Greenheck Fan 452413 User Manual

19

Canopy Hood

®

255

(4663.44 m/h)

248

(4535.42 m/h)

256

(4681.73 m/h)

240

(4389.12 m/h)

250

(4572 m/h)

Measure the velocity of each location.

A digital 2.75 in. (70 mm) rotating
vane anemometer or equivalent
is suggested. The center of the
anemometer should be held 2 in.
(50 mm) from the face of the filters as
shown in Fig. 30. It is helpful to make
a bracket to keep the anemometer
at the 2 in. (50 mm) distance and
parallel to the filter. Both squareness
and distance are very important for
accuracy.

Calculate the average velocity for the filter.

3. Determine the filter’s conversion factor from the table.

4. Calculate the filter’s volume in CFM (m

3

/hr) by multiplying the average velocity by the

conversion factor.

5. Calculate the hood’s volume by repeating the process for the remaining filters and summing the

individual filter volumes.

x

x

x

x

x

2 in.

H/4

H/2

H/4

H

Airflo

w

Rotating Vane Anemometer

Fig. 30

Nominal Filter Size (H x L)

Imperial

Conversion Factor

Metric

Conversion Factor

Inches

Millimeters

16 x 16

400 x 400

1.63

.157

16 x 20

500 x 400

2.13

.198

20 x 16

400 x 500

1.90

.177

20 x 20

500 x 500

2.48

.230

Total hood volume

= (Filter 1 Volume) + (Filter 2 Volume) + (Filter 3 Volume)
=

474.6

+

455.4

+

470.1

= 1400.1 cfm

=

809

+

880

+

799

= 2488 m

3

/hr

For a nominal filter size of 20 x 16, the conversion factor is 1.90 Imperial (.177 Metric)

Volume for one filter = Conversion Factor x

Average Velocity

=

1.90

x

249.8 fpm

=

474.6 cfm

=

.177

x

4568 m/hr

=

809 m

3

/hr

Example: Exhaust Only Hood with three 20 x 16 Filters

Measured velocities in fpm for one 20 x 16 Filter

Average Velocity

=

Sum of Velocity Readings
Number of Readings

(Imperial)

=

255 + 250 + 256 + 248 + 240

5

= 249.8 fpm

(Metric)

=

4663 + 4572 + 4681 + 4535 + 4389

5

= 4568 m/hr