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Daikin REYQ32M7W1B [20/32] Capacity correction ratio
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2
• Systems • Selection procedure
19
• Selection procedure
2 Capacity correction ratio
2-15 REYQ48M7W1B
• Rate of change in cooling capacity • Rate of change in heating capacity
3D042147
NOTES
1 These figures illustrate the rate of change in capacity of a standard indoor unit system at maximum load (with the thermostat set to maximum)
under standard conditions.
Moreover, under partial load conditions there is only a minor deviation from the rate of change in capacity shown in the above figures.
2 With this outdoor unit, evaporating pressure constant control when cooling, and condensing pressure constant control when heating is carried out.
3 Method of calculating cooling / heating capacity (max. capacity for combination with standard indoor unit)
cooling / heating capacity
= cooling / heating capacity obtained from performance characteristics table x each capacity rate of change
When piping length differs depending on the indoor unit, maximum capacity of each unit during simultaneous operation is:
cooling / heating capacity = cooling / heating capacity of each unit x capacity rate of change for each piping length
4 When overall equivalent pipe length is 90m or more, the diameter of the main gas and liquid pipes (outdoor unit-branch sections) must be increased
except for the gas pipe of RX(Y)Q46M7W1B.
5 When the main sections of the interunit gas pipe diameters are increased the overall equivalent length should be calculated as follows. (Heating only)
Overall equivalent length = Equivalent length to main pipe x 0.5 + Equivalent length after branching
Example
In the above case (Heating)
Overall equivalent length = 80m x 0.5 + 40m = 80m
The correction factor in capacity when H
p
= 0m is thus approximately 0.97
6 In the combination which does not include cooling only indoor unit, calculate the equivalent length pipe by the following when you calculate cooling
capacity.
Overall equivalent length = Equivalent length to main pipe x 0.5 + Equivalent length after branching
Example
In the above case (Cooling)
Overall equivalent length = 80m x 0.5 + 40m = 80m
The correction factor in capacity when H
p
= 0m is thus approximately 0.87
EXPLANATION OF SYMBOLS
H
p
: Level difference (m) between indoor and outdoor units with indoor unit in inferior position
H
M
: Level difference (m) between indoor and outdoor units with indoor unit in superior position
L: Equivalent pipe length (m)
α : Capacity correction factor
Diameter of above case
Model liquid
REYQ48MY1B ø 22.2
Diameter of gas pipes
Model liquid
REYQ48MY1B ø 19.1
80 m 40 m
Outdoor unit
Indoor unit
Equivalent length Equivalent length
Size increase
Branch
80 m 40 m
Equivalent length Equivalent length
Outdoor unit
Indoor unit
Size increase
Branch
BS unit
Содержание
- Capacity correction ratio 2
- Integrated heating capacity coefficient 0 2
- Refnet pipe selection 2
- Refnet pipe system 2
- Selection procedure 3 2
- Selection procedure vrvii system based on cooling load 2
- 1 indoor unit selection 3
- 2 outdoor unit selection 3
- Selection procedure 3
- Selection procedure vrvii system based on cooling load 3
- Systems selection procedure 2 3
- 3 actual performance data 4
- 4 selection example based on cooling load 4
- Selection procedure 4
- Selection procedure vrvii system based on cooling load 4
- Systems selection procedure 3 4
- 4 selection example based on cooling load 5
- Selection procedure 5
- Selection procedure vrvii system based on cooling load 5
- Systems selection procedure 4 5
- 1 rx y q5m7w1b 6
- Capacity correction ratio 6
- Selection procedure 6
- Systems selection procedure 5 6
- 2 rx y q8m7w1b rxyq22m7w1b 7
- Capacity correction ratio 7
- Selection procedure 7
- Systems selection procedure 6 7
- 3 rx y q10m7w1b 8
- Capacity correction ratio 8
- Selection procedure 8
- Systems selection procedure 7 8
- 4 rxyq12 14 24 36m7w1b 9
- Capacity correction ratio 9
- Selection procedure 9
- Systems selection procedure 8 9
- 5 rxyq16m7w1b 10
- Capacity correction ratio 10
- Selection procedure 10
- Systems selection procedure 9 10
- 6 rxyq18 26 28 30 38 40 42 44m7w1b 11
- Capacity correction ratio 11
- Selection procedure 11
- Systems selection procedure 10 11
- 7 rxyq20 32 34 46m7w1b 12
- Capacity correction ratio 12
- Selection procedure 12
- Systems selection procedure 11 12
- 8 rxyq48m7w1b 13
- Capacity correction ratio 13
- Selection procedure 13
- Systems selection procedure 12 13
- 9 reyq8 22m7w1b 14
- Capacity correction ratio 14
- Selection procedure 14
- Systems selection procedure 13 14
- 10 reyq10m7w1b 15
- Capacity correction ratio 15
- Selection procedure 15
- Systems selection procedure 14 15
- 11 reyq12 14 24 36m7w1b 16
- Capacity correction ratio 16
- Selection procedure 16
- Systems selection procedure 15 16
- 12 reyq16m7w1b 17
- Capacity correction ratio 17
- Selection procedure 17
- Systems selection procedure 16 17
- 13 reyq18 26 28 30 38 40 42 44m7w1b 18
- Capacity correction ratio 18
- Selection procedure 18
- Systems selection procedure 17 18
- 14 reyq20 32 34 46m7w1b 19
- Capacity correction ratio 19
- Selection procedure 19
- Systems selection procedure 18 19
- 15 reyq48m7w1b 20
- Capacity correction ratio 20
- Selection procedure 20
- Systems selection procedure 19 20
- Integrated heating capacity coefficient 21
- Selection procedure 21
- Systems selection procedure 20 21
- 1 1 vrvii heat pump 22
- 1 refnet joints 22
- Refnet pipe system 22
- Selection procedure 22
- Systems selection procedure 21 22
- 1 2 vrvii heat recovery 23
- 1 refnet joints 23
- Refnet pipe system 23
- Selection procedure 23
- Systems selection procedure 22 23
- 2 1 vrvii heat pump 24
- 2 2 vrvii heat recovery 24
- 2 refnet headers 24
- Refnet pipe system 24
- Selection procedure 24
- Systems selection procedure 23 24
- 3 reducers expanders 25
- 4 closed pipes 25
- Refnet pipe system 25
- Selection procedure 25
- Systems selection procedure 24 25
- 5 1 vrvii heat pump 26
- 5 outdoor unit multi piping connection kit 26
- Refnet pipe system 26
- Selection procedure 26
- Systems selection procedure 25 26
- 5 2 vrvii heat recovery 27
- 5 outdoor unit multi piping connection kit 27
- Id ø12 0 27
- Id ø9 2 27
- Od ø15 0 27
- Refnet pipe system 27
- Selection procedure 27
- Systems selection procedure 26 27
- 6 example of refnet piping layouts 28
- Refnet pipe system 28
- Selection procedure 28
- Systems selection procedure 27 28
- 1 rx y q5 10m7w1b rxyq12 48m7w1b 29
- Refnet pipe selection 29
- Selection procedure 29
- Systems selection procedure 28 29
- 2 reyq8 48 30
- Refnet pipe selection 30
- Selection procedure 30
- Systems selection procedure 29 30
- 3 piping thickness 31
- Selection procedure 31
- Systems selection procedure 30 31
- Eede04 2 2 04 2004 prepared in belgium by vanmelle 32
- Specifications are subject to change without prior notice 32
- Systems 32
- Zandvoordestraat 300 b 8400 ostend belgium internet http www daikineurope com 32
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