7 calculation of compensation factor – Rinnai Q130SN Manuel d'utilisation

Installation & Servicing Instructions Rinnai Q-Series

37

!

WARNING

Compensation factor vent system CP(V)

table 10

Compensation factor altitude CP(A)

table 11

Q85

Q130

Q175

Q205

min

max

0

10

0

0

0

0

11

20

0

0

2

3

21

30

0

2

4

6

31

40

1

4

6

10

41

60

2

6

10

n.a.

61

80

3

8

15

n.a.

81

100

4

10

n.a.

n.a.

CF (V)

Boiler type

Eq. length (ft)

min

max

0

1

1,000

2,000

2,000

3,000

3,000

4,000

4,000

5,000

5,000

6,000

6,000

7,000

7,000

8,000

8,000

9,000

9,000

10,000

Altitude (ft)

Boiler type

Q85

, Q130, Q175, Q205

CF (A)

0
6

12
18
24

54

30
36
42
48

NOTICE

i

6.7.7 Calculation of compensation factor

The compensation factor eliminates or reduces the natural effect of derate of maximum
input caused by the resistance of the vent system and/or the impact of the altitude.

1. Determine the Compensation Factor Vent System CF(V) in the table below.

2. Determine the Compensation Factor Altitude CF(A) in the table below.

Any application or installation above 10,000 must be reviewed by Rinnai's

Engineering group. This is to ensure the product is installed and the overall

system is designed properly and that the units are commisioned properly.

Not involving of Rinnai's Engineering group would result in no support of the

product and no warranty.

3. Calculate the Compensation Factor Total CF(T):

CF(T) = CF(V) + CF(A)

The result is the setting for Parameter 73.

Change parameter 73 according to this result. See Chapter 11.1 how to change
parameters.

Example of calculation:

Q175

Eq. lenth vent system (taken from previous example)

46 ft

CF(V) = 10

Altitude

7,200ft

CF(A) = 42 +

CF(T) = 52

Parameter setting (Par. 73) = 52

Do not overcompensate the boiler by setting a higher value than calculated,

otherwise the boiler could be seriously damaged.