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1 2011 Emerson Climate TechnologiesPrinted in the U.S.A.
AE4-1305 R5
Application EngineeringB U L L E T I N
Application Guidelines For
AF, AR & AS Refrigeration Hermetic Compressors
AE4-1305 R5 July 2011
Application EngineeringB U L L E T I N
INDEX PAGE
1. Introduction .................................................... 1
2. Nomenclature ................................................. 1
3. Operating Envelopes ..................................... 1
4. Superheat Requirements ............................... 1
5. Suction Accumulator ...................................... 2
6. Crankcase Heaters ........................................ 27. Lubricants ...................................................... 2
8. Practical Considerations ................................ 2
9. Electrical Connections ................................... 3
10. Mounting ........................................................ 4
1. Introduction
Hermetic compressors have been developed for the 1/8hp to 1 hp refrigeration applications. These compressors
are designed to operate safely and reliably in the high,medium and extended medium temperature ranges. Inaddition, some of the extended medium temperaturecompressors have the ability to operate in the lowtemperature range with SPECIAL APPLICATIONENGINEERING APPROVAL. It must be noted however,that under low evaporating conditions the operatingenvelope for these models is restricted.
2. Nomenclature
The HFC compressor model numbers include thenominal capacity at the standard ARI 60Hz rating
Table 1
Model Refrigerant Lubricant Envelope
AF R-404A/R-507 ICI RL224B Figure 7
AS R-404A/R-507 ICI RL224B Figure 8
AF R-134a ICI RL224B Figure 9
AR R-134a ICI RL224B Figure 10
AR R-22 AB46 Figures 11 and 12
conditions. The HCFC models still refer to the nominalhorsepower, (hp). Please refer to product literature for speci c model number details.
3. Operating Envelope
There are several refrigerants that have been approvedfor use with the A family of compressors, see Table 1 .These models are intended for refrigeration type duty.The approved operating envelopes are depicted inFigures 7 through 12 . Published performance tablesand coef cients will only contain data to 90F condensingtemperature. However, the compressors are approvedto operate to 70F condensing temperature.
The envelopes are de ned by the following compressor limitations:
Discharge line temperature 225F Discharge valve backer 275F Oil sump 200F Motor windings 275F
4. Superheat Requirements
In order to assure that liquid refrigerant does notreturn to the compressor during the running cycle,attention must be given to maintaining proper superheat at the compressor suction inlet. EmersonClimate Technologies recommends a minimum of 20Fsuperheat, measured on the suction line 6 inches fromthe suction valve, to prevent refrigerant oodback.
Another method to determine if liquid is coming to thecompressor is to accurately measure the difference in
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2 2011 Emerson Climate TechnologiesPrinted in the U.S.A.
AE4-1305 R5
Application EngineeringB U L L E T I N
temperature between the compressor oil crankcase andthe return line. If this delta can be kept at a minimum of 50F, no liquid will be present in the crankcase.
5. Suction Accumulator
The addition of a suction accumulator can be an effectivemethod to prevent damage to the compressor dueto continuous oodback. Through extensive testing,Emerson recommends the use of suction accumulatorsif the system refrigerant charge exceeds the followinglimits as shown in Table 2.
6. Crankcase Heaters
Crankcase heaters are recommended on all outdoor
applications or indoor applications below 40F. Acrankcase heater is also required on any system withan accumulator.
7. Lubricants
Compressors that are approved for use with HFCrefrigerants are charged with polyol ester lubricant(POE). HFC refrigerants require the use of a POElubricant to provide proper miscibility and lubricity.The model nomenclature denotes if the compressor is
charged with a POE lubricant. If the eighth character in the model nomenclature is the letter E then thecompressor is charged with a POE lubricant, example
AFE13C4E-IAA.
R-22 models are supplied with alkylbenzene oil. It is notre ected in the model number.
In the event lubricant needs to be added to the system,the proper approved lubricant must be used. SeeForm 93-11 , Refrigerants/Lubricants Approved For Use In Copeland Compressors for a complete list of approved lubricants. The compressor recharge is 2oz.less than the oil charge listed on the nameplate.
8. Practical Considerations
The application restrictions imposed on these modelswill require careful system design. Some considerationsfor the designer are as follow:
1. Units operating at low evaporator temperatures willbe susceptible to overheating with dirty condensersand/or restricted air ow. Large condensers (withlow TDs) should be designed into systems usingthese compressors and proper condenser coilmaintenance will be more critical.
Table 2
Third Character Designation
Compressor Shell SeriesRefrigerant Type
Refrigerant ChargeLimitations
(ounces) AF(B) R-404A 10.6
AR(B) R-134a / R-22 10.6
AS(B) R- 404A / R-507 10.6
AF(E) R-134a / R-404A / R-507 10.6
AR(E) R-134a / R-22 10.6
AS(E) R-404A / R-507 10.6
AF(T) R-134a / R-404A / R-507 14.1
AR(T) R-134a / R-22 14.1
AS(T) R-404A / R-507 14.1
AF(J) R-404A / R-507 29.0
AR(J) R-134a 29.0
ARD R-22 10.6
ARF R-22 10.6
ARG R-22 10.6
ARN R-22 14.1
ARM R-22 14.1
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3 2011 Emerson Climate TechnologiesPrinted in the U.S.A.
AE4-1305 R5
Application EngineeringB U L L E T I N
2. Minimum suction line pressure drops willbe important to maintain SST limits at thecompressor.
3. Traditional superheat settings at the TXVs maybe too high to maintain the return gas temperaturelimits speci ed.
4. Suction lines should be well insulated.
5. Suction to liquid heat exchangers may not bedesirable if return gas temperatures speci ed areto be maintained.
9. Electrical Connections
Single phase motor connections are shown below.See Figures 1 through 4.
Figure 1 Figure 2
Figure 3 Figure 4
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4 2011 Emerson Climate TechnologiesPrinted in the U.S.A.
AE4-1305 R5
Application EngineeringB U L L E T I N
10. Mounting
The AF, AR and AS compressors are internally spring mounted to reduce vibrations. Resilienttype mounts have been developed speci cally for these compressors. See Table 3 . Typicalmounting assemblies are shown in Figures 5 and 6.
Table 3Mounting Kits
Third Character Designation
Compressor shell series
EmersonMounting Kit Part Number Frequency
AF(B) 527-C001-02 50 & 60 Hertz
AR(B) 527-C001-02 50 & 60 Hertz
AS(B) 527-C001-02 50 & 60 Hertz
AF(E) 527-C001-02 50 & 60 Hertz
AR(E) 527-C001-02 50 & 60 Hertz
AS(E) 527-C001-02 50 & 60 Hertz
AF(T) 527-C001-00 50 & 60 Hertz
AR(T) 527-C001-00 50 & 60 Hertz
AS(T) 527-C001-00 50 & 60 Hertz
ARD 527-C001-02 50 & 60 Hertz
ARF 527-C001-02 50 & 60 Hertz
ARG 527-C001-02 50 & 60 Hertz
Figure 5Mounting Kit 527-C001-00
028-0188-21
027-C210-04
Mounting Stud, 5/16
Washer
Rubber MountingSpacer
Metal Sleeve
Compressor Mounting Foot
Lockwasher
Mounting Nut
Mounting Base
Typical Mounting Assembly for Grommets Designedfor Straight Through Sleeves or Studs
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5 2011 Emerson Climate TechnologiesPrinted in the U.S.A.
AE4-1305 R5
Application EngineeringB U L L E T I N
Mounting Stud, 5/16
Washer
Rubber MountingSpacer
Metal Sleeve
Compressor Mounting Foot
Lockwasher
Mounting Nut
Mounting Base
Typical Mounting Assembly for Grommets Designedfor Straight Through Sleeves or Studs
028-0188-20
027-C210-03
Figure 6Mounting Kit 527-C001-02
21
32
49
60
o C
-32 -18o C -9
AF
60
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80
90
100
110
120
130
140
150
-50 -40 -30 -20 -10 0 10 20 30 40 50 60
AF
Figure 7 Figure 8
R404A/507 - EXT. MED TEMP. R404A/507 - MED TEMP.
60
70
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90
100
110
120
130
140
150
-50 -40 -30 -20 -10 0 10 20 30 40 50 60
-23 -1 10o C
21
32
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60
o C
AS
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6 2011 Emerson Climate TechnologiesPrinted in the U.S.A.
AE4-1305 R5
Application EngineeringB U L L E T I N
-32 -18o C -9
21
32
49
60
o C
60
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-50 -40 -30 -20 -10 0 10 20 30 40 50 60
AF
60
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90
100
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120
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-50 -40 -30 -20 -10 0 10 20 30 40 50 60
-18 -1 10o C
21
32
43
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o C
40 o R.G.
AR
60
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-50 -40 -30 -20 -10 0 10 20 30 40 50 60
-18 -1 10o C
21
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o C
65 o R.G.40 o
R.G.
MAX
AR
Figure 11 Figure 12
Figure 9 Figure 10
R134a - EXT. MED. TEMP. R134a - HIGH TEMP.
R22 - MED. TEMP. R22 - HIGH TEMP.
60
70
80
90
100
110
120
130
140
150
-50 -40 -30 -20 -10 0 10 20 30 40 50 60
-9 4o C 16
21
32
49
60
o C
AR
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