I've seen some pics about R12 to R134a conversions. Is the amount used based on current ambient temp and humidity? I've also read where the OEM hoses are not up to par for use with R134a and can leak it. Also, that HF pump I posted, will I need to do both hi and low sides or just the low side for evacuation? Which side do I use for refilling?
Couple of notes:
No component changes are required to switch over from R12 to 134a. All the currently installed parts can remain and will work just fine with a 134a charge. You might want to change to replace the Accumulator (filter drier) and the expansion tube. The accumulator/filter-drier is that big silver canister attached to the evaporator housing. The expansion tube is accessible by opening the fitting that connects the liquid line to the evaporator inlet.
You will have to dump any remaining R12 before anything else is done.
You can legally release it to atmosphere, but certified shops cannot.
They have special re-re (refrigerant recovery) equipment that captures the R12. When they have a full bottle it gets sold to a facility that purifies and repackages it for re-sale. The production of new R-12 was banned worldwide years ago, so the only source is what can be reclaimed.
Anyway, if a shop does this conversion, that recovery process will trigger an extra charge. If you do it yourself it is free.
Whatever way you do it, after the refrigerant gets dumped, the system will need to be flushed, evacuated and recharged with 134a.
Flushing is required because the oil used with R-12 is non-compatible with the oil used with 134a. There is a specific, involved, expensive way to do this - or there is the easy way. Provided your system is not being changed over due to a "black death" casualty you can do it with all the components in place and using just compressed air.
Black death is just a term used to describe a refrigeration system that has been disabled due to a catastrophic failure of the compressor. All the components and connecting tubing/hoses are contaminated with burnt (caked on) oil and all the metal particles that resulted from the compressor failure.
Release all the tubing fittings that connect the 3 main components (compressor, condenser & evaporator). Remove the suction/discharge hose manifold from the back of the compressor. Release the discharge hose from the condenser inlet and the suction hose from the accumulator (filter/drier) outlet. Pull the existing expansion tube from the tubing that leads into the evap. Remove the accumulator/filter-drier.
Using 100 psi compressed air at a good volume:
Blow the residual oil from the condenser and evaporator coils. Do this in in both directions. Repeat until you feel that the bulk of the old oil is removed.
Blow out the liquid line that connects the condenser to the evaporator.
Blow out both compressor hoses.
Understand that the old R-12 oil is not like "poison" to the newly added 134a - it just does not circulate as well. So if there is a bit that remains in the system it will not be an issue.
That's it for flushing.
Using new o-rings at the fittings, replace your filter drier and expansion tubing.
Add PAG 100 oil in quantities as below and close the system up.
•Compressor- (1 ounce)
•Evaporator - (3 ounces)
•Condenser - (1 ounce)
•Accumulator (2 ounces)
Evacuate, leak check (system should hold 28" Hg overnight) and charge with about 50 ounces (4 cans) of 134a. You will have to jump your low pressure cut-out switch to get the first 2 cans in. After that the system will have enough pressure to allow the low pressure switch to operate normally and keep the compressor running.
You will need to buy a set of adapters for the service ports so you can charge and attach your gauges - if you have them. The adapters just screw onto the existing service ports.
Here is how the refrigerant charge for 134a is determined:
When an R-12 system is retrofitted to 134a, the general rule of thumb is that the refrigerant capacity/charge should be reduced to 80-90 % of the original capacity.
The original GM spec for these trucks was 56 ounces of R-12. So, if we take 56 ounces of R-12 and multiply it by .85, we get a 134a charge of 48 ounces.
From GM:
R 134A Retrofit Procedures
UPDATED BY TSB # 331226 DATED JANUARY, 1994
Retrofitting an R-12 vehicle to R-134a requires careful preparation to insure that neither the vehicle nor the A/C service equipment has become contaminated.
When performed properly, the retrofit from R-12 to R-134a will have minimal effect on the system's performance in most climatic conditions found in the United States and Canada.
COMPRESSORS DO NOT NEED TO BE REPLACED AS PART OF THE NORMAL RETROFIT. An R-12 compressor that is operating properly can be left in the vehicle when it is retrofitted to R-134a.