Greenheck Fan 452413 User Manual

23

Canopy Hood

®

1/2 width

1/2 height

Fig. 38

Nominal Filter Size (H x L)

Imperial

Conversion Factor

Metric

Conversion Factor

Inches

Millimeters

16 x 16

400 x 400

1.22

ft

2

.113

m

2

16 x 20

400 x 500

1.67

ft

2

.155

m

2

20 x 16

500 x 400

1.21

ft

2

.112

m

2

20 x 20

500 x 500

1.50

ft

2

.139

m

2

High Velocity Cartridge Filters

A. Exhaust

With all the filters in place, determine the total hood exhaust
volume with a Shortridge meter as follows:
1. All cooking equipment should be on. If the hood has

internal short circuit make-up air, it should be turned off.

2. Measuring Velocities

• Set up the Shortridge meter. Leave all holes of

Velgrid open. Do NOT tape over holes that are not
over openings. The conversion factor takes this into
account.

• Position the grid over each filter as shown.

• Take velocity readings for each filter.

3. *Calculate each filter’s volumetric flow rate by summing

the flow rate of each individual filter in the hood.

4. *Calculate the total hood’s volumetric flow rate by

summing the flow rate of each individual filter in the
hood.

*Note: For best accuracy multiply the velocity of each filter
by its conversion factor and sum the flow rates. Averaging the
velocity measured for all filters may cause error.

Fig. 37

Total hood flow rate

= (Filter 1 Flow Rate) + … + (Filter X Flow Rate)
= 423.0 + 421.8 + 420.7 + 418.2 = 1683.7 cfm

Flow rate for one filter

= Conversion

Factor

x

Average

Velocity

(Imperial)

=

1.50

x

282 fpm

=

423.0 cfm

(Metric)

=

.139

x 5157 m/hr =

717 m

3

/hr

Example: Measured velocities for 20 x 20 filter = 282 fpm (5157 m/hr)

= 717 + 717 + 715 + 711

= 2860 m

3

/hr