
at 70% Demand
Outdoor Temp °F
Total BTU/h
Sensible BTU/h
Latent BTU/h
Total Watts
Outdoor Temp °F
Total BTU/h
Sensible BTU/h
Latent BTU/h
Total Watts
75° 24,000 17,500 6,500 1,400 75° 17,300 13,000 4,300 900
80° 23,700 17,000 6,700 1,500 80° 17,100 12,200 4,800 900
85° 23,400 17,600 5,900 1,600 85° 16,800 13,000 3,900 1,000
90° 22,900 16,500 6,500 1,600 90° 16,500 11,800 4,600 1,000
95° 22,400 17,200 5,200 1,700 95° 16,100 12,700 3,400 1,100
100° 21,800 15,600 6,100 1,800 100° 15,700 11,200 4,400 1,200
105° 21,100 16,700 4,400 1,900 105° 15,200 12,500 2,700 1,200
110° 20,600 14,800 5,800 2,000 110° 14,800 10,600 4,200 1,300
115° 20,000 17,000 3,000 2,200 115° 14,400 14,400 0 1,400
TVA Conditions @ 95° OD DB, 75° ID, 63° ID WB TVA Conditions @ 95° OD DB, 75° ID, 63° ID WB
95° 21,600 16,800 4,800 1,700 95° 15,500 12,400 3,100 1,100
AVZC180361A* / AVPEC59D14A* Design Subcooling @ AHRI 95°F Conditions 13-15°F
at 100% Demand
AVZC180361A* / AVPEC59D14A* Design Subcooling @ AHRI 95°F Conditions 13-15°F
at 70% Demand
Outdoor Temp °F
Total BTU/h
Sensible BTU/h
Latent BTU/h
Total Watts
Outdoor Temp °F
Total BTU/h
Sensible BTU/h
Latent BTU/h
Total Watts
75° 36,000 27,700 8,300 2,300 75° 25,900 20,500 5,400 1,400
80° 35,600 25,500 10,000 2,500 80° 25,600 18,400 7,200 1,500
85° 35,100 28,100 7,000 2,600 85° 25,300 20,700 4,500 1,600
90° 34,400 24,700 9,700 2,800 90° 24,700 17,700 7,000 1,700
95° 33,600 27,600 6,000 2,900 95° 24,200 20,300 3,900 1,800
100° 32,700 23,500 9,200 3,100 100° 23,500 16,900 6,600 1,900
105° 31,700 26,600 5,100 3,300 105° 22,800 19,600 3,200 2,100
110° 30,900 22,200 8,700 3,500 110° 22,200 15,900 6,300 2,200
115° 30,000 27,000 3,000 3,700 115° 21,600 21,600 0 2,300
TVA Conditions @ 95° OD DB, 75° ID, 63° ID WB TVA Conditions @ 95° OD DB, 75° ID, 63° ID WB
95° 32,400 26,900 5,500 2,900 95° 23,300 19,800 3,500 1,800
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Performance Data for Standard Operating Mode (cont.)
AVZC180481A* / AVPEC61D14A*Design Subcooling @ AHRI 95°F Conditions 8-10°F
at 100% Demand
AVZC180481A* / AVPEC61D14A*Design Subcooling @ AHRI 95°F Conditions 8-10°F
at 70% Demand
Outdoor Temp °F
Total BTU/h
Sensible BTU/h
Latent BTU/h
Total Watts
Outdoor Temp °F
Total BTU/h
Sensible BTU/h
Latent BTU/h
Total Watts
75° 48,300 33,800 14,500 3,100 75° 34,700 25,000 9,700 1,900
80° 47,700 34,200 13,400 3,300 80° 34,300 24,600 9,700 2,000
85° 47,100 34,400 12,700 3,500 85° 33,800 25,400 8,500 2,200
90° 46,000 33,000 13,000 3,700 90° 33,100 23,800 9,300 2,300
95° 45,000 33,800 11,300 3,900 95° 32,400 24,900 7,400 2,500
100° 43,700 31,400 12,300 4,100 100° 31,500 22,600 8,900 2,600
105° 42,500 32,700 9,800 4,400 105° 30,500 24,100 6,400 2,800
110° 41,300 29,700 11,700 4,700 110° 29,700 21,300 8,400 2,900
115° 40,200 33,000 7,200 5,000 115° 28,900 24,300 4,600 3,100
TVA Conditions @ 95° OD DB, 75° ID, 63° ID WB TVA Conditions @ 95° OD DB, 75° ID, 63° ID WB
95° 43,400 33,000 10,400 3,900 95° 31,200 24,300 6,900 2,500
AVZC180601A* / AVPEC61D14A* Design Subcooling @ AHRI 95°F Conditions 11-13°F
at 100% Demand
AVZC180601A* / AVPEC61D14A*Design Subcooling @ AHRI 95°F Conditions 11-13°F
at 70% Demand
Outdoor Temp °F
Total BTU/h
Sensible BTU/h
Latent BTU/h
Total Watts
Outdoor Temp °F
Total BTU/h
Sensible BTU/h
Latent BTU/h
Total Watts
75° 56,800 39,800 17,000 3,700 75° 40,900 29,400 11,400 2,300
80° 56,100 40,300 15,800 3,900 80° 40,400 29,000 11,400 2,500
85° 55,400 39,900 15,500 4,100 85° 39,800 29,500 10,400 2,600
90° 54,200 38,900 15,300 4,400 90° 39,000 28,000 11,000 2,800
95° 53,000 39,200 13,800 4,600 95° 38,100 29,000 9,100 2,900
100° 51,500 37,000 14,500 4,900 100° 37,000 26,600 10,400 3,100
105° 50,000 38,000 12,000 5,200 105° 36,000 28,100 7,900 3,300
110° 48,700 35,000 13,700 5,500 110° 35,000 25,100 9,900 3,500
115° 47,300 38,300 9,000 5,800 115° 34,000 28,600 5,400 3,700
TVA Conditions @ 95° OD DB, 75° ID, 63° ID WB TVA Conditions @ 95° OD DB, 75° ID, 63° ID WB
95° 51,100 38,300 12,800 4,600 95° 36,700 28,300 8,500 2,900
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Performance Data for Field-Selectable Boost Mode
AVZC180241A* / AVPEC37C14A* Design Subcooling @ AHRI 95°F Conditions 10-12°F
in Boost Mode
AVZC180361A* / AVPEC59D14A* Design Subcooling @ AHRI 95°F Conditions 13-15°F
in Boost Mode
Outdoor Temp °F
Total BTU/h
Sensible BTU/h
Latent BTU/h
Total Watts
Outdoor Temp °F
Total BTU/h
Sensible BTU/h
Latent BTU/h
Total Watts
75° 27,200 19,600 7,600 1,600 75° 41,300 30,200 11,100 2,700
80° 26,700 19,400 7,300 1,700 80° 40,300 29,700 10,500 2,900
85° 26,200 19,100 7,100 1,700 85° 39,200 29,200 10,000 3,000
90° 25,700 18,900 6,800 1,800 90° 38,100 28,500 9,500 3,200
95° 25,100 18,800 6,300 1,900 95° 36,900 27,900 9,000 3,300
100° 24,500 18,300 6,300 2,000 100° 35,700 27,300 8,400 3,500
105° 24,000 18,000 6,000 2,100 105° 34,500 26,700 7,800 3,600
110° 22,200 17,000 5,100 2,100 110° 33,300 26,000 7,300 3,800
115° 20,000 17,000 3,000 2,200 115° 30,000 27,000 3,000 3,700
TVA Conditions @ 95° OD DB, 75° ID, 63° ID WB TVA Conditions @ 95° OD DB, 75° ID, 63° ID WB
95° 23,200 17,800 5,400 1,900 95° 34,500 26,900 7,600 3,300
AVZC180481A* / AVPEC61D14A* Design Subcooling @ AHRI 95°F Conditions 8-10°F
in Boost Mode
AVZC180601A* / AVPEC61D14A*Design Subcooling @ AHRI 95°F Conditions 11-13°F
in Boost Mode
Outdoor Temp °F
Total BTU/h
Sensible BTU/h
Latent BTU/h
Total Watts
Outdoor Temp °F
Total BTU/h
Sensible BTU/h
Latent BTU/h
Total Watts
75° 55,200 38,500 16,700 3,800 75° 64,600 45,100 19,500 4,600
80° 53,800 37,800 16,000 4,000 80° 63,000 44,300 18,700 4,800
85° 52,400 37,200 15,300 4,200 85° 61,400 43,500 17,900 5,000
90° 51,000 36,400 14,500 4,400 90° 59,800 42,700 17,000 5,300
95° 49,500 35,700 13,800 4,600 95° 57,900 41,800 16,200 5,500
100° 48,000 35,000 13,000 4,900 100° 56,300 41,100 15,300 5,800
105° 46,400 34,200 12,200 5,100 105° 54,500 40,100 14,400 6,000
110° 44,700 33,400 11,400 5,300 110° 52,600 39,200 13,400 6,300
115° 40,200 33,000 7,200 5,000 115° 47,300 38,300 9,000 5,800
TVA Conditions @ 95° OD DB, 75° ID, 63° ID WB TVA Conditions @ 95° OD DB, 75° ID, 63° ID WB
95° 46,500 34,600 11,800 4,500 95° 54,400 40,600 13,800 5,400
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Sound Power Levels
COOLING MODE
Tonnage Speed Total UnitSound Rating (dBA)
Octave Band Spectrum Frequency (Hz) Analysis (dB)125 250 500 1000 2000 4000 8000
2 Tons
Minimum 55.8 45.9 48.2 48.2 51.5 46.7 42.5 31.6
Intermediate 58.1 49.9 50.0 52.2 51.4 49.2 40.2 26.8
Maximum 69.5 54.9 56.4 61.5 61.9 65.9 61.1 49.2
3 Tons
Minimum 60.3 50.8 49.6 50.9 55.1 54.3 50.3 37.7
Intermediate 61.2 52.9 50.9 53.7 54.3 54.8 49.0 38.9
Maximum 68.1 50.7 59.4 61.2 62.8 60.7 61.5 48.7
4 Tons
Minimum 62.9 45.8 47.8 56.7 59.6 56.2 47.8 42.9
Intermediate 63.9 46.4 49.8 57.7 60.2 56.7 50.6 47.2
Maximum 71.7 49.5 58.3 65.8 67.6 65.2 60.2 50.4
5-ton
Minimum 71.3 50.5 56.9 67.1 67.2 63.0 55.0 45.6
Intermediate 71.3 50.0 59.4 67.0 65.9 63.1 56.2 48.5
Maximum 77.1 54.6 65.6 71.6 72.6 70.1 65.4 54.4
HEATING MODE
Tonnage Speed Total UnitSound Rating (dBA)
Octave Band Spectrum Frequency (Hz) Analysis (dB)125 250 500 1000 2000 4000 8000
2 Tons
Minimum 55.4 46.9 46.9 48.8 50.5 46.9 42.1 33.5
Intermediate 62.6 50.5 54.3 53.4 57.8 57.1 50.5 42.2
Maximum 69.1 60.9 57.7 60.8 60.5 62.3 61.5 49.0
3 Tons
Minimum 56.3 46.1 44.7 50.5 51.7 48.3 42.7 34.1
Intermediate 62.8 48.3 52.5 54.5 58.9 55.5 55.8 49.3
Maximum 68.8 49.5 59.9 61.0 63.9 61.5 62.7 49.4
4 Tons
Minimum 64.1 45.6 48.9 57.7 60.8 57.5 49.8 45.4
Intermediate 65.9 48.3 51.8 60.1 52.2 57.8 54.4 49.8
Maximum 73.7 50.7 59.2 68.1 69.7 66.8 62.3 53.6
5-ton
Minimum 72.8 50.1 57.5 68.9 68.5 63.8 56.0 48.0
Intermediate 72.8 50.3 58.2 67.5 67.3 64.2 59.1 53.5
Maximum 78.6 55.6 67.7 73.4 74.1 71.2 67.1 58.7
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AHRI Ratings
Outdoor Unit
Indoor Units Cooling Ratings ˄ TVA Ratings ³ Heating Ratings ˄CFM AHRI #
Coils/Air Handlers Furnaces Total Sens. SEER ¹ EER ² Total Sens. Hi ⁴ HSPF ⁵ Low ⁶
AVZC18VC0241A*
AVPEC25B14A* --- 22,000 17,000 18.0 12.5 21,200 16,500 22,200 9.6 14,000 800 9114948
AVPEC37C14A* --- 22,400 17,300 19.0 13.0 21,600 16,800 22,200 10.0 14,000 800 9114947
AVZC18VC0361A*
AVPEC37C14A* --- 32,800 27,000 16.0 10.5 31,800 26,400 32,400 9.0 22,000 1,230 9114950
AVPEC59D14A* --- 33,600 27,400 18.0 11.0 32,400 26,800 32,800 10.0 22,000 1,260 9114949
AVZC18VC0481A*
AVPEC59D14A* --- 44,000 32,200 18.0 11.0 42,500 32,200 44,000 9.6 30,800 1,380 9114952
AVPEC61D14A* --- 45,000 33,000 19.0 11.0 43,500 33,000 44,500 10.0 31,000 1,380 9114951
AVZC18VC0601A*
AVPEC59D14A* --- 52,000 38,500 17.0 11.0 50,000 37,600 53,000 9.6 34,000 1,640 9114954
AVPEC61D14A* --- 53,000 39,000 18.0 11.0 51,000 38,500 53,500 10.0 34,600 1,640 9114953
^ Rated in accordance with ANSI/AHRI Standard 210/240¹ Seasonal Energy Efficiency Ratio ² Energy Efficiency Ratio @ 80°F/ 67°F/ 95°F³ TVA Rating: BTU/h @ 75°F/ 63°F - 95°F
⁴ Rated heating capacity at 47°F outdoor per AHRI 210/240⁵ HSPF = Heating Seasonal Performance Factor⁶ Heating capacity at 17°F outdoor
Notes• Always check the S&R plate for electrical data on the unit being installed.• EEP - Order from Service Dept. Part No. B13707-38 or new Solid State Board B13707-35S. Part No. B13707-38 is not interchangeable with B13707-35S. The Daikin brand gas
furnace contains the EEP cooling time delay.
26 www.amana-hac.com SS-AVZC18 SS-AVZC18 www.amana-hac.com 27
Dimensions
AVZC
18
The
Good
man
Man
ufac
turi
ng C
ompa
ny, L
.P.
Mod
el #
Dim
ensi
ons
W”
D”H”
AVZC
1802
41A*
2929
38¼
AVZC
1803
61A*
2929
38¼
AVZC
1804
81A*
35½
35½
38¼
AVZC
1806
01A*
35½
35½
38¼
28 www.amana-hac.com SS-AVZC18 SS-AVZC18 www.amana-hac.com PB
Amana® is a trademark of Maytag Corporation or its related companies and used under license to Goodman Company, L.P. All rights reserved. Our continuing commitment to quality products may mean a change in specifications without notice. ©2018 Goodman Company, L.P. • Houston, Texas • Printed in the USA.
Wiring Diagram
Wiri
ng i
s su
bjec
t to
cha
nge.
Alw
ays
refe
r to
the
wiri
ng d
iagr
am o
r th
e un
it fo
r th
e m
ost
up-t
o-da
te w
iring
.⚠
War
ning
High
Vol
tage
: D
isco
nnec
t al
l po
wer
bef
ore
serv
icin
g or
ins
talli
ng t
his
unit.
Mul
tiple
pow
er
sour
ces
may
be
pres
ent.
Fai
lure
to d
o so
may
cau
se p
rope
rty
dam
age,
per
sona
l inj
ury,
or d
eath
.⚡
NOTE
S:
0
X21A
X13A
SEG
1SE
G2
SEG
3
EEV
X853
AM
1C
BK RD YL
M1F
L2
L1
TERM
INAL
BLO
CK
FIEL
D W
IRIN
G
H/L
PT
INVE
RTER
BO
ARD
CO
MPR
ESSO
RTE
RMIN
AL O
RIE
NTAT
ION
Z1C
RVC
1 2 R C W1
Y1 Y2 L
TO T
STAT
OR
INDO
OR
UN
IT
FAN
CAP
ACIT
OR
X12A
X17A
+ -
HPS
E1
HR1
HR3
BR WH
HR2
HR4
X32A
X851
A
POW
ER C
OND
ITIO
NER
GR
GRO
UND
LUG
+ -
THER
MIS
TOR
/TEM
PERA
TURE
SEN
SOR
MO
TOR
HIG
H/L
OW
PRE
SSUR
E TR
ANSD
UCER
(H/L
PT)
HIG
H P
RESS
URE
SWIT
CH(H
PS)
DS1/
DS2
D
IP S
WIT
CHSE
G1-
SEG
3
7-S
EGM
ENT
DIS
PLAY
Z1C-
Z3C
F
ERR
ITE
CORE
BS1-
BS3
P
USH
BUT
TON
SW
ITCH
RVC
REVE
RSIN
G V
ALVE
CO
ILM
1C
C
OM
PRES
SOR
MO
TOR
M1F
FAN
MO
TOR
NOTE
1
1O
FFO
NDS1
1O
FFON
DS2
V
WU
Z2C
COIL CIRCUIT
LIQUID LINE
DISCHARGELINE
DEFROST
COLO
R C
ODE
:RD
------
RED
BR---
---BR
OW
NG
R----
--GRE
ENBK
------
-BLA
CKW
H---
--WH
ITE
YL---
---YE
LLO
WBL
------
BLUE
GY-
----G
RAY
PU---
---PU
RPLE
1.TH
E PO
SITI
ON
OF
THE
SELE
CTO
R S
WIT
CHES
(DS1
/DS2
) IND
ICAT
E FA
CTO
RY
SETT
ING
.2.
CO
MPR
ESSO
R M
OTO
R (F
AN M
OTO
R P
ROTE
CTIO
N IS
INC
LUD
ING
FAN
MO
TOR)
OVE
RLO
AD
PRO
TECT
ION
PRO
VIDE
D B
Y IN
VERT
ER :
SEE
TABL
E3.
USE
CO
PPER
CO
NDUC
TORS
ON
LY.
4. C
LASS
2 W
IRE
TERM
INAL
CONN
ECTO
R
NOIS
ELES
S EA
RTH
ELEC
TRIC
AL G
ROUN
D
HIG
H V
OLT
AGE
LOW
VO
LTAG
E
HIG
H V
OLT
AGE
FIEL
DZ3
C
SEE
NOTE
3
SEE
NOTE
3
PU
RD
2
2
BS1
BS2
BS3
X52A
SHAR
E DA
TA
BK
RD
COM
PON E
NT C
ODE
U V W
GY
BK
NOTE
1
RDYL
BLR
ING
COLO
R
TABL
E
0140
R00
426-
D
208/
230
V60
HZ
SEE
NOTE
4
BR/W
H
BR
X854
A
X25A
YL YL
BL BK PU
RD
X11A
AMBI
ENT
THER
MIS
TOR
SUCT
ION
GR
INVE
RTER
MO
DEL
EC14
034-
1DZ
18VC
0241
AVZC
1802
41EC
1403
5-1
DZ18
VC03
61AV
ZC18
0361
EC14
036-
1DZ
18VC
0481
AVZC
1804
81EC
1403
6-3
DZ18
VC06
01AV
ZC18
0601
HP M
ODE
LS