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Ultimate Yong Heng cooling mods
เข้าร่วมเมื่อ 10 มี.ค. 2024
Young Heng compressor head drilling
Short video discussing the modification of drilling the head of a Yong Heng air compressor to improve water cooling
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Yong Heng cooling system final test
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This video gives an overview of the modifications I did to this Yong Heng air compressor and tests its ability to fill a 6.8L carbon tank from 0 psi to 4500 psi without stopping, and without a 5 gallon bucket of water.
Yong Heng water pump upgrade comparison
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In this video, I show that upgrading the factory water pump to a higher performance water pump will significantly increase the runtime before thermal shutdown of the Yong Heng compressor.
Yong Heng compressor cooling mod head drilling update
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Increasing the fitting size for the water jacket and drilling additional holes for an additional water jacket in an attempt to improve the cooling system of a Yong Heng air compressor
Yong Heng coolant pump test
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Video showing basic cooling setup with pump, radiators, fan, and power supply
Yong Heng cooling system mod test
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Video showing the first test of the cooling system modification to this Yong Heng air compressor
Have you tried putting some ice in the water? Heck, you could freeze a one gallon jug of water and dump that in your 5 gallon bucket.
Hi, i own the same stuff, but your air smell good? Mine smell very Bad, something in the air can describe, i don't use it and search info about that
gonfler une bouteille composite chinoise avec un compresseur chinois ben moi je dit qu'il faut avoir des couilles !
Hi… Can you tell me what adaptators you use between the pump and the tank please? Thank you!
These are the fittings: www.aliexpress.us/item/3256804109485706.html?spm=a2g0o.order_list.order_list_main.249.2d641802MR4XoH&gatewayAdapt=glo2usa
@@YongHengmods Thank you very much!
With that pump running at 1000l/h and a heat spread of 30°C you could move 125kW of heat. Obviously that machine is more than 2 orders of magnitude away from that figure. So... this mod is nice, but probably is not much helpful. The wall of radiators is what keeps you running here.
You could have a major impact, if you add an interstage cooler. What are the RPMs in the US with 60Hz grid? I think is an induction motor tied to grid frequency. As these machines are constantly on the edge of thermal self destruction, the reduction to 50Hz in Europe (or using a VFD) might help reduce the thermal load and thus the longevity quite a bit.
Filtered tap water from a hose , repurpose the water coming out , tap water is always fairly cool
You should try a water pump/chiller for C02 laser cutters. Looks like it would be a plug and play upgrade for you.
Mine doesn´t exceed 36 degrees Celsius, i let it run with direct water flow
I got a busted chiller off ebay and added peltier chiller blocks an a power supply an it works amazing
Can you show us the label on the upgraded pump?
If you increase the flow it might flow to fast for the heat to transfer into the coolant. I am not an engineer but I think the water has to sit next to the area to be cooled for a little while to transfer the heat. I could be totally wrong but I don't think it transfers instantaneously. You could be right to increase the flow rate but it might be easier to just get a stronger pump to move more water, Just a thought.
Increasing the flow rate does improve the cooling for this compressor. I showed this in this video: th-cam.com/video/SSW9YynjOcY/w-d-xo.html There is obviously a point of diminishing returns though; I'm confident if I did another test with another water pump 4 times the size of the upgraded pump I used in the test, there would only be a pretty small improvement.
@@YongHengmods I did see that one, and I didn't really know. I just know that on some things increasing the flow doesn't always work. Thank you for posting this I will get the better pump now because I saw this, thanks again.
That is not what happens. Faster flow does not cool less. It also does not necessarily cool significantly more. In the PC watercooling scene this has been shown very impressively. Water has such high heat capacity that even for high powered systems you don't need much flow. The various heat transfer surfaces quickly become the limiting factor rather than the transport capacity of the water.
I modified an old countertop icecube maker into a chiller an it works great!
I swapped out those brass fittings with push connect macro fitting. Also put a solid state relay and built a chiller out of an old countertop ice cube maker.
It's good to cool the last stage line to lower the dew point of the compressed air, but filling an empty bottle without a pmv will cause your water separator(s) to not work since it needs a minimum pressure of 2000 psi. Because this will also immediately saturate your dry filter, you will be pumping all that moisture into your bottle up to 2000 psi. To fill an empty bottle a pmv is a must, for refilling from 2000 psi the check valve is sufficient.
I wonder what would happen if I got a water pump for it bigger than this one
I think you may see a slight improvement, if any. As with most things, diminishing returns will be an issue.