Performance data (cont)

GROSS COOLING CAPACITIES (cont)

50AH048

Temp

 

 

 

 

Evaporator Air Quantity Cfm/BF

 

 

 

Air Ent

 

 

1200/0.06

 

 

1600/0.08

 

 

 

2000/0.10

 

Condenser

 

 

 

Evaporator Air Ewb Temp (F)

 

 

 

(F)

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

72

67

62

57

72

67

62

 

57

72

67

62

57

 

 

 

 

 

TC

 

56.0

52.1

47.9

44.4

57.7

54.5

50.6

 

49.6

59.4

56.0

52.7

52.3

85

SHC

 

27.8

34.8

41.6

44.4

30.2

39.6

48.0

 

49.6

32.8

43.9

52.5

52.3

 

kW

 

3.77

3.68

3.59

3.53

3.81

3.74

3.66

 

3.64

3.85

3.77

3.70

3.69

 

TC

 

54.0

50.1

45.7

42.4

55.7

52.3

48.6

 

47.3

57.4

53.8

51.0

50.9

95

SHC

 

27.1

34.0

40.4

42.4

29.6

38.8

47.0

 

47.3

32.4

43.2

50.9

50.9

 

kW

 

4.21

4.11

4.01

3.95

4.25

4.18

4.09

 

4.07

4.31

4.21

4.15

4.15

 

TC

 

51.8

47.9

42.3

40.2

53.6

50.0

45.1

 

45.0

54.6

51.4

48.9

48.6

105

SHC

 

26.3

33.1

38.8

40.2

29.0

38.0

44.8

 

45.0

31.3

42.4

48.9

48.6

 

kW

 

4.69

4.58

4.45

4.40

4.75

4.65

4.54

 

4.53

4.77

4.69

4.63

4.63

 

TC

 

49.5

45.5

38.6

37.7

51.2

47.6

41.9

 

42.1

52.2

49.1

45.8

45.8

115

SHC

 

25.5

32.2

37.0

37.7

28.3

27.3

41.8

 

42.1

30.7

42.0

45.8

45.8

 

kW

 

5.21

5.09

4.92

4.89

5.27

5.17

5.03

 

5.03

5.30

5.23

5.14

5.14

 

 

 

 

LEGEND

 

 

 

 

 

 

 

 

 

BF

Bypass Factor

 

 

 

 

 

 

 

 

 

 

Ewb

Entering Wet-Bulb

 

 

 

 

 

 

 

 

 

 

kW

Compressor Motor Power Input (kilowatts)

 

 

 

 

 

SHC

Gross Sensible Heat Capacity (1000 Btuh)

 

 

 

 

TC

Gross Total Cooling Capacity (1000 Btuh)

 

 

 

 

 

NOTES:

1.Performance based on nominal condenser airflow listed in physical data table on page 3.

2.SHC is based on 80 F db temperature of air entering the coil.

Below 80 F db, subtract (corr factor x cfm) from SHC.

Above 80 F db, add (corr factor x cfm) to SHC.

BYPASS

 

ENTERING AIR DRY-BULB TEMPERATURE (F)

79

 

78

77

76

75

Under 75

FACTOR

 

81

 

82

83

84

85

Over 85

(BF)

 

 

 

 

 

Correction Factor

 

.025

1.07

 

2.12

3.19

4.25

5.32

 

.05

1.04

 

2.07

3.11

4.14

5.18

 

.10

.98

 

1.96

2.94

3.92

4.90

Use formula

.20

.87

 

1.74

2.62

3.49

4.36

shown below

.30

.76

 

1.53

2.29

3.05

3.82

 

.35

.71

 

1.42

2.13

2.83

3.54

 

Correction Factor = 1.10 x (1 – BF) x db – 80)

50AH060

Temp

 

 

 

 

 

Evaporator Air Quantity — Cfm/BF

 

Air Ent

 

 

 

1500/0.06

 

 

 

 

 

2000/0.09

 

 

2250/0.10

 

Condenser

 

 

 

 

 

 

Evaporator Air Ewb Temp (F)

 

 

 

 

(F)

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

72

 

67

 

62

 

72

 

67

 

62

72

 

67

 

62

 

 

 

 

 

 

 

 

 

 

 

TC

 

64.8

 

58.5

 

52.9

 

68.0

 

61.5

 

56.3

68.9

 

62.5

 

58.0

85

SHC

 

33.2

 

41.1

 

48.5

 

37.2

 

47.3

 

55.7

38.9

 

50.0

 

57.7

 

kW

 

4.49

 

4.29

 

4.13

 

4.59

 

4.83

 

4.22

4.62

 

4.41

 

4.27

 

TC

 

61.9

 

55.7

 

50.2

 

65.1

 

58.7

 

54.0

66.1

 

59.7

 

55.8

95

SHC

 

32.3

 

40.1

 

47.3

 

36.4

 

46.5

 

54.0

38.2

 

49.3

 

55.8

 

kW

 

4.94

 

4.72

 

4.57

 

5.04

 

4.81

 

4.67

5.07

 

4.84

 

4.72

 

TC

 

58.5

 

52.4

 

47.2

 

61.5

 

55.2

 

51.4

62.6

 

56.3

 

53.3

105

SHC

 

31.1

 

38.8

 

45.8

 

35.2

 

45.2

 

51.4

37.1

 

48.1

 

58.2

 

kW

 

5.41

 

5.20

 

5.04

 

5.51

 

5.28

 

5.16

5.55

 

5.32

 

5.22

 

TC

 

54.9

 

49.0

 

44.1

 

57.8

 

51.7

 

48.7

58.7

 

52.6

 

50.4

115

SHC

 

29.8

 

37.5

 

44.0

 

34.0

 

43.9

 

48.7

35.9

 

46.7

 

50.4

 

kW

 

5.93

 

5.72

 

5.56

 

6.04

 

5.80

 

5.70

6.07

 

5.83

 

5.75

The following formulas may be used:

 

 

 

 

 

 

 

 

 

 

 

 

tldb =

tedb

sensible capacity (Btuh)

 

 

 

 

 

 

 

 

 

 

 

 

1.10 x cfm

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

tlwb = Wet-bulb temperature corresponding to enthalpy of air leaving

 

 

evaporator col (hlwb).

 

 

 

 

 

 

 

 

 

 

 

 

 

 

hlwb =

hewb

 

total capacity (Btuh)

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

4.5 x cfm

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Where:

hewb = Enthalpy of air entering evaporator coil

EVAPORATOR FAN PERFORMANCE

 

 

 

 

 

 

UNIT SIZE — 50AH

 

 

 

 

 

CFM

 

024

036

 

 

048*

 

060*

 

ESP

 

Fan kW

ESP

 

Fan kW

ESP

 

Fan kW

ESP

 

Fan kW

600

.60

 

.20

 

 

 

700

.54

 

.22

 

 

 

800

.43

 

.24

 

 

 

900

.29

 

.26

.69

 

.44

 

 

1000

.11

 

.29

.57

 

.46

 

 

1100

 

.42

 

.49

1.10

 

.45

1.11

 

.52

1200

 

.23

 

.52

1.01

 

.49

1.045

 

.55

1300

 

 

.90

 

.51

.97

 

.57

1400

 

 

.79

 

.55

.88

 

.59

1500

 

 

.67

 

.58

.78

 

.62

1600

 

 

.54

 

.61

.67

 

.64

1700

 

 

.39

 

.64

.53

 

.67

1800

 

 

.22

 

.67

.52

 

.70

1900

 

 

.03

 

.70

.40

 

.74

2000

 

 

 

.28

 

.78

LEGEND

ESP — External Static Pressure (in. wg)

kW — Total Fan Motor Power Input (kilowatts)

*Standard direct drive indoor (evaporator) fan motor (IFM). For optional belt drive IFM performance, see table on page 8.

NOTES:

1.Above fan performance is based on wet coil and deducted casing losses, and clean factory-installed permanent cleanable filter.

2.Evaporator fans are direct drive (except 048, 060 special order evaporator-fan motor option). Refer to Belt Drive Evaporator Fan Performance table on page 8.

3.Interpolation is permissible, do not extrapolate.

4.For units installed with accessory electric heaters, see Electric Heater Static Pressure Drop table for additional performance losses.

7

Page 7
Image 7
Carrier manual Evaporator FAN Performance, Unit Size 50AH CFM, Esp