Kidde Fire Systems Surge Protector P/N 81-CO2MAN-001 Manuale Utente

Table 3-2A. Volume Factors - Surface Fires (For 34% CO

2

 Concentration), US Units

1

2

Up to 140

14

0.072

--

141 - 500

15

0.067

10

501 - 1,600

16

0.063

35

1,601 - 4,500

18

0.056

100

4,501 - 50,000

20

0.050

250

Over 50,000

22

0.046

2,500

Ducts and Covered Trenches 
(See Section 3-5.2.2.1)

8

0.125

--

September 2013

3-6

P/N 81-CO2MAN-001

3-5.2.2

BASIC TOTAL FLOODING QUANTITY

The discharge of carbon dioxide into an enclosure will displace a portion of the atmosphere in 

the enclosure. The displaced atmosphere is exhausted freely from the enclosure through 

openings or vents as the carbon dioxide is discharged. Since some suppression agent is lost 

with the vented atmosphere, the volume of carbon dioxide required to develop a given 

concentration will be greater than the volume that actually remains in the enclosure. This 

method of application is called "free efflux" flooding.

A small volume has proportionally more surface (or boundary) area per unit of enclosed volume 

than a larger volume, and has a proportionally greater leakage rate. Accordingly, larger 

quantities of carbon dioxide per unit of enclosed volume are injected into smaller volumes to 

account for the higher leakage rates anticipated upon discharge. The quantity of carbon dioxide 

per  unit  volume  is  called  the  Volume  Factor  and  is  shown  in  Table 3-2.  Also  note  that  the 

minimum quantity of CO

2

 is specified for the smallest volume in each group to avoid a possible 

overlap of CO

2

 requirements.

(Equation 1)

or

Where:

= Basic quantity of agent, lb.(kg)

 = 

Enclosure 

volume, 

ft.

3

 (m

3

)

= Volume factor from Table 3-2, 

ft.

3

/lb.(m

3

/kg)

= Volume factor from Table 3-2, lb./

ft.

3

 (kg

3

/m

3

)

1



=

2



=

1

2