8

TABLE 5: EVAPORATOR FAN PERFORMANCE - CU 5-25 TON VERTICAL MODELS

MODEL #

SUPPLY CFM

0.2

0.4

0.6

0.8

1.0

1.2

1.4

1.6

1.8

2.0

2.2

2.4

2.6

2.8

3.0

RPM

 

BHP

RPM

 

BHP

RPM

 

BHP

RPM

 

BHP

RPM

 

BHP

RPM

 

BHP

RPM

 

BHP

RPM

 

BHP

RPM

 

BHP

RPM

 

BHP

RPM

 

BHP

RPM

 

BHP

RPM

 

BHP

RPM

 

BHP

RPM

 

BHP

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

1800

791

 

0.46

872

 

0.53

948

 

0.60

1019

 

0.68

1090

 

0.76

1159

 

0.85

1193

 

0.89

1259

 

0.98

1321

 

1.07

1380

 

1.16

1437

 

1.25

1492

 

1.35

1544-

 

1.44-

-

 

-

-

 

-

CU060

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

2000

860

 

0.60

935

 

0.69

1006

 

0.77

1077

 

0.85

1136

 

0.94

1199

 

1.03

1263

 

1.12

1324

 

1.22

1383

 

1.32

1440

 

1.42

1494

 

1.52

-

 

-

 

 

 

-

 

-

-

 

-

 

2200

931

 

0.79

1001

 

0.88

1067

 

0.97

1129

 

1.06

1189

 

1.15

1247

 

1.25

1305

 

1.35

1363

 

1.45

1419

 

1.55

-

 

-

-

 

-

-

 

-

 

 

 

-

 

-

-

 

-

 

3000

568

 

0.70

628

 

0.81

688

 

0.92

746

 

1.05

801

 

1.19

855

 

1.35

906

 

1.50

954

 

1.65

1001

 

1.81

1046

 

1.97

-

 

-

-

 

-

 

 

 

-

 

-

-

 

-

CU096

3200

594

 

0.82

651

 

0.94

707

 

1.06

762

 

1.19

816

 

1.33

867

 

1.49

917

 

1.65

964

 

1.81

1010

 

1.98

-

 

-

-

 

-

-

 

-

 

 

 

-

 

-

-

 

-

 

3400

625

 

0.97

679

 

1.10

731

 

1.22

784

 

1.35

835

 

1.50

884

 

1.66

933

 

1.83

979

 

2.00

-

 

-

-

 

-

-

 

-

-

 

-

 

 

 

-

 

-

-

 

-

 

3600

620

 

1.04

666

 

1.16

716

 

1.29

765

 

1.43

815

 

1.56

864

 

1.71

912

 

1.88

958

 

2.00

1003

 

2.03

1046

 

2.41

1088

 

2.60

1129

 

2.78

1169

 

2.97

-

 

-

-

 

-

CU120

4000

681

 

1.40

721

 

1.53

765

 

1.68

811

 

1.83

856

 

1.97

900

 

2.13

945

 

2.29

988

 

2.46

1030

 

2.65

1071

 

2.84

1112

 

3.05

-

 

-

-

 

-

-

 

-

-

 

-

 

4400

726

 

1.77

760

 

1.91

797

 

2.05

837

 

2.21

878

 

2.38

919

 

2.54

960

 

2.70

1001

 

2.87

1040

 

3.05

-

 

-

-

 

-

-

 

-

 

 

 

-

 

-

-

 

-

 

5400

645

 

1.52

709

 

1.79

770

 

2.06

829

 

2.35

885

 

2.65

939

 

2.96

991

 

3.28

1042

 

3.61

1092

 

3.96

1140

 

4.32

1190

 

4.71

-

 

-

-

 

-

-

 

-

-

 

-

CU180

6000

700

 

2.00

759

 

2.30

815

 

2.60

870

 

2.91

922

 

3.23

973

 

3.56

1022

 

3.90

1070

 

4.25

1116

 

4.62

1162

 

4.99

-

 

-

-

 

-

-

 

-

-

 

-

-

 

-

 

6600

761

 

2.63

815

 

2.94

867

 

3.26

917

 

3.60

966

 

3.94

1014

 

4.29

1060

 

4.66

1104

 

5.02

-

 

-

-

 

-

-

 

-

-

 

-

-

 

-

-

 

-

-

 

-

 

7200

659

 

2.10

714

 

2.37

767

 

2.65

817

 

2.94

866

 

3.23

912

 

3.52

957

 

3.82

998

 

4.13

1037

 

4.44

1076

 

4.76

1115

 

5.11

1154

 

5.47

1193

 

5.73

1230

 

6.10

1265

 

6.46

CU240

8000

719

 

2.81

770

 

3.11

818

 

3.42

865

 

3.73

910

 

4.05

954

 

4.37

997

 

4.70

1038

 

5.03

1078

 

5.36

1115

 

5.71

1151

 

6.08

1186

 

6.46

1220

 

6.84

1254

 

7.23

-

 

-

 

8800

782

 

3.67

828

 

4.00

873

 

4.34

916

 

4.68

959

 

5.02

1000

 

5.37

1040

 

5.73

1079

 

6.09

1117

 

6.45

1154

 

6.81

1190

 

7.18

-

 

-

-

 

-

-

 

-

-

 

-

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

NOTE:

At higher evaporator airflows and wet bulb conditions, condensate carry-over may occur. Adjust airflow downward as necessary

Values include pressure drop from wet coil and clean filters.

Shaded areas indicate oversize motors.

TABLE 6: EVAPORATOR BLOWER PERFORMANCE - DATA CU300 - 25 TON MODEL

MODEL

SUPPLY

 

 

 

 

 

 

 

 

 

 

 

EXTERNAL STATIC PRESSURE - Inches - W.C.

 

 

 

 

 

 

 

 

 

 

 

#

CFM

 

0.2

 

0.4

 

0.6

0.8

 

1.0

 

 

1.2

 

1.4

 

1.6

 

1.8

 

2.0

 

 

RPM

 

BHP

RPM

 

BHP

RPM

 

BHP

RPM

 

BHP

RPM

 

BHP

RPM

 

BHP

RPM

 

BHP

RPM

 

BHP

RPM

 

BHP

RPM

 

BHP

 

9000

800

 

3.93

846

 

4.27

890

 

4.61

932

 

4.96

974

 

5.32

1014

 

5.67

1053

 

6.03

1092

 

6.40

1129

 

6.77

1166

 

7.14

CU300

10000

878

 

5.29

920

 

5.67

960

 

6.05

999

 

6.43

1037

 

6.82

1074

 

7.21

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

1111

 

7.61

1147

 

8.01

1182

 

8.41

1216

 

8.82

 

11000

958

 

6.95

996

 

7.37

1033

 

7.79

1069

 

8.21

1104

 

8.63

1139

 

9.05

1173

 

9.48

1206

 

9.92

-

 

-

-

 

-

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

NOTE:

At higher evaporator airflows and wet bulb conditions, condensate carry-over may occur. Adjust airflow downward as necessary

Values include pressure drop from wet coil and clean filters.

Shaded areas indicate oversize motors.

Unitary Products Group

036-21217-001-B-1203

Page 8
Image 8
York CH060 Evaporator FAN Performance CU 5-25 TON Vertical Models, Evaporator Blower Performance Data CU300 25 TON Model

CU060, CH060 specifications

The York CU060 and CH060 units represent a noteworthy combination of efficiency and advanced technological capabilities in the realm of commercial heating and cooling. These models are widely recognized for their robust performance and reliability, making them ideal for a variety of applications.

The CU060 is an air-cooled chiller that excels in providing reliable cooling for medium to large commercial buildings. It employs advanced scroll compressor technology that significantly enhances efficiency during operation. This results in lower energy consumption while maintaining optimal cooling performance. The high-efficiency rating also aligns with environmental regulations, supporting organizations in their sustainability goals.

One of the standout features of the CU060 is its microchannel condenser coils, which facilitate improved heat exchange capabilities. This design not only reduces refrigerant charge but also enhances the overall energy efficiency of the unit. These coils are resistant to corrosion and require less maintenance, contributing to a lower total cost of ownership over time.

On the other hand, the CH060 is designed specifically for heating applications, utilizing a hot water or steam configuration. This unit is ideal for commercial spaces requiring effective climate control during colder months. The CH060 leverages advanced controls and monitoring technologies, allowing users to maintain desired temperature levels with precision. Its ability to integrate seamlessly with building management systems further adds to its appeal, facilitating automated control and real-time monitoring.

Both units are equipped with sound-dampening features to minimize operational noise, making them suitable for installations in noise-sensitive environments such as schools and hospitals. The compact design of the CU060 and CH060 allows for flexible installation options, making them suitable for limited-space applications.

Overall, York's CU060 and CH060 models are notable for their efficiency, innovative engineering, and adaptability to various commercial settings. They stand as reliable choices for organizations seeking to enhance their heating and cooling solutions while minimizing their environmental footprint. With a commitment to performance and sustainability, these units represent a forward-thinking approach to climate control in the commercial sector.