Fan & roof vent selection, Roof vent selection – Grain Systems PNEG-501 User Manual

8

Fan/Heater Application

FAN & ROOF VENT SELECTION

STEP 1.

Determine the average grain depth

for a desired bin size:

LEVEL FILL -AVE GRAIN DEPTH (ft) =

EAVE HEIGHT (ft) - FLOOR HEIGHT ft)

PEAKED FILL- AVE GRAIN DEPTH (ft) =

EAVE HEIGHT (ft) + BIN DIAMETER

(ft) ÷12, Minus FLOOR HEIGHT (ft)

STEP 2.

Select airflow rate in CFM/BU:

Use SUGGESTED AIRFLOW RATES (page 13-30) for

desired drying or aeration conditions.

STEP 3.

Using the STATIC PRESSURE

TABLES:

For a selected grain, find the static pressure for the

corresponding AVE GRAIN DEPTH and AIRFLOW

RATE. Use the nearest height or approximate where

necessary. Where stirring machines are to be used, use

charts for stirring.

STEP 4.

Determine bin capacity:

BUSHELS = AVE GRAIN DEPTH (ft) x 0.6594 x

DIAMETER (ft) x DIAMETER (ft)

This capacity includes 5% compaction.

Since the calculation uses an average grain depth, the

capacity may vary from published sales capacities.

STEP 5.

Find the required TOTAL AIR

FLOW in CFM:

TOTAL AIRFLOW (cfm) = AIRFLOW RATE x

BUSHELS

IMPORTANT!

If more than one fan is desired for a system, divide the

TOTAL AIRFLOW by the number of fans to get the

CFM REQUIRED PER FAN for fan Selection.

STEP 6.

Using the FAN PERFORMANCE

TABLE for vane axial or centrifugal fans, the TOTAL

STATIC PRESSURE from Step 3, and the CFM

PER FAN from Step 5, select the fan best

meeting the requirements. For best fan perfor-

mance, a fan should run in the mid-range of is static

pressure ratings, if possible. Should excessive

static pressures be encountered, as with small grain

or very high airflows, consult GSI engineering for

the best fan choice.

NOTE: Consult GSI engineering where hopper

tank aeration is in question.

Roof Vent Selection

STEP 7.

Determine MINIMUM number of

roof vents:

NUMBER ROOF VENTS = TOTAL AIRFLOW

(cfm) ÷ 1800 (cfm per vent)

If less than a full bin is intended an increased

number of roof vents will be necessary. The same

fan will produce a greater airflow when the bin is

less than full, due to less resistance from the grain.

An inadequate number of vents may have two

undesired effects

1) adding to the static pressure causing poor

fan performance and less air through the grain than

intended, and

2) possible structural damage to the roof

due to this increased pressure. Ideally, there should

be near zero static pressure in the space between the

grain and the roof.

A good estimate of vent numbers particu-

larly in drying situations, would be using the CFM

from the FAN PERFORMANCE TABLE at one-

half the static pressure anticipated. This new value

should be divided by 1800 CFM/VENT.