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Daikin RXYQ38MY1B [31/42] Selection procedure
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• Introduction
1
7
• Systems • Introduction
30
7 Selection procedure
7-2 Capacity correction ratio
7-2-2 RXYQ8,22MY1B
•Rate of change in cooling capacity • Rate of change in heating capacity
3D040059
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.
2With this outdoor unit, evaporating pressure constant control when cooling, and condensing pressure constant control when heating is carried out.
3Method 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
4When overall equivalent pipe length is 90m or more, the diameter of the main gas and liquid pipes (outdoor unit-branch sections) must be increased.
5When the main sections of the interunit pipe diameters are increased the overall equivalent length should be calculated as follows.
Overall equivalent length
= Equivalent length to main pipe x 0.5 + Equivalent length after branching
When the gas pipe diameter is increased: correct cooling capacity.
When the liquid pipe diameter is increased: correct heating capacity.
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 0.86
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 gas liquid
RXYQ8MY1B ø 22.2 ø 12.7
RXYQ22MY1B ø 31.8 ø 19.1
Diameter of gas pipes
Model gas liquid
RXYQ8MY1B ø 19.1 ø 9.5
RXYQ22MY1B ø 28.6 ø 15.9
Equivalent lenght Equivalent lenght
Indoor unit
Outdoor unit
Branch
Size increase
80 m 40 m
Содержание
- I introduction table of contents 2
- Introduction 3
- Possible indoor units using r 410a 3
- Systems introduction 3
- 1 indoor unit capacity index 4
- Possible outdoor units using r 410a 4
- 1 indoor units 5
- Nomenclature 5
- 2 outdoor units 6
- Nomenclature 6
- Introduction 7
- Line up 7
- Systems introduction 7
- Technology 8
- Aero fitting grill aero spiral fan 9
- Dc fan motor 9
- E bridge circuit 9
- Technology 9
- Compact aero box 10
- E pass heat exchanger 10
- I demand function 10
- Technology 10
- 1 creating maximum comfort 11
- Main features 11
- 1 creating maximum comfort 12
- Main features 12
- 1 creating maximum comfort 13
- Main features 13
- 2 energy efficient solution 14
- Main features 14
- 2 energy efficient solution 15
- Main features 15
- 2 energy efficient solution 16
- Main features 16
- 3 high reliability 17
- Main features 17
- 3 high reliability 18
- Main features 18
- 4 eco friendly 19
- Main features 19
- 5 easy and flexible design 20
- Main features 20
- 5 easy and flexible design 21
- Main features 21
- 5 easy and flexible design 22
- Main features 22
- 6 simple and rapid installation 23
- Main features 23
- 6 simple and rapid installation 24
- Main features 24
- Main features 25
- Standard vrv system 25
- System 25
- 6 simple and rapid installation 26
- Main features 26
- 1 selection procedure system based on cooling load 27
- Selection procedure 27
- 1 selection procedure system based on cooling load 28
- Selection procedure 28
- 1 selection procedure system based on cooling load 29
- Selection procedure 29
- 2 capacity correction ratio 30
- Selection procedure 30
- 2 capacity correction ratio 31
- Selection procedure 31
- 2 capacity correction ratio 32
- Selection procedure 32
- 2 capacity correction ratio 33
- Selection procedure 33
- 2 capacity correction ratio 34
- Selection procedure 34
- 2 capacity correction ratio 35
- Selection procedure 35
- 2 capacity correction ratio 36
- Selection procedure 36
- 2 capacity correction ratio 37
- Selection procedure 37
- 3 refnet pipe system 38
- Selection procedure 38
- 3 refnet pipe system 39
- Selection procedure 39
- 4 refnet pipe selection 40
- Selection procedure 40
- Eede03 2 3 05 2003 prepared in belgium by vanmelle 42
- Specifications are subject to change without prior notice 42
- Systems 42
- Zandvoordestraat 300 b 8400 ostend belgium internet http www daikineurope com 42
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