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Line insulation, Leak testing, Evacuation and leak detection – Heatcraft Refrigeration Products H-IM-FL1A User Manual

Page 11: Evacuation

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11

Line Insulation

After the final leak test, refrigerant lines exposed to high

ambient conditions should be insulated to reduce heat pickup

and prevent the formation of flash gas in the liquid lines.

Suction lines should be insulated with 3/4" wall Armstrong

“Armaflex” or equal. Liquid lines should be insulated with 1/2

inch wall insulation or better. The insulation located in outdoor

environments should be protected from UV exposure to prevent

deterioration of insulating value.

Leak Testing

After all lines are connected, the entire system must be

leak tested. The complete system should be pressurized

to not more than 150 psig with refrigerant and dry nitrogen (or

dry CO

2

). The use of an electronic type leak detector is highly

recommended because of its greater sensitivity to small leaks.

As a further check it is recommended that this pressure be

held for a minimum of 12 hours and then rechecked. For a

satisfactory installation, the system must be leak tight.

Evacuation and Leak Detection

Due to the smaller molecule size of HFCʼs, they will tend to

leak more readily than CFCʼs. Consequently, it is of the utmost

importance that proper system evacuation and leak detection

procedures be employed.

Copeland recommends a minimum evacuation to 500 microns.

In addition, a vacuum decay test is strongly recommended to

assure there is not a large pressure differential between the

system and vacuum pump. Good evacuation processes include

frequent vacuum pump oil changes and large diameter, short

hose connections to both high and low sides of the system

preferably using bronze braided hose.

Leak detection can be carried out in the conventional manner.

If HCFC or CFC tracer gas is used, care must be taken to

completely remove all traces of the gas prior to introducing

HFCʼs.

Electronic leak detectors are now available that will sense

HFCʼs. This is considered preferable since it removes the

possibility of chlorine remaining in the system after leak testing

with HCFCʼs and/or CFCʼs. There is a view that even small

quantities of chlorine may act as a catalyst encouraging copper

plating and/or corrosion and should therefore be avoided.

WARNING: HFC-134a has been shown to be combus-

tible at pressure as low as 5.5 psig (at

350˚F) when mixed with air at concen

trations more than 60% air by volume. At

lower temperature, higher pressures are

required to support combustion. Therefore,

air should never be mixed with HFC-134a

for leak detection.

Within the last several years, manufacturers have developed

fluorescent dye leak detection systems for use with refrigerants.

These dyes mix with the lubricant and, when exposed to an

ultraviolet light “fluoresce,” indicates the location of leaks.

Copeland has tested and approved the Rigid “System Safe” dye

and found it to be compatible with the compressor materials in

systems.

Evacuation

CAUTION: Do not use the refrigeration compressor

to evacuate the system. Do not start the

compressor while it is in a vacuum.

A good, deep vacuum pump should be connected to both the

low and high side evacuation valves with copper tube or high

vacuum hoses (1/4" ID minimum). If the compressor has service

valves, they should remain closed. A deep vacuum gauge

capable of registering pressure in microns should be attached to

the system for pressure readings.

A shut off valve between the gauge connection and vacuum

pump should be provided to allow the system pressure to be

checked after evacuation. Do not turn off vacuum pump when

connected to an evacuated system before closing shut off valve.

The vacuum pump should be operated until a pressure of 1,500

microns absolute pressure is reached — at which time the

vacuum should be broken with the refrigerant to be used in the

system through a drier until the system pressure rises above

“0” psig.

NOTE: Refrigerant used during evacuation cannot

be vented. Reclaim all used refrigerant.

EPA regulations are constantly being

updated to ensure your procedure follows

correct regulations.

Repeat this operation a second time.

Open the compressor service valves and evacuate the entire

system to 500 microns absolute pressure. Raise the pressure to

2 psig with the refrigerant and remove the vacuum pump.