Mitsubishi Electric PURY-RP200YJM-A [13/31] Additional refrigerant charge

Do not use the tools shown below used with conventional refrigerant.

(Gauge manifold, charge hose, gas leak detector, check valve,

refrigerant charge base, vacuum gauge, refrigerant recovery

equipment)

- Mixing of conventional refrigerant and refrigerant oil may cause the

refrigerant oil to deteriorate.

- Mixing of water will cause the refrigerant oil to deteriorate.

- R410A refrigerant does not contain any chlorine. Therefore, gas leak

detectors for conventional refrigerants will not react to it.

Manage the tools used for R410A more carefully than normal.

- If dust, dirt, or water gets in the refrigerant cycle, the refrigerant oil will

deteriorate.

Store the piping to be used during installation indoors and keep both

ends of the piping sealed until just before brazing.

- If dust, dirt, or water gets into the refrigerant cycle, the oil will deteriorate

and the compressor may fail.

Do not use a charging cylinder.

- Using a charging cylinder may cause the refrigerant to deteriorate.

Do not use special detergents for washing piping.

•

10. Additional refrigerant charge

At the time of shipping, the outdoor unit is charged with refrigerant.

This charge does not include the amount needed for extended piping and

additional charging of each refrigerant line will be required on site. In order that

future servicing may be properly provided, always keep a record of the size and

length of each refrigerant line and the amount of additional charge by writing it in

the space provided on the outdoor unit.

10.1. Calculation of additional refrigerant

charge

Calculate the amount of additional charge based on the length of the piping

extension and the size of the refrigerant line.

Use the table below as a guide for calculating the amount of additional

charging and then charge the system accordingly.

If the calculation results in a fraction of less than 0.1 kg, round up to the next

0.1 kg. For example, if the result of the calculation was 27.73 kg, round the

result up to 27.8 kg.

•

Additional refrigerant

charge

High-pressure

pipe size

Total length of ø19.05

×0.16

High-pressure

pipe size

Total length of ø15.88

×0.11

(kg) (m)×0.16(kg/m) (m)×0.11(kg/m)

Liquid Piping Size

Total length of ø12.7

×0.12

Liquid Piping Size

Total length of ø9.52

×0.06

Liquid Piping Size

Total length of ø6.35

×0.024

(m)×0.12(kg/m) (m)×0.06(kg/m) (m)×0.024(kg/m)

Indoor 1: 100 A: ø19.05 40 m

2: 50 a: ø9.52 10 m

3: 40 b: ø9.52 5 m

4: 32 c: ø6.35 5 m

d: ø6.35 3 m

The total length of each liquid line is as follows:

ø19.05: A = 40 m

ø9.52: a + b = 15 m

ø6.35: c + d = 8 m

Therefore,

Additional refrigerant charge

= 40 × 0.16 + 15 × 0.06 + 8 × 0.024 + 2 + 3

= 12.5 kg

9.2. Refrigerant piping system

Connection example

[Fig. 9.2.1] (P.3, 4)

Outdoor model High-pressure side

Low-pressure side Total capacity of indoor units

Liquid pipe Gas pipe

Model number

Outdoor unit

BC controller (standard)

BC controller (main)

BC controller (sub)

Indoor unit (15 ~ 80)

Indoor unit (100 ~ 250)

*1 ø25.4 for R22

BC controller

(Sub) Total Units

BC controller

(Sub) Per Unit

Total Capacity of

Connected Indoor Units

Per Indoor

Unit

~80

2.0kg

1 1.0 kg

81~160 2.5kg

161~330 3.0kg

2 2.0 kg

331~390 3.5kg

391~ 4.5kg

Total Outdoor Unit

Model Name

BC controller

(Standard/Main)

Per Unit

RP200 2.0kg

RP250

3.0kg

RP300

Mitsubishi Electric PURY-RP200YJM-A [13/31] Additional refrigerant charge

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