System considerations, Airstream temperature variations, Njo>0vumfu"sfb<gu – Greenheck Fan QEP User Manual

Page 11: Njo> joyjo<jo, Gunjo> system effect, Y%fotjuz<mcgu, Y   &yju7fmpdjuz<gunjo, Yy

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11

System
Considerations



3. System effects for plenum discharges must also be

calculated and added to the design pressure. In a
properly designed plenum (see Duct System Effect
section), the system effect coefficient (C

o

) depends

on the orientation of the discharge relative to the fan
and duct connection (if any). For air plenums with
multiple discharges, calculate the system effect by
using the highest loss coefficient for all discharges.
In this example, the discharges are ducted so the
highest loss will be axial (C

o

 "TTVNFUIBUUIF

two discharges will each handle 10,000 cfm.

Plenum Exit Velocity [ft/min]



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System Effect

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4. Now select a fan size from the catalog data based

on the corrected performance. The corrected static
QSFTTVSF PG  JO XH QMVT UIF TZTUFN FGGFDU PG
JO XH NFBOT UIF GBO TIPVME CF TFMFDUFE GPS
20,000 cfm at 4.0 in. wg. A size 33 plenum will meet
this performance at 1290 frpm using 17.9 bhp.

(Note: The bhp does not include drive losses. Consult
AMCA Publication 203-90 for help in estimating drive
MPTTFT  #BTFE PO UIF SFRVJSFE GSQN  UIF VTFS IBT
the option of selecting either model QEM or QEP.

Airstream Temperature Variations

8IFO B GBO JT TFMFDUFE  UXP UFNQFSBUVSFT JO UIF
airstream should be considered: Start-up and normal
PQFSBUJPO 8IJMF UIF IQ SFRVJSFE JT SFEVDFE BU IJHIFS
temperatures, the motor must be sized based the lowest
temperature that could be present in the airstream
(when air density is at its maximum value).

Reconsider the example assuming that the fan
was operating at 9,000 ft. elevation with a start-up
BJSTUSFBNUFNQFSBUVSFPG¡'BOEBOPSNBMPQFSBUJOH
UFNQFSBUVSFPG¡' /PUFUIFOFXOPSNBMPQFSBUJOH
conditions require the same density correction factor
as 13,000 ft. elevation at 70°F, so the fan selection is
still valid.)

'JSTU DBMDVMBUFIQBUUIFTUBSUVQDPOEJUJPO'PS¡'
at 9,000 ft. elevation, the air density correction factor
(Table 2A) is 1.14. Divide the cataloged bhp by the
correction factor.

 ŸCIQBUTUBSUVQ

Now calculate hp during normal operation using the
TBNFQSPDFEVSF CVUGPS¡'BU GUFMFWBUJPO

 ŸCIQEVSJOHOPSNBMPQFSBUJPO

The motor should be sized based on the larger of these
two values. So although the normal operation would
POMZSFRVJSFBIQNPUPS UIFGBOTIPVMECFTFMFDUFE
with a 20 hp motor based on the higher hp requirement
at start-up.

5"#-&" %FOTJUZ$PSSFDUJPO'BDUPST


*NQFSJBM6OJUT

ELEVATION (FEET ABOVE SEA LEVEL)

0

1000

2000

3000

4000

5000

6000

7000

8000

9000 10000 11000 12000 13000

AIRSTREAM TEMPERATURE (°F)

-50

0.77

0.80

0.83

0.86

0.89

0.93

0.96

1.00

1.03

1.07

1.11

1.15

1.20

1.24

-25

0.82

0.85

0.88

0.92

0.95

0.98

1.02

1.06

1.10

1.14

1.18

1.22

1.27

1.32

0

0.87

0.90

0.93

0.97

1.00

1.04

1.08

1.12

1.16

1.20

1.25

1.29

1.34

1.39

50

0.96

1.00

1.03

1.07

1.11

1.15

1.20

1.24

1.29

1.33

1.38

1.44

1.49

1.54

70

1.00

1.04

1.08

1.12

1.16

1.20

1.24

1.29

1.34

1.39

1.44

1.49

1.55

1.60

100

1.06

1.10

1.14

1.18

1.22

1.27

1.31

1.36

1.41

1.47

1.52

1.58

1.63

1.69

150

1.15

1.19

1.24

1.28

1.33

1.38

1.43

1.48

1.54

1.60

1.66

1.72

1.78

1.85

200

1.25

1.29

1.34

1.39

1.44

1.49

1.55

1.61

1.67

1.73

1.79

1.86

1.93

2.00

250

1.34

1.39

1.44

1.49

1.55

1.61

1.67

1.73

1.79

1.86

1.93

2.00

2.07

2.15

300

1.43

1.49

1.54

1.60

1.66

1.72

1.78

1.85

1.92

1.99

2.06

2.14

2.22

2.30

350

1.53

1.58

1.64

1.70

1.77

1.83

1.90

1.97

2.04

2.12

2.20

2.28

2.36

2.45

400

1.62

1.68

1.74

1.81

1.88

1.95

2.02

2.09

2.17

2.25

2.33

2.42

2.51

2.60

450

1.72

1.78

1.85

1.91

1.99

2.06

2.14

2.21

2.30

2.38

2.47

2.56

2.66

2.75

500

1.81

1.88

1.95

2.02

2.09

2.17

2.25

2.34

2.42

2.51

2.60

2.70

2.80

2.90

550

1.91

1.98

2.05

2.13

2.20

2.29

2.37

2.46

2.55

2.64

2.74

2.84

2.95

3.06

600

2.00

2.07

2.15

2.23

2.31

2.40

2.49

2.58

2.67

2.77

2.88

2.98

3.09

3.21

650

2.09

2.17

2.25

2.34

2.42

2.51

2.60

2.70

2.80

2.90

3.01

3.12

3.24

3.36

700

2.19

2.27

2.35

2.44

2.53

2.62

2.72

2.82

2.93

3.04

3.15

3.26

3.38

3.51

750

2.28

2.37

2.46

2.55

2.64

2.74

2.84

2.94

3.05

3.17

3.28

3.40

3.53

3.66

800

2.38

2.47

2.56

2.65

2.75

2.85

2.96

3.07

3.18

3.30

3.42

3.55

3.68

3.81

850

2.47

2.56

2.66

2.76

2.86

2.96

3.07

3.19

3.31

3.43

3.55

3.69

3.82

3.96

900

2.57

2.66

2.76

2.86

2.97

3.08

3.19

3.31

3.43

3.56

3.69

3.83

3.97

4.12

950

2.66

2.76

2.86

2.97

3.08

3.19

3.31

3.43

3.56

3.69

3.83

3.97

4.11

4.27

1000

2.75

2.86

2.96

3.07

3.19

3.30

3.43

3.55

3.68

3.82

3.96

4.11

4.26

4.42

ELEVATION (METERS ABOVE SEA LEVEL)

0

250

500

750

1000

1250

1500

1750

2000

2250

2500

2750

3000

3500

AIRSTREAM TEMPERATURE (°C)

-50

0.76

0.78

0.81

0.83

0.85

0.88

0.91

0.93

0.96

0.99

1.02

1.05

1.08

1.15

-25

0.84

0.87

0.90

0.92

0.95

0.98

1.01

1.04

1.07

1.10

1.14

1.17

1.21

1.28

0

0.93

0.96

0.99

1.02

1.05

1.08

1.11

1.14

1.18

1.21

1.25

1.29

1.33

1.41

21

1.00

1.03

1.06

1.09

1.13

1.16

1.20

1.23

1.27

1.31

1.35

1.39

1.43

1.52

50

1.10

1.13

1.17

1.20

1.24

1.27

1.31

1.35

1.39

1.44

1.48

1.52

1.57

1.67

75

1.18

1.22

1.26

1.29

1.33

1.37

1.41

1.46

1.50

1.55

1.59

1.64

1.69

1.80

100

1.27

1.31

1.35

1.39

1.43

1.47

1.52

1.56

1.61

1.66

1.71

1.76

1.81

1.92

125

1.35

1.39

1.44

1.48

1.52

1.57

1.62

1.67

1.72

1.77

1.82

1.88

1.93

2.05

150

1.44

1.48

1.53

1.57

1.62

1.67

1.72

1.77

1.82

1.88

1.94

2.00

2.06

2.18

175

1.52

1.57

1.62

1.67

1.72

1.77

1.82

1.88

1.93

1.99

2.05

2.11

2.18

2.31

200

1.61

1.66

1.71

1.76

1.81

1.87

1.92

1.98

2.04

2.10

2.17

2.23

2.30

2.44

225

1.69

1.74

1.80

1.85

1.91

1.96

2.02

2.09

2.15

2.21

2.28

2.35

2.42

2.57

250

1.78

1.83

1.89

1.94

2.00

2.06

2.13

2.19

2.26

2.32

2.39

2.47

2.54

2.70

275

1.86

1.92

1.98

2.04

2.10

2.16

2.23

2.29

2.36

2.44

2.51

2.58

2.66

2.83

300

1.95

2.01

2.07

2.13

2.19

2.26

2.33

2.40

2.47

2.55

2.62

2.70

2.78

2.96

325

2.03

2.09

2.16

2.22

2.29

2.36

2.43

2.50

2.58

2.66

2.74

2.82

2.91

3.08

350

2.12

2.18

2.25

2.31

2.38

2.46

2.53

2.61

2.69

2.77

2.85

2.94

3.03

3.21

375

2.20

2.27

2.34

2.41

2.48

2.56

2.63

2.71

2.79

2.88

2.97

3.06

3.15

3.34

400

2.29

2.36

2.43

2.50

2.58

2.65

2.73

2.82

2.90

2.99

3.08

3.17

3.27

3.47

425

2.37

2.44

2.52

2.59

2.67

2.75

2.84

2.92

3.01

3.10

3.20

3.29

3.39

3.60

450

2.46

2.53

2.61

2.69

2.77

2.85

2.94

3.03

3.12

3.21

3.31

3.41

3.51

3.73

475

2.54

2.62

2.70

2.78

2.86

2.95

3.04

3.13

3.23

3.32

3.42

3.53

3.63

3.86

500

2.63

2.71

2.79

2.87

2.96

3.05

3.14

3.24

3.33

3.43

3.54

3.65

3.76

3.99

550

2.80

2.88

2.97

3.06

3.15

3.25

3.34

3.44

3.55

3.66

3.77

3.88

4.00

4.24

5"#-&# %FOTJUZ$PSSFDUJPO'BDUPST


.FUSJD6OJUT

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