GMV DC Inverter VRF
38
Diameter of liquid
pipe
Φ
28.6
Φ
25.4
Φ
22.2
Φ
19.05
Φ
15.9
Φ
12.7
Φ
9.52
Φ
6.35
(2) Σ Refrigerant charging amount B of every module
Refrigerant charging amount B of every
②
Module capacity(kW)
IDU/ODU rated capacity
①
Quantity of
22.4 28 33.5 40 45 50.4 56 61.5
50%≤C≤70%
<
4
0 0 0 0 0 0 0 0
≥
4
0.5 1 1 1 1 0.5 1 1.5
70%
<
C≤90%
<
4
0.5 1 1 2 2 1.5 2 2
≥
4
1 1 1 2 2 2.5 3 3.5
90%
<
C
≤
105%
<
4
1 1 1 2 2 2.5 3 3.5
≥
4
2 2 2 4 4 4 5 5
105%
<
C
≤
135%
<
4
2 2 2 3 3 3.5 4 4
≥
4
3.5 4 4 5 5 5.5 6 6
NOTES!
① Rated capacity configuration rate of indoor unit and outdoor unit C = sum of indoor unit rated
cooling capacity / sum of outdoor unit rated cooling capacity.
② If all indoor units are all fresh air indoor units, the added refrigerant amount for each module B
is 0kg.
③ If all fresh air indoor units are mixed with the general VRF indoor units, charge the refrigerant
according to the refrigerant-charging method of the general indoor unit.
For example1:
Outdoor unit consists of one 28kW module and one 45kW module. Five 14kW duct type units are
used as indoor units.
IDU/ODU rated capacity collocation ratio C= 14.0×5/ (28.0+45.0) =96%. The quantity of included
IDUs is more than 4 sets. Please refer to the above table.
Additional refrigerant quantity B for 28kW module is 2.0 kg.
Additional refrigerant quantity B for 45kw module is 4 kg.
So, ∑Refrigerant charging amount B of every module=2.0+4=6 kg.
Suppose the Pipeline charging amount A=∑Liquid pipe length × refrigerant charging amount of
every 1m liquid pipe=20kg.
Total refrigerant charging amount R=20+6=26kg.
For example 2:
Outdoor unit is a 45kW module and the indoor unit is a 45kW fresh air unit. The quantity (B) of
refrigerant added to this module is 0kg.
So, ∑Refrigerant charging amount B of every module= 0kg.
Suppose the Pipeline charging amount A=∑Liquid pipe length × refrigerant charging amount of
every 1m liquid pipe = 5kg.
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