{"id":118121,"date":"2023-09-19T08:49:27","date_gmt":"2023-09-19T08:49:27","guid":{"rendered":"https:\/\/blogcamlodipine.com\/?p=118121"},"modified":"2023-09-19T08:49:27","modified_gmt":"2023-09-19T08:49:27","slug":"car-ac-refrigerant-top-up-at-home-things-needed-stepwise-procedure","status":"publish","type":"post","link":"https:\/\/blogcamlodipine.com\/auto-news\/car-ac-refrigerant-top-up-at-home-things-needed-stepwise-procedure\/","title":{"rendered":"Car AC refrigerant top-up at home: Things needed & stepwise procedure"},"content":{"rendered":"
BHPian vigsom<\/strong> recently shared this with other enthusiasts.<\/p>\n In my close to 40 years in automotive, my favourite area has been technical stuff, and under the technical umbrella, my most favourite subset has been air-conditioning. To substantiate this claim, here is some stuff that I’ve created.<\/p>\n By the time Part III was published, I almost had enough of the shoddy practices of many car AC technicians. Most of us cannot do without ACs (aircons) today; it’s become that addictive and therefore, service providers hold us to ransom.<\/p>\n This subject has been discussed via this marvellous thread by friendly mod @Gannu_1. I’d not repeat what has already been beautifully described by @Gannu_1, but add some details on my initial steps towards atma nirbhar (self reliant) air-conditioning in DIY mode.<\/p>\n <\/p>\n I was out of action for a while due to a bypass graft surgery, and one of the cars seemed to have gone a little low on refrigerant apparently over time and due to little to no usage. I wasn’t sure whom to go to for aircon in a new city. I was wary of landing with the wrong people. However, having operated large hydrocarbon refrigeration systems, and being fully aware of the risks, undertaking refrigerant top up was small fry. I decided to roll up my sleeves and do it myself.<\/p>\n I’d got the car’s aircon all done up in mid-2021. Even with a healthy condenser, healthy evaporator core, healthy hoses \/ piping, the only weak points are the joints (o-rings) and the compressor seal. Standing pressure in the system would go as high as 130psig in a warm engine bay. A car’s aircon (AC) holds anywhere between 450g and 900g and very very small amounts of refrigerant escaping from seals, joints isn’t uncommon, especially on older equipment.<\/p>\n Aircon spares retailers are aplenty but I’m always wary of them for fear of being shooed away for the questions that I ask. However, I found a distributor, whose rating was reasonable, but finding the place in an old building was like traversing a crystal maze. After a few misses, I eventually landed there. The owner was kind enough to help me with various available options.<\/p>\n I wanted the very best in everything because this could turn out to be a good long term investment, but the stuff was overshooting my estimates by a mile. However, almost when I was closing in on getting these, the folks at the place disappeared to their Godown to execute a big order and never returned for almost 1hr 45mins. I’d already lined up a couple of other things to do and this wait irritated me, so I left the place. Met the owner on my way out and told him I had two other jobs to finish so I’d get back later.<\/p>\n Meanwhile, I completed the other two tasks, returned home, did some more due diligence on what I actually needed, and asked around at a couple of retailers. Although the prices weren’t too much off, what made me get back to the distributor was the authenticity of the products, a GST invoice, and the availability of a wide range of refrigerants.<\/p>\n I went back to the distributor in the evening and examined all options again. My choices and the logic therein are as follows:<\/p>\n Items 5,6 are in my view very critical to safety and for quick isolation hence the choices.<\/p>\n Hi side gauge – not purchased now<\/p>\n <\/p>\n Compound gauge – VALUE – not purchased<\/p>\n <\/p>\n Car low and hi side couplers from VALUE – later realised these have a safety interlock by design viz. the quick couplers won’t disengage until the knobs are turned anticlockwise to disengage from the car AC port<\/p>\n <\/p>\n Refrigerant – Chemours<\/p>\n <\/p>\n Refrigerant can valve<\/p>\n <\/p>\n Hoses 150cm from VALUE and Compound gauge Arham with sight glass and hook<\/p>\n <\/p>\n The can valve must be kept open when fixing on the can. The valve must be closed only after one has connected the valve to the can, and to the hose and is ready to charge refrigerant<\/p>\n Refrigerant can – valve open (note the long stem length)<\/p>\n <\/p>\n Piercing nozzle position when valve is open<\/p>\n <\/p>\n Refrigerant can – valve closed (note the shorter stem length now)<\/p>\n <\/p>\n Piercing nozzle position when valve is closed<\/p>\n <\/p>\n How the valve is fixed onto the can – threads inside to fix the valve to the can and then a locking nut on the outside to lock the valve in position<\/p>\n <\/p>\n One hose connected to the gauge on one side and car coupler on the other side – car coupler hooked to the low side port<\/p>\n <\/p>\n Standing pressure in a warm engine bay – With the blue valve under the gauge closed, the pressure inside the hose will be sensed by the gauge. When the car coupler knob is rotated clockwise, the schrader valve pin is pressed allowing the low side standing pressure to be seen on the gauge<\/p>\n <\/p>\n Switch on the AC compressor and the gauge reading would drop to indicate the system low side pressure – this pressure can be a little lower or higher based on ambient temperature<\/p>\n <\/p>\n Continue reading vigsom’s DIY experience for BHPian comments, insights and more information.<\/p>\nIntroduction<\/h2>\n
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Why this thread?<\/h2>\n
The driver towards atma nirbharta (self reliance)<\/h2>\n
Why would the car aircon go low on refrigerant?<\/h2>\n
Actions taken to move towards self reliance<\/h2>\n
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Findings during shopping<\/h2>\n
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Finalising the purchase<\/h2>\n
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Items not purchased<\/h2>\n
Items purchased<\/h2>\n
Understanding the components<\/h2>\n